US20100229502A1 - Strip pack device - Google Patents
Strip pack device Download PDFInfo
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- US20100229502A1 US20100229502A1 US12/682,210 US68221008A US2010229502A1 US 20100229502 A1 US20100229502 A1 US 20100229502A1 US 68221008 A US68221008 A US 68221008A US 2010229502 A1 US2010229502 A1 US 2010229502A1
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- Prior art keywords
- article
- strip
- bags
- move
- pack device
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B15/00—Attaching articles to cards, sheets, strings, webs, or other carriers
- B65B15/04—Attaching a series of articles, e.g. small electrical components, to a continuous web
Definitions
- the present invention relates to a strip pack device for manufacturing a product known as a strip pack, wherein a plurality of articles are attached to a strip and displayed while hanging therefrom, and the present invention pertains to the technological field of article packaging machinery.
- strip packs wherein a plurality of articles filled with snack food or the like are aligned on and attached to a strip, that are hung when displayed.
- the advantage of a strip pack is that less space is needed for the display, and the displays in aisles or other areas of a store, for example, are more likely to be noticed by consumers, which promotes sales.
- strip pack device for manufacturing such strip packs is the device disclosed in Japanese Laid-open Patent Application No. 2004-182302.
- This device is installed directly below a vertical form-fill-seal device and is configured so that both sides at the tops of articles manufactured by the device are grasped by a pair of left and right grasping arms, the articles are moved downward to an attaching position, and the top ends of the articles are then attached to a strip.
- 3,864,895 is also installed directly below a vertical form-fill-seal device, and is configured so that the tops of the articles manufactured by the device are suctioned on one side by a suction cup, the articles are moved forward to an attaching position, and the top ends of the articles are then attached to a strip.
- strip pack devices disclosed in the aforementioned publications are directly connected to vertical form-fill-seal devices located directly thereabove, only articles manufactured by the devices can be attached to the strip. Quality testing of weight, seal quality, and the like cannot be performed before the articles manufactured by the devices are attached to the strip.
- a demand has existed for there to be proposed a highly versatile strip pack device having a configuration independent of upstream devices and downstream devices.
- the essential configuration thereof would include conveying part for conveying articles in a substantially horizontal direction, and moving part for holding articles received from the conveying part and moving the articles to an attaching position.
- effective means for smoothing out wrinkles or creases is a structure wherein the ends facing ahead in the direction in which incoming articles are conveyed are drawn in, and stretched out from the top and bottom sides, the structure being located ahead of the articles in the conveying direction.
- the drawing-in part if the drawing-in part is placed ahead of the conveying part in the conveying direction, the drawing-in part will, upon having drawn in the ends of the articles, interfere with the route by which the movement part causes the articles to move downward, for example, the route being ahead of the articles in the conveying direction. This will lead to a problem that the articles can no longer be moved to the attaching position.
- an object of the present invention is to provide a highly versatile strip pack device having a structure independent of upstream devices and downstream devices, wherein drawing-in part is provided for drawing the forward ends of articles conveyed by conveying part into a predetermined position, and the articles are moved smoothly from the drawn-in position to an attaching position.
- a strip pack device is adapted to manufacture a strip pack product having an article attached to a strip.
- the strip pack device includes a conveying part, a drawing-in part, a moving part, and an attachment part.
- the conveying part conveys the article in a substantially horizontal direction.
- the drawing-in part draws a front end of the article conveyed, by the conveying part to a predetermined position, the front end being located frontward in the conveying direction.
- the moving part receives the article at the predetermined position in the drawing-in part, moves the article from the predetermined position in a generally opposite direction of a draw-in direction of the drawing-in part, and moves the article to an attaching position.
- the attachment part attaches the end of the article to a strip after the article has been moved to the attaching position by the moving part.
- the moving part preferably has a grasping section, and the moving part preferably includes a pivoting link member.
- the grasping section is provided at a distal end, and grasps the front end of the article at the predetermined position.
- the grasping part when beginning to move from the predetermined position, moves in the generally opposite direction of the draw-in direction, and moves to the attaching position along an arcuate path.
- the strip pack device preferably includes an opposite-direction-moving part.
- the opposite-direction-moving part moves the grasping means in the direction generally opposite the draw-in direction when the grasping section begins to move away from the predetermined position.
- the moving part is preferably configured so that the front end of the article grasped by the grasping section assumes a predetermined orientation in the attaching position.
- the moving part preferably has a parallel link mechanism, and the grasping section is preferably provided at a distal end of the parallel link mechanism.
- the moving part may be configured from a pivoting link member, a first toothed member, a second toothed member, and a winding drive member.
- the first toothed member is provided at a pivoting fulcrum of the pivoting link member so as to be incapable of rotating regardless of pivoting of the pivoting link member.
- the second toothed member is rotatably provided at a distal end of the pivoting link member.
- the winding drive member is wound between the first toothed member and the second toothed member. In this case, the grasping section is fixedly coupled to the second toothed member.
- a highly versatile strip pack device having a configuration independent of upstream devices and downstream devices. Since the moving part moves the articles from a predetermined position in the generally opposite direction of the draw-in direction to an attaching position, the articles can be moved smoothly from the predetermined position to the attaching position.
- the configuration and control of the device are simplified in cases in which the moving part has a grasping section provided at the distal ends, the grasping section moves in the generally opposite direction of the draw-in direction when beginning to move away from the predetermined position, and the grasping section moves through an arcuate path to the attaching position.
- the strip pack device comprises an opposite-direction-moving part for moving the grasping section in the generally opposite direction of the draw-in direction when the grasping section begins to move away from the predetermined position
- the ends of the articles drawn in by the drawing-in part move reliably in the direction in which they are pulled out. Consequently, interference between the drawing-in part and the articles moved by the moving part is even more reliably avoided, and the articles are moved even more smoothly from the drawn-in position to the attaching position.
- the moving part is configured so that the ends in the front in the conveying direction of the articles grasped by the grasping section have a predetermined orientation in the attaching position, the ends constantly have an orientation appropriate for the attachment part.
- the grasping section is consistently maintained in the same orientation throughout its entire movement from the predetermined position to the attaching position. Consequently, the ends of the articles grasped by the grasping section are moved to the attaching position while retaining the same orientation from when the ends are received in the predetermined position by the moving part.
- the grasping section is consistently maintained in the same orientation throughout its entire movement from the predetermined position to the attaching position. Consequently, the ends of the articles grasped by the grasping section are moved to the attaching position while retaining the same orientation from when the ends are received in the predetermined position by the moving part in this case as well.
- FIG. 1 is a side view of the strip pack device according to the first embodiment of the present invention.
- FIG. 2A is a plan view of a bag supplied to the strip pack device.
- FIG. 2B is a plan view of a strip pack manufactured by the strip pack device.
- FIG. 3 is a side view for describing the configuration of the brush unit.
- FIG. 4 is a side view of the grasping units.
- FIG. 5 is a plan view of the grasping units.
- FIG. 6 is a side view of the attachment unit.
- FIG. 7 is a partial side view showing the action when a bag is grasped by the grasping units and the bag begins to move.
- FIG. 8 is a partial side view for describing the configuration of the grasping units in the strip pack device according to the second embodiment of the present invention.
- FIG. 9 is a partial side view showing the action when the grasping units grasp and begin to move a bag.
- FIG. 10 is a side view for describing the configuration of the grasping units in the strip pack device according to the third embodiment of the present invention.
- FIG. 11 is a partial cross-sectional view showing a selection of a part for describing the configuration of the grasping units.
- FIG. 12 is a plan view for describing the configuration of the grasping units.
- a strip pack device 1 comprises a main unit 2 , a supply conveyor 3 , an induction conveyor 4 , a drop conveyor 5 , a discharge conveyor 6 (an example of the conveying part), a brush unit 7 (an example of the drawing-in part), grasping units 8 (an example of the moving part), an attachment unit 9 (an example of the attachment part), a tape feed unit 10 , a falloff prevention member 12 , a cradle 13 , and other components, as shown in FIG. 1 .
- Bags X filled with, e.g., snack foods or the like are supplied as handled articles to the supply conveyor 3 from an upstream device.
- the induction conveyor 4 guides bags X supplied in the direction of the arrow a by the supply conveyor 3 into the main device 1 , as shown by the arrow b.
- the drop conveyor 5 constitutes the terminal end of the induction conveyor 4 .
- the discharge conveyor 6 discharges a strip pack SP made of a plurality of bags X . . . X attached to a tape to a downstream device as shown by the arrow c.
- the brush unit 7 is disposed farther forward in the conveying direction b than the terminal end of the drop conveyor 5 , and the brush unit 7 draws in the ends of the bags X guided in by the drop conveyor 5 and smoothes out wrinkles or creases in the ends.
- the grasping units 8 are disposed farther forward in the conveying direction b than the terminal end of the drop conveyor 5 , and the grasping units 8 grasp the ends of the bags X received from the drop conveyor 5 and move the ends from a drawn-in position P 1 (predetermined position) to an attaching position P 2 .
- the attaching position P 2 is positioned below and farther forward in the conveying direction b than the terminal end of the drop conveyor 5 .
- the attachment unit 9 attaches the ends of the bags X to the tape, the bags X having been grasped and moved to the attaching position P 2 by the grasping units 8 .
- the tape feed unit 10 feeds the tape synchronously with the manufacturing of the strip pack SP.
- a roll 11 of the tape is set up at the top of the main unit 2 .
- the falloff prevention member 12 is placed at the starting end of the induction conveyor 4 , and the falloff prevention member 12 prevents bags X falling from the supply conveyor 3 from falling off of the main device 1 .
- the cradle 13 is provided in order to relay the manufactured strip pack SP from the attachment unit 9 to the discharge conveyor 6 , and is inclined downward.
- the bags X supplied to the main device 1 each have a main body part Y filled with snack food or the like, and sealed parts Z, Z as two ends, one upper and one lower, as shown in FIG. 2A .
- the strip pack SP manufactured by the main device 1 is made of a plurality of bags X . . . X attached to a long, thin tape T (strip) and aligned by their respective upper sealed parts Z . . . Z, as shown in FIG. 2B .
- a punch hole T 1 for interlocking with the strip pack SP and displaying the strip pack SP in a hanging state is formed in one end of the tape T.
- the brush unit 7 is a component for drawing in the sealed parts Z of the bags X disposed on the front side in the same direction as the conveying direction b and smoothing out wrinkles or creases in the sealed parts Z.
- the brush unit 7 has a drive pulley 71 , a driven pulley 73 , an upper shaft pulley 74 , an upper rotating shaft 75 , an upper brush 76 , and other components, as shown in FIG. 3 .
- the drive pulley 71 is driven by a motor.
- the rotation of the drive pulley 71 is transmitted to the driven pulley 73 through a timing belt 72 .
- the rotation of the driven pulley 73 is transmitted to the upper shaft pulley 74 through a timing belt.
- the upper rotating shaft 75 rotates integrally with the shaft pulley 74 .
- the upper brush 76 is attached to the rotating shaft 75 .
- the driven pulley 73 , the upper shaft pulley 74 , the upper rotating shaft 75 , and the upper brush 76 are supported on an upper support member 77 .
- a drive roller 78 that rotates integrally with the driven pulley 73 is also supported on the upper support member 77 .
- a driven roller 79 , a lower shaft pulley 74 , a lower rotating shaft 75 , and a lower brush 76 are supported on a lower support member 77 located on the lower side.
- the driven roller 79 is caused to rotate by being in contact with the drive roller 78 .
- the rotation of the driven roller 79 is transmitted to the lower shaft pulley 74 through a timing belt.
- the lower rotating shaft 75 rotates integrally with the shaft pulley 74 .
- the lower brush 76 is attached to the rotating shaft 75 .
- the brush unit 7 is configured such that the sealed parts Z of the bags X are drawn in and stretched out by the upper and lower brushes 76 , 76 rotating in the directions of the arrows d while the sealed parts Z are in contact with the brushes from above and below.
- the brushes 76 have a structure in which a plurality of relatively thin discoid separated brushes is aligned at predetermined intervals on the rotating shafts 75 .
- the brushes 76 are preferably, e.g., sponge-like brushes, steel wool-like brushes in which wires are interwoven radially, or the like.
- a positioning member 76 A is set up in pectinate fashion between the adjacent separated brushes constituting the brushes 76 .
- the positioning member 76 A is supported on the lower support member 77 , and the positioning member 76 A comes in contact with the sealed parts Z in the front of the bags X in the conveying direction to position the bags X.
- the drawn-in position P 1 is the position of the bags X when they have been positioned by the positioning member 76 A. In cases in which a positioning member 76 A is not included, the drawn-in position is the position of the bags X when they have been drawn in by the upper and lower brushes 76 , 76 and stopped.
- the grasping units 8 are disposed farther forward in the conveying direction b than the terminal end of the drop conveyor 5 , as shown in FIGS. 4 and 5 .
- the drop conveyor 5 pivots around the starting end in the direction of the arrow e.
- the grasping units 8 grasp the tops and bottoms of the sealed parts Z located frontward of the bags X in the conveying direction from the front of the conveying direction b, using pairs of pivoting top and bottom grip fingers 81 , 81 (an example of the grasping section).
- the grasping units 8 move the grasped bags X from the drawn-in position P 1 in the brush unit 7 to the attaching position P 2 in the attachment unit 9 underneath.
- the grip fingers 81 , 81 are mounted on hands 82 .
- the hands 82 are linked via attachment members 83 to one end of each of two pairs of long, thin, upper and lower, and left and right link members 84 , 84 , 85 , 85 (an example of the pivoting link member or the parallel link mechanism).
- the other ends (proximal ends) of the link members 84 , 84 , 85 , 85 are linked to support members 86 provided on the main unit 2 .
- Portions adjacent to the proximal ends of the lower pair of link members 85 are linked at specific locations to the distal ends of reciprocating rods of pneumatic cylinders 87 supported on the main unit 2 .
- parallel link mechanisms are configured from the attachment members 83 , the link members 84 , 84 , 85 , 85 , and the support members 86 .
- the attachment members 83 and the support members 86 remain parallel as shown by the solid lines and double-dashed lines in FIG. 4 .
- the grip fingers 81 , 81 keep the sealed parts Z of the bags X in the orientation in FIG. 4 , i.e., a substantially horizontal orientation while the link members 84 , 84 , 85 , 85 are pivoting.
- the distal ends of the grip fingers 81 , 81 move between the drawn-in position P 1 and the attaching position P 2 in an arcuate motion indicated by the symbol A.
- a pair of grasping units 8 are provided to the left and right relative to the bags X.
- the pairs of left and right grip fingers 81 . . . 81 grasp the sealed parts Z on both sides of the brushes 76 , 76 of the brush unit 7 .
- the attachment unit 9 incorporated in the main unit 2 is configured from a heater 91 , a clamp 92 , a pneumatic cylinder 93 , a punch cutter unit 94 , a melt prevention member 95 , a pneumatic cylinder 96 , and other components, as shown in FIG. 6 .
- the heater 91 is a heat source for fusing together the tape T and the bags X.
- the clamp 92 together with the heater 91 , clamps the tape T and the bags X.
- the pneumatic cylinder 93 raises and lowers the clamp 92 .
- the punch cutter unit 94 forms a suitable punch hole T 1 or perforation in the tape T.
- the melt prevention member 95 moves upward, thereby lifting the tape T off the heater 91 and preventing the tape T from melting.
- the pneumatic cylinder 96 raises and lowers the melt prevention member 95 .
- the sealed parts Z in the front of the bags X in the conveying direction are drawn in between the rotating upper and lower brushes 76 , 76 and are positioned in the drawn-in position P 1 by the positioning member 76 A.
- the upper and lower brushes 76 , 76 rotate from the proximal ends of the sealed parts Z toward the edges, thereby stretching out the sealed parts Z and smoothing out wrinkles or creases.
- the drop conveyor 5 pivots around the starting end in the direction of the arrow e (see FIG. 4 ).
- a space is thereby formed in front of the brush unit 7 , the grasping units 8 , and the attachment unit 9 , making it possible for the bags X to be moved by the grasping units 8 from the drawn-in position P 1 to the attaching position P 2 .
- the rods of the pneumatic cylinders 87 of the grasping units 8 lower, thereby causing the link members 84 , 84 , 85 , 85 to pivot in the direction of the arrow f around their ends adjacent to the support members 86 .
- attachment members 83 , the hands 82 , and the grip fingers 81 , 81 linked to the distal ends of the link members 84 , 84 , 85 , 85 begin to move in the generally opposite direction of the draw-in direction b from the drawn-in position P 1 of the brush unit 7 while maintaining the orientation in FIG. 4 , and these members continue to move to the attaching position P 2 while moving in an arcuate shape as shown by the symbol A.
- the bag X grasped by the grip fingers 81 , 81 is attached to the tape T at the sealed part Z by the attachment unit 9 in the attaching position P 2 .
- the rods of the pneumatic cylinders 87 extend, whereby the link members 84 , 84 , 85 , 85 pivot in the direction of the arrow f, and the grip fingers 81 , 81 return to the state (position) shown by the solid lines in FIG. 4 .
- the strip pack device comprises a drop conveyor 5 for conveying bags X in a substantially horizontal direction, grasping units 8 for receiving bags X from the drop conveyor 5 and moving the bags to the attaching position P 2 , and an attachment unit 9 for attaching bags-X moved by the grasping units 8 to the attaching position P 2 to the tape T at the sealed parts Z, the result is a highly versatile strip pack device 1 having a configuration independent of upstream devices and downstream devices.
- the strip pack device 1 comprises a brush unit 7 for drawing the sealed parts Z in the front of the bags X in the conveying direction into the drawn-in position P 1 , the brush unit being disposed in front of the bags X in the conveying direction, and the grasping units 8 receive the bags X at the drawn-in position P 1 and move the bags to the attaching position P 2 below.
- the grasping units 8 move the bags X in the generally opposite direction of the draw-in direction b from the drawn-in position P 1 to the attaching position P 2 .
- the brush unit 7 is outside of the path through which the bags X are moved by the grasping units 8 , and the bags X can be moved smoothly from the drawn-in position P 1 to the attaching position P 2 .
- grip fingers 81 , 81 are provided at the distal ends of the pivoting link members 84 , 84 , 85 , 85 , and when these grip fingers 81 , 81 begin to move away from the drawn-in position P 1 , the grip fingers move in the generally opposite direction of the draw-in direction b of the upper and lower brushes 76 , 76 , as shown in FIG. 7 .
- the grip fingers 81 , 81 then move in the are shown by the symbol A until reaching the attaching position P 2 . Therefore, the distal ends of the sealed parts Z of the bags X also draw an arcuate path shown by the symbol A in FIG. 4 .
- the bags X grasped by the grasping units 8 move without interfering with the lower brush 76 or the positioning member 76 A of the brush unit 7 .
- a configuration is adopted for the main strip pack device 1 wherein the distal ends provided with the grip fingers 81 , 81 go through a simple arcuate motion, and the configuration and control of the device are simplified.
- the grasping units 8 cause the sealed parts Z in the front of the bags X in the conveying direction grasped by the grip fingers 81 , 81 to have a predetermined orientation in the attaching position P 2 .
- the grasping units 8 cause the sealed parts Z in the front of the bags X in the conveying direction to have a substantially horizontal orientation. Therefore, the orientation of the sealed parts Z is always suited to the attachment unit 9 configured to press the tape T and the sealed parts Z of the bags X together from above and below.
- the grasping units 8 comprise parallel link mechanisms, and the grip fingers 81 , 81 are provided at the distal ends of the parallel link mechanisms. Therefore, the grip fingers 81 , 81 are maintained consistently in the same orientation, i.e., in this case a substantially horizontal orientation throughout the entire movement from the drawn-in position P 1 to the attaching position P 2 . Consequently, the sealed parts Z of the bags X grasped by the grip fingers 81 , 81 are also moved to the attaching position P 2 while retaining the same orientation as when they are received by the grasping units 8 at the drawn-in position P 1 .
- This strip pack device has the same configuration as the first embodiment except for the grasping units. With these grasping units 108 , it is possible to adjust the forward-backward positions of the grip fingers 81 , 81 for grasping the sealed parts Z of bags X drawn in by the upper and lower brushes 76 , 76 of the brush unit 7 , and pneumatic cylinders 188 (an example of the opposite-direction-moving part) are provided for this purpose, as shown in FIG. 8 .
- the grip fingers 81 , 81 are attached via hands 82 to the distal ends of rods that reciprocate in the direction of the arrow g, g′ of the pneumatic cylinders 188 .
- the pneumatic cylinders 188 are linked via attachment members 183 to the ends on one side of link members 84 , 84 , 85 , 85 (only one pair on one side is shown).
- the action of the grasping units 108 will now be described.
- the rods of the pneumatic cylinders 188 extend by a predetermined length in the opposite direction g of the direction b the bags X are conveyed by the drop conveyor 5 (i.e., the direction b the bags are drawn in by the upper and lower brushes 76 , 76 of the brush unit 7 ), and the sealed parts Z of the bags X drawn in by the brush unit 7 in the drawn-in position P 1 are pulled out while being grasped by the grip fingers 81 , 81 of the grasping units 108 , as shown in FIG. 9 .
- pneumatic cylinders 188 are provided for moving the grip fingers 81 , 81 straight in the opposite direction g of the draw-in direction b when the grip fingers begin to move away from the drawn-in position P 1 , the sealed parts Z of the bags X drawn into the brush unit 7 reliably move in the direction g in which the bags are withdrawn. Consequently, interference between the brush unit 7 and the bags X moved by the grasping units 8 is avoided to an even more reliable degree, and the bags X are moved even more smoothly from the drawn-in position P 1 to the attaching position P 2 .
- this strip pack device is also the same as the first embodiment except for the grasping units.
- the grasping units 208 in this case are disposed farther forward in the conveying direction b than the terminal end of the drop conveyor 5 that pivots around the starting end in the direction of the arrow e, as shown in FIGS. 10 through 12 .
- the grasping units 208 grasp the sealed parts Z in the front of the bags X in the conveying direction from above and below in the front of the conveying direction b, by a pair of upper and lower grip fingers 81 , 81 , similar to the first embodiment.
- the grasping units 208 move the grasped bags X from the drawn-in position P 1 in the brush unit 7 to the attaching position P 2 in the attachment unit 9 .
- the grip fingers 81 , 81 are mounted on hands 82 .
- the hands 82 are linked via attachment members 283 to the ends on one side of a pair of long extending left and right link members 284 , 284 (an example of the pivoting link member).
- the other ends of the link members 284 , 284 are linked to support members 286 provided to the main unit 2 .
- the output shafts of motors 287 are linked to the ends of the link members 284 , 284 adjacent to the support members 286 .
- the link members 284 , 284 are capable of pivoting around their ends in the directions of the arrows f, f by the rotation of the output shafts of the motors 287 .
- First toothed pulleys 289 A (an example of the first toothed member) are provided to the ends of the link members 284 , 284 via fixed members 286 A extending from the support members 286 .
- the first toothed pulleys 289 A are incapable of rotating regardless of the pivoting of the link members 284 , 284 .
- Second toothed pulleys 289 B (an example of the second toothed member) capable of rotating in relation to the link members 284 , 284 are provided at the distal ends of these link members 284 , 284 .
- the first toothed pulleys 289 A and the second toothed pulleys 289 B have the same number of teeth.
- Toothed timing belts 289 C (an example of the winding drive member) are wound between the toothed pulleys 289 A, 289 B.
- the attachment members 283 that come to support the hands 82 and the grip fingers 81 , 81 are fixed to the second toothed pulleys 289 B at the distal ends of the link members 284 , 284 .
- the attachment members 283 rotate integrally with the second toothed pulleys 289 B.
- the sealed parts Z in the front of the bags X in the conveying direction are drawn in between the upper and lower rotating brushes 76 , 76 and are positioned at the drawn-in position P 1 by the positioning member 76 A, as shown in FIGS. 10 and 12 .
- the upper and lower brushes 76 , 76 rotate from the proximal ends of the sealed parts Z toward the edges, thereby stretching out the sealed parts Z and smoothing out wrinkles or creases.
- the drop conveyor 5 pivots around the starting end in the direction of the arrow e, making it possible for the bags X to be moved by the grasping units 208 .
- the output shafts of the motors 287 then rotate, whereby the link members 284 , 284 pivot in the direction of the arrow f around their ends adjacent to the support members 286 .
- the attachment members 283 , the hands 82 , and the grip fingers 81 , 81 linked at the distal ends of the link members 284 , 284 retain the orientation in FIG. 10 while moving from the drawn-in position P 1 in the brush unit 7 in the generally opposite direction of the draw-in direction b to the attaching position P 2 , drawing an arcuate movement as shown by the symbol A.
- the distal ends of the sealed parts Z of the bags X also describe the arcuate movement shown by the symbol A as described in the first embodiment in this case as well, and the bags X grasped by the grasping units 8 therefore move without interfering with the lower brushes 76 or the positioning member 76 A of the brush unit 7 .
- the bags X grasped by the grip fingers 81 , 81 are then attached at the sealed parts Z to the tape T by the attachment unit 9 .
- the grasping units 208 comprise the pivoting link members 284 , 284 , the first toothed pulleys 289 A that are provided to the pivot fulcra of the link members 284 , 284 so as to be incapable of rotating regardless of the pivoting of the link members 284 , 284 , the second toothed pulleys 289 B provided to be capable of rotating in relation to the distal ends of the link members 284 , 284 , and the toothed timing belts 289 C wound between the toothed pulleys 289 A, 289 B.
- the grip fingers 81 , 81 are fixed to the second toothed pulleys 289 B at the distal ends. Therefore, the second toothed pulleys 289 B at the distal ends rotate in the opposite direction f of the pivoting direction f of the link members 284 , 284 .
- the grip fingers 81 , 81 are kept consistently in the same orientation; i.e., a substantially horizontal orientation in this case, throughout their entire movement from the drawn-in position P 1 to the attaching position P 2 . Consequently, the sealed parts Z of the bags X grasped by the grip fingers 81 , 81 are moved to the attaching position P 2 while retaining the same orientation as when they were received in the drawn-in position P 1 by the grasping units 208 in this case as well.
- the bags X may be moved by a predetermined length in the opposite direction g of the draw-in direction b by the action of the pneumatic cylinders 188 before the grip fingers 81 , 81 describe an arcuate movement via the action of the motors 287 of the grasping units 208 .
- the pair of toothed pulleys 289 A, 289 B have the same number of teeth; however, when the pulleys have different numbers of teeth, the pivoting angle of the link members 284 , 284 in the direction of the arrow f will be different from the rotational angle of the toothed pulleys 289 B at the distal ends in the direction of the arrow f.
- the orientation of the sealed parts Z of the bags X grasped by the grip fingers 81 , 81 to differ between the drawn-in position P 1 and the attaching position P 2 .
- toothed timing belts 289 C were wound between the pairs of toothed pulleys 289 A, 289 B, but another possibility is a configuration in which endless chains are wound between pairs of sprockets.
- the drawing-in part is provided for drawing the forward ends of articles conveyed by the conveying part into a drawn-in position, and the articles can be moved smoothly from the drawn-in position to an attaching position.
- the present invention is widely applicable to the technological field of article-packaging machinery.
Abstract
A strip pack device is adapted to manufacture a strip-pack product having an article attached to a strip. The strip pack device includes a conveying part, a drawing-in part, a moving part and an attachment part. The drawing-in part is configured and arranged to draw a front end of the article conveyed by the conveying part to a predetermined position. The front end is located frontward in a conveying direction. The moving part is configured and arranged to receive the article at the predetermined position in the drawing-in part, to move the article from the predetermined position in a generally opposite direction of a draw-in direction of the drawing-in part, and to move the article to an attaching position. The attachment part is configured and arranged to attach the front end of the article to the strip after the article has been moved to the attaching position.
Description
- This national phase application claims priority to Japanese Patent Application No. 2007-271955 filed on Oct. 19, 2007. The entire disclosure of Japanese Patent Application No. 2007-271955 is hereby incorporated herein by reference.
- The present invention relates to a strip pack device for manufacturing a product known as a strip pack, wherein a plurality of articles are attached to a strip and displayed while hanging therefrom, and the present invention pertains to the technological field of article packaging machinery.
- There are products known as strip packs, wherein a plurality of articles filled with snack food or the like are aligned on and attached to a strip, that are hung when displayed. The advantage of a strip pack is that less space is needed for the display, and the displays in aisles or other areas of a store, for example, are more likely to be noticed by consumers, which promotes sales.
- An example of a strip pack device for manufacturing such strip packs is the device disclosed in Japanese Laid-open Patent Application No. 2004-182302. This device is installed directly below a vertical form-fill-seal device and is configured so that both sides at the tops of articles manufactured by the device are grasped by a pair of left and right grasping arms, the articles are moved downward to an attaching position, and the top ends of the articles are then attached to a strip. The device disclosed in the Description of U.S. Pat. No. 3,864,895 is also installed directly below a vertical form-fill-seal device, and is configured so that the tops of the articles manufactured by the device are suctioned on one side by a suction cup, the articles are moved forward to an attaching position, and the top ends of the articles are then attached to a strip.
- Since the strip pack devices disclosed in the aforementioned publications are directly connected to vertical form-fill-seal devices located directly thereabove, only articles manufactured by the devices can be attached to the strip. Quality testing of weight, seal quality, and the like cannot be performed before the articles manufactured by the devices are attached to the strip. In view of this, a demand has existed for there to be proposed a highly versatile strip pack device having a configuration independent of upstream devices and downstream devices. The essential configuration thereof would include conveying part for conveying articles in a substantially horizontal direction, and moving part for holding articles received from the conveying part and moving the articles to an attaching position.
- In this case, where the attaching position is disposed in relation to the conveying part becomes a problem. For example, placing the attaching position directly below the conveying means necessitates a configuration for withdrawing the conveying part becoming obstructive every time an article is moved directly downward, which complicates the configuration and operation of the device and is therefore a hindrance to accelerating the operation. In view of this, consideration has been given to placing the attaching position ahead of the conveying part in the conveying direction. In this case, the strip pack device is not as complicated as when the attaching position is placed directly below the conveying part.
- If there are wrinkles or creases in the ends of the bagged articles conveyed by the conveying part, they might be visually unattractive and might have a lower product value when the articles are attached at the ends to the strip. There is also a potential of the articles peeling away from the strip as a result of sufficient adhesion strength not being obtained because the bond between the ends of the articles and the strip is weakened. In view of this, the wrinkles or creases in the ends of the articles conveyed by the conveying part are sometimes smoothed out before the articles are attached to the strip.
- In this case, effective means for smoothing out wrinkles or creases is a structure wherein the ends facing ahead in the direction in which incoming articles are conveyed are drawn in, and stretched out from the top and bottom sides, the structure being located ahead of the articles in the conveying direction. However, if the drawing-in part is placed ahead of the conveying part in the conveying direction, the drawing-in part will, upon having drawn in the ends of the articles, interfere with the route by which the movement part causes the articles to move downward, for example, the route being ahead of the articles in the conveying direction. This will lead to a problem that the articles can no longer be moved to the attaching position.
- In view of this fact, an object of the present invention is to provide a highly versatile strip pack device having a structure independent of upstream devices and downstream devices, wherein drawing-in part is provided for drawing the forward ends of articles conveyed by conveying part into a predetermined position, and the articles are moved smoothly from the drawn-in position to an attaching position.
- A strip pack device according to the present invention is adapted to manufacture a strip pack product having an article attached to a strip. The strip pack device includes a conveying part, a drawing-in part, a moving part, and an attachment part. The conveying part conveys the article in a substantially horizontal direction. The drawing-in part draws a front end of the article conveyed, by the conveying part to a predetermined position, the front end being located frontward in the conveying direction. The moving part receives the article at the predetermined position in the drawing-in part, moves the article from the predetermined position in a generally opposite direction of a draw-in direction of the drawing-in part, and moves the article to an attaching position. The attachment part attaches the end of the article to a strip after the article has been moved to the attaching position by the moving part.
- The moving part preferably has a grasping section, and the moving part preferably includes a pivoting link member. The grasping section is provided at a distal end, and grasps the front end of the article at the predetermined position. The grasping part, when beginning to move from the predetermined position, moves in the generally opposite direction of the draw-in direction, and moves to the attaching position along an arcuate path.
- The strip pack device preferably includes an opposite-direction-moving part. The opposite-direction-moving part moves the grasping means in the direction generally opposite the draw-in direction when the grasping section begins to move away from the predetermined position.
- The moving part is preferably configured so that the front end of the article grasped by the grasping section assumes a predetermined orientation in the attaching position. In this case, the moving part preferably has a parallel link mechanism, and the grasping section is preferably provided at a distal end of the parallel link mechanism.
- Instead of being configured from a parallel link mechanism, the moving part may be configured from a pivoting link member, a first toothed member, a second toothed member, and a winding drive member. The first toothed member is provided at a pivoting fulcrum of the pivoting link member so as to be incapable of rotating regardless of pivoting of the pivoting link member. The second toothed member is rotatably provided at a distal end of the pivoting link member. The winding drive member is wound between the first toothed member and the second toothed member. In this case, the grasping section is fixedly coupled to the second toothed member.
- According to the present invention, there is realized a highly versatile strip pack device having a configuration independent of upstream devices and downstream devices. Since the moving part moves the articles from a predetermined position in the generally opposite direction of the draw-in direction to an attaching position, the articles can be moved smoothly from the predetermined position to the attaching position.
- Furthermore, the configuration and control of the device are simplified in cases in which the moving part has a grasping section provided at the distal ends, the grasping section moves in the generally opposite direction of the draw-in direction when beginning to move away from the predetermined position, and the grasping section moves through an arcuate path to the attaching position.
- In cases in which the strip pack device comprises an opposite-direction-moving part for moving the grasping section in the generally opposite direction of the draw-in direction when the grasping section begins to move away from the predetermined position, the ends of the articles drawn in by the drawing-in part move reliably in the direction in which they are pulled out. Consequently, interference between the drawing-in part and the articles moved by the moving part is even more reliably avoided, and the articles are moved even more smoothly from the drawn-in position to the attaching position.
- In cases in which the moving part is configured so that the ends in the front in the conveying direction of the articles grasped by the grasping section have a predetermined orientation in the attaching position, the ends constantly have an orientation appropriate for the attachment part.
- Furthermore, in cases in which the moving part comprises parallel link mechanisms, the grasping section is consistently maintained in the same orientation throughout its entire movement from the predetermined position to the attaching position. Consequently, the ends of the articles grasped by the grasping section are moved to the attaching position while retaining the same orientation from when the ends are received in the predetermined position by the moving part.
- In cases in which the moving part is configured from links, first toothed members, second toothed members, and winding drive members, when the toothed members have the same number of teeth, the grasping section is consistently maintained in the same orientation throughout its entire movement from the predetermined position to the attaching position. Consequently, the ends of the articles grasped by the grasping section are moved to the attaching position while retaining the same orientation from when the ends are received in the predetermined position by the moving part in this case as well.
-
FIG. 1 is a side view of the strip pack device according to the first embodiment of the present invention. -
FIG. 2A is a plan view of a bag supplied to the strip pack device. -
FIG. 2B is a plan view of a strip pack manufactured by the strip pack device. -
FIG. 3 is a side view for describing the configuration of the brush unit. -
FIG. 4 is a side view of the grasping units. -
FIG. 5 is a plan view of the grasping units. -
FIG. 6 is a side view of the attachment unit. -
FIG. 7 is a partial side view showing the action when a bag is grasped by the grasping units and the bag begins to move. -
FIG. 8 is a partial side view for describing the configuration of the grasping units in the strip pack device according to the second embodiment of the present invention. -
FIG. 9 is a partial side view showing the action when the grasping units grasp and begin to move a bag. -
FIG. 10 is a side view for describing the configuration of the grasping units in the strip pack device according to the third embodiment of the present invention. -
FIG. 11 is a partial cross-sectional view showing a selection of a part for describing the configuration of the grasping units. -
FIG. 12 is a plan view for describing the configuration of the grasping units. - A
strip pack device 1 according to the first embodiment of the present invention comprises amain unit 2, asupply conveyor 3, aninduction conveyor 4, adrop conveyor 5, a discharge conveyor 6 (an example of the conveying part), a brush unit 7 (an example of the drawing-in part), grasping units 8 (an example of the moving part), an attachment unit 9 (an example of the attachment part), atape feed unit 10, afalloff prevention member 12, acradle 13, and other components, as shown inFIG. 1 . - Bags X filled with, e.g., snack foods or the like are supplied as handled articles to the
supply conveyor 3 from an upstream device. - The
induction conveyor 4 guides bags X supplied in the direction of the arrow a by thesupply conveyor 3 into themain device 1, as shown by the arrow b. - The
drop conveyor 5 constitutes the terminal end of theinduction conveyor 4. - The
discharge conveyor 6 discharges a strip pack SP made of a plurality of bags X . . . X attached to a tape to a downstream device as shown by the arrow c. - The
brush unit 7 is disposed farther forward in the conveying direction b than the terminal end of thedrop conveyor 5, and thebrush unit 7 draws in the ends of the bags X guided in by thedrop conveyor 5 and smoothes out wrinkles or creases in the ends. - The grasping
units 8 are disposed farther forward in the conveying direction b than the terminal end of thedrop conveyor 5, and the graspingunits 8 grasp the ends of the bags X received from thedrop conveyor 5 and move the ends from a drawn-in position P1 (predetermined position) to an attaching position P2. The attaching position P2 is positioned below and farther forward in the conveying direction b than the terminal end of thedrop conveyor 5. - The
attachment unit 9 attaches the ends of the bags X to the tape, the bags X having been grasped and moved to the attaching position P2 by the graspingunits 8. - The
tape feed unit 10 feeds the tape synchronously with the manufacturing of the strip pack SP. Aroll 11 of the tape is set up at the top of themain unit 2. - The
falloff prevention member 12 is placed at the starting end of theinduction conveyor 4, and thefalloff prevention member 12 prevents bags X falling from thesupply conveyor 3 from falling off of themain device 1. - The
cradle 13 is provided in order to relay the manufactured strip pack SP from theattachment unit 9 to thedischarge conveyor 6, and is inclined downward. - The bags X supplied to the
main device 1 each have a main body part Y filled with snack food or the like, and sealed parts Z, Z as two ends, one upper and one lower, as shown inFIG. 2A . The strip pack SP manufactured by themain device 1 is made of a plurality of bags X . . . X attached to a long, thin tape T (strip) and aligned by their respective upper sealed parts Z . . . Z, as shown inFIG. 2B . A punch hole T1 for interlocking with the strip pack SP and displaying the strip pack SP in a hanging state is formed in one end of the tape T. - The
brush unit 7 is a component for drawing in the sealed parts Z of the bags X disposed on the front side in the same direction as the conveying direction b and smoothing out wrinkles or creases in the sealed parts Z. Thebrush unit 7 has adrive pulley 71, a drivenpulley 73, anupper shaft pulley 74, an upperrotating shaft 75, anupper brush 76, and other components, as shown inFIG. 3 . Thedrive pulley 71 is driven by a motor. The rotation of thedrive pulley 71 is transmitted to the drivenpulley 73 through atiming belt 72. The rotation of the drivenpulley 73 is transmitted to theupper shaft pulley 74 through a timing belt. The upperrotating shaft 75 rotates integrally with theshaft pulley 74. Theupper brush 76 is attached to therotating shaft 75. The drivenpulley 73, theupper shaft pulley 74, the upperrotating shaft 75, and theupper brush 76 are supported on anupper support member 77. - A
drive roller 78 that rotates integrally with the drivenpulley 73 is also supported on theupper support member 77. A drivenroller 79, alower shaft pulley 74, a lowerrotating shaft 75, and alower brush 76 are supported on alower support member 77 located on the lower side. The drivenroller 79 is caused to rotate by being in contact with thedrive roller 78. The rotation of the drivenroller 79 is transmitted to thelower shaft pulley 74 through a timing belt. The lowerrotating shaft 75 rotates integrally with theshaft pulley 74. Thelower brush 76 is attached to therotating shaft 75. - In other words, the
brush unit 7 is configured such that the sealed parts Z of the bags X are drawn in and stretched out by the upper andlower brushes - The
brushes 76 have a structure in which a plurality of relatively thin discoid separated brushes is aligned at predetermined intervals on therotating shafts 75. Thebrushes 76 are preferably, e.g., sponge-like brushes, steel wool-like brushes in which wires are interwoven radially, or the like. - A positioning
member 76A is set up in pectinate fashion between the adjacent separated brushes constituting the brushes 76. The positioningmember 76A is supported on thelower support member 77, and thepositioning member 76A comes in contact with the sealed parts Z in the front of the bags X in the conveying direction to position the bags X. - The drawn-in position P1 is the position of the bags X when they have been positioned by the positioning
member 76A. In cases in which apositioning member 76A is not included, the drawn-in position is the position of the bags X when they have been drawn in by the upper andlower brushes - The grasping
units 8 are disposed farther forward in the conveying direction b than the terminal end of thedrop conveyor 5, as shown inFIGS. 4 and 5 . Thedrop conveyor 5 pivots around the starting end in the direction of the arrow e. The graspingunits 8 grasp the tops and bottoms of the sealed parts Z located frontward of the bags X in the conveying direction from the front of the conveying direction b, using pairs of pivoting top andbottom grip fingers 81, 81 (an example of the grasping section). The graspingunits 8 move the grasped bags X from the drawn-in position P1 in thebrush unit 7 to the attaching position P2 in theattachment unit 9 underneath. - The
grip fingers hands 82. Thehands 82 are linked viaattachment members 83 to one end of each of two pairs of long, thin, upper and lower, and left andright link members link members members 86 provided on themain unit 2. Portions adjacent to the proximal ends of the lower pair oflink members 85 are linked at specific locations to the distal ends of reciprocating rods ofpneumatic cylinders 87 supported on themain unit 2. - Specifically, parallel link mechanisms are configured from the
attachment members 83, thelink members support members 86. In these parallel link mechanisms, when thelink members pneumatic cylinders 87, theattachment members 83 and thesupport members 86 remain parallel as shown by the solid lines and double-dashed lines inFIG. 4 . Thegrip fingers FIG. 4 , i.e., a substantially horizontal orientation while thelink members grip fingers - A pair of grasping
units 8 are provided to the left and right relative to the bags X. In the drawn-in position P1, the pairs of left andright grip fingers 81 . . . 81 grasp the sealed parts Z on both sides of thebrushes brush unit 7. - The
attachment unit 9 incorporated in themain unit 2 is configured from aheater 91, aclamp 92, apneumatic cylinder 93, apunch cutter unit 94, amelt prevention member 95, apneumatic cylinder 96, and other components, as shown inFIG. 6 . - The
heater 91 is a heat source for fusing together the tape T and the bags X. - The
clamp 92, together with theheater 91, clamps the tape T and the bags X. - The
pneumatic cylinder 93 raises and lowers theclamp 92. - The
punch cutter unit 94 forms a suitable punch hole T1 or perforation in the tape T. - The
melt prevention member 95 moves upward, thereby lifting the tape T off theheater 91 and preventing the tape T from melting. - The
pneumatic cylinder 96 raises and lowers themelt prevention member 95. - Next, the characteristic action of the grasping
units 8 in themain device 1 will be described. - First, when the bags X are conveyed by the
drop conveyor 5 in a substantially horizontal direction to thebrush unit 7 as shown inFIGS. 4 and 5 , the sealed parts Z in the front of the bags X in the conveying direction are drawn in between the rotating upper andlower brushes member 76A. In this state, the upper andlower brushes - Next, when the sealed parts Z of the bags X are grasped on both sides of the
brush unit 7 by thegrip fingers 81 . . . 81 of the graspingunits drop conveyor 5 pivots around the starting end in the direction of the arrow e (seeFIG. 4 ). A space is thereby formed in front of thebrush unit 7, the graspingunits 8, and theattachment unit 9, making it possible for the bags X to be moved by the graspingunits 8 from the drawn-in position P1 to the attaching position P2. The rods of thepneumatic cylinders 87 of the graspingunits 8 lower, thereby causing thelink members support members 86. - The result is that the
attachment members 83, thehands 82, and thegrip fingers link members brush unit 7 while maintaining the orientation inFIG. 4 , and these members continue to move to the attaching position P2 while moving in an arcuate shape as shown by the symbol A. The bag X grasped by thegrip fingers attachment unit 9 in the attaching position P2. After the bag is attached, the rods of thepneumatic cylinders 87 extend, whereby thelink members grip fingers FIG. 4 . - (1) First, since the strip pack device comprises a
drop conveyor 5 for conveying bags X in a substantially horizontal direction, graspingunits 8 for receiving bags X from thedrop conveyor 5 and moving the bags to the attaching position P2, and anattachment unit 9 for attaching bags-X moved by the graspingunits 8 to the attaching position P2 to the tape T at the sealed parts Z, the result is a highly versatilestrip pack device 1 having a configuration independent of upstream devices and downstream devices. - (2) Moreover, the
strip pack device 1 comprises abrush unit 7 for drawing the sealed parts Z in the front of the bags X in the conveying direction into the drawn-in position P1, the brush unit being disposed in front of the bags X in the conveying direction, and the graspingunits 8 receive the bags X at the drawn-in position P1 and move the bags to the attaching position P2 below. The graspingunits 8 move the bags X in the generally opposite direction of the draw-in direction b from the drawn-in position P1 to the attaching position P2. Therefore, even though there is abrush unit 7, thebrush unit 7 is outside of the path through which the bags X are moved by the graspingunits 8, and the bags X can be moved smoothly from the drawn-in position P1 to the attaching position P2. - (3) In the grasping
units 8,grip fingers link members grip fingers lower brushes FIG. 7 . Thegrip fingers FIG. 4 . Therefore, the bags X grasped by the graspingunits 8 move without interfering with thelower brush 76 or thepositioning member 76A of thebrush unit 7. Thus, since interference between thebrush unit 7 and the bags X moved by the graspingunits 8 is avoided, a configuration is adopted for the mainstrip pack device 1 wherein the distal ends provided with thegrip fingers - (4) The grasping
units 8 cause the sealed parts Z in the front of the bags X in the conveying direction grasped by thegrip fingers units 8 cause the sealed parts Z in the front of the bags X in the conveying direction to have a substantially horizontal orientation. Therefore, the orientation of the sealed parts Z is always suited to theattachment unit 9 configured to press the tape T and the sealed parts Z of the bags X together from above and below. - Specifically, the grasping
units 8 comprise parallel link mechanisms, and thegrip fingers grip fingers grip fingers units 8 at the drawn-in position P1. - Next, a strip pack device according to the second embodiment of the present invention will be described. Structural elements common to the first embodiment previously described are denoted by the same numerical symbols.
- This strip pack device has the same configuration as the first embodiment except for the grasping units. With these grasping
units 108, it is possible to adjust the forward-backward positions of thegrip fingers lower brushes brush unit 7, and pneumatic cylinders 188 (an example of the opposite-direction-moving part) are provided for this purpose, as shown inFIG. 8 . Thegrip fingers hands 82 to the distal ends of rods that reciprocate in the direction of the arrow g, g′ of thepneumatic cylinders 188. Thepneumatic cylinders 188 are linked viaattachment members 183 to the ends on one side oflink members - The action of the grasping
units 108 will now be described. Before theattachment members 83, thehands 82, and thegrip fingers pneumatic cylinders 87 in the graspingunits 8 previously described, the rods of thepneumatic cylinders 188 extend by a predetermined length in the opposite direction g of the direction b the bags X are conveyed by the drop conveyor 5 (i.e., the direction b the bags are drawn in by the upper andlower brushes brush unit 7 in the drawn-in position P1 are pulled out while being grasped by thegrip fingers units 108, as shown inFIG. 9 . - Next, when the
link members grip fingers attachment unit 9 from the drawn-in position P1 in thebrush unit 7. Though not shown in the drawing, when the rods of thepneumatic cylinders 188 retract a predetermined length in the direction of the arrow g′, the sealed parts Z of the bags X come to be positioned in a predetermined attaching position P2 such as is shown inFIG. 4 . If the attaching position is set to be at the ending point at the bottom of the arcuate motion, there is no need for the rods to retract in the direction of the arrow g′ as previously described. - According to the second embodiment, since
pneumatic cylinders 188 are provided for moving thegrip fingers brush unit 7 reliably move in the direction g in which the bags are withdrawn. Consequently, interference between thebrush unit 7 and the bags X moved by the graspingunits 8 is avoided to an even more reliable degree, and the bags X are moved even more smoothly from the drawn-in position P1 to the attaching position P2. - In cases in which
pneumatic cylinders 188 are provided for adjusting the forward-backward positions of thegrip fingers pneumatic cylinders 188 are used, which has the merit of not increasing the number of pieces of equipment. - Next, a strip pack device according to the third embodiment will be described. Structural elements common to the first embodiment are denoted by the same numerical symbols in this case as well.
- The configuration of this strip pack device is also the same as the first embodiment except for the grasping units. Specifically, the grasping
units 208 in this case are disposed farther forward in the conveying direction b than the terminal end of thedrop conveyor 5 that pivots around the starting end in the direction of the arrow e, as shown inFIGS. 10 through 12 . The graspingunits 208 grasp the sealed parts Z in the front of the bags X in the conveying direction from above and below in the front of the conveying direction b, by a pair of upper andlower grip fingers units 208 move the grasped bags X from the drawn-in position P1 in thebrush unit 7 to the attaching position P2 in theattachment unit 9. - The
grip fingers hands 82. Thehands 82 are linked viaattachment members 283 to the ends on one side of a pair of long extending left andright link members 284, 284 (an example of the pivoting link member). The other ends of thelink members members 286 provided to themain unit 2. - The output shafts of
motors 287 are linked to the ends of thelink members support members 286. Thelink members motors 287. Firsttoothed pulleys 289A (an example of the first toothed member) are provided to the ends of thelink members members 286A extending from thesupport members 286. The firsttoothed pulleys 289A are incapable of rotating regardless of the pivoting of thelink members toothed pulleys 289B (an example of the second toothed member) capable of rotating in relation to thelink members link members toothed pulleys 289A and the second toothed pulleys 289B have the same number of teeth.Toothed timing belts 289C (an example of the winding drive member) are wound between thetoothed pulleys attachment members 283 that come to support thehands 82 and thegrip fingers link members attachment members 283 rotate integrally with the second toothed pulleys 289B. - Specifically, in the configuration previously described, when the
link members motors 287, the firsttoothed pulleys 289A adjacent to thesupport members 286 do not rotate. Meanwhile the second toothed pulleys 289B at the distal ends rotate a predetermined angle in the direction of the arrow f. Therefore, thegrip fingers attachment members 283 retain the orientation inFIG. 10 , i.e., a substantially horizontal orientation throughout their entire movement from the drawn-in position P1 to the attaching position P2. - The characteristic action of the grasping
units 208 will now be described. - First, when the bags X are conveyed up to the
brush unit 7 by thedrop conveyor 5, the sealed parts Z in the front of the bags X in the conveying direction are drawn in between the upper and lowerrotating brushes member 76A, as shown inFIGS. 10 and 12 . In this state, the upper andlower brushes - Next, when the upper and lower pairs of
grip fingers units 208 pivot and grasp the sealed parts Z of the bags X on both sides of thebrush unit 7, thedrop conveyor 5 pivots around the starting end in the direction of the arrow e, making it possible for the bags X to be moved by the graspingunits 208. The output shafts of themotors 287 then rotate, whereby thelink members support members 286. - The result is that the
attachment members 283, thehands 82, and thegrip fingers link members FIG. 10 while moving from the drawn-in position P1 in thebrush unit 7 in the generally opposite direction of the draw-in direction b to the attaching position P2, drawing an arcuate movement as shown by the symbol A. Specifically, the distal ends of the sealed parts Z of the bags X also describe the arcuate movement shown by the symbol A as described in the first embodiment in this case as well, and the bags X grasped by the graspingunits 8 therefore move without interfering with the lower brushes 76 or thepositioning member 76A of thebrush unit 7. The bags X grasped by thegrip fingers attachment unit 9. - As described above, the grasping
units 208 comprise thepivoting link members toothed pulleys 289A that are provided to the pivot fulcra of thelink members link members toothed pulleys 289B provided to be capable of rotating in relation to the distal ends of thelink members toothed timing belts 289C wound between thetoothed pulleys grip fingers link members - Specifically, when the pairs of
toothed pulleys grip fingers grip fingers units 208 in this case as well. - Furthermore, in the third embodiment, in cases in which
pneumatic cylinders 188 are provided for adjusting thegrip fingers pneumatic cylinders 188 before thegrip fingers motors 287 of the graspingunits 208. - The present invention is not limited to the embodiments specifically described herein, but preferably no departure is made from the scope of the present invention.
- For example, in the third embodiment, the pair of
toothed pulleys link members toothed pulleys 289B at the distal ends in the direction of the arrow f. Specifically, it is possible for the orientation of the sealed parts Z of the bags X grasped by thegrip fingers - In the third embodiment,
toothed timing belts 289C were wound between the pairs oftoothed pulleys - As described above, according to the illustrated embodiments, it is possible to provide a highly versatile strip pack device having a configuration independent of upstream devices and downstream devices, wherein the drawing-in part is provided for drawing the forward ends of articles conveyed by the conveying part into a drawn-in position, and the articles can be moved smoothly from the drawn-in position to an attaching position. Specifically, the present invention is widely applicable to the technological field of article-packaging machinery.
Claims (6)
1. A strip pack device adapted to manufacture a strip-pack product having an article attached to a strip, the strip pack device comprising:
a conveying part configured and arranged to convey the article in a substantially horizontal direction;
a drawing-in part configured and arranged to draw a front end of the article conveyed by the conveying part to a predetermined position, the front end being located frontward in a conveying direction;
a moving part configured and arranged to receive the article at the predetermined position in the drawing-in part, to move the article from the predetermined position in a generally opposite direction of a draw-in direction of the drawing-in part, and to move the article to an attaching position; and
an attachment part configured and arranged to attach the front end of the article to the strip after the article has been moved to the attaching position by the moving part.
2. The strip pack device according to claim 1 , wherein
the moving part includes a pivoting link member, and a distal end of the pivoting link member has a grasping section configured and arranged to grasp the front end of the article at the predetermined position and
the grasping section is configured and arranged to move, when beginning to move from the predetermined position, in the generally opposite direction of the draw-in direction, and to move to the attaching position along an arcuate path.
3. The strip pack device according to claim 2 , further comprising
an opposite-direction-moving part configured and arranged to move the grasping section in the generally opposite direction of the draw-in direction when the grasping part begins to move away from the predetermined position.
4. The strip pack device according to claim 2 , wherein
the moving part is configured and arranged so that the front end of the article grasped by the grasping section assumes a predetermined orientation in the attaching position.
5. The strip pack device according to claim 4 , wherein
the moving part has a parallel link mechanism including the pivoting link member, and
the grasping section is provided at a distal end of the parallel link mechanism.
6. The strip pack device according to claim 4 , wherein
the moving part further has
a first toothed member provided at a pivoting fulcrum of the pivoting link member so as to be incapable of rotating regardless of pivoting of the pivoting link member,
a second toothed member rotatably provided at the distal end of the pivoting link member, with the grasping section being fixedly coupled to the second toothed member and
a winding drive member wound between the first toothed member and the second toothed member.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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JP2007271955A JP2009096532A (en) | 2007-10-19 | 2007-10-19 | Strip pack device |
JP2007-271955 | 2007-10-19 | ||
PCT/JP2008/068166 WO2009051030A1 (en) | 2007-10-19 | 2008-10-06 | Strip pack device |
Publications (1)
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US20100229502A1 true US20100229502A1 (en) | 2010-09-16 |
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Family Applications (1)
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US12/682,210 Abandoned US20100229502A1 (en) | 2007-10-19 | 2008-10-06 | Strip pack device |
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US (1) | US20100229502A1 (en) |
EP (1) | EP2213575A1 (en) |
JP (1) | JP2009096532A (en) |
CN (1) | CN101827753A (en) |
WO (1) | WO2009051030A1 (en) |
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US20130180082A1 (en) * | 2011-07-17 | 2013-07-18 | Exopack Llc | Grip pads for packaging systems and related methods |
US11059617B1 (en) * | 2020-01-15 | 2021-07-13 | Ultrasource Llc | Hole cutter for thermoforming packaging machine and method of use |
US11104467B2 (en) * | 2020-01-15 | 2021-08-31 | Ultrasource Llc | Hole cutter for thermoforming packaging machine and method of use |
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KR101658552B1 (en) | 2010-01-22 | 2016-09-21 | 엘지전자 주식회사 | A refrigerator and a control method thereof |
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Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4025151B2 (en) * | 2002-08-29 | 2007-12-19 | 株式会社イシダ | Bag making and packaging machine |
JP2004182302A (en) | 2002-12-04 | 2004-07-02 | Ishida Co Ltd | Strip fitting device, and bag-making and packaging machine |
JP4256181B2 (en) * | 2003-02-28 | 2009-04-22 | 株式会社イシダ | Product inspection apparatus, strip tape mounting system and boxing system provided with the same |
JP4704183B2 (en) * | 2005-10-24 | 2011-06-15 | 株式会社イシダ | Strip bag equipment |
-
2007
- 2007-10-19 JP JP2007271955A patent/JP2009096532A/en active Pending
-
2008
- 2008-10-06 CN CN200880112275A patent/CN101827753A/en active Pending
- 2008-10-06 EP EP08840768A patent/EP2213575A1/en not_active Withdrawn
- 2008-10-06 WO PCT/JP2008/068166 patent/WO2009051030A1/en active Application Filing
- 2008-10-06 US US12/682,210 patent/US20100229502A1/en not_active Abandoned
Patent Citations (10)
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US3864895A (en) * | 1973-02-26 | 1975-02-11 | Wright Machinery Company Inc | Multi-pack method and apparatus |
US6460312B1 (en) * | 1999-04-07 | 2002-10-08 | Ishida Co., Ltd. | Packaging system with improved flow of articles |
US6726794B2 (en) * | 2001-03-15 | 2004-04-27 | Rudolph Foods Company, Inc. | Apparatus and method for producing a merchandiser and a pre-loaded merchandiser produced thereby |
US20040043882A1 (en) * | 2002-08-29 | 2004-03-04 | Ishida | Bag manufacturing and packaging apparatus |
US7093404B2 (en) * | 2002-08-29 | 2006-08-22 | Ishida Co., Ltd. | Bag manufacturing and packaging apparatus |
US20040168774A1 (en) * | 2003-02-28 | 2004-09-02 | Yukio Nakagawa | System for mounting products to a tape |
US7293591B2 (en) * | 2003-02-28 | 2007-11-13 | Ishida Co., Ltd. | System for mounting products to a tape |
US20040255554A1 (en) * | 2003-06-19 | 2004-12-23 | Ishida Co., Ltd. | Strip tape mounting device and bag manufacturing and packaging apparatus having the same |
US7003926B2 (en) * | 2003-06-19 | 2006-02-28 | Ishida Co., Ltd. | Strip tape mounting device and bag manufacturing and packaging apparatus having the same |
US20070261366A1 (en) * | 2006-05-15 | 2007-11-15 | Ishida Co., Ltd. | Strip-pack manufacturing apparatus |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20130180082A1 (en) * | 2011-07-17 | 2013-07-18 | Exopack Llc | Grip pads for packaging systems and related methods |
US11059617B1 (en) * | 2020-01-15 | 2021-07-13 | Ultrasource Llc | Hole cutter for thermoforming packaging machine and method of use |
US11104467B2 (en) * | 2020-01-15 | 2021-08-31 | Ultrasource Llc | Hole cutter for thermoforming packaging machine and method of use |
Also Published As
Publication number | Publication date |
---|---|
JP2009096532A (en) | 2009-05-07 |
CN101827753A (en) | 2010-09-08 |
WO2009051030A1 (en) | 2009-04-23 |
EP2213575A1 (en) | 2010-08-04 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
AS | Assignment |
Owner name: ISHIDA CO., LTD., JAPAN Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:IWAMOTO, YOSHIO;REEL/FRAME:024207/0520 Effective date: 20100325 |
|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |