CN102737955A - Semiconductor processing device - Google Patents

Abstract

Disclosed in the invention is a semiconductor processing device, which comprises a micro chamber that is used for tightly accommodating and processing a semiconductor wafer. Specifically, the micro chamber includes an upper chamber portion forming an upper working surface and/or an upper peripheral portion as well as a lower chamber portion forming a lower working surface and/or a lower peripheral portion, wherein corresponding column holes are arranged at edges of the upper chamber portion and the lower chamber portion. And one of the upper chamber portion and the lower chamber portion can be moved between an opening position for loading and/or removing the semiconductor wafer and a closing position for tightly accommodating the semiconductor wafer under the guidance of column devices penetrating the column holes. The disclosed semiconductor processing device employs improved column devices, the lower chamber portion and provides a balance correction device, so that good performances of corrosion resistance and easiness of maintenance and usage as well as functions of a chemical pretreatment solution leakage recovery mechanism and planarization correction and the like are realized.

Description

A kind of semiconductor processing device

[technical field]

The present invention relates to the field of surface treatment of semiconductor crystal wafer or similar workpiece, particularly a kind ofly be used for the chemical treatment semiconductor wafer surface, and the device of cleaning, etching and other processing.

[background technology]

Wafer is to produce the used carrier of integrated circuit.In actual production, need the wafer of preparation to have smooth, ultra clean Surface; And the existing method that is used to prepare ultra clean wafer surface can be divided into two kinds: such as the wet treatment process of submergence and spraying technique, and such as the dry process process based on chemical gaseous phase and plasma technology.Wherein wet treatment process is that prior art adopts method comparatively widely, and the wet treatment process generally includes a succession of step groups that adopts suitable chemical solution submergence or spray wafer and becomes.

Comprise a kind of device that adopts the wet treatment process wafer to be surpassed clean in the prior art.Be formed with in this device one can closely receive and handle semiconductor crystal wafer micro chamber; This micro chamber can be in open mode for loading and removing semiconductor crystal wafer; Also can be in closed condition to be used for the processing of semiconductor crystal wafer, wherein can chemicals and other fluids be introduced said micro chamber in the processing procedure.Said open mode and closed condition drive the relatively moving of upper and lower two working faces that constitutes said micro chamber respectively by two drive units that comprise in this device and realize.

But find in actual use; Also there is following shortcoming in said apparatus: first; The structure that drives upper and lower two working faces that constitute said micro chamber respectively by two drive units in the said device is comparatively complicated, if adopt a drive unit drive said micro chamber last working face or under working face also can reach effect same; The second, for the semiconductor crystal wafer of different size, need change the micro chamber assembly of corresponding different size during processing, need entire machine be taken apart when changing this micro chamber assembly, very inconvenient; The 3rd, when pipeline generation chemicals poorly sealed when micro chamber or the circulation chemicals was revealed, leakage collection mechanism relevant in the said device was perfect inadequately; The 4th; When relatively moving, said upper and lower two working faces rely on some metal upright posts that run through said upper and lower two working surfaces to accomplish; The high temperature that said column is produced in the chemical treating process easily and/or corrosive gas corrode and damage; And existing each assembly that is socketed in the working face up and down on the said column is welded to each other together, can't dismantle dismounting inconvenience separately.

Therefore be necessary to provide a kind of new solution to solve the problems referred to above.

[summary of the invention]

The object of the present invention is to provide a kind of semiconductor processing device; Said semiconductor processing device has more simple Drive Structure, can change the micro chamber assembly more simply, has can effectively collect the structure of revealing chemicals and have replaceable, corrosion-resistant and resistant to elevated temperatures stand column device.

According to the object of the invention; The present invention provides a kind of semiconductor processing device; Said semiconductor processing device comprises that one is used for closely holding and handling the micro chamber of semiconductor crystal wafer; Said micro chamber comprises the portion of upper chamber of form going up working surface and/or upper periphery part and the lower chambers portion that forms working surface down and/or following peripheral part; The edge of portion of said upper chamber and lower chambers portion comprises corresponding hole, post position; In portion of said upper chamber and the said lower chambers portion one can along under the guiding of the stand column device that runs through hole, said post position one be used to load and/or remove this semiconductor crystal wafer open position and be used for closely holding between the off-position of this semiconductor crystal wafer and move, said stand column device comprises column and the sleeve that is socketed in said column outer surface

When perhaps said lower chambers portion of portion of upper chamber is in the closed position; Semiconductor crystal wafer is installed on said going up between working surface and the following working surface; And be formed with the space that supplies the processing fluid to flow with the inwall of said micro chamber; Comprise in portion of said upper chamber and/or the said lower chambers portion that at least one supplies to handle inlet that fluid gets into said micro chamber and supplies to handle the outlet that fluid is discharged said micro chamber with at least one

Said lower chambers portion comprises the lower chambers plate and the following box device that holds said lower chambers plate that forms said working surface down and/or following peripheral part; Said box device down comprises the uncovered cavity of lateral opening; Said lower chambers plate slips into or shifts out said uncovered cavity from said lateral opening; The lower surface of said uncovered cavity is formed with diversion groove, and the outlet of said diversion groove is positioned at the said bottom or the lateral opening place of box device down

Comprise a smooth means for correcting simultaneously, provide and point to the inner pressure of micro chamber, make each several part and the space between the semiconductor crystal wafer of working surface of this chamber portion meet preset width in the chamber portion that cannot move.

Further; The inner surface of said sleeve fits tightly the outer surface socket in said column; Said column comprises cylindrical column, and the inner surface of said sleeve is the round tube wall corresponding to said cylindrical column, and the shape in hole, said post position and the cross section of said sleeve are peripheral to coincide.

Further, said cylindrical column adopts metal or alloy manufacturing, and said sleeve adopts the plastics manufacturing.

Further, said lower chambers plate comprise one coincide with the bottom of said uncovered cavity shape be positioned at the top on the said bottom, the upper surface on said top forms the following working surface and/or the following peripheral part of said micro chamber.

Further, the side of said uncovered cavity is formed with opening, and said uncovered cavity is formed with groove corresponding to the edge of the bottom of said lower chambers plate, and said lower chambers plate slips into or shift out said uncovered cavity from said lateral opening along said groove.

Further; Said semiconductor processing device also comprises a plug-in unit; The shape of said plug-in unit meets the shape of said lateral opening, after said lower chambers plate is loaded into said uncovered cavity, through said plug-in unit being inserted the fixing said lower chambers plate of said lateral opening in said uncovered cavity.

Further, said diversion groove comprises identical with the inclination mode, the mutual slope arranged side by side in several angles of inclination of the lower surface that is arranged in said uncovered cavity, and the sloping end of said slope is positioned at said lateral opening place.

Further; The said chamber portion that cannot move comprises a working surface and the stress surface parallel with working surface; Include rigid material between said working surface and the stress surface; Said smooth means for correcting comprises the correcting plate that fits tightly with the stress surface that can not move chamber, is formed with the pressure apparatus that the one side that can fastening correcting plate makes correcting plate and said stress surface fit tightly in the part of correcting plate.

Further, the screw device that can fastening correcting plate correcting plate and said stress surface is fitted tightly that said pressure apparatus is included in that the quadrangle of said correcting plate becomes.

Further; Said smooth means for correcting also comprise with respect to said correcting plate parallel and with the top board of said correcting plate partial fixing; Be formed with the threaded perforations of some diverse locations in the on-fixed zone of said top board; Screw corresponding to said threaded perforations can screw in said threaded perforations and the another side of pressure in said correcting plate is provided, and the direction of said pressure is different with length and different according to the position that said screw screws in size.

Compared with prior art, advantage of the present invention comprise following some:

First; Semiconductor processing equipment of the present invention; Only need to use a drive unit drive said go up working face or down in the working face get final product; Not only make the present invention have more simple structure, the operation during more convenient user's installation and removal, balance correction module of the present invention can realize adjusting the planarization of micro chamber or the applying compactness between upper chamber's plate and the lower chambers plate simultaneously;

The second, the present invention adopts pullable following box device to hold the lower chambers plate, and the feasible mode of changing the said lower chambers plate of different size becomes simple and convenient;

The 3rd; The bottom surface of the following box device that the present invention adopts includes identical with the inclination mode, the mutual slope arranged side by side in several angles of inclination; Can be with the chemicals of revealing or other fluid collections in said a side or a place of box device down; Therefore the preparation or the fluid that only need a sensor to collect, simple in structure;

The 4th, the stand column device that the present invention adopts is divided into column and sleeve two parts, and said column has multistage stair-stepping cylindrical column, and is very convenient in the fixing and engaging of other assemblies; Said sleeve selects for use suitable material can realize high temperature resistant and corrosion resistant characteristic, and said sleeve be worn or corrode after be easy to change.

[description of drawings]

In conjunction with reference to accompanying drawing and ensuing detailed description, the present invention will be more readily understood, the structure member that wherein same Reference numeral is corresponding same, wherein:

Fig. 1 is the semiconductor processing device schematic perspective view in one embodiment among the present invention;

Fig. 2 is the semiconductor processing device front schematic view in one embodiment among the present invention;

Fig. 3 is the base plate schematic top plan view in one embodiment among the present invention;

Fig. 4 is first intermediate plate schematic perspective view in one embodiment among the present invention;

Fig. 5 is second intermediate plate reverse side schematic perspective view in one embodiment among the present invention;

Fig. 6 is the upper plate schematic top plan view in one embodiment among the present invention;

Fig. 7 is the following box device schematic perspective view in one embodiment among the present invention;

Fig. 8 for the lower chambers plate among the present invention in one embodiment with the said assembling sketch map of box device down;

Fig. 9 is the plug-in unit reverse side schematic perspective view in one embodiment among the present invention;

Figure 10 is the top box device schematic perspective view in one embodiment among the present invention;

Figure 11 is the top box device schematic top plan view in one embodiment among the present invention;

Figure 12 is the dividing plate schematic top plan view in one embodiment among the present invention;

Figure 13 is the column front elevational schematic in one embodiment among the present invention;

Figure 14 is the sleeve generalized section in one embodiment among the present invention;

Figure 15 is the correcting plate elevational schematic view in one embodiment among the present invention;

Figure 16 is the top board schematic perspective view in one embodiment among the present invention; With

Figure 17 carries out the work sketch map of smooth timing for adopting smooth correction module among the present invention.

[embodiment]

For make above-mentioned purpose of the present invention, feature and advantage can be more obviously understandable, below in conjunction with accompanying drawing and embodiment the present invention done further detailed explanation.

Please refer to Fig. 1 and Fig. 2, it shows schematic perspective view and the front schematic view of semiconductor processing device in an embodiment 100 among the present invention respectively.Simply, said semiconductor processing device 100 comprises smooth correction module 110, micro chamber module 120, driver module 130 and stand column device 140.Each assembly in said first three module is fixed, is supported or guided by four stand column device parallel to each other 140, and is respectively driver module 130, micro chamber module 120 and smooth correction module 110 from lower to upper along said stand column device 140.Wherein micro chamber module 120 comprises that one handles the micro chamber of semiconductor crystal wafer; Said micro chamber includes upper chamber's plate 122 and forms with lower chambers plate 126; Said upper chamber plate 122 is supported by top box device 124, and is fixed in said top box device 124 by the smooth correction module 110 that is positioned at its top; Correspondingly, said lower chambers plate 126 is by box device 128 supports down, and following box device 128 is supported and driven by the driver module that is positioned at its below 130 again.

Said driver module 130 can drive said box device 128 down and move with respect to said top box device 124 according to said stand column device 140 guidings; Need load and remove the semiconductor die bowlder with box lunch and can open or close top box device 124 and following box device 128, also promptly can open or close the micro chamber of upper chamber's plate 122 and 126 formation of lower chambers plate.When closing said micro chamber; Can chemical reagent and other fluids be introduced said micro chamber inside for the semiconductor crystal wafer in it being carried out chemical analysis, cleaning, etching and other processing; And after disposing, said chemical reagent and other fluids are drawn said micro chamber.

For the ease of describing the present invention; Said driver module 130 is at first described, said driver module 130 comprises base plate 132 from bottom to top successively, be positioned at the base plate top first intermediate plate 134, be positioned at second intermediate plate 136 of first intermediate plate, 134 tops and be positioned at the upper plate 138 of second intermediate plate, 136 tops.Also comprise a driver (not shown) in the cavity that forms by said base plate 132, first intermediate plate 134, second intermediate plate 136 and upper plate 138.When said driver produces actuating force upwards; Said second intermediate plate 136 and upper plate 138 can drive the following box device 128 and the lower chambers plate 126 that are positioned at said upper plate 138 tops along the guiding of said stand column device 140 and move up, and make said micro chamber accomplish the conversion from the open mode to the closed condition.

Fig. 3 is the schematic top plan view of said base plate 132 in an embodiment 300.The shape of said base plate 300 is square; And draw together hole, four post positions 302, and tighten together through first screw, 151 (see figure 2)s that are positioned at said base plate 300 belows that link to each other with said stand column device 140 and the bottom that is positioned at the said four root post devices 140 of said base plate 300 tops corresponding to said stand column device 140 at the tetra-pack of said base plate 300.Obviously, said base plate 300 and other plates plane of living in are all vertical with place, the axis of said stand column device 140 straight line.Said base plate 300 also includes the fin 304 that is positioned on said base plate 300 diagonal towards the one side of below.The cross section of said fin 304 is rectangular, and said fin 304 provides high-intensity support for said base plate.Said base plate 300 also comprise circular perforations 306 and two threaded perforations 308 near middle body, said circular perforations 306 is used to provide other equipment, pipeline or device; Said two threaded perforations 308 can be used for combining the below of the fixing said drivers of parts such as screw.On the other hand, four limits of said base plate 300 also are formed with the breach 309 of three rectangles arranged side by side respectively.

Fig. 4 is the schematic perspective view of said first intermediate plate 134 in an embodiment 400.The shape of said first intermediate plate 400 also is square; And in four jiaos of holes, four post positions 402 that comprise equally corresponding to said stand column device 140 of said first intermediate plate 400, and tighten together through first screw, 151 (see figure 1)s that are positioned at said base plate 300 belows that link to each other with said stand column device 140 and the bottom that is positioned at the said four root post devices 140 of said first intermediate plate 400 tops with said base plate 300.The one side that said first intermediate plate 400 makes progress, be formed with first barrel 404 of circle that volume is slightly larger than driver size to extend to hold said driver perpendicular to the direction on plane, said first intermediate plate, 400 place.Said first intermediate plate 400 is also comprising circular perforations 406 and two threaded perforations 408 corresponding to said base plate 300 near middle body, said circular perforations 406 is used to provide other equipment, pipeline or device; Said two threaded perforations 408 can be used for combining the below of the fixing said drivers of parts such as screw.Four limits of said first intermediate plate 400 also are formed with the perforation 409 of three rectangles arranged side by side respectively.

Fig. 5 is the reverse side schematic perspective view of said second intermediate plate 136 in an embodiment 500.Said second intermediate plate 500 has the structure that is symmetrical in said first intermediate plate 400 basically.The tetra-pack of said second intermediate plate 500 is drawn together the hole, four post positions 502 corresponding to said stand column device 140, and this plate can be along the guiding of said stand column device 140 and upwards or move down.The downward one side of said second intermediate plate 500 (also i.e. the one side that makes progress in the diagram), be formed with second barrel 504 of circle that volume is slightly larger than driver size to extend to hold said driver perpendicular to the direction on plane, said second intermediate plate, 500 place.The diameter of said second barrel 504 should be slightly larger than or be slightly less than the diameter of first barrel 404 of said first intermediate plate 400, so that second intermediate plate 500 said second barrel 504 when first intermediate plate 400 moves can comprise or be embedded in said first barrel 404.Said second intermediate plate 500 is also comprising two threaded perforations 508 near middle body, said two threaded perforations 508 can be used for combining the top of the fixing said drivers of parts such as screw.Four limits of said second intermediate plate 500 of said second intermediate plate 500 also are formed with the perforation 509 of three rectangles arranged side by side respectively.

Fig. 6 is said upper plate 138 600 a schematic top plan view in one embodiment.The shape of said upper plate 600 is square corresponding to base plate 300, and the tetra-pack of said upper plate 600 is drawn together the hole, four post positions 602 corresponding to said stand column device 140, and said upper plate 600 can be along the guiding of said stand column device 140 and upwards or move down.The central authorities of said upper plate 600 also include two perforation 608 arranged side by side.Said perforation 608 can combine the top of the fixing said drivers of parts such as screw.Four limits of said upper plate 600 also are formed with the breach 609 of three rectangles arranged side by side respectively.

In sum; The columniform cavity that said base plate 132, first intermediate plate 134, second intermediate plate 136 and upper plate 138 form; Its inner space can accommodate driver, and said driver is a product comparatively ripe in the prior art, such as air impeller; Similarly, also can adopt other drivers such as Mechanical Driven, motorized motions or hydraulic-driven principle.But should recognize that when said driver produced actuating force upwards, 138 meetings were driven by the actuating force of said driver and move up said second intermediate plate 136 with upper plate; When said driver produced downward actuating force, said second intermediate plate 136 can be driven and move down with upper plate 138 by the actuating force of said driver and self gravitation.

Easy full of beard reaches, and in another embodiment, the said base plate 132 and first intermediate plate 134 can one-body molded making become a bottom plate; Said second intermediate plate 136 can combine to make with upper plate 138 becomes a top plate.That is to say that said drive unit 130 also is not limited to the embodiment that describes in the foregoing description, all can as long as can reach the execution mode of same or more excellent effect.

Micro chamber module 120 shown in Fig. 1 and Fig. 2 is then described.Said micro chamber module 120 comprises the top box device 124 of following box device 128, the lower chambers plate 126 by box device 128 supports down, dividing plate 125, dividing plate 125 tops and the upper chamber's plate 122 that is supported by top box device 124 from bottom to top successively.Said down box device 128 and the lower chambers plate 126 that supports by box device 128 down can be in the driving lower edge of said driver module 130 said stand column device 140 guiding and upwards or move down.The top box device 124 of said dividing plate 125, dividing plate 125 tops and the upper chamber's plate 122 common transfixions that supported by top box device 124 are carried out the summary inching of relevant planarization by said smooth correction module 110, only about this details hereinafter will detail.When said down box device 128 and the lower chambers plate 126 that supports by box device 128 down move up in the guiding of the said stand column device 140 in the driving lower edge of said driver module 130 and with said upper chamber plate 122 and top box device 124 closures after, will form micro chamber.

Fig. 7 is said box device 124 down 700 a schematic perspective view in one embodiment.It is that foursquare uncovered is box-like that the said shape of box device 700 down is the bottom surface substantially.Draw together hole, four post positions 702 at the said tetra-pack of box device 700 down corresponding to said stand column device 140.The bottom surface of said box device 700 down is thicker; And the one side with respect to top box device 124 includes three identical with the inclination mode, arranged side by side and identical slopes 704 of width in angle of inclination, comprises that here the bottom surface of slope is designed for chemical agent or other fluids of collecting the lower chambers plate water clock that is positioned at its top.By above-mentioned slope, chemicals or other fluids finally can flow to the sloping end of said slope 704.Cooperate this moment the device of diversion groove, hole, pipeline or the receiver at the sloping end 704 that is communicated with said slope and so on can collect this fluid again.

The sloping end 704 that will be appreciated that said odd number slope simultaneously towards box wall disappearance non-existent, and the inwall position that other three box walls 706 contact with said bottom surface is recessed to form a groove 707 to horizontal direction.Said lower chambers plate 128 can be via the box wall position of disappearance, along the said box device 700 down of the entering of groove 707 horizontal slips on other box walls 706 and by said bottom supporting.In like manner, when said lower chambers plate 128 is positioned at down box device 700, also can slide along said groove 707, said box device 700 down slides out from the box wall position of disappearance.Said four limits of box device 700 down also are formed with the breach 708 of rectangle respectively.

Please refer to Fig. 8, its show said lower chambers plate 128 in an embodiment 800 with the assembling sketch map of said down box device 700.Though said lower chambers plate 800 is generally one-body molded.The size of said bottom 820 and edge thickness correspond respectively to distance and the width of groove 707 between the box wall 706 of said down box device 700.So that said lower chambers plate 800 can slide along the groove on the box wall 706 of said box device 700 down 707.The upper surface 842 on said top 840 is the following working face of said micro chamber.

Will be appreciated that said lower chambers plate 800 adopts pullable mode to slip into or shift out, and can load easily and remove.Because the size of semiconductor crystal wafer is divided into 4 inches, 5 inches, 6 inches, 8 inches or the like specifications, adding man-hour need be according to the lower chambers plate of the wafer replacement coupling of different size.Simultaneously; When said lower chambers plate 800 slips into said time box device 700; Can also use a plug-in unit 160 (as shown in fig. 1) that it is sticked in the said box device down, the reverse side schematic perspective view of said plug-in unit 160 in an embodiment 900 has been shown in Fig. 9.The both sides of said plug-in unit 900 comprise the fin 902 corresponding with the groove of said down box device 700 707, the bottom of said plug-in unit 900 also promptly in the diagram above include corresponding to the convexity 904 of said even number slope and the depression 906 of odd number slope and construct with the bottom surface of the said box device 700 down of correspondence.Apparently, by the fixation of said plug-in unit 900, said lower chambers plate 800 can be fixed in the said box device 700 down.

Said upper chamber plate 122 includes the structure that is symmetrical in said lower chambers plate 800 substantially basically.Said upper chamber plate 122 comprises and is foursquare top and is discoidal bottom, and those skilled in the art is highly susceptible to thinking through Fig. 8 and to the structure of said upper chamber plate 122, so this paper omits the relevant sketch map of said upper chamber plate 122.Obviously, the diameter of the length of side on the foursquare top of said upper chamber plate 122 and said disc bottom can be identical or close with said lower chambers plate 800, and the lower surface of said bottom is the last working face of said micro chamber.Will be appreciated that, closed or when being close to when the last working face of the following working face of said lower chambers plate 800 and said upper chamber plate, wherein can form one be used for the holding semiconductor wafer cavity.

Figure 10 and Figure 11 show schematic perspective view and the upward view of said top box device 124 in an embodiment 1000 respectively.It is box-packed for foursquare uncovered that the shape of said top box device 1000 is substantially the bottom.Four jiaos of said top box device 1000 have the circular cavity 1040 that includes the bottom that is slightly larger than said upper chamber plate corresponding to the middle body of the 1020 said bottoms, hole, post position of said stand column device 140 respectively, and said circular cavity 1040 includes the circumference fin 1042 that extends said bottom downwards.And by the box-like space that the top with said upper chamber plate 122 that comprises three box walls 1060 matches, the structure of said upper chamber plate 122 can be closely held in formation.By this structure, said upper chamber plate 122 can by said top box device 1000 stable support.

Figure 12 shows the schematic top plan view of said dividing plate 125 in an embodiment 1200.The shape of said dividing plate 1200 is square, and draws together the hole, four post positions 1220 corresponding to said stand column device 140 at the tetra-pack of said dividing plate 1200.The middle body of said dividing plate 1200 includes the circumferential notch 1240 of the circumference fin 1042 that can closely receive top box device 1000.The main effect of said dividing plate 1200 is support level top box devices 1000 and the upper chamber's plate 122 that is contained in the said top box device 1000 of side on it.Four limits of said dividing plate 1200 also are formed with the breach 1260 of rectangle respectively, and said breach 1260 can be used to hold pipeline and other elements such as valve, flow governor, sensor are installed.In one embodiment, said dividing plate 1200 can adopt stainless steel material to make.

In order to further describe the position relation of above-mentioned each plate and said stand column device 140.Please at first with reference to Figure 13 and Figure 14, it shows column and corresponding front elevational schematic and the generalized section of sleeve in an embodiment 1300 that comprises in the stand column device 140 respectively.Said column 1320 comprises that thinner columniform first middle part 1323 of diameter the thinnest columniform top 1321, diameter, columniform second middle part 1325 and the cross section that diameter is thicker are hexagonal bottom 1327, and the top outer surface on said top 1321 also comprises the first screw thread (not shown) of predetermined length.The end outer surface that said first middle part 1323 is close to said top 1321 also comprises the second screw thread (not shown) of predetermined length; The end outer surface that said second middle part 1325 is close to said hexagonal bottom 1327 also comprises the 3rd screw thread (not shown) of predetermined length, and the bottom 1327 of said column 1420 screwed hole 1329 that also extended internally along the axis of said column 1320.The internal diameter r of said sleeve 1340 is slightly larger than or equals the diameter at second middle part 1325 of said column 1320, and the length of said sleeve 1340 is identical with the length at said second middle part 1325.Also promptly be assembled into stand column device 140 when said sleeve 1340 is enclosed within 1320 last times of said column, this moment is please in the lump with reference to figure 1 and Fig. 2.After said sleeve 1340 and column 1320 are assembled; The internal diameter or the beeline in the cross section of said stand column device 140 diminish from down to up successively, also are the external diameter on external diameter＞top 1321 at external diameter＞first middle part 1323 at internal diameter r＞second middle part 1325 of external diameter R＞sleeve 1340 of beeline＞sleeve 1340 in the cross section of said bottom 1327.In one embodiment; Said first intermediate plate 134 can also be installed on the column bottom 1327 with base plate 132; Hole, the post position internal diameter of first intermediate plate 134 and base plate 132 is slightly larger than the external diameter at second middle part 1325 of said column 1320, cooperates the 3rd nut corresponding to said the 3rd screw thread can said first intermediate plate 134 and base plate be fixed between the 3rd nut and the column bottom 1327.Hole, the post position internal diameter of said second intermediate plate 136, upper plate 138 and following box device 128 is slightly larger than the external diameter of said sleeve 1340; Also be that the hole, post position of said second intermediate plate 136, upper plate 138 and following box device 128 can hold said sleeve 1340 and be positioned at the second inner middle part 1325 of sleeve 1340; And the height of said down box device 128 can not surpass the upper edge of said second middle part 1325 or said sleeve 1340, this moment said second intermediate plate 136, upper plate 138 and following box device 128 can be in the driving lower edge of driver said sleeve 1340 and 1325 at second middle parts being positioned at sleeve 1340 inside move up and down.Said dividing plate 125 is positioned at more than the top edge of said second middle part 1325 or said sleeve 1340 with top box device 124, and hole, the post position internal diameter of said dividing plate 125 and top box device 124 is slightly larger than the diameter at said first middle part 1323 but is not more than the external diameter at said second middle part 1325.The lower surface that also is said dividing plate 125 can support by the top edge of said second middle part 1325 and said sleeve 1340 and can not move down.On the other hand, said smooth correction module 110 comprises correcting plate 114 that is positioned at upper chamber's plate 122 tops and the top board 112 that is positioned at correcting plate 114 tops.Four jiaos of holes, post position that also include corresponding to said stand column device 140 of said correcting plate 114; The internal diameter in hole, said post position is slightly larger than the diameter at said first middle part 1323; Because to be positioned at said upper chamber plate 122 tops also is top box device 124 tops to said correcting plate 114, thus cooperate corresponding to second nut 154 of said second screw thread can top edge with correcting plate 114, top box device 124, dividing plate 125 fastening and said second nuts 154 and said second middle part 1325 and said sleeve 1340 between.And the internal diameter in the hole, post position that the tetra-pack of top board 112 contains is slightly larger than the diameter on said column top 1321 and less than the diameter at said first middle part 1323, can said top board 112 be anchored between the top edge at said first nut 153 and said first middle part 1323 (nut 153 with nut 154 shown in Figure 17) so cooperate corresponding to first nut 153 of said first screw thread.Especially, said column 1320 can adopt metal or alloy cutting or casting to make, and said sleeve 1340 adopts corrosion-resistant, the exotic material such as plastics to make.

In order to further describe said smooth means for correcting 110, please refer to Figure 15, Figure 16 and Figure 17.Figure 15 shows the elevational schematic view of correcting plate 114 in an embodiment 1500 among the present invention.As previously mentioned, the tetra-pack of said correcting plate 1500 contains the hole, post position 1520 that internal diameter is slightly larger than the diameter at said column second middle part 1325.The one side of said correcting plate 1500 towards the below is smooth one side (also promptly illustrating face), and said correcting plate 1500 also includes the fin 1540 that is positioned on said correcting plate 1500 diagonal towards the one side of top, and the cross section of said fin 1540 is rectangular.The one side of said correcting plate 1500 towards the below fits tightly in the upper surface of said upper chamber plate 122; And said correcting plate 1500 towards four jiaos of the top by fastening and produce downward pressure corresponding to 154 on second nut of second screw thread, force said upper chamber plate 122 closely to be contained in the said top box device 124.On the other hand, middle part, four limits of said correcting plate 1500 all includes elongated strip shaped perforation 1560, can be used to hold pipeline and other elements are installed.

Figure 16 shows top board 112 1600 the schematic perspective view in one embodiment among the present invention.The tetra-pack of said top board 1600 contains internal diameter and is slightly larger than the diameter on said column top 1321 and less than the hole, post position 1620 of the diameter at said first middle part 1323, utilizes corresponding to first nut 153 of first screw thread and can said top board 1600 be anchored between the top edge at first middle part 1323 of said first nut 153 and said column.Also include the screwed hole 1640 of some same inner diameter on the diagonal of said top board 1600 and the opposite side mid point line.Screwed hole 1640 on the said diagonal is positioned at the fin 1540 on the diagonal equally corresponding to said correcting plate 1500.Can know in conjunction with Figure 17, behind the said top board 1600 of second screw, 152 screw-ins that adopts corresponding to said screwed hole 1540, can produce pressure the part of the correcting plate 1500 below being positioned at.Also promptly can produce different pressure to the diverse location of said correcting plate 1500 through different second screws 152 that screw in position and screw-in length; Can be through certain measurement means so that the pressure that the below of said correcting plate 1500 produces is not only with said upper chamber plate 122 fastening being contained in the top box device 124; And make the following working face of said upper chamber plate 122 have suitable shape; That is to say that the pressure that the space between the following working face of said upper chamber plate 122 and the pending semiconductor crystal wafer is provided by said correcting plate 1500 is regulated and met the requirement of treatment process.On the other hand, middle part, four limits of said top board 1600 all includes elongated strip shaped perforation 1660, can be used to hold pipeline and other elements are installed.

In sum; Said smooth means for correcting 110 can make the lower surface of said upper chamber plate 122 be in comparatively suitable stationary state, and said drive unit 130 can make the upper surface of said lower chambers plate 126 descend or rise and the micro chamber that makes the upper surface of lower surface and said lower chambers plate 126 of said upper chamber plate 122 form is in and opens or closed condition.Certainly; In order to obtain comparatively tight micro chamber; The lower surface of said upper chamber plate 122 and the upper surface of said lower chambers plate 126 can have corresponding applying or coupled structure, and the elements such as sealing O ring such as the rubber quality can also be adopted in the joint place of said upper chamber plate 122, top box device 124, lower chambers plate 126 and following box device 128.Simultaneously in order to make chemicals or other fluids can get into and discharge micro chamber, said upper chamber plate 122 and lower chambers plate 126 also should have the structure of microtubule and guiding gutter of hollow and so on.For example need make semiconductor crystal wafer when said micro chamber is inner, the inwall of semiconductor crystal wafer and said micro chamber is formed with the space that can supply the chemicals circulation, and the preset width in this space is usually between 0.01mm and 10mm.Part such as not describing in detail among above-mentioned these this paper is content well-known to those skilled in the art, this no longer tired stating.

In a concrete embodiment, the semiconductor processing device 100 in adopting the present invention is handled the semiconductor die bowlder, and processing procedure probably can be divided into following plurality of processes: chamber panel is changed process, smooth calibration process, chemical treating process.

Change process at chamber panel, can change the chamber panel of coupling according to the semiconductor die size that will handle.At first driver is produced downward actuating force and box device 128 and lower chambers plate 126 are descended, open or extract plug-in unit 160 then, more original lower chambers plate 126 is taken out along sliding in the navigation groove of said box device 128 down.Suitable said lower chambers plate 126 is packed into along sliding in the navigation groove of said box device 128 down, said plug-in unit 160 is installed so that said lower chambers plate 126 is fixed in the said box device 128 down.

At said smooth calibration phase, can proofread and correct the planarization of said upper chamber plate 122.At first give four jiaos of suitable pressure of said correcting plate 114, can tentatively regulate the planarization of said upper chamber plate 122 through second nut 154 of regulating four jiaos of said correcting plate 114 tops.The micro chamber of utilizing existing level measurement device again or observing closure state; According to measurement result or observed result; Cooperate a plurality of second installations of screw 152 on top board 112; Can accurately adjust the pressure distribution on the said correcting plate 122, thereby make said upper chamber plate 122 be in the comparatively state of according with process requirements.Certainly; In certain embodiments; Also possibly need to regulate the state that said upper chamber plate 122 is in certain inclination angle, with convenient semiconductor crystal wafer done corresponding processing, regulate the mode of said upper chamber plate 122 and can from foregoing description, associate at an easy rate this moment.

At chemical treating process; At first utilize said drive unit 130 that said micro chamber is closed; Again the microtubule through the hollow in the said upper chamber plate 122 with chemicals or other fluids introduce said micro chamber with the wafer to inside carry out such as analyze, processing the etching, then through pressure inside, such as the delivery of gas or gravity orders about said chemicals or other fluids are discharged via the microtubule or the structure within the guiding gutter of the hollow in the said lower chambers plate 126.This partial content is a content well-known to those skilled in the art.Especially; Because upper chamber's plate 122 need be considered such as the microtubule of hollow or the structure the guiding gutter when designing with lower chambers plate 126; Have various deformation and more complicated structure according to the said upper chamber of specific embodiment plate 122 and lower chambers plate 126; And not exclusively as among this paper for the description of upper chamber's plate 122 and lower chambers plate 126, so the relevant difference here should be as the factor that restricts protection scope of the present invention.

One of advantage of the present invention and bright spot are: suchlike semiconductor processing device in the prior art, adopt upper and lower two drive units to drive the structure of said upper chamber plate 122 and said lower chambers plate 126 respectively usually.And adopt smooth means for correcting 111 to substitute superposed drive unit of the prior art among the present invention, and make the present invention not only have more simple structure, also made things convenient for user's operation.

Another advantage of the present invention and bright spot are: suchlike semiconductor processing device in the prior art; In pending semiconductor die size not simultaneously; Need to put in order the table apparatus completely knocked down when upper chamber's plate 122 of replacing coupling and lower chambers plate 126, particularly the replacing of lower chambers plate 126 is loaded down with trivial details especially.And adopt pullable following box device 128 and supporting plug-in unit 160 to make the loading of said lower chambers plate 126 and the process that removes comparatively convenient among the present invention; Only need lower chambers plate 126 be pulled out along sliding in the navigation groove of said box device 128 down; Slip into said box device 128 down again after changing the suitable lower chambers plate 126 of size, and fix with plug-in unit 160 and all can.

Another advantage of the present invention and bright spot are: suchlike semiconductor processing device in the prior art; If in chemical treating process; The not tight or poorly sealed lattice of said micro chamber closure; And the situation about take place revealing and so on of the microtubule in the said lower chambers plate all possibly cause chemicals or other fluids to be leaked in the said box device down, and then possibly overflow whole semiconductor device when taking place.And the bottom surface of the following box device 128 that adopts among the present invention is not smooth; But include three identical with the inclination mode, arranged side by side and identical slopes of width in angle of inclination; By the structure that is similar to described in Fig. 7; Said box device 128 down can be collected in the chemicals of revealing one side or a place at the sloping end 704 of said slope; Cooperate the structure such as guiding gutter, pipeline, receiver just can collect the said chemicals that is leaked out again, and other position of avoiding said chemicals to flow to equipment is outward caused corrosion and is polluted.Simultaneously, only need reveal and collect side or collection place and a transducer is set just can accomplishes, when chemicals leaks, in time send signal whether having the chemicals leakage to monitor at said chemicals.

Another advantage of the present invention and bright spot are: suchlike semiconductor processing device in the prior art; Assembly such as stand column device 140 adopts integrated metal casting usually; And produce the gas that has corrosivity and/or high temperature sometimes owing to chemical pretreatment solution on the one hand in the said micro chamber of chemical treatment stage; When having, these can corrode said stand column device when corrosive gas touches the metal upright post surface, on the other hand owing to said box device down can cause mild wear to produce the contamination particle of containing metal composition to said stand column device in the process that rises and descend.。And the structure that the stand column device 140 that adopts among the present invention adopts column 1320 and sleeve 1340 to combine; Its central post 1320 can adopt integrated Metal Cutting or casting to form, and said sleeve 1340 can adopt corrosion-resistant and resistant to elevated temperatures material such as plastics.Even if wearing and tearing and corrosion take place said stand column device 140, only need to change said sleeve 1340 and get final product.

Describe from here simultaneously and can be easy to associate; Possibly all should adopt corrosion-resistant and resistant to elevated temperatures material with upper chamber's plate 122, top box device 124, lower chambers plate 126 and the following box device 128 that chemical reagent and other fluids directly contact, and other assemblies can adopt all integrated Metal Cutting or casting to form.

On the other hand, said column 1320 has multistage stair-stepping cylindrical column and bolt hole, only needs to cooperate corresponding screw and bolt just can very convenient other each assemblies fixing and being fastened on the said stand column device 140.

Above-mentioned explanation has fully disclosed embodiment of the present invention.It is pointed out that any change that technical staff's specific embodiments of the invention of being familiar with this field is done does not all break away from the scope of claims of the present invention.Correspondingly, the scope of claim of the present invention also is not limited only to said embodiment.

Claims (10)

1. semiconductor processing device is characterized in that it comprises:

Comprise a micro chamber that is used for closely holding and handling semiconductor crystal wafer; Said micro chamber comprises the portion of upper chamber of form going up working surface and/or upper periphery part and the lower chambers portion that forms working surface down and/or following peripheral part; The edge of portion of said upper chamber and lower chambers portion comprises corresponding hole, post position; In portion of said upper chamber and the said lower chambers portion one can be along between an open position and that is used to load and/or remove this semiconductor crystal wafer is used for closely holding the closed position of this semiconductor crystal wafer, moving under the guiding of the stand column device that runs through hole, said post position; Said stand column device comprises column and the sleeve that is socketed in said column outer surface

When perhaps said lower chambers portion of portion of upper chamber is in the closed position; Semiconductor crystal wafer is installed on said going up between working surface and the following working surface; And be formed with the space that supplies the processing fluid to flow with the inwall of said micro chamber; Comprise in portion of said upper chamber and/or the said lower chambers portion that at least one supplies to handle inlet that fluid gets into said micro chamber and supplies to handle the outlet that fluid is discharged said micro chamber with at least one

Said lower chambers portion comprises the lower chambers plate and the following box device that holds said lower chambers plate that forms said working surface down and/or following peripheral part; Said box device down comprises the uncovered cavity of lateral opening; Said lower chambers plate slips into or shifts out said uncovered cavity from said lateral opening; The lower surface of said uncovered cavity is formed with diversion groove, and the outlet of said diversion groove is positioned at the said bottom or the lateral opening place of box device down

Comprise a smooth means for correcting simultaneously, provide and point to the inner pressure of micro chamber, make each several part and the space between the semiconductor crystal wafer of working surface of this chamber portion meet preset width in the chamber portion that cannot move.

2. semiconductor processing device according to claim 1; It is characterized in that; The inner surface of said sleeve fits tightly the outer surface socket in said column; Said column comprises cylindrical column, and the inner surface of said sleeve is the round tube wall corresponding to said cylindrical column, and the shape in hole, said post position and the cross section of said sleeve are peripheral to coincide.

3. semiconductor processing device according to claim 2 is characterized in that, said cylindrical column adopts metal or alloy manufacturing, and said sleeve adopts the plastics manufacturing.

4. semiconductor processing device according to claim 1; It is characterized in that; Said lower chambers plate comprise one coincide with the bottom of said uncovered cavity shape be positioned at the top on the said bottom, the upper surface on said top forms the following working surface and/or the following peripheral part of said micro chamber.

5. semiconductor processing device according to claim 4; It is characterized in that; The side of said uncovered cavity is formed with opening; And said uncovered cavity is formed with groove corresponding to the edge of the bottom of said lower chambers plate, and said lower chambers plate slips into or shift out said uncovered cavity from said lateral opening along said groove.

6. semiconductor processing device according to claim 5; It is characterized in that; Said semiconductor processing device also comprises a plug-in unit; The shape of said plug-in unit meets the shape of said lateral opening, after said lower chambers plate is loaded into said uncovered cavity, through said plug-in unit being inserted the fixing said lower chambers plate of said lateral opening in said uncovered cavity.

7. semiconductor processing device according to claim 1; It is characterized in that; Said diversion groove comprises identical with the inclination mode, the mutual slope arranged side by side in several angles of inclination of the lower surface that is arranged in said uncovered cavity, and the sloping end of said slope is positioned at said lateral opening place.

8. semiconductor processing device according to claim 1; It is characterized in that; The said chamber portion that cannot move comprises a working surface and the stress surface parallel with working surface; Include rigid material between said working surface and the stress surface, said smooth means for correcting comprises the correcting plate that fits tightly with the stress surface that can not move chamber, is formed with the pressure apparatus that the one side that can fastening correcting plate makes correcting plate and said stress surface fit tightly in the part of correcting plate.

9. semiconductor processing device according to claim 8 is characterized in that, the screw device that can fastening correcting plate correcting plate and said stress surface is fitted tightly that said pressure apparatus is included in that the quadrangle of said correcting plate becomes.

10. semiconductor processing device according to claim 9; It is characterized in that; Said smooth means for correcting also comprise with respect to said correcting plate parallel and with the top board of said correcting plate partial fixing; Be formed with the threaded perforations of some diverse locations in the on-fixed zone of said top board; Screw corresponding to said threaded perforations can screw in said threaded perforations and the another side of pressure in said correcting plate is provided, and the direction of said pressure is different with length and different according to the position that said screw screws in size.

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