DE3827498C1 - Method and device for delivering liquids of different or varying consistencies - Google Patents

Abstract

A metering device is provided for the metered delivery, e.g. of syrup or concentrate, especially for post-mixing drinks production in vending machines, which has two actuating pins which move in opposite directions in a pulsatory fashion at a high frequency and act transversely to the direction of flow on an elastically flexible wall region of a metering section which is bounded by inlet and outlet non-return valves and is permanently connected to a one-way supply container. The metering section is prestressed to increase the spring-up effect and has an internal displacement body, the size of the cross section of which can be selected and predetermined in dependence on the type of liquid, which displacement body also serves as an adjustment element for the length of stroke. Oscillations can be imparted via the metering section to the column of liquid to ensure the flowability of the latter.

Description

The invention relates to a method and a device for dispensing liquids different or varying consistency in precisely metered amounts and proportions regardless of fluctuations in viscosity and / or a pre- or flow pressure, in particular syrups or concentrates for mixing in water the production of drinks in vending machines or the like, with the features the preamble of claim 1 and claim 5.

Devices in which cyclical and pulsed operating devices act on an elastically or flexibly deformable element whose Cyclical volume changes lead to corresponding check valves Liquid is sucked in and expelled in a predetermined amount in many ways Versions known (see GB-PS 12 74 838, US-PS 39 87 775, US-PS 40 30 640, DE-OS 28 34 024, US-PS 27 72 817, US-PS 26 98 703, US-PS 26 89 530, US-PS 25 54 570, DE-PS 31 31 650 and DE-OS 32 43 319).

The device according to DE-PS 31 31 650 has gained practical importance primarily used for dosing coffee concentrates. This device can be permanently connected to a reservoir for the concentrate and points one through the central opening of an electromagnetic actuator  protruding tubular section in which by a folding element and two the ends of which are connected by rigid hollow cylindrical parts to a pump volume is limited. The two hollow cylindrical parts are in operation e.g. B. with the frequency of the local supply network in the axial direction moved relatively towards each other and apart, the stroke length and a front Clamping arrangement are adjustable so that the pump volume compared to the dispensed quantity is small and with a cycle frequency between 10 and 100 Hz is compressed. The pump volume is above one Check valve on the inlet side with the reservoir and on the outlet side with the Issuing agency connected. The dosing volume per stroke cannot be changed. A Changing the dispensed quantity is done by changing the number the impulses set per output process.

According to DE-OS 32 43 319, such a pulsating metering device be combined with one of the supply lines for the second liquid, e.g. B. water associated flow device, which the flowing Measures the amount of water per unit of time and an output signal proportional to it generated to e.g. B. the electromagnetic via a frequency modulation device To control the actuator of the metering device. Thereby the result is that not only the individual quantities are dosed reliably and precisely can be, but also the proportions in the mixture, namely regardless of the viscosity of the liquid and regardless of whether a Liquid or the other different prepress or flow pressures is subject to exist in a precisely predictable ratio.

Since the elasticity or the resilience of the bellows in the device after DE-PS 31 31 650 by itself for quick and reliable Resetting the dosing volume is not sufficient in all cases Provision supporting spring may be provided. Due to the impulsive Do.  sation with high frequency, the device can not only for a portion Production output z. B. portioned beverages of a predetermined amount be used, but also for the fluent output.

From DE-OS 28 34 024 it is also known the dosing volume as a hose to be provided with check valves on the inlet and outlet side and is permanently connected to the reservoir and cyclically on all sides by a hydraulic pinch device or one-sided between one Abutment and rotating pinch cams squeezed together like a peristaltic pump becomes.

The devices according to DE-PS 31 31 650 and DE-PS 28 34 024 are relatively expensive and also take up relatively large space. The price of this Dosing device only plays a comparative role when dosing coffee concentrates minor role, because with 1 liter of concentrate several hundred cups Coffee can be dispensed, making the relatively high price of the disposable packaging with an integral dosing device is negligible in some cases. For use with still or carbonated drinks, according to the so-called Postmix processes in vending machines are, however, are Dosing devices uneconomical because approx. B. for a cola drink of 200 cm³ 30 cm³ of cola syrup are required.

Another problem is that some liquids, especially protein ones Liquids exposed to significant changes in viscosity, e.g. B. through gel formation. It is known that gels formed by shaking or by Heat can be regressed. However, since the gels again quickly new, there is a one-time shaking or heating process Insert the disposable packaging in the machine to remove it Problem is not sufficient.  

Another problem is that of making different ones Different amounts of drinks from the syrups intended for this purpose are required will. A vending machine must therefore be programmed accordingly.

It is an object of the invention, a method and a metering device with the Features of the preamble of claim 1 and the preamble of Claim 5 to provide, in which the resilience of the wall of the Dosing section improved with little effort on the disposable container and Solution to the problems shown can be exploited.

This task is procedural and by the teaching of claim 1 the teaching of claim 5 solved according to the device.

In contrast to the function of the metering device according to DE-PS 31 31 650 the elastic pulse-like deformation takes place at a high frequency of the metering section transverse to the direction of flow of the liquid through the device, such as this e.g. B. is basically known from EP 01 29 131 A2. All known so far Proposals for radially acting peristaltic pumps, however, show that the Radial change in shape of the metering section with each pulse only in rough limits is reproducible, so that the metering accuracy z. B. in Comparison with the axially acting device according to DE-PS 31 31 650 low is. This applies in particular to liquids of high and varying viscosity or for liquids that tend to gel. Also known with the radial acting peristaltic pump-like devices high frequencies z. B. in height the frequency of conventional electrical supply networks not without significant loss achieve at the dosing accuracy.  

All of these problems are easily addressed through teaching according to the Invention overcome in that the spring-up of ver in the radial direction malleable wall area of the metering section in the manner indicated in is increased to a considerable extent. This can be done in particular according to the way Claim 2 take place.

It is particularly advantageous for the metering section over the largest part its axial length and its circumference under tension, in particular under Compression to be supported from the outside.

"Spring-up" in this area is the elastic Resilience of the metering section or wall areas of this metering section understood after a deformation in the original or rest position.

This externally imposed increase in spring-up makes it possible to use small material thicknesses for the metering section, which is the cost of device parts attached to the disposable container are further reduced.

Only by increasing the spring-up is an extraordinarily high accuracy and reproducibility of the volume change of the metering section during the delivery process guaranteed, even with very small volume changes per impulse. The requirement of sufficient radial resilience of the elastically deformable tubular metering section also addressed in EP 01 29 131 A2, there is to improve the Intake process of the pump, however, proposed an appropriate choice of material.  

In addition, it is known from this document (cf. claim 19), the metering section the pump only up to a part of the maximum possible path squeeze together.

The beneficial effect of axial tension in the tubular metering section on its resilience is described in DE-PS 8 00 805, the DE 26 01 831 A1 clarifies the occurrence of extensive or radial Tensions when axially stretching a tubular pump element; in however, both cases involve tensions caused by operational forces occur and not about biases.

It is well known to the person skilled in the art that a preloaded resilient element provides an increased useful power that Application of this measure to a tubular pump element, e.g. B. after EP 01 29 131 A2 or DE-PS 8 00 805 was evidenced by the state of the Technology has not yet been considered.

That with a constant pre-tensioning of the material of the dosing section Fearing material changes due to aging can occur when training as Disposable unit are neglected, since the dosing section only when in use is biased extensively in the manner indicated and the Aging negligible during the expected service life of this container is.

Another important advantage is the additional measures of the Claim 4 reached. With this design, the metering section can be one for Manufacture and handling are of reasonable size while being effective volume is significantly reduced by the displacement body. The Displacement body also serves in cooperation with those in the beverage car  maten arranged actuators for deforming the wall sections of the metering section, the extent of the radial inward movement thereof Limit actuators precisely on each stroke. By inserting of different displacement bodies of different transverse dimensions the effective length of the radial inward movement of each actuator and thus the wall sections of the metering section are precisely adjusted and adjusted Needs to be changed. This makes it possible with the same number of pulses per Dispensing process the different required for different drinks Program quantities of syrup or concentrate in the disposable unit, namely by installing a displacer from the type of syrup or the concentrate of coordinated cross-sectional dimensions. The actuators are preferably floating and in the radial direction cushioned so that it depends on the displacement body at the same frequency Can perform pump strokes of different effective lengths.

The actuator can be electromechanical, electromagnetic or work pneumatically.

Another significant advantage is z. B. tend to gel formation Liquids in that one proceeds according to claim 5. This will either gel formation is ruled out from the start or existing gels become reliable dissolved during delivery so that delivery quantities adulterated by gel formation are not to be feared.

The invention is described below with the aid of schematic drawings Embodiments explained in more detail.  

It shows

Fig. 1 is an axial section through the disposable unit of the associated part of the apparatus for performing the method according to the invention;

. Fig. 2 is an axial section through the the beverage machine or the like associated parts of the apparatus;

Fig. 3 shows a cross section through the device of Fig. 2 and

Fig. 4 in a similar representation as Fig. 3 shows a modified embodiment.

The device comprises a disposable storage container 1 for the liquid to be dosed. Only the lower end of the container is shown.

Integrally connected to the storage container 1 is a pipe section 2 with a flange 5 at its lower end, on which a check valve element 6 is arranged via spoke-like support elements, which in the closed position shown cooperates sealingly with an annular rib of the flange 5 . With the circumference of the flange 5 , a tubular metering section 11 made of elastically flexible material is tightly and permanently attached. This belongs to part 3 of the metering device, which is integrally connected to the storage container 1 . The lower edge of the metering section 11 is sealing and permanent with an outlet nozzle 7, 8 connected to an inner flange 9 , on which, as on the upper flange 5, a check valve 10 of appropriate design is held. A rigid displacement body 12 made of material which is neutral with respect to the liquid is arranged in the center of the metering section 11 and in the example shown is supported on the inner flange 9 via webs or the like. Alternatively or in addition to this, the displacement body 12 can also be supported on the upper flange 2 .

The part of the metering device that does not belong to the disposable unit is shown in FIG. 2 and designated by 4 . This part is e.g. B. permanently installed in the vending machine. It has a receptacle 15 , in which the dosing section 11 is received when the storage container 1 is inserted into the automatic vending machine, as is indicated by dashed lines. With its inner wall, the receptacle encloses the metering section 11 as far as possible over its entire axial length and over most of its circumference. Referring to FIG. 2, the receptacle 15 is formed in two parts to facilitate the engagement of the metering section 11, wherein the dividing plane 16 and the relative direction of movement of parts are indicated for opening the intake by the arrows 17.

The receptacle 15 is designed such that its inner surface radially prestresses the free area of the metering section 11 between its ends, preferably with compression. This can be done by changing the outline shape and / or by reducing the size of the cross-sectional area. This pretensioning of the metering section 11 significantly increases its spring-up. The position of the metering section after insertion into the receptacle is dashed in FIGS . 1 and 2 and designated 11 a in FIG. 1.

In the receptacle two actuating pins 19 , 20 are diametrically opposite, which in the radial direction, for. B. with the help of the - differently positionable and formable - biasing elements 21 are freely floating and whose rest or starting position can be seen from Fig. 2. In this position, the end face of the actuating pins lies loosely against compressed areas of the metering section. When an actuation pulse is applied, the two pins move with the elastic flexible wall areas of the metering section until they rest on the opposite surfaces of the displacement body 12 , which thus determines the extent of the radial inward movement.

The movement pulse can be generated by electromagnetic coils 22 as shown. However, electromechanical or pneumatic devices or the like can also be used for this. The frequency of the actuation pulses is preferably determined by the frequency of the normal supply network. It may be expedient to ensure a phase adjustment by means 23 , so that the actuation pins 19, 20 move in opposite directions in exactly synchronous fashion. The control is carried out by a device 24 which is connected on the one hand to the supply network and on the other hand is controlled by a pulse generator 25 which, for. B. is triggered by a mass flow meter, which is assigned a flow line for the second liquid (see. DE-OS 32 43 319).

The deformation pulses for the metering section are indicated in FIG. 1 by the double arrows 13 and 14 .

The volume change in the metering section with each pulse can be extraordinary be small and z. B. are well below 0.4 cm³, even below 0.1 cm³.

Parts 1, 2 and 3 can be used to introduce vibrations of sufficient extent and frequency into the liquid column in parts 1, 2 and 3 via the metering section 11 in order to exclude gel formation in this liquid column or, if gels are already present, to reliably dissolve them. For this purpose, a separate vibration device could be provided in the drinks machine, which acts on a surface of the metering section when the disposable unit is inserted and introduces the desired vibrations via a vibration element. However, the actuating pins or fingers 19 and 20 are preferably used for this. In the dispensing pauses, these can either be separately and cyclically set into fine vibrations which prevent liquid from escaping from the metering section, but which initiate the desired vibrations into the liquid. In most cases, the oscillation of the elements 19 and 20 , which begins with a dispensing process, is sufficient to dissolve even existing gels so quickly that a correct dosage is possible.

Instead of the symmetrical structure according to FIG. 2, the arrangement of only one pin 19 with an actuating device can also be provided.

The desired increase in spring-up is essential for the exact dosage. What is essential for this is the secure, extensive prestressing, in particular compression, of the metering section 11 . For this purpose, it is expedient to prestress the metering section over its entire axial length and its entire circumference, as can be seen from FIG. 3. The two halves of the receptacle 15 are pivotable at 30 and releasably connected to one another at 31 . In the closed state shown, the metering section 11 is constricted without changing its outline shape by inwardly projecting regions 18 (see FIG. 2) of the receptacle, so that the size of its cross-sectional area is reduced accordingly. 11 with a contact surface of the receptacle on the cylindrical portion of the metering section 11 in height of the flanges is indicated 5 and 9, which corresponds to the diameter at rest. The actuating pins rest against the upset wall section 11 with slight prestressing. The displacement body 12 can have flattened areas or protruding or recessed areas which lie opposite the actuating fingers and interact with them as stroke limit stops.

In the embodiment according to FIG. 4, the compression of the metering section 40 is largely obtained by changing the cross-sectional geometry, which is determined by the special design of the inner surface of the receptacle 36 . With 41 the outline of the metering section 40 is indicated in the relaxed state. The actuating pins 42, 43 correspond to those in FIG. 3. The receptacle alone can consist of the part 36 . In this case, the cylindrical outline of the metering section is retained over a small part of the circumferential length. However, the insertion opening of the receptacle 36 is preferably closed by a corresponding cover part 37 , which also prestresses the area of the metering section facing the opening accordingly. The part 37 can be folded down according to the arrow 38 about a pivot axis 39 .

It can be seen that the displacement body 44 between the actuating pins has a substantially smaller cross-sectional dimension than the displacement body 12 according to FIG. 3. This means that the pins 42, 43 can cover a larger inward path until they come into contact with the displacer and, given the otherwise identical dimensions, thus displace a correspondingly larger volume with each inward movement. With 40 a the system of the metering section is shown on the displacement body at the end of the inward movement of the pins. The unit designated 35 in FIG. 4, like the unit 15 according to FIG. 3, is permanently installed in the drinks machine.

Size and shape of the sinker in levels and areas that are not considered Limit stops for the actuators can be used in particular Dimensions are adjusted to obtain certain or optimal conditions. So the displacement body can cross the interior of the metering section to the direction of movement completely spanning the actuators and an essential Occupy part of the axial length so that two essentially separate,  variable partial volumes are created by the impulses. The displacement body can also the volume of the metering section that can be filled by the liquid reduce so that the movement of the flexible wall sections directly changeable volume is particularly large.

The desired circumferential preload of the metering section can also be achieved by axial elongation or section tension can be obtained. In addition, the tubular metering section one or two at a mutual distance have arranged shoulder or peripheral flange sections, which when inserted into the receptacle for contact with a counter shoulder or for engaging in a groove the recording. The recording is designed so that when Close the intake of the area of the metering section between the shoulders is stretched or stretched elastically in the axial direction. The diameter decrease in some areas. The recording is the same in this case formed that the metering section in its elastically stretched and biased Condition over a large area or preferably over the entire area Walls of the recording is supported.

Claims (17)

1. Method for dispensing liquids of different or varying consistency in precisely metered quantities and proportions, regardless of fluctuations in viscosity and / or a pre-or flow pressure, in particular syrups or concentrates for mixing water in the manufacture of drinks in vending machines or the like. , in which from a disposable storage container for the liquid with an integrally connected tubular metering section via pulse-like deformation of a relatively high frequency of deformable wall areas of the metering section, the liquid is dispensed cyclically in small volume quantities in comparison to the metered volume to be dispensed via check valves, thereby characterized in that the spring-up of the wall region of the metering section, which is deformable in the radial direction, is increased by extensively prestressing the metering section so that syrups and concentrates of high viscosity with high frequency vo can be dosed precisely to the lumen. 2. The method according to claim 1, characterized in that the wall area the metering section is biased by radial upsetting. 3. The method according to claim 1, characterized in that the wall area the metering section is biased by axial stretching or stretching. 4. The method according to claim 1, 2 or 3, characterized in that the Dosing section over its length and circumference essentially over the entire surface is supported in the tensioned state by rigid surfaces from the outside.   5. The method according to any one of claims 1 to 4, characterized in that the effective dosing volume by inserting a displacer of predetermined cross-sectional dimensions in the metering section and the radial inward movement by means of the displacement section of or each wall region deformable in the radial direction Dosing section is limited adjustable. 6. The method according to any one of claims 1 to 5, characterized in that that in the liquid column over the or the deformable in the radial direction Wall areas vibrations of such frequency and strength be initiated that gel formation is prevented or already gels that have formed can be dissolved again. 7. The method according to any one of claims 1 to 6, characterized in that that the effective dosing volume in relation to such a small value is limited to the amount of liquid to be dispensed that the influence of one or a few less radial deformation movements of the or each Wall area of the metering section more or less on the metering accuracy the amount of liquid to be dispensed can be neglected. 8. Device for carrying out the method according to one of claims 1 to 7, consisting of a disposable storage container for the liquid and an integrally connected tubular metering section with at least one deformable wall area and each an inlet and outlet-side check valve for metered delivery of the liquid and a with a - related to the unit of time - high frequency operating actuator, z. B. in the drinks machine for pulsing the flexible wall area or areas of the metering section, characterized by the following features:

• a) the tubular metering section ( 11 ) is held in the use position of the disposable storage container ( 1 ) under circumferential preload in a receptacle ( 15 ) of the actuating device ( 4 ), the cross-sectional shape and / or cross-sectional size changing compared to the relaxed state of the metering section;
• b) in the metering section ( 11 ) a shape-retaining displacement body ( 12 ) is arranged, by means of which the effective metering volume of the metering section can be limited to a value which is very small in comparison to the volumes to be dispensed;
• c) the actuating device ( 4 ) has an actuating element ( 19, 20 ) which can be moved approximately radially to a wall section of the circumferentially prestressed metering section ( 11 ) and with which the displacement body ( 12 ) interacts as a movement limiting stop;
• d) a device ( 11, 19, 20 ) is provided for introducing vibrations into the liquid column.

9. The device according to claim 8, characterized in that the metering section ( 11 ) in the receptacle ( 15 ) is biased circumferentially by radial upsetting. 10.The device according to claim 8, characterized in that the metering section ( 11 ) in the receptacle ( 15 ) is biased by axial stretching. 11. Device according to one of claims 8 to 10, characterized in that the actuating device ( 4 ) has two diametrically opposed, synchronously counter-clockwise movable actuating elements ( 19, 20 ) through corresponding windows in the receptacle ( 15 ) on wall areas wants to attack the metering section ( 11 ) and interact with the displacement body ( 12 ) serving as a movement limiting section. 12. Device according to one of claims 8 to 11, characterized in that for adjusting the metered liquid volume per actuation pulse one of several displacers ( 12 ) in the direction of movement of the or each actuating element ( 19, 20 ) different transverse dimensions in the metering section ( 11 ) is provided is. 13. The apparatus according to claim 8, characterized in that at least one flexible wall area of the metering section ( 11 ) can be set into vibrations in the radial direction for the introduction of vibrations into the liquid column. 14. The apparatus according to claim 13, characterized in that at least one of the actuating elements ( 19, 20 ) is used for the oscillatory movement of the flexible wall region of the metering section. 15. Device according to one of claims 8 to 14, characterized in that the receptacle ( 15 ) is a rigid housing which the metering section ( 11 ) over its axial length and over at least three quarters of its circumference with the exception of the windows for the passage of the or includes each actuating element ( 19, 20 ) over the entire area. 16. The apparatus according to claim 15, characterized in that the receptacle ( 15 ) is formed from two or more parts and these parts for receiving the metering section ( 11 ) between an open position and one for biasing the metering section ( 11 ), and thereby the metering section are essentially movable over the entire circumferential length including the closed position. 17. The device according to one or more of claims 8 to 16, characterized in that the or each actuating element ( 19, 20 ) is guided freely floating in the radial direction under elastic bias ( 21 ) so that its radial stroke length under the effect of the same Actuation pulse is determined solely by the dimension of the displacement body ( 12 ) arranged in each case in the metering section ( 11 ).