WO2005073677A1 - Closing and dosing device for a container for precisely dosing a liquid product to be dispensed, and dispensing method - Google Patents

Abstract

The invention relates to a closing and dosing device for a container comprising elastically deformable walls for precisely dosing a liquid product to be dispensed from said container. Said device consists of a measuring chamber that can be permanently or detachably fixed, can be closed by means of a closing cap, and can be supplied with a liquid product to be dispensed from the chamber by means of an inlet and an inlet channel, when the elastically deformable walls of the container are pressed together, the product to be dispensed reaching the measuring chamber by means of an outlet and suction opening. At least part of the measuring chamber housing (51) is embodied as a collecting chamber for the remains (59) of the product to be dispensed, said collecting chamber (59) being formed by means of a change in shape of at least part of the measuring chamber housing (51), and/or by means of a change in the position of the measuring chamber housing (51) in relation to the neck of the container (18), and/or by means of an inclined bottom of the elastically deformable container (18). The collecting chamber (51) is used to receive the remains (60) of the product to be dispensed adhering to the measuring chamber housing in the idle position (storage position) of the container (18).

Description

 Closure and dosing device for a container for the precise dosing of liquid donated goods as well as a removal procedure

TECHNICAL FIELD: The invention relates to a closure and dosing device for a container with elastically deformable walls for the precise dosing of liquid donation material from the same, consisting of a measuring space that can be permanently or removably fastened and can be closed with a cover cap, which can be closed by means of an inlet opening and an inlet channel with liquid Donated goods can be supplied from the container if the walls of the container are pressed together, as a result of which the donated goods reach the measuring space by means of an outlet and suction opening, according to the preamble of claim 1, and a removal method from a container according to the preamble of claim 9 ,

State of the art:

DE 10358251.7 describes several designs of riser metering devices from the prior art, in which a precise determination of different amounts of donated goods from one and the same measuring space should always be possible. This makes it possible, for example, to reduce the number of versions of the measuring room sizes, since 10 ml, 20 ml, etc. can also be precisely dosed from one and the same measuring room, which has a maximum volume of 50 ml, for example. However, it is to be regarded as a disadvantage that a long supply pipe (riser pipe) is usually necessary here in order to transport a donation in the direction of the measuring room. Thus, such a metering device is usually not suitable for inexpensive products, especially if they are offered in a high container, since such a supply pipe then increases the cost of the closure and metering system.

Another disadvantage is that when dispensing toxic substances an unnecessarily large amount of the substance escapes in many cases, which later has to be disposed of as special waste, for example. Thus, in many cases, simplified versions of the designs of the metering systems known from German patent application 103 58 251.7 are sufficient, which are above all less expensive to manufacture and more environmentally friendly, that is to say they are in vogue.

Technical task:

The present invention is based on the object of developing the devices known from the prior art for precise dosing of liquid donated goods in such a way that the disadvantages mentioned above can be completely or at least largely eliminated. Another object of the invention is that a removal process of the dosed liquids from the closure and dosing device according to the invention should be clear and easy to learn.

Disclosure of the invention and its advantages:

This object is achieved according to the invention in that, in the case of a closure and metering device of the type mentioned at the beginning, at least a part of the measuring chamber housing, the longitudinal axis of which extends at an angle a to the longitudinal axis of a container, is also designed as a collecting chamber for remnants of donated goods, this design of the collecting space by means of a change in shape of at least a part of the measuring space housing, and / or by changing the position of the measuring space housing in relation to the container neck of the container and / or by means of an obliquely designed bottom of the elastically deformable container, and that the collecting space is to be opened - Take from the donated goods adhering to the measuring room housing in a rest position (storage position) of a container.

Thus, a measuring space is integrated in a closure and dosing device, and thus its longitudinal axis, at an angle to the longitudinal axis of an elastically deformable container acting with it, in particular its opening, is to be arranged, with at least a part of the measuring space housing being so form or by means of an aid such as a support, etc. so against the bottom of the container, or by obliquely arranging the bottom of a container so It is to be positioned that after the container has been moved, including the closure and dosing device attached to it, into its storage position (rest position), a leak-proof collection area for the donated goods that flows down from the walls of the previously used measuring room forms, whereby its shape , Size and position are to be selected so that when the above-mentioned container is moved from its storage position to a dosing position, the donated goods that have previously accumulated always remain in the lower area of the measuring space, which is to be ensured according to the invention by means of a correspondingly adapted removal method, independently depending on whether a measuring room should only be removed precisely for a certain amount of donated goods, or whether different amounts of the donated goods can be precisely determined by means of a differential compensation module, a differential compensation tube or the like, in which the measuring room is first marked with an S donated goods are flooded above an outlet and suction opening, which is done by squeezing the walls of an essentially horizontally arranged container and that during pressure reduction in it, which is done by releasing the walls, the excess amount of the donated goods is returned to the container and its previously defined quantity remains in the measuring room and can now be brought out of it, for example by pouring, and that a quantity of donated goods already brought into the measuring room can be subsequently increased or reduced by means of a differential compensation module, a differential compensation tube or the like , and that in order to be able to reduce the number of designs of the closure and dosing devices even further, it is provided according to the invention that the cross section of their inlet opening is always quick and inexpensive to adapt to the viscosity of the dispensable item in each case, in in an inlet opening, if necessary, a corresponding reducer with a desired inner cross-section must be permanently attached. Furthermore, each of the embodiments of a closure and dosing device according to the invention must be able to be adequately sealed with an adapted closure cap if the dosing device is not used or if the meterable amount of a measuring room must be changed by means of a differential compensation module.

Important content of this invention is also the fact that all of the designs of the measuring rooms described in the invention can be combined as desired with all differential compensation modules, differential compensation tubes or the like known from German patent application 103 58 251.7, thereby increasing the overall advantages of the invention can be achieved, the respectively applicable, filling, adjustment and removal method according to the invention, depending on, also dependent on an optionally used differential compensation module or differential compensation tube.

In detail, the following filling, adjustment and removal procedure is to be used: a) if no metering compensation module or tube is used and only a predetermined amount of a donation should be precisely metered:

- The container must be held in such a position that the measuring room floor of the closure and dosing device attached to it remains as horizontal as possible as precisely as possible, - By exerting pressure on the elastic walls of the container, the measuring room is covered with a donated item up to the outlet. and flood the suction opening,

- by reducing the pressure on the walls of the container, the excess of the donated goods is sucked back into the container, - after the sucking back process has ended, the portion of the donated goods is poured out of the measuring room;

b) if a dosing compensation module or tube should be used and thus different amounts of a donation should be dosed: - a dosing compensation module is by means of a cover cap with drive opening or a dosing compensation tube is in each case corresponding to the dosed amount of a donation expedient to shift what can be read on a scale, - by exerting pressure on the elastic walls of the container, the measuring area is to be flooded with a donated item up to above the outlet and suction opening,

- by reducing the pressure on the walls of the container, the excess donated goods are sucked back into the container,

- After the suction process has ended, pour out the portion of the donated item from the measuring room.

An important feature of the invention is that regardless of what type of filling, adjusting and pouring out the donated goods from a measuring room and which version of the closure and dosing device according to the invention is used, the measuring room must always be permanently and unchangeably positioned in relation to the container connected to it that in the resting position of the container thus equipped, a sufficiently large donation residue collection area is always formed, its upper edge always ending below the edge of the measuring room and at such a distance from it, especially when dosing toxic substances, so that the donations collected there can be moved directly and in the shortest possible way into the measuring room without contaminating a cover cap, which is caused by such a shift of the container from its rest position to the filling position of the measurement room, in which the respective cover cap remains during the entire transfer time, must always remain above the floor of the measuring room.

It is thus achieved according to the invention that a dosing process of different amounts of donated goods from one and the same measuring room takes place precisely, contact with a donated goods being excluded when the dosing process is carried out properly and the donated goods are collected at such a place that at the top Described, expedient displacement of the measuring room from a rest position into a dosing position, these are always in the lower area of the measuring room and do not touch a cover area. Of course, it must be guaranteed according to the invention, if necessary, to change the cross section of the inlet channel as desired by means of a reducer in each of the above-described embodiments of the measuring rooms so that it is adapted to the viscosity of the donated goods, which is an important feature of the invention.

Thanks to the inventive formation, integration, design and the specific arrangement of a donation goods interception area within a measuring room, it is achieved that the donation goods residues adhering to the walls from the doses carried out previously are always taken into account in a subsequent dosing, regardless of whether the time in between is sufficient for the donated goods leftovers to fully accumulate in the donated goods leftovers collection room or not.

It is important that regardless of the shape and shape of the remaining part of a measuring room, its area, which forms a donation residue collection area, must be so large and shaped that the maximum amount of adhering donation residue, which is the case when dosing a maximum Amount of a donation, taking into account its maximum thickness, can be fully and leak-proof in the rest position of a container.

The residues of donated goods adhering in this way are to be taken into account to an appropriate degree when determining the measuring room volume, which is an important feature of the invention.

Here too, the invention provides that a respective displacement of the outlet and suction opening is provided either by means of a suitably coordinated threaded connection, which has a minimum length of 5 mm in each case on a riser section of a measuring chamber housing and in a differential compensation module coordinated with it must take place and that the shifting force by means of a turning process to the left or to the right of an inventive, with a centrally located opening, the must have at least one corner in its cross-section, provided cover cap, in which the drive and scale, which must be permanently and firmly connected to the differential compensation module, slide out or in into this opening until the desired marking opposite the surface of the Cover cap assumes a desired position, for this purpose the cover cap must first be placed on the drive and scale and laterally stored and guided on the edge of the measuring room, for example by means of an edge which partially protrudes into the measuring room or by means of a snap-in connection.

This invention makes it possible to effortlessly increase or decrease an amount of a donation already brought out into the measuring space by moving the position of an outlet and suction opening upwards by means of a drive and scale or by means of a fixing slide and then by exerting pressure a desired larger amount of donated goods can be determined on the elastic walls of the donation container.

Furthermore, this invention allows a quantity of donated goods already brought out into a measuring room to be reduced retrospectively if the latter has a differential compensation module or a differential compensation tube. This can be done in different ways. One of the preferred embodiments provides that the differential compensation module or differential compensation tube must first be moved to a new, lower and desired position. Then the container must be tilted until the assigned inlet opening is no longer supplied with the donated goods, but the tilting process may only take place until the donated goods do not emerge from the measuring room. Now compress the elastic walls of the container until at least part of the air in between escapes from the container. Then the pressure on the container walls has to be slowly reduced and at least part of the excess amount of the donated goods is sucked back into the container. Repeat the process if necessary. According to the invention, the amount of donated goods brought out, which is already in the measuring room must always be corrected in both directions, which is a very important feature of the invention.

This invention not only guarantees precisely metered quantities of a donation, but also the possibility of correcting it before the point at which it is removed from a measuring room, the displacement of a differential compensation module or a differential compensation tube and thus the respective outlet and suction opening in these actions, always only by means of an associated cover cap according to the invention or the like, in order to avoid transferring the donated goods to the hands or clothing.

The refinements of the invention also provide that a differential compensation module designed rigidly according to the invention is to be formed as a separate element. It is important that it winds up an inner tube-like section that guarantees a tight connection all the way to a cylindrical rigid riser section and, in its starting position - the differential compensation module is moved to the measuring chamber at most - forms a liquid-tight seal between the shut-off bolt and the sealing nest, while a differential compensation tube with a sealing arch forms a liquid-tight connection. If a measuring space is provided for dosing only a certain amount of the donated goods, the outlet and suction opening assigned to it must be able to be sealed by means of, for example, a cover space, which is to be integrated, for example, in a cover cap.

Furthermore, a collecting space for donated goods can be formed in that the bottom of a container interacting with the closure and dosing device has a bottom that runs obliquely to its longitudinal axis, the greater the inclination of the neck of the container, the greater the collecting space for the remaining donated goods.

According to the invention, a metering compensation tube can be produced as a separate element, or can be designed as a part integrated in the measuring chamber housing. Any combination of the individual features of the metering and closure device described above with one another is an important content of this invention.

According to the invention, it is provided that the closure and dosing device can be used both as a disposable item or as a reusable device, in which it can be connected to a container, for example by means of a thread. Thus, for example, only every tenth container can be equipped with it and the other containers can be closed with a simple, inexpensive cover cap.

Another important feature of the invention is that the number of versions of the dosing units can be reduced by up to 50% due to a significantly increased precision of the meterable amount of a donation.

Another important feature of the invention provides that, in all the embodiments described above or their combinations, it is possible to continue to use a part of the existing production forms of the current riser metering units after small adjustments, so that the introduction costs of this invention can be significantly reduced and thus the new versions can be offered inexpensively.

Another important feature of the invention is that the opening of a cover cap according to the invention must always be adapted to the cross-section of a drive and scale that is parallel or almost parallel over its entire active length in such a way that adequate coverage is provided of the measuring room, even if the drive and scale are partially or fully extended.

Furthermore, according to the invention it is achieved that, in the case of a differential compensation tube, which changes its position and thus the position of the outlet and suction opening in the measuring space by means of a joint, this does not always have to move into its end position before the measuring space is sealed by means of a cover cap if, for example, the cover cap is designed high enough and thus a fixed amount of a donation can also be dosed by people with partially disturbed motor skills.

Another important feature of the invention provides that one and the same version of a differential compensation module or a differential compensation tube can be combined with measuring chambers of different sizes and diameters, which can considerably reduce the number of versions, which is associated with financial advantages is.

Thus, with the invention, an inexpensive closure and metering device is created which can be used for almost all thin to viscous donated goods and is to be regarded as an alternative to the riser metering devices from patent application 103 58 251.7.

According to the invention, the accuracy of the dosed donated goods can be determined by the size of the diameter of a measuring room and also by the distance of an outlet and suction opening from the center of the measuring room, that is, the smaller the diameter of the measuring room and the closer the outlet to the center. and the suction opening is positioned, the more precisely the determined amount of the donated goods, the more parallel the level of the excess amount of the donated goods to the outlet and suction opening during the sucking back of the excess amount of the donated goods into a donation container, the greater the dosing accuracy that can also be achieved is an important feature of the invention.

The dosing method according to the invention can also be learned quickly, since after each arrangement of the container in such a way that the measuring chamber floor of a locking and dosing device or the like interacting with it is kept horizontal and quiet as far as possible during a dosing process by means of a If pressure is exerted on the elastic walls of the container, the previously adjusted measuring room is to be flooded with a donated item above the outlet and suction opening and while the container is being released, the excess amount of the donated goods is sucked back into the container. After this procedure has been completed, the precisely determined amount of donated goods can be removed from the measuring room in any manner.

It is also important that the inlet opening of a closure and metering device is positioned as close as possible to a wall of a container in order to guarantee the best possible emptying of the container.

Brief description of the drawings, in which:

1 shows a longitudinal section through a closure and metering device according to the invention with an open cover cap and container, from which only a predetermined amount of a donation can be precisely metered, with the filled measuring space, in a working position, FIG. 2 shows a longitudinal section through the closure known from FIG. and dosing device with a closed cover cap, these including the container being in a rest position; FIG. 3 the housing of a closure and dosing device together with the measuring space in longitudinal section; FIG. 4 a cover cap that interacts with a differential compensation module; in longitudinal section; FIG. 5 example one of many possible forms of a, in this case one-part differential compensation module, in longitudinal section, FIG. 6 shows a longitudinal section through a closure and metering device according to the invention with a differential compensation module, in which the dispensable quantity to be dispensed was determined and the hi it takes over a control function, including the container, in a working position, with this embodiment forming a collecting space (59) due to an oblique position of the bottom of a container, the position of which always corresponds to the course of the thread on the container neck, or vice versa FIG. 7 is to be coordinated a longitudinal section over the closure and metering device from FIG. 6, with the difference that the measuring chamber housing is by means of a support is held in such a position that when the container is moved to a rest position, a collecting space for donated goods remains

8 shows a closure and dosing device from FIG. 7, but in a rest position and with a collecting space for donated goods and

Figure 9 shows a closure and dosing device in longitudinal section, the different, dosable amounts of a donation can be achieved by means of a differential compensation tube, and in this figure it was clearly shown as a representative of all versions that the cross section of an inlet opening is always dependent on a reducer Donation thickness, can be corrected.

WAYS OF CARRYING OUT THE INVENTION:

Figure 1 shows a longitudinal section over a closure and dosing device according to the invention for simple dosing 48, with open cover cap 58 together with container 18, from which only a predetermined amount of a donation item 19 can be precisely dosed, with overfilled measuring space 17 up to level 50, which is caused by the Pressure was exerted on the elastic walls of the container 18, whereby during the pressure reduction arrow P this level goes back to the desired height 25 and thus the desired amount of the donated goods in the measuring room 17 is precisely fixed when this process is in a horizontal position of the measuring room floor 13, as detailed in the description. It is also clearly visible here that the cover cap 58 is to be fixed in the open position in such a position that it does not interfere with the removal of a portion of donated item 19 from the measuring space 17. Furthermore, the angle a is to be determined in such a way that a sufficiently large part of the measuring space 17 can take over the function of a collecting space 59, the larger the angle a, the larger the area that is converted into a collecting space 59. In this example, the cover cap 58 is shown as a separately producible element, which, however, is not a condition and thus also an embodiment where the cover cap 58 is produced in one operation with the measuring chamber housing 51 is subject to the protection of the invention. FIG. 2 shows the device 48 known from FIG. 1 with a closed cover cap 58 which closes the outlet and suction opening 6 in an airtight manner by means of a cover space 57, the closure and metering device 48 including the container 18 being in a rest position. In this position, the remnants of donated goods 60 which flow into the collecting chamber 59 after the donated goods portion 19 has been removed beforehand, the thicker the donated goods and / or the lower the ambient temperature, the greater the amount of donated goods remaining on the walls of a measuring room 17 are liable, which must always be taken into account when determining the size of the measuring room and that when the locking and dosing device 48 is relocated to the working position, care must be taken to ensure that the donated goods 60 previously collected always remain in the area of the measuring room floor 13 and the cover cap 58 contaminate as little as possible.

FIG. 3 shows the housing of a closure and metering device 49 together with the measuring space 17, which is prepared for cooperation with a differential compensation module 4. Here, the thread 2, the sealing nest 21, which is connected to the inlet channel 55 and which in turn ends with the inlet opening 54, can be clearly seen. The course of the thread of a threaded connection 62 is particularly important if this device 49 should later interact with a container with an inclined bottom. In FIG. 4, a cover cap 9 which interacts with a differential compensation module 4 is shown in longitudinal section, a snap-in connection 30 between the cover cap 9 and the measuring chamber housing 51 being recognizable.

Figure 5 shows an example of one of many possible forms of a, in this case one-piece differential compensation module 4, in longitudinal section. It is particularly important that the guide channel 7 remains airtight in the riser section channel 29 by means of the seal 28, regardless of its position opposite. The thread 3 must also be adapted to the thread 2 in such a way that there is no great scope for the later position of an outlet and suction opening 6 not to be defined precisely enough. Figure 6 shows a longitudinal section through a closure and dosing device 49 according to the invention with a differential compensation module 4 in the working position in which the dispensable quantity 19 to be dispensed has been determined and with the cover cap 9 attached, which here takes on a control function in which a shift by turning it to the left or to the right of the differential compensation module 4 is generated, including the container, in this embodiment a collecting space 59 is formed by an oblique position of the bottom of a container 18, the position of which must always be precisely coordinated with the course of the thread on the container neck, or vice versa

FIG. 7 shows a longitudinal section over the closure and metering device 49 from FIG. 6, with the difference that the measuring chamber housing 51 is held in a position by means of a support 20 such that when the container 18 is moved into a vertical rest position, A collecting room for donated goods 59 is created. The size of the collecting space 59 can be directly influenced by the length of the support 20, that is, the longer the support 20, the larger the collecting space 59, which is an important finding of the invention:

FIG. 8 shows a closure and metering device 49 from FIG. 7, but in a rest position and with a collecting space for donated goods 59, which is filled with the donated goods 60.

FIG. 9 shows a further variant of a closure and metering device 61, in longitudinal section and in a working position, but without donated goods, the different, meterable amounts of donated goods being able to be achieved by means of a differential compensation tube 31, and in this Figure was clearly shown as a representative of all previous explanations that the cross section of an inlet opening 54 can always be corrected by means of a reducer 56 or the like, depending on the respective thickness of the donated goods, which often results in the production of a new variant of a closure and metering device 48 , 49, 61 can be dispensed with, and what is connected with financial advantages. In this embodiment, too, of course, a cover cap is provided, for example with a spacer bolt, which in the here clearly recognizable eyelet can be inserted and thus moves the fixing slide 35 as desired. In this case, a collecting space is formed by an obliquely positioned bottom of the container 18.

In an embodiment according to the invention, the section of a measuring chamber housing facing the container neck thus has an inclination, depression or the like forming a collecting chamber. In a further embodiment according to the invention, the position of the measuring chamber housing is stabilized with respect to the container when a collecting space is formed by means of a support or the like. The inclined arrangement of the bottom can be such that the container never loses its stability in the rest position.

In a further embodiment of the invention, both the filling of a measuring space with donated goods and a subsequent sucking back of the excess donated goods from the measuring space always takes place by means of an inlet opening of an inlet channel and an outlet and suction opening, in particular if the device is provided for easy removal, whereby also otherwise guided guide channels and openings fulfilling the purpose of the invention are subject to the protection of this invention.

In a further embodiment of the invention, the measuring space has a sealing curvature or the like, the outlet and suction opening of a differential compensation tube being adapted to the dimensions of the sealing curvature in such a way that the differential compensation tube is always liquid-tight in the starting position.

In a further embodiment of the invention, the connection areas between an immovable riser section channel and a movably arranged guide channel are always sealed airtight, for example by means of a seal which must be guaranteed until the end of the applicability of a metering system. A desired adaptation of the cross section of an inlet channel can be carried out by means of a reducer. 9. In a further procedural embodiment of the invention for the portioned removal of a donation good from a container, this process is characterized in that if no differential compensation module or differential compensation tube is used and only a predetermined amount of a donation good is to be precisely metered, the It is necessary to move the container into such a position that the measuring chamber floor of the closure and metering device attached to it is kept as horizontal as possible as precisely as possible and the measuring chamber is to be flooded with a donated item above the outlet and suction opening by applying pressure to the elastic walls of the container , whereby the excess of the donated goods is sucked back into the container by reducing the pressure on the walls of the container, the portion of the donated goods being able to be removed from the measuring room after the sucking back process has ended.

In a further embodiment of the method, if a differential compensation module or differential compensation tube is used and thus different amounts of a donated item are to be dosed from one and the same measuring room, the dosing compensation module is used by means of a cover cap with a drive opening or a differential compensation tube is used by means of a fixing slide , each according to the metered amount of the donated goods, expediently shifted, which can be read on a scale, the measuring area being flooded with the donated goods to above the outlet and suction opening by exerting pressure on the walls of the container and by reducing the pressure on the walls of the containers Excess of the donated goods is sucked back into the container, the portion of the donated goods now being able to be removed from the measuring room after the sucking back process has ended.

11. In a further embodiment of the method for the subsequent correction of an amount of donated goods in the measuring chamber of the closure and dosing device, if a quantity of donated goods already brought out into the measuring room is to be subsequently reduced, a differential compensation module or a differential compensation tube is moved up or down , which can be done in different ways, first in the difference compensation module or Differential compensation tube is shifted to a new, lower desired position and then the container is tilted until the assigned inlet opening is no longer supplied with the donated goods, but the tilting process only takes place to such an extent that the donated goods do not emerge from the measuring room and by squeezing the walls of the container until at least some of the air in between escapes from the container and, by subsequently slowly reducing the pressure, at least a portion of the excess amount of the donated item is sucked back into the container, the process being repeated if necessary.

Industrial applicability:

The object of the invention is industrially applicable in the manufacture of closure and dosing devices, which are particularly intended for dosing inexpensive products.

List of reference numerals:

1. Riser pipe in the housing

2. Thread on the riser pipe section. 3. Thread in the differential compensation module

4. Differential compensation module

5. Connection pipe

6. Outlet and suction opening

7. Guide channel 8. Drive rod and scale

9. Cover cap with drive opening

10. Drive opening

11. angular cross section of a drive and scale

12. Shut-off bolt 13. Floor of the measuring room

14. Scale on a drive and scale

15. upper level of a cover cap in its working position

16. corrugated edge of a cover cap

17. Measuring room of a metering device 18. Elastic deformable container

19. Desired portion of donated goods in the measuring room

20. Support

21. Sealing nest

22nd axis of a container 23

24th axis of a measuring room

25. Level of a desired portion of donated goods

26. Donated goods in a container

27. Material-saving recess in a drive and scale 28. Sealing between the riser section channel and guide channel

29. Riser section channel

30. Snap connection between the measuring chamber housing and its cover cap 31. Differential compensation tube with an elastically deformable (kinkable) section

32. rigid section of the connecting pipe

33. Fastening area of a connecting pipe with a riser pipe section 35. Fixing slide

36. guide rail (s)

40. permanently attached scale on a stem

41. Sealing curvature on the riser tube 48.. Locking and dosing device for easy dosing

49. Closing and dosing device with differential compensation module

50th level of a flooded section of the measuring room

51. Measuring room housing 54. Inlet opening 55. Inlet duct

56. Reducer

57. Cover room

58. Cover cap

59. Collection area for donated goods 60. Donated goods

61. Closing and dosing device with differential compensation tube

62. Connection thread between a closure and dosing device and container neck a angle between a longitudinal axis of a measuring space and the longitudinal axis of a container x distance between the wall of an inlet opening and an inner wall of the container

Claims

claims:

1.Closing and dosing device for a container with elastically deformable walls for precise dosing of liquid donation material from the same, consisting of a measuring space that can be permanently or removably fastened and locked with a cover cap, which supplies liquid donation material from the container by means of an inlet opening and an inlet channel can be, if the elastically deformable walls are pressed together, whereby the donated material reaches the measuring space by means of an outlet and suction opening, characterized in that at least a part of the measuring space housing (51), the longitudinal axis (24) of which at an angle (a ) to the longitudinal axis of a container (22) must also be designed as a collecting space for donated goods (59), this design of the collecting space (59) by means of a change in shape of at least part of the measuring chamber housing (51), and / or by means of Change the position of the measuring room housing (51) ge compared to the container neck of a container (18) and / or by means of an obliquely designed bottom of an elastically deformable container (18), and that the collecting space (51) for receiving the donated goods adhering to the measuring space housing (51) 60), in a rest position (storage position) of a container (18).

2. Device according to claim 1, characterized in that, above all, the section of the measuring chamber housing (51) facing the container neck has an inclination, depression or the like forming a collecting chamber (59).

3. Device according to claim 1, characterized in that the position of the measuring chamber housing (51) is stabilized relative to the container (18) when a collecting chamber (59) is formed, by means of a support (20) or the like.

4. The device according to claim 1, characterized in that the inclined arrangement of the bottom is such that the container (18) never loses its stability in the rest position.

5. The device according to claim 1 to 4, characterized in that both the filling of a measuring space (17) with a donated good (26) and a subsequent sucking back the excess donated goods from the measuring space (17) always by means of an inlet opening (54), an inlet channel (55) and an outlet and suction opening (6) has to take place, in particular if the device (48) is provided for easy removal, and other guide channels and openings which are designed differently and which fulfill the purpose of the invention are protected Invention..

6. The device according to claim 1 to 5, characterized in that a measuring space (17) has a sealing curvature or the like (41) and that the outlet and suction opening (6) of a differential compensation tube (31) to adapt to the dimensioning tongues of the sealing curvature are that in the starting position of the differential compensation tube (31), this must always be liquid-tight in its starting position.

7. The device according to claim 1 to 6, characterized in that the connection areas between an immovable riser section channel (29) and a movably arranged guide channel (7) are always airtight, for example by means of a seal (28) which to the end of Applicability of a dosing system (48) must be guaranteed.

8. The device according to claim 1 to 7, characterized in that a desired adjustment of a cross section of an inlet channel (55) can be carried out by means of a reducer (56).

9. A method for portioned removal of a donation from a container by means of one of the aforementioned devices according to one or more of claims 1 to 8, characterized in that if no differential compensation module (4) or differential compensation tube (31) is used and only one should the predetermined amount of a donation be precisely metered, the container (18) must be moved into such a position that the measuring room floor (13) of the closure and To keep the dosing device (48) as horizontal as possible as precisely as possible and by exerting pressure on the elastic walls of the container (18), the measuring area is to be flooded with a donated item to above the outlet and suction opening (6) and by reducing the pressure on the container. Walls of the excess donated goods are sucked back into the container (18) and that after the end of the sucking back process the portion of the donated goods (19) can be removed from the measuring room (17).

10. The method according to claim 9, characterized in that when a differential compensation module (4) or differential compensation tube (31) is used and thus different amounts of a donation from one and the same measuring space (17) should be dosed by means of a cover cap ( 9) with the drive opening (10) the metering compensation module (4) or by means of a fixing slide (35) a differential compensation tube (31), each appropriately shifted according to the metered amount of a donation, which can be read on a scale and that by a Exerting pressure on elastic walls of the container (18), the measuring space (17) is to be flooded with a donated item to above the outlet and suction opening (6) and that by reducing the pressure on the container walls, the excess of the donated item is in the To suck the container back, and that after the end of the suck-back process, the portion of the donated goods is to be removed from the measuring room.

11. A method for the subsequent correction of an amount of donated goods in the measuring room of a closure and dosing device according to at least one of the preceding claims 9 or 10 or 9 and 10, characterized in that when an amount of donated goods (19) already brought out into a measuring room (17) is subsequently added should be reduced, a differential compensation module (4) or a differential compensation tube (31) should be moved up or down, whereby this can be done in different ways, in which the differential compensation module (4) is first or difference-compensation tube (31) is to be shifted into a new, deeper and desired position and then the container is to be tilted until the assigned inlet opening (54) no longer matches the Donated goods are supplied, but the tipping process only takes place to such an extent that the donated goods do not emerge from the measuring room (17) and by squeezing the container walls until at least some of the air in between escapes from the container (18) and then slowly withdrawing the At least part of the excess amount of the donated goods is sucked back into the container (18) under pressure and that, if necessary, the process must be repeated.