The present invention relates to a dispensing device for dispensing a liquid foodstuff product from a container, wherein a hose member of an elastic and resilient material is connectable with the container so that product can be made to flow from the container into the hose member, which is compressible in order to dispense product therefrom. The hose member is designed so as to regain, by its own resilience, an original shape after compression thereof. A check valve is arranged to close so as to prevent product, upon compressing the tube member, from flowing back into the container, and a discharge valve is arranged to open so as to allow dispensing of product from the hose member and close it when so done. The hose member is disposed in a tube member or the like, and a pressure means is provided for compressing side portions of the hose member in order to dispense product therefrom.
Known examples of dispensing devices are disclosed in WO 03/010085 A1 and US 2007/068966 A1. WO 03/010085 A1 discloses a handheld dispensing device with a housing that may be gripped in one hand for manually actuating a pump for dispensing substance out of one or more dispensing nozzles. US 2007/068966 A1 discloses a dispensing device using a peristaltic pump including a motor for dispensing food products.
A dispensing device of the type described above is known from the document U.S. Pat. No. 5,730,327. This known dispensing device has a hose member which you grip and compress by your hand to dispense the product contained therein. Since the hose member is more or less compressible and at different locations thereof, the quantity of product dispensed in each case may vary widely. This means that this known dispensing device cannot be used if it is desired to dispense precise quantities of product each time and at several consecutive instances. Additionally, it is a problem that the hose member must be thick-walled in order to withstand many and rapid compressions, which with respect to the manufacture and power requirement thereof may be disadvantageous.
The object of the present invention is to provide a dispensing device which by simple means eliminates these problems, and this is solved essentially in that the invention exhibits the characterizing features set forth in the appended claims.
In that the invention exhibits the said characteristics it is achieved that a predefined, exact quantity of product can be dispensed each time and also at several successive instances. Furthermore, the hose member can be designed with thin walls, thereby making it easy to compress for dispensing the product. In addition, the hose member gets the support necessary during dispensing and is thus in a completely protected position.
The dispensing device 1 shown in
The container 3 is positionable in a cup-shaped member 7 having a tube member 8, which is designed so as to allow insertion of the hose member 4 therein simultaneously with the container 3 being placed in the cup-shaped member 7. The tube member 8 has a pressure means 9 which can be imparted with a dispensing movement A into the tube member 8 in order to press in the side portions 4a of the hose member 4 into it and into the tube member 8 in a direction A1 towards opposite portions 8a of the tube member 8, the latter portions 8a constituting support for the hose member 4. By this compressing of the side portion 4a, the volume in the hose member 4 is reduced causing product 2 to be dispensed therefrom. In that the hose member 4 with essential portions of its circumference and essential portions of its length abuts against the tube member 8 it thus forms a support sleeve 10 for the hose member 4 at the dispensing of product 2.
The pressure means 9 is so arranged that it can be imparted with dispensing movements A with predetermined size A2 (see
To be able to compress the hose member 4 by the lowest possible compressive force on the pressure means 9, the said member can be pivotally mounted on the tube member 8 as a single-arm lever.
The pressure means 9 is also preferably arranged so that it can compress such side portions 4a of the hose member 4 that are closest to the check valve 5 farther into the tube member 8 than such portions of the hose member 4 that are closest to the discharge valve 6. Hereby it is facilitated that product 2 flows in direction P towards the discharge valve 6 and via this out of the hose member 4.
The tube member 8 has an oblong slot 11 extending in a longitudinal direction upwards along the same, and the pressure means 9 is oblong, extending along the slot 11 and being insertable therein in order to compress the side portions 4a of the hose member 4 in the tube member 8. The pressure means 9 is pivotably mounted at the tube member 8 below the slot 11, and thus it may be pivoted so that the side portions 4a within upper portions 11 a of the slot are pressed farther into the tube member 8 than the hose member 4 within lower portions of the slot 11b.
The hose member 4 is so flexibly formed that its compressed side portions 4a can spring back to an original shape, and thereby they can return the pressure means 9 from a compressed position C to its initial position B.
The tube member 8 may be designed as a handle which can be gripped by a hand, and the pressure means 9 may be arranged to be operated by the same hand. Furthermore, the pressure means 9 can preferably be snapped onto the tube member 8 so as to be pivotable in relation thereto. The hose member 4 and the tube member 8 may be conically tapered in the direction from the check valve 5 and the cup-shaped member 7, and the tube member 8 may be designed as a unit of the same material.
The cup-shaped member 7 may have a downwards directed portion 12 which downwardly passes into the tube member 8, the said downwards directed portion 12 being designed to allow that such portions 4b of the hose member 4, which exhibit the check valve 5, can be passed down into it.
The check valve 5 is disposed in an inlet portion 4b of the hose member 4 and it has an attachment part 14 in the form of a plate of the like, which engages with an annular groove 4c in the inlet portion 4b so that the attachment part 14 is fixedly attached thereto. The attachment part 14 has a tubular coupling part 16, extending through the attachment part 14 in an upwards direction therefrom, which has an inclined end edge and around which an inner side of the attachment part 14 forms a valve seat 5a for the check valve 5. The said valve has a valve body 5b of flexible material, which is disposed on the attachment part 14 so that it can interact with the valve seat 5a to close the check valve 5.
In the inlet portion 4b of the hose member 4 there may be support parts 8b to prevent the inlet portion 4b from expanding in radial directions when the pressure in the hose member is increased. This prevents leakage from arising between the attachment part 14 and the inlet portion 4b.
The discharge valve 6 may have an annular outer portion 6a and a number, for example three, of valve flaps 6b directed inwards towards each other and being arranged to abut against each other with inner edges in order to keep the discharge valve 6 closed. The outer portion 6a and the valve flaps 6b are preferably formed in one piece of a flexible material. The valve flaps 6b are designed so that they can be folded away almost completely in order to completely open the discharge valve 6 so that also large particles in the product 2 can pass out through the same. Furthermore, the valve flaps 6b are arranged to spring back to their original positions when the pressure in the hose member 4 stops so as to close the discharge valve 6.
The discharge valve 6 is designed such that the tube member 8, directly or via the hose member 4, grips its annular outer portion 6a so that the tube member 8 prevents the outer portion 6a from expanding in radial directions. Hereby it is ensured that the valve flaps 6b are sure to spring back to their valve-closing positions and are retained therein, whereby subsequent dripping from the hose member 4 is prevented.
A special embodiment of the pressure means 9 can be configured to dispense a specific quantity of product 2 from the hose member 4, and such a pressure means 9 may be interchangeable with another pressure means 9 of another embodiment to dispense a different amount of product 2. In combination therewith, or as alternative thereto, the position of a pressure means 9 on the tube member 8 can be changed so as to achieve the same purpose.
In the embodiment of the container 3 shown in
In order to dispense product 2 from a container 3, the container is first placed on a support, and the hose member 4 is connected thereto by pressing the coupling part 16 through the wall portion of the container 3 and pressing the coupling part 16 fixedly onto the annular outer portion 13a of the inner coupling part 13. Hereby the hose member 4 is attached to the container 3, and communication is established between the container 3 and the hose member 4 so that product 2 can flow into it from the container 3.
The container 3 with the hose member 4 attached thereto is then placed in the cup-shaped member, and the hose member 4 is passed down into the tube member 8. Hereafter, the tubular member 8, which is thus formed as a handle, is gripped by the hand, and the pressure means 9 can be compressed by the same hand. This entails that the side portions 4a of the hose member 4 are compressed, and when you let go of the pressure means 9, the said side portions 4a return to their original shape whereby a subpressure arises in the hose member 4, the valve 5 thereby opening and product 2 being caused to flow from the container 3 into the hose member 4 (see
In the embodiment according to
The invention is not limited to the embodiment described above but may vary within the scope of the appended claims. Thus, the different portions of the dispensing device 1 may be differently shaped, and this also applies to the containers 3 and 20. For example, the tube member 8 may have a different wall structure than that shown and there may be more than one pressure means 9. As examples of details not more closely described, it could be mentioned that the pressure means 9 may comprise a shaft-like portion 9a which can be hooked into an oblong hole 8d in the tube member 8 such that the portion 9a can be turned in the oblong hole 8d. Additionally, in its function as a support sleeve 10, the tube member 8 can constitute a support for the hose member 4 and allow it to accurately resume its original shape. The container 3 can/must be completely closed before it is connected with the hose member 4. Furthermore, there may be a second hose member 21 with a second discharge valve 22, and this second hose member 21 may be connectable with the first mentioned hose member 4 and/or with the tube member 8 so that the second discharge valve 22 will be located downstream of the first mentioned discharge valve. This ensures that one of the discharge valves can keep the device closed if the other one for some reason cannot be closed, for example if a large particle in the product 2 gets stuck therein.
Number | Date | Country | Kind |
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1100905-7 | Dec 2011 | SE | national |
This application is a U.S. National Phase patent application of PCT/IB2012/057073, filed on Dec. 7, 2012, which claims priority to Swedish Patent Application No. 1100905-7, filed on Dec. 9, 2011, each of which is hereby incorporated by reference in the present disclosure in its entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2012/057073 | 12/7/2012 | WO | 00 | 6/9/2014 |