NL7809929A - DOSING DEVICE. - Google Patents

Description

78.5095 / M / jz

Applicant: STORK BEPAK B.V, in Utrecht.

Title: Dosing device.

The invention relates to a device for delivering dosed quantities of a liquid product, comprising a stock reservoir, a dosing cylinder, a plunger that can be moved back and forth therein and a connecting element with valve between the reservoir and the cylinder in the form of a tap body with a passage to the reservoir, to the cylinder and to the liquid delivery point, the connections between these 10 passages being controlled by a tap movable within a few positions within the chamber of the tap house *. This valve, which is usually rotatable between two positions at 90 ° relative to each other, serves to optionally create a passage between the reservoir and the dosing cylinder, admitting a quantity of new product, or connecting the dosing cylinder to the discharge opening, whereby the dosed product can then be conveyed to the intended place.

Such a dosing device or plunger filler is known in many embodiments, reference can be made to US patent 2,666,564. When working, a metering device of this type can collect an amount of gas (usually air) from the product to be processed under the plunger head. This air bubble is the cause of an impure dosage and therefore requires regular checks with possible disassembly.

The object of the invention is to provide a construction which best prevents the occurrence of this phenomenon. This object is achieved according to the invention in that: - the inner wall of the dosing cylinder extends into the tap - _h.u.is, ___; _______ 78 0 9 9 2 9

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- 2 - - the end face of the plunger at the end of the dosing stroke reaches into the tap, and - the tap is provided with a continuous recess along the outer circumference, which in the suction position of the tap forms the connection between the passages to the reservoir and the cylinder.

As a result of these measures, a gas bubble occurring under the plunger can enter the lower one. position of the plunger via the continuous! move the recess in the tap back into the passage to the reservoir, in which the air bubble can rise to the surface.

The invention particularly relates to a dosing device in which the tap is provided in a manner known per se with a transverse bore for the connection between the dosing cylinder and the product delivery location. In addition, this tap is preferably provided with a peripherally extending recess 15 between the axial recess and the transverse bore. This makes it possible to rotate the tap from one end position to the other at a time when the dosing plunger is in its lower position.

The invention will be explained in more detail with reference to the drawing, which shows an embodiment of the main part of the dosing device according to the invention, together with some stages of operation.

Fig. 1 is a vertical section of the metering device.

FIG. 2 is a section on line II-II of the bottom portion of FIG. 1.

Fig. 3 schematically shows five working phases of the device according to FIG. 1 and 2.

The drawing shows a dosing unit that can be part of a complete installation of the type such as 7809929 - 3 _ 9

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described in the aforementioned U.S. Patent 2,666,564.

In such an installation there are a number of dosing units, all of which are designed in a similar manner and the operation of which is always the same. Therefore, this description is limited to a single unit composed of a dosing cylinder 1 with a plunger 2. This plunger is connected to a roller 3 projecting outside the cylinder 1, by means of which the plunger is movable to and fro between the fixed lower position (shown in Fig. 1) and an adjustable top position, related to the size of the amount of product to be dosed, eg soup, jam etc. As seen in Fig. 2, the cylinder 1 is located at a short distance next to a storage reservoir 4 for the product. Below the cylinder 1 and the reservoir 4 is a connecting element in the form of a crane housing 5. In the wall of this housing there are three openings, namely a passage 6 to the reservoir 4, a passage 7 to the cylinder 1 and a passage 8 to the liquid delivery site (see Fig. 3). The crane body 5 has a cylindrical chamber within which a correspondingly shaped crane 9 is arranged. This stall has a transverse bore 10 for the connection between the dosing cylinder 1 and the product 20 delivery location, ie between the passages 7 and 8. The crane 9 is further provided along the outer circumference with an axially oriented, continuous recess 11. This recess forms the connection between the passages 6 and 7 in the suction phase of the device, in which the liquid product can flow from the reservoir 4, to the cylinder 1.

As seen in Figs. 1 and 2, the inner wall of the dosing cylinder 1 extends to the tap housing and the end face 12 of the plunger 2 reaches into the tap 9 * at the end of the dosing stroke.

As a result of this embodiment, the dosing cylinder 1 shows virtually no dead space during the lowest position of the plunger 2.

In addition, a connection is maintained in position 78 0 99 2 9 ψ - 4 - by the recess 11 with the reservoir 4. The latter is advantageous in connection with the operation of the device described below with reference to FIG. 3 will be discussed.

The tap 9 is also provided with a recess 13 extending in the circumferential direction 5 between the axial recess 11 and the transverse bore 10, see Fig. 1. This makes it possible to rotate the tap 9 in the lowest position of the plunger 2. The tap 9 is also on in Fig. 1. 2 left end provided with a collar 14 which fits in a groove 15 of the tap housing 5. As a result, the tap 9 can be held in a simple manner by a cover plate 16. By providing a complementary recess in a suitable location along the circumference of the collar 14, the tap 9 can be easily pulled out of the tap housing 5 in an inoperative position.

The operation of the dosing device is substantially known in accordance with the fret from e.g. the aforementioned U.S. Pat. No. 2,666,564, in which the roller 3 cooperates with a schematically indicated cam track 17. In phase A, the plunger moves upwards and product is drawn in from the reservoir 4 via the passages 6 and 7 and the recess 11. In in phase B, the plunger 2 has reached its upper position 20 and the valve 9 can be moved (i.e. turned) to close the connection between the reservoir 4 and the cylinder 1, and to open the connection between the cylinder and the delivery point. ie. the can 18. This working phase C changes into the phase D in which the plunger 2 moves downwards and the intended product quantity is pressed to the delivery location. Finally, the plunger 2 reaches its bottom position, i.e. the working phase E, whereby the end face 12 of the plunger 2 penetrates into the tap 9, after which this tap is turned back to its initial position, see Fig. 1. Due to the small harmful space under the plunger 2 and the fact that the plunger head 30 is in the lower position the product and any gas bubble 7809929

Claims (3)

1. Device for delivering dosed quantities of an at least partly liquid product comprising a storage reservoir, a dosing cylinder, a plunger that can be moved back and forth therein and a connecting element with valve between the reservoir and the cylinder in the form of a crane housing with a passage to the reservoir, to the cylinder and to the product delivery point, the connections between these passages being controlled by a tap movable within a few positions within the chamber of the tap house, characterized in that - the inner wall of the dosing cylinder ( 1) extends into the valve body, 25. that the end face (12) of the plunger (2) at the end of the dosing stroke reaches into the valve (9), - that the valve is provided with a continuous recess (11) along the outer circumference which, in the suction position of the valve, forms the connection between the passages (6, 7) to the 7809929-6 reservoir (4) and the cylinder (1), 2. Dosing device as claimed in claim 1, wherein the tap is provided with a transverse bore for the connection between the dosing cylinder and the product delivery place, characterized in that the tap (9) is provided with a recess (13) running in circumferential direction. ) between the axial recess (11) and the cross bore. 3. Dosing device according to claim 1 or 2, characterized in that the tap (9J. Has a cylindrical shape 10 and is provided at one end with a collar (14) which works together with a local cover plate (16). * 7809929