VALVE DEVICE FOR AT LEAST ONE LIQUID PLASTIC COMPONENT

Abstract

Valve mechanism for at least one liquid plastic component or liquid plastic, comprising a closure device that includes a needle which can be pressed against a seat in order to close a valve opening in the valve mechanism, said needle and/or seat being designed or mounted in such a way as to be resilient.

Claims

1. The valve device for at least one liquid plastic component or liquid plastic, comprising a closure device which has a needle which can be pressed against a seat for closing a valve opening of the valve device, wherein the needle and/or the seat is/are adapted to be yielding or mounted yieldingly.

2. The valve device as set forth in claim 1, wherein the needle and/or the seat at least portion-wise comprise plastic.

3. The valve device as set forth in claim 2, wherein the plastic of the needle and/or the seat is elastically or at least partially elastically deformable.

4. The valve device as set forth in claim 2, wherein the plastic of the needle and/or the seat is PEK, preferably PEEK.

5. The valve device as set forth in claim 1, wherein the needle and/or the seat is/are mounted yieldingly by way of a needle mounting and by way of a seat mounting respectively, wherein the needle mounting and/or the seat mounting has/have a force storage means or a preferably elastically deformable portion.

6. The valve device as set forth in claim 1, wherein at least one sensor forpreferably contact-lessposition monitoring of the position of the needle and/or the seat, and/or the needle mounting and/or the seat mounting, the signals of which can be fed to an evaluation device which from the signals determines a signal which is characteristic of the closure action.

7. The valve device as set forth in claim 6, wherein stored in the evaluation device are at least two positions which are characteristic of predetermined closure states of the closure device.

8. The metering valve for metered discharge of at least one liquid plastic component or liquid plastic comprising at least one valve device as set forth in claim 1.

9. The metering valve as set forth in claim 8, wherein a discharge opening of the metering valve is closeable by the at least one valve device.

10. The metering valve as set forth in claim 8, wherein an intake opening of a recirculation line is closeable by the at least one valve device.

11. A metering device comprising a storage container for liquid plastic or at least one liquid plastic component and at least one valve device comprising a closure device which has a needle which can be pressed against a seat for closing a valve opening of the valve device, wherein the needle and/or the seat is/are adapted to be yielding or mounted yielding, and the metering valve as set forth in claim 8.

12. A metering device comprising a storage container for liquid plastic or at least one liquid plastic component and the metering valve as set forth in claim 8.

Description

[0014] Further details and advantages of the invention are described more fully hereinafter by means of the specific description with reference to the embodiments by way of example illustrated in the drawings.

[0015] FIG. 1 shows a diagrammatically illustrated valve device 1 having a valve opening 3. There is provided a closure device 2 for closing the valve opening 3, having a seat 4 and a needle 5. In the illustrated embodiment the needle 5 can be of a yielding design in its entirety, for example it can comprise a suitable plastic oras indicated by the dotted lineit can be of a yielding design only portion-wise (for example only in the front region 51 or in the rear region 52). The seat 4 can comprise either a non-yielding material like for example metal or a yielding material, for example a suitable plastic. It can be seen that the seat 4 has a (peripherally extending) bevel 17 to reduce the surface pressure in the region of the contact location with the needle 5. In the illustrated structure the valve opening 3 is completely opened and the needle 5 has no contact with the seat 4. That corresponds to the position P0 of the needle 5.

[0016] FIG. 2 shows the valve device 1 of FIG. 1 in an altered state. In this state the needle 5 has been moved relative to the seat 4 to such an extent that the needle 5 contacts the seat 4 without contact pressure. The contact pressure (given by the pressing force F divided by the area of the bevel 17) is produced by way of a drive device (not shown here) which is for example pneumatic, hydraulic or force storage means-based. That corresponds to the position P1 of the needle 5.

[0017] FIG. 3 shows the valve device 1 illustrated in FIGS. 1 and 2 in that state in which the needle 5 is pressed against the seat 4 with the predetermined contact pressure. That corresponds to the position P2 of the needle 5.

[0018] FIG. 4 shows the valve device 1 illustrated in FIGS. 1, 2 and 3 in that state in which the needle 5 is over-pressed in relation to the seat 4. Due to the yielding nature of the needle 5 this involves deformation of the needle 5, which is shown on an exaggerated scale. Any notches or recesses in the needle 5 and/or the seat 4 can be compensated thereby, which ensure reliable closure of the valve opening 3 by the closure device 2. This corresponds to the position P3 of the needle 5.

[0019] The change in position from P2 to P3, that is caused by over-pressing the needle 5, can be readily measured, for example by way of a sensor 10 which is illustrated by way of example and which is connected to an evaluation device 11. If a calibration operation is carried out the evaluation device 11 knows which of the positions of the needle 5 corresponds to reliable closure of the closure device 2 and by application of the spring law with a known spring stiffness it is also possible to assess how great the corresponding contact pressing force F or the contact pressure is. It may however be sufficient to know that P3 is greater than P2 by a predetermined amount (without also determining the contact pressing force F).

[0020] A numerical (non-limiting) example is as follows: [0021] P0=?2 mm [0022] P1=0 mm [0023] P2=0.05 mm [0024] P3=0.10 mm [0025] Inside diameter of the bevel=2 mm [0026] Thickness (diameter) of the needle=5 mm [0027] Length of the needle=20 mm.

[0028] Alternative configurations of the seat 4 and/or the needle 5 are shown in following FIG. 5 showing a valve device 1 in a housing (not shown).

[0029] Possible variants of the yielding nature of the seat 4 and/or the yielding seat mounting 7 are cumulatively shown on the left-hand side. The illustrated variants can also be used individually or in any combination.

[0030] It is possible to see here: [0031] successively arranged cross-sectional weakenings 18 to provide for the yielding configuration of the seat 4; [0032] yielding, part-elastic or elastic layer 19 to provide the yielding seat mounting 7, for example including PEK, PEEK, PU (polyurethane), rubber, silicone, and so forth; [0033] a force storage means 8 in the form of a compression spring and a preferably elastically deformable portion 9 which is shown only portion-wise and which can be provided instead of or in addition to the force storage means 8 to provide the yielding configuration of the seat 4 and/or the yielding seat mounting 7.

[0034] The measures described and illustrated for the seat mounting 7 can also be used additionally or alternatively for the only diagrammatically illustrated needle mounting 8.

[0035] FIG. 6a shows a metering device 14 having a storage container 20 for a liquid plastic or a liquid plastic component and a metering valve 12. The liquid plastic or the liquid plastic component can be conveyed from the storage container 20 by means of a pump 22 to a metering valve 12 by way of a line 21. The metering valve 12 can have a valve device 1 according to the invention (see the detail in FIG. 6b). In the illustrated detail in FIG. 6b there are two valve devices 1; on the one hand for closing a discharge opening 13 of the metering valve 12 and on the other hand for closing off a recirculation line 15 leading back to the storage container 20. A further valve device 11 is shown by way of example in the recirculation line 15. Further valve devices 1 can be used as desired at required positions.

LIST OF REFERENCES

[0036] 1 valve device [0037] 2 closure device [0038] 3 valve opening of the valve device [0039] 4 seat of the closure device [0040] 5 needle of the closure device [0041] 51 front region of the needle [0042] 52 rear region of the needle [0043] 6 needle mounting of the needle [0044] 7 seat mounting of the seat [0045] 8 force storage means [0046] 9 elastically deformable portion [0047] 10 sensor [0048] 11 evaluation device [0049] 12 metering valve [0050] 13 discharge opening [0051] 14 intake opening [0052] 15 recirculation line [0053] 16 metering device [0054] 17 bevel [0055] 18 cross-sectional weakening of the seat [0056] 19 part-elastic or elastic layer [0057] 20 storage container [0058] 21 line [0059] 22 pump [0060] P0, P1, P2, P3 positions of the needle [0061] F contact pressing force