METERING VALVE

Abstract

A metering valve for viscous materials has a housing, a material channel extending in the housing and opening into material outlet openings, and a number of valve pins, which are movably mounted in the housing, the number corresponding to the number of material outlet openings, wherein a valve seat is associated with each valve pin and each valve pin is movable between a closed position, in which it sits on the valve seat associated with it and closes one of the material outlet openings, and an open position, in which the material outlet opening concerned is exposed. The valve pins are produced from carbide and are guided in a longitudinally displaceable manner through feed-through openings in a guide block arranged at a distance from the valve seats, wherein the guide block is produced from carbide, at least on the inner surfaces of the feed-through openings facing the valve pins.

Claims

1. A metering valve for viscous materials, having a housing (12), having a material channel (16) that runs in the housing (12) and ends in multiple material outlet openings (26), and having a number of valve needles (24) displaceably mounted in the housing (12), which number corresponds to the number of material outlet openings (26), wherein each valve needle (24) has a valve seat (22) assigned to it, and wherein each valve needle (24) can be moved between a closed position in which it sits on the valve seat (22) assigned to it and closes off one of the material outlet openings (26), and an open position in which the material outlet opening (26) in question is exposed, wherein the valve needles (24) are produced from carbide and are passed through feed-through openings (30) in a guide block (28) arranged at a distance from the valve seats (22), in longitudinally displaceable manner, wherein the guide block (28) is produced from carbide, at least on the inner surfaces of the feed-through openings (30) that face the valve needles (24).

2. The metering valve according to claim 1, wherein the inner surfaces of the feed-through openings (30) lie against the valve needles (24), forming a seal.

3. The metering valve according to claim 1, wherein the guide block (28) is produced from carbide, in one piece.

4. The metering valve according to claim 1, wherein each valve seat (22) is produced from carbide.

5. The metering valve according to claim 4, wherein the valve seats (22) are arranged on a valve seat block (20) that is preferably produced from carbide, in one piece.

6. The metering valve according to claim 1, wherein the housing (12) has an in-feed part (14) through which the material channel (16) runs from a material inlet opening (18) all the way to the valve seats (22), and wherein the guide block (28) is accommodated in the in-feed part (14).

7. (canceled)

8. The metering valve according to claim 1, wherein a flushing chamber (34) for accommodation of a fluid is arranged in the housing (12) on the rear (32) of the guide block (28), facing away from the valve seats (22).

9. The metering valve according to claim 8, wherein the housing (12) has a feed line (38) and a drain line (40) for passing fluid through the flushing chamber (34).

10. The metering valve according to claim 8, wherein the housing (12) has a closure part (36) connected with the in-feed part (14), having or covering the flushing chamber (34), and, if applicable, having the feed line (38) and the drain line (40) at least in certain sections.

11. The metering valve according to claim 1, wherein the housing (12) is configured in multiple parts, with multiple housing parts (14, 20, 28, 36), at least two of which are releasably connected with one another, and wherein one of the housing parts releasably connected with one another is the guide block (28) and/or the valve seat block (20) and/or the in-feed part (14) and/or the closure part (36).

12. (canceled)

13. The metering valve according to claim 1, wherein the material outlet openings (26) and the valve needles (24) are arranged in at least one row, in each instance.

14. The metering valve according to claim 1, further comprising an actuator unit having at least one actuator, preferably at least one piezo-actuator, to impact the at least one valve needle (24).

15. The metering valve according to claim 14, wherein each valve needle (24) is accommodated, with its end (46) facing away from the related valve seat (22), in a sleeve (48) composed of metal, preferably of stainless steel, and connected with this sleeve, and that wherein each sleeve (48) can be impacted by the actuator unit.

16. (canceled)

17. The metering valve according to claim 15, wherein a solid-body joint is arranged between each sleeve (48) and the actuator unit.

18-20. (canceled)

21. The metering valve according to claim 1, wherein a material outflow channel that communicates with the material channel (16) runs in the housing (12) to a material outflow opening.

22. (canceled)

23. The metering valve according to claim 1, wherein each valve needle (24) can be moved between the closed position and the open position, along its longitudinal axis (58), and wherein a material outlet channel (56) extends between each of the valve seats (22) and the related material outlet opening (26), the center axis (60) of which channel is angled away at an acute angle (a) with reference to the longitudinal axis (58) of the related valve needle (24).

24. The metering valve according to claim 23, wherein the center axes (60) of all the material outlet channels (56) run parallel to one another.

25. The metering valve according to claim 23, wherein the center axes (60) of all the material outlet channels (56) run transverse to a plane spanned by the longitudinal axes (58) of the valve needles (24).

26. The metering valve according to claim 23, wherein the material outlet openings (26) are arranged in a material outlet surface (62) and that the center axes (60) of the material outlet channels (56) run perpendicular to the material outlet surface (62).

27. A method for applying a viscous material to a workpiece, wherein a metering valve (10, 110) according to claim 23 is moved relative to the workpiece, in the direction in which the center axis/axes (60) is/are angled away relative to the longitudinal axis (58) of the related valve needle (24), in each instance.

Description

[0015] In the following, the invention will be explained in greater detail using two exemplary embodiments shown schematically in the drawing. The figures show:

[0016] FIG. 1, 2 a metering valve in section, in a front view and a side view, in accordance with a first exemplary embodiment;

[0017] FIG. 3 a metering valve in section, in a side view, according to a second exemplary embodiment, and

[0018] FIG. 4 an alternative embodiment of a valve seat block in cross-section.

[0019] The metering valve 10 shown in the drawing, according to a first exemplary embodiment, has a housing 12 that has multiple parts that are releasably connected with one another. A material channel 16 runs through an in-feed part 14 produced from stainless steel, from a material inlet opening 18, by way of which a viscous material such as adhesive, sealant, insulation material or heat-conducting paste can be introduced into the material channel 16. A valve seat block 20 is mounted on the in-feed part 14, which block is produced in one piece from carbide. Here, as an example, the valve seat block 20 has three valve seats 22 arranged in a row, each of which has a valve needle 24 assigned to it, which needle is arranged to be linearly displaceable along its longitudinal axis 58 in the housing 12. Ahead of the valve seats 22, the material channel 16 is split into three partial channels, each of which ends at a material outlet opening 26 in a material outlet surface 62 of the valve block 20. However, splitting of the material channel 16 into partial channels is not compulsory. For example, the material channel 16 can also end in a material chamber from which the material can then exit through the material outlet openings 26 when the valve needles 24 are raised from the valve seats 22. To expose and close the material outlet openings 26, the valve needles 24 can be raised off or set onto the corresponding related valve seat 22. A material outlet channel 56 extends between each of the valve seats 22 and the corresponding related material outlet opening 26, the center axis 60 of which channel coincides with the longitudinal axis 58 of the related valve needle 24. The metering valve 10 is generally moved perpendicular to the longitudinal expanse of the row of the material outlet openings 26 with reference to a workpiece in order to apply the material.

[0020] The valve needles 24 are guided in a guide block 28 that is received in the in-feed part 14 and releasably connected with the former, in that they are passed through feed-through openings 30 that extend through the guide block 28. In this regard, the feed-through openings 30 are precisely adapted, in terms of their dimensions, to the dimensions of the valve needles 24, so that the latter are guided very precisely in the guide block 28 and furthermore a sealing effect is achieved between the guide block 28 and the valve needles 24, which prevents exiting of the viscous material in a direction away from the material outlet openings 26. The guide block 28, just like the valve needles 24, is produced from the same carbide as the valve seat block 20.

[0021] A flushing chamber 34 is situated in the housing 12, adjacent to a rear side 32 of the guide block 28 that faces away from the material outlet openings 26. This chamber is situated in a closure part 36, which is produced from stainless steel and releasably connected with the in-feed part 14; a feed line 38 that opens into the flushing chamber 34 and a drain line 40 that also communicates with the flushing chamber 34 run through the closure part. During operation of the metering valve 10, the flushing chamber 34 is constantly flushed with a fluid, for example with Mesamoll or Mesamoll II, which fluid is introduced into the flushing chamber 34 by way of the feed line 38 and conducted away from the flushing chamber 34 by way of the drain line 40. In this manner, viscous material that penetrates through the feed-through openings 30 in spite of the sealing effect between the guide block 28 and the valve needles 24 is removed from the flushing chamber 34. A seal that prevents exiting of fluid out of the flushing chamber 34 is provided by means of sealing rings 42 that are arranged between the in-feed part 14 and the guide block 28, between the in-feed part 14 and the closure part 36, as well as between the closure part 36 and a guide element 44 arranged in the closure part 36, through which element the valve needles 24 run.

[0022] The ends 46 of the valve needles 24 that face away from the valve seats 22 are accommodated, in the case of the first exemplary embodiment, in a sleeve 48 composed of stainless steel, in each instance, to which they are firmly soldered. The sleeves 48, which are connected with valve needles 24 that are adjacent to one another, are situated at different heights, so that the valve needles 24 can be arranged at small distances from one another. An extension 50 connected with each sleeve 48, in one piece, extends in a direction away from the valve seats 22 and is impacted by a piezo-actuator, not shown in the drawing, in each instance, by way of a solid-body joint, so as to move the corresponding valve needle 24 to expose the corresponding material outlet opening 26 and close it again. In this regard, the valve needles 24 can be moved individually, independently of the other valve needles 24, in each instance.

[0023] The metering valve 110 according to the second exemplary embodiment (FIG. 3) differs from the metering valve 10 according to the first exemplary embodiment (FIG. 1, 2) only in the way the valve needles 24 are impacted for opening and closing, so that features having the same effect are provided with the same reference symbols. A spring 52 is arranged in the housing 12, which has multiple arms connected with one another in one piece, one of which, in each instance, engages onto a step 54 of each of the valve needles 24, at which the valve need in question becomes thicker. The reset force of the spring 52 acts in the direction away from the corresponding valve seat 22. The piezo-actuator, which impacts the valve needle 24 by way of a solid-body joint, closes the material outlet opening 26 in that it presses the valve needle 24 onto the valve seat 22, counter to the spring force. The solid-body joint then lies only loosely on the end of the valve needle 24 that faces away from the valve seat 22 and is not shown in FIG. 3. The steps 54 of adjacent valve needles 24 are also situated at different heights above the valve seats 22, so that the valve needles 24 can be arranged at small distances from one another.

[0024] FIG. 4 shows an alternative embodiment of the valve seat block 20, which can be used in place of the valve seat blocks 20 shown in FIG. 1 to FIG. 3, in the case of the metering valves 10, 110 shown there. The alternative valve seat block 20 is characterized in that material outlet channels 56 that run from the valve seats 22 to the related material outlet opening 26, in each instance, do not run perpendicularly downward, but rather are angled away, in each instance, relative to the longitudinal axis 58 of the related valve needle 24. Each of the material outlet channels 56 has a center axis 60 that is angled away by an angle α of approximately 20° with reference to the longitudinal axis 58 of the related valve needle 24. In this regard, all the material outlet channels 56 are angled away in the same direction, so that their center axes 60 run parallel to one another. Furthermore, the center axes 60 run transverse to a plane spanned through the longitudinal axes 58 of the valve needles 24, and enclose the same acute angle of 20° with this plane. Furthermore, the underside of the valve seat block 20 is not planar, but rather the material outlet surface 62 in which the material outlet openings 26 are located is situated on an extension 64 on the underside and is inclined in such a manner that the center axes 60 run perpendicular to it. Furthermore, the valve seats 22 are configured with a chamfer 66 that can have a conical shape. When applying viscous material to a workpiece, the metering valve 10, 110 is moved parallel to the workpiece surface in the direction 68 in which the center axes 60 are angled away relative to the longitudinal axes 58 of the valve needles 24.

[0025] It is self-evident that the chamfer 66 can also be present in the case of the valve seat blocks 20 of the first two exemplary embodiments, in each valve seat 22 or on individual valve seats 22, while it is not compulsory in the case of the alternative valve seat block 20 according to FIG. 4. Furthermore, it is self-evident that the metering valves 10, 110 according to the first and second exemplary embodiment can be equipped not only with a valve seat block 20 as shown in FIG. 1 to FIG. 3 but also with an alternative valve seat block 20 according to FIG. 4.

[0026] In summary, the following should be stated:

[0027] The invention particularly relates to a metering valve 10, 110 for viscous materials, having a housing 12, having a material channel 16 that runs in the housing 12 and ends in multiple material outlet openings 26, and having a number of valve needles 24 displaceably mounted in the housing 12, which number corresponds to the number of material outlet openings 26, wherein each valve needle 24 has a valve seat 22 assigned to it, and wherein each valve needle 24 can be moved between a closed position in which it sits on the valve seat 22 assigned to it and closes off one of the material outlet openings 26, and an open position in which the material outlet opening 26 in question is exposed. According to the invention, it is provided that the valve needles 24 are produced from carbide and are passed through feed-through openings 30 in a guide block 28 arranged at a distance from the valve seats 22, in longitudinally displaceable manner, wherein the guide block 28 is produced from carbide, at least on the inner surfaces of the feed-through openings 30 that face the valve needles 24.