JP4773108B2 - valve - Google Patents

Description

  The present invention relates to a valve described in the superordinate conceptual part of claim 1.

Valves with a valve closure that is operatively connected at one end to an actuator and cooperates with a valve seat at the other end are known. The casing of the valve has an actuator chamber and a pressure chamber, and the actuator chamber is connected to the pressure chamber via a guide passage. The valve closing body is supported in a guide passage, in which case a narrow guide gap having a longer length between the guide passage and the valve closing body is also provided for sealing the pressure chamber, As a result, the pressure medium does not reach the actuator chamber from the pressure chamber. The narrow guide gap is used, for example, to accurately align the magnet anchor with the magnet head and the valve closure with respect to the valve seat. In this valve, the position and shape of the valve seat, guide passage and valve closing body must match each other exactly. Roundness or position errors can cause non-hermeticity or even valve sticking. Such high demands make this valve very expensive and expensive to manufacture.
German Federal Republic of Patent Publication No. 198226047

  Accordingly, an object of the present invention is to eliminate the above-mentioned drawbacks in the prior art.

According to the valve of the present invention that solves this problem, the valve closing body is composed of two parts, and has a first closing body section and a second closing body section. 2 of the closure segment is Ri sliding can der transversely to the valve axis of the valve closing body, wherein the valve has a casing with an actuator chamber and the pressure chamber, the first A closing body section extends from the actuator chamber to the pressure chamber through a guide passage formed in the head bottom of the magnet head, the second closing body section is disposed in the pressure chamber, A narrow guide gap for sealing the pressure chamber is provided between the closed body section and the guide passage .

  In the valve according to the invention, the valve closure body is composed of two parts and has a first closure body section and a second closure body section, in which case the second closure body section is By being configured to be slidable laterally with respect to the opening direction of the valve closing body, there is an advantage that the manufacturing cost can be reduced in a simple manner. In this manner, the requirements for shape tolerances and position tolerances are significantly reduced, so that the valve components can be manufactured at low manufacturing costs and low costs.

  Advantageous embodiments and improvements of the valve according to claim 1 are possible by means of the dependent claims.

  It is particularly advantageous if the valve has a casing with an actuator chamber and a pressure chamber, and in this case the first closure body section extends through the guide passage to the pressure chamber.

  It is advantageous if the second closure section is arranged in the pressure chamber.

  It is also advantageous if a narrow guide gap for sealing the pressure chamber is provided between the first closing body section and the guide passage.

  According to an advantageous embodiment, the actuator is an electromagnet with an excitation coil and a magnet anchor. This is because a particularly inexpensive embodiment of the actuator is obtained.

  The first closure section has a first shoulder at the end facing the second closure section, the second closure section facing the first closure section It is particularly advantageous if it has a second shoulder at the end. This is because in this manner a guided lateral movement of the second closure section is possible.

  It is advantageous if a spring member is provided, which spring member is adapted to press the second closure section with the second shoulder towards the first shoulder of the first closure section. It is. This is because, in this manner, each second closure section can reliably abut the first closure section. Thereby, the stroke of the first closure section is completely transmitted to the second closure section.

  Furthermore, it is advantageous if the spring member annularly surrounds the second closure body section and a predefined annular gap is provided between the spring member and the second closure body section. is there. This is because in this manner, the lateral mobility of the second closure section is limited to the dimensions of the annular gap.

  The valve according to the invention is generally used to control volumetric flow.

  The valve according to the invention has a casing 1 in which an actuator 2 for adjusting the valve closing body 3 in the axial direction is arranged. The actuator 2 is, for example, an electromagnet 4 including an exciting coil 5 and a magnet anchor 6. However, the valve closing body 3 can also be adjusted by another actuator as an electromagnet. The electromagnet 4 is provided in a so-called magnet head 8 together with the exciting coil 5 and the magnet anchor 6, and this magnet head 8 is, for example, a part of the casing. The magnet anchor 6 is surrounded by the exciting coil 5 in the magnet head 8. The exciting coil 5 is hermetically sealed by, for example, an annular wall 7 with respect to the magnet anchor 6.

  The casing 1 has an actuator chamber 10 and a pressure chamber 11. In this case, the actuator chamber 10 is partitioned from the pressure chamber 11 by, for example, a head bottom 9 of the magnet head 8.

  The valve according to the invention has an inlet passage 15 and an outlet passage 16, in which case the inlet passage 15 and the outlet passage 16 are each fluidly connected to the pressure chamber 11 of the casing 1. The inlet passage 15 is connected to, for example, the pressure line 1 on the upstream side, and the outlet passage 16 is fluidly connected to the control line 18 on the downstream side. The pressure line 17 is connected upstream to a high-pressure pump 32 according to, for example, German Offenlegungsschrift DE 198 26 047, which is connected to a pressure medium, for example oil, under high pressure by the valve and control line according to the invention. The pressure piston 33 is fed to the hydraulic piston 33 via the pressure control valve 18 and controls the gas exchange valve. The control line 18 is connected to the hydraulic piston 33 on the downstream side, for example according to DE 19826047.

  According to the invention, the valve closing body 3 consists of two parts having a first closing body section 3.1 and a second closing body section 3.2, in which case the second closing body Section 3.2 is slidable laterally with respect to the valve axis 25. An eccentricity error at the time of manufacture can be compensated in such a form.

  The spring member 23 is provided with a predetermined annular gap 28 between the spring member 23 and the second closure body section 3.2 so that a second closure body section transverse to the valve axis 25 is obtained. Limit the mobility of 3.2. In this way, the second closure body section 3.2 is slidable laterally with respect to the valve axis 25 by the dimension of the annular gap 28. The first closure body section 3.1 is in operative connection with the actuator 2, and the second closure body section 3.2 cooperates with the valve seat 12.

  The valve seat 12 is provided at the end of the outlet passage 16 on the side facing the pressure chamber 11. The valve seat 12 is configured, for example, in a conical shape, in which case the end of the closing body section 3.2 on the side facing the valve seat 12 is configured, for example, in a spherical shape, together with the valve seat 12, a sphere / cone. A shape seat is formed. However. Obviously, conical / conical seats or the like may be provided. The sphere / conical seat or the conical / conical seat provides a line contact between the valve closure and the valve seat 12, which guarantees a very good seal of the closed valve. Is done.

  The valve closing body 3 is configured as a cylindrical rod and / or a hollow body, for example.

  The first closure section 3.1 is mechanically coupled to, for example, a magnet anchor 6 and extends from the actuator chamber 10 to the pressure chamber 11 through a guide passage 13 formed in the head bottom 9 of the magnet head 8. ing. The first closure section 3.1 is guided in the guide passage 13. Since the diameter of the guide passage 13 is at least partly only slightly larger than the diameter of the first closure section 3.1, the emergency passage between the guide passage 13 and the first closure section 3.1 A narrow guide gap 29 is formed. The narrow guide gap 29 has a problem of accurately positioning and guiding the magnet anchor 6 in relation to the position with respect to the magnet head 8. Moreover, this narrow guide gap seals the pressure chamber 11 against the actuator chamber 10.

  The second closure body section 3.2 is arranged in the pressure chamber 11, in which case the first closure body section 3.1 has an end directed towards its second closure body section 3.2. Is in contact with the end face of the second closure section 3.2. For example, the first closure body section 3.1 has a first shoulder 21 at its end facing the second closure body section 3.2, and the second closure body section 3.2. Has a second shoulder 22 at its end towards the first closure section 3.1.

  One end of the spring member 23 disposed in the pressure chamber 11 is in contact with the second shoulder 22 of the second closing body section 3.2, and the other end circulates around the valve seat 12. It is in contact with the end face 24 of the pressure chamber 11 arranged in an annular shape, and is preloaded (preloaded) by pressure between the second shoulder 22 and the end face 24. The spring member 23 is, for example, a compression coil spring and is arranged around the second closing body section 3.2 in an annular shape. The spring member 23 presses the second shoulder 22 of the second closure body section 3.2 against the first shoulder 21 of the first closure body section 3.1. The spring member 23 always exerts a pressing force on the second shoulder 22 of the second closure section 3.2, whereby the second shoulder 22 always has the first closure section 3.1 of the first closure section 3.1. It abuts against the shoulder 21. In this way it is ensured that the stroke of the actuator 2 is completely transmitted via the first closure body section 3.1 to the second closure body section 3.2.

  The magnet anchor 6, the guide passage 13, the first closing body section 3.1, the second closing body section 3.2, the spring member 23, and the valve seat 12 are based on the valve axis 25. For example, they are arranged concentrically with each other, in which case the actuator 2 opens and closes the valve closing body 3 having a first closing body section 3.1 and a second closing body section 3.2. In addition, it can move in the direction of the valve axis 25. The eccentricity error during manufacture is compensated laterally with respect to the opening direction 25 of the closing body 3 by the sliding properties of the first closing body section 3.1 and the second closing body section 3.2. Therefore, the opening direction and the closing direction of the valve closing body 3 extend in the direction of the valve axis 25.

  The valve according to the invention is opened, for example, when the actuator 2 is switched off and closed when the actuator 2 is switched on, or vice versa.

  When power is supplied to the exciting coil 5, a magnetic field is generated in the magnet head 6, and this magnetic field attracts the magnet anchor 6 toward the head bottom 9 of the magnet head 8, for example. Since the first closure section 3.1 is mechanically connected to the magnet anchor 6, the first closure section 3.1 moves towards the valve seat 12 with the same stroke as the magnet anchor 6, This stroke is completely transmitted to the second closure section 3.2 against the spring force of the spring member 23. During this closing movement, the second closing body section 3.2 is centered, for example by means of a conical valve seat 12, in this case performing a compensating movement transverse to the valve axis 25. During this compensating movement, the second shoulder 22 of the second closure body section 3.2 slides laterally with respect to the valve axis 25 in the first shoulder 21 of the first closure body section 3.1. As soon as the second closure section 3.2 of the valve closure 3 abuts against the valve seat 12, the valve is closed, so that no further pressure medium reaches the compensation passage 16 from the pressure chamber 11.

  When the power supply to the exciting coil 5 is interrupted, the magnetic field is not formed, so that the valve closing body 3 is lifted from the valve seat 12 by the spring member 23 acting as a return spring, and moves back to its initial position again. Thereby the valve is opened again.

  In the opened valve, the pressure medium flows into the pressure chamber 11 via the inlet passage 15 and from here into the control line 18 via the outlet passage 16.

  By configuring the valve closing body 3 in two parts and by allowing the second closing section 3.2 to move laterally, for example the casing 1, the guide passage 13, the valve seat 12 or the valve closing body Narrower shape and position tolerances are unnecessary, and the manufacturing cost of the valve is lower because larger shape distortions and displacements in 3 can be compensated. Compared to the prior art, narrow shape tolerances and position tolerances can be omitted and replaced with larger shape tolerances and position tolerances.

1 is a schematic cross-sectional view of one embodiment of the present invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Casing, 2 Actuator, 3 Valve closing body, 3.1 1st valve closing section, 3.2 2nd valve closing section, 4 Electromagnet, 5 Excitation coil, 6 Magnet anchor, 7 Annular wall, 8 Magnet head, 9 Head bottom, 10 Actuator chamber, 11 Pressure chamber, 12 Valve seat, 13 Guide passage, 15 Inlet passage, 16 Outlet passage, 17 Pressure line, 18 Control line, 21 First shoulder, 22 Second shoulder, 25 Valve Axis, 28 annular gap, 29 guide gap

Claims (4)

In a valve with a valve closure that is operatively connected to an actuator and cooperates with a valve seat,
The valve closing body (3) is composed of two parts and has a first closing body section (3.1) and a second closing body section (3.2), in which case the first closing body section (3.2) 2 of the closure section (3.2) is, Ri sliding can der transversely relative to the valve axis (25) of the valve closing body (3), said valve actuator chamber (10) and the pressure chamber ( 11), wherein the first closure section (3.1) passes through a guide passage (13) formed in the head bottom (9) of the magnet head (8). Extending from the actuator chamber (10) to the pressure chamber (11), the second closing body section (3.2) being disposed in the pressure chamber (11), and the first closing body A narrow guide gap (29 for sealing the pressure chamber (11) between the section (3.1) and the guide passage (13). Wherein the is provided, the valve.   The valve according to claim 1, wherein the actuator (2) is an electromagnet (4) comprising an excitation coil (5) and a magnet anchor (6). It said first closure segment (3.1) of the second have a first shoulder on the side of the end facing the closure section (3.2) (21), the second The closure body section (3.2) has a second shoulder (22) at the end facing the first closure body section (3.1) and is provided with a spring member (23). The spring member (23) is adapted to replace the second closure body section (3.2) with the second shoulder (22) with the first shoulder (3.1) of the first closure body section (3.1). 21. The valve according to claim 1 , wherein the valve is pressed toward 21) . A spring member (23) annularly surrounds the second closure body section (3.2) and is defined in advance between the spring member (23) and the second closure body section (3.2). The valve according to claim 3 , wherein an annular gap is provided.

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