DE102008056377A1 - transducer - Google Patents

Abstract

Disclosed is an inductive displacement sensor for determining the position or the path of a valve body of a valve, in particular a hydraulic valve, with a highly permeable core, which is connected to the valve body and is displaceable in a pressure tube made of plastic pressure transducer of the transducer. In this case, the pressure tube is encompassed by a bobbin in which a voltage is inducible. As a result, an inductive displacement sensor for hydraulic valves is provided whose sensitivity or measuring accuracy is improved while at the same time having low production costs, in particular for the pressure pipe.

Description

The The invention relates to an inductive displacement transducer for valves, in particular for hydraulic valves, according to Preamble of claim 1.

at Hydraulic valves with adjustable valve bodies is over the position of the valve piston to the switching position of the valve closed. For position or displacement sensors are on Valve piston necessary, often as inductive position transducer are formed. This is a highly permeable core, with the Valve piston is connected, moved in a coil, so that with the different positions of the core inductance changed the coil. This allows the position of the valve piston be determined.

In the publication DE 196 43 976 A1 For example, such an inductive displacement transducer is shown in which a bobbin surrounds a pressure tube in which a core mounted on a valve piston is displaced.

The Pressure tube must be pressure-tight, because working pressures of the hydraulic valve (eg up to 300 bar) also prevail in the pressure tube. It should be the Pressure tube the lowest possible magnetic conductivity have a high sensitivity of the inductive displacement transducer and to achieve low damping of its measurement results. Such pressure pipes are usually made of stainless steel and annealed to reduce their magnetic conductivity. By this step, their strength becomes disadvantageous reduced.

the In contrast, the invention is based on the object, a to create inductive displacement sensors for hydraulic valves, its sensitivity or accuracy is improved at at the same time low production costs in particular for the pressure tube.

These Task is solved by an inductive position transducer for hydraulic valves according to claim 1.

Further advantageous embodiments of the invention are in the dependent Claims described.

Of the inductive displacement sensor according to the invention for determination the position or the path of a valve body of a valve has a highly permeable core that connects to the valve body is connected and in a pressure tube made of plastic Displacement sensor is displaceable. The pressure tube is one of them Enclosed coil body in which a voltage inducible is. This is an inductive position transducer for hydraulic valves created whose sensitivity and measurement accuracy improved is at the same time low production costs in particular for the pressure tube.

at a particularly preferred embodiment of the transducer is the highly permeable core via a plastic core holder attached to the valve body. Thus, at Pressure tube and the core holder same or similar plastics are used, causing the temperature expansion coefficients the two parts are the same or similar. That's the way to go Measurement errors due to temperature fluctuations are, eliminate.

at a variant of the transducer or the valve is the core holder over a magnet armature of an electromagnet of the valve on the valve body attached.

there it is particularly preferred if the highly permeable core with a Plastic sheath is attached to the core holder. By such Sheath is the core protected. Especially if the core made of ferrite, this is through the coat against breaking protected.

there it is particularly preferred if the plastic is a fiber-reinforced Composite plastic is (eg PEEK). This plastic is special stable and pressure resistant.

to Reduction of manufacturing costs can reduce the pressure pipe and / or the core holder and / or the shell by injection molding be prepared. So z. B. a sealing ring between the pressure pipe and the hydraulic valve is arranged, sprayed onto the pressure tube be, whereby eliminating one or more separate sealing rings.

at a particularly preferred embodiment of the transducer has the bobbin on several coils, for. B. a primary coil and two secondary coils, with induced voltages depending from the position of the highly permeable core at the two secondary coils can be tapped. Thus, a differential circuit is possible at the same voltage levels in a middle position of the core be induced at the two secondary coils, which are cancel to zero.

there It is for reasons of adjustability of the transducer particularly preferred when the relative position of the bobbin is adjustable with respect to the core.

In a particularly preferred variant of the transducer according to the invention, the pressure tube and the bobbin are integrally formed. As a result, the wall thickness of the tube gegenü be reduced over the separate version or its compressive strength is increased.

A Another particularly preferred variant of the transducer has a Spring, which at a hydraulic valve facing end portion of the bobbin and on the outer circumference of the pressure tube is arranged. Furthermore, the variant has an adjusting nut, at one of the hydraulic valve or the electromagnet of the hydraulic valve remote end portion of the bobbin on the outer circumference the pressure tube is arranged, wherein the bobbin between the adjusting nut and the spring is clamped. Consequently the position transducer can be adjusted by turning the adjusting nut just adjust.

at a particularly preferred embodiment of the invention Displacement sensor is an end portion of the pressure tube sealing in a housing the hydraulic valve or its electromagnet added while closed the opposite end portion of the pressure tube is. As a result, the effort in the sealing of the pressure tube minimal.

at a preferred variant of the transducer is the relative position the pressure tube with the bobbin with respect to the core by means of a thread between the housing wall of the hydraulic valve or the electromagnet and the corresponding end portion of the Pressure tube adjustable. This allows the variant of the transducer with one-piece design of pressure tube and bobbin easy to adjust.

in the The following is an exemplary embodiment with reference to a single figure the invention described in detail.

The figure shows a housing 1 a hydraulic valve and an embodiment of the inductive displacement sensor according to the invention 2 in the lateral section.

The transducer 2 is essentially rotationally symmetrical about its longitudinal axis 4 educated. He has a pressure tube 6 whose (in 1 ) left end portion in a stepped rotationally symmetric through hole 8th of the housing 1 is recorded while the (in 1 ) right end portion of the pressure tube 6 closed is.

Inside the pressure tube 6 is concentrically a core holder added, which has a connecting portion 10 , a section stepped back in diameter 12 and a thread 20 having. The diameter of the connection section 10 and in particular that of the downgraded section 12 is less than the inner diameter of the pressure tube 6 ,

At his (in 1 ) left end portion is the connecting portion 10 attached to a non-illustrated valve body of the hydraulic valve, and the (in 1 ) right back tiered section 12 is completely inside the pressure tube 6 arranged. In this case, the backgraded section 12 who in 1 is shown in a central position, a distance from the closed end portion of the pressure tube 6 on, so that he from the middle position in both directions along the longitudinal axis 4 of the transducer 2 can be moved.

On the backgraded section 12 are a plastic ring 14 and a highly permeable core 16 postponed and shared with a mother 18 attached. The mother 18 is on the thread 20 of the demoted section 12 screwed on and thus clamps the ring 14 and the core 16 against the step that is between the backgraded section 12 and the connection section 10 results.

On the outer circumference of the pressure tube 6 is a sealing ring 22 arranged, a pressure room 24 the hydraulic valve seals against the environment.

Furthermore, a spring 26 , a bobbin 28 and a spacer ring 30 on the pressure tube 6 postponed. The feather 26 rests on the housing 1 of the hydraulic valve, and spans the bobbin 28 together with the spacer ring 30 (in 1 ) to the right against an adjusting nut 32 placed on the closed end section of the pressure tube 6 is screwed on. The of the bobbin 28 remote end portion of the adjusting nut 32 is radially stepped back, with this end portion of a spring safety 32a is encompassed.

The bobbin 28 has three separate windings or coils 34 . 36a . 36b wherein, in a middle position, a primary coil 34 and at the two outer positions in each case a secondary coil 36a . 36b are arranged.

At one (in 1 ) arranged above the outer periphery of the bobbin 28 is an electronic circuit board 38 arranged over which the power supply of the primary coil 34 and the detection of the secondary coils 36a and 36b induced voltages are controlled. For this purpose, a differential circuit is provided in which the induced voltages are subtracted from each other. When the valve body (not shown) is in a neutral position, the highly permeable core is 16 with reference to the secondary coils 36a and 36b arranged in a middle position, so that the difference of the induced voltages 0. To compensate for any inaccuracies, the valve body is positioned in a neutral position and then the bobbins 28 by turning the adjusting nut 32 so above the core 16 positioned so that the difference in voltages gives 0.

In the transducer according to the invention 2 are the pressure tube 6 and the core holder 10 . 12 made of PEEK. As the magnetic conductivity of the pressure tube 6 thus equal to 0, the attenuation is the position measurements of the core 16 minimally damped or most sensitive. Furthermore, eliminates a manufacturing step in the production of it Wegaufnehmers invention 2 because the pressure tube 6 not - as usual in the art - must be annealed. Finally, point the pressure tube 6 and the core holder 10 . 12 approximately the same coefficients of thermal expansion, so that any dimensional changes can equalize with temperature fluctuations. As a result, the measurement accuracy of the transducer according to the invention 2 elevated.

As an alternative to the exemplary embodiment shown, different variants can be carried out in the position transducer according to the invention:
The number of windings or coils may differ from three.

With optimal choice of the length of the bobbin 28 can the spacer ring 30 omitted.

Instead of fixing the core 16 on the demoted section 12 through the mother 18 The core can also work with the core holder 10 . 12 welded, soldered or glued to it. As another alternative, the core 16 through a plastic sheath to the core holder 10 . 12 be poured, this variant provides protection of the core 16 against breaking offers. This is particularly beneficial if the core 16 made of ferrite.

Notwithstanding the coupling of the core 16 with the valve body (not shown) over the core holder 10 . 12 can the core 16 and the valve body to be potted with a common plastic sheath.

As a further embodiment of the transducer according to the invention, the pressure tube and the bobbin may be formed as a common part made of plastic. As a result, its wall thickness can be minimized or the compressive strength can be increased. Thus eliminates the adjustment possibility of the transducer according to the first embodiment. In the embodiment with one-piece design of pressure tube and bobbin is therefore a thread between the recess 8th provided in the housing and the corresponding end portion of the pressure tube, so that a positioning of the windings or coils along the longitudinal axis 4 can be done by rotating the pressure tube with the bobbin.

deviant from the embodiment shown, the inventive Transducer also on a housing of an electromagnet be attached to the valve. Then the core holder is not direct, but via a magnet armature of the electromagnet on the valve body attached.

Disclosed is an inductive position transducer for determining the position or the way of a valve body of a valve with a high permeable core, which is connected to the valve body and in a pressure tube made of plastic pressure transducer of Wegaufnehmers is displaceable. The pressure tube is from a bobbin encompassed in which a voltage is inducible. This is one inductive displacement sensor for hydraulic valves created whose Sensitivity and measurement accuracy is improved at the same time low production costs, especially for the pressure tube.

1

casing

2

transducer

4

longitudinal axis

6

pressure pipe

8th

recess

10

connecting portion

12

back stepped section

14

ring

16

core

18

mother

20

thread

22

seal

24

pressure chamber

26

feather

28

bobbins

30

spacer

32

adjusting

32a

spring lock

34

primary coil

36a, 36b

secondary coil

38

circuit board

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19643976 A1 [0003]

Claims (14)

Inductive position transducer ( 2 ) for determining the position or the path of a valve body of a valve, in particular a hydraulic valve, with a highly permeable core ( 16 ), which is connected to the valve body and in a pressure tube ( 6 ) of the transducer ( 2 ) is displaceable, wherein the pressure tube ( 6 ) of a bobbin ( 28 ) in which a voltage is inducible, characterized in that the pressure tube ( 6 ) is made of plastic. An inductive displacement transducer according to claim 1, wherein the core ( 16 ) via a core holder ( 10 . 12 ) is attached to the valve body made of plastic. Inductive displacement transducer according to claim 2, wherein the core holder ( 10 . 12 ) is attached to the valve body via a magnet armature of an electromagnet. An inductive displacement transducer according to claim 2 or 3, wherein the core ( 16 ) with a plastic jacket on the core holder ( 10 . 12 ) is attached. Inductive displacement sensor according to one of the preceding Claims, wherein the plastic is a fiber-reinforced Composite plastic is. An inductive displacement transducer according to claim 5, wherein the Plastic PEEK is. Inductive displacement transducer according to one of the preceding claims, wherein the pressure tube ( 6 ) and / or the core holder ( 10 . 12 ) and / or the jacket are produced by injection molding. Inductive displacement transducer according to one of the preceding claims, wherein the bobbin ( 28 ) has a plurality of coils. Inductive displacement transducer according to claim 8, wherein the bobbin ( 28 ) a primary coil ( 34 ) and two secondary coils ( 36a . 36b ), wherein at the secondary coils ( 36a . 36b ) induced voltages can be tapped. Inductive displacement transducer according to one of the preceding claims, wherein the relative position of the bobbin ( 28 ) with respect to the core ( 16 ) is adjustable. Inductive displacement sensor according to one of the preceding Claims, wherein the pressure tube and the bobbin are formed in one piece. Inductive displacement transducer according to claim 10 with a spring ( 26 ), which at a hydraulic valve facing the end portion of the bobbin ( 28 ) on the outer circumference of the pressure tube ( 6 ) is arranged, and with an adjusting nut ( 32 ), which at one of the hydraulic valve or the electromagnet remote from the end portion of the bobbin ( 28 ) on the outer circumference of the pressure tube ( 6 ) is arranged, wherein the bobbin ( 28 ) between the adjusting nut ( 32 ) and the spring ( 26 ) is clamped. Inductive displacement transducer according to one of the preceding claims, wherein an end portion of the pressure tube ( 6 ) sealing in a housing wall ( 1 ) of the hydraulic valve or the electromagnet is received and is closed at the opposite end portion. Inductive displacement sensor according to claim 11 and 13, wherein the relative position of the pressure tube with the bobbin in relation to the highly permeable core by means of a thread between the housing wall of the hydraulic valve or the electromagnet and the end portion of the pressure tube received therein adjustable is.