DE10215527A1 - Position sensor comprises a housing with at least one opening which is so arranged that an electric circuit inside the housing can be balanced by external electromagnetic radiation - Google Patents

Abstract

The position sensor comprises a housing (14) with at least one opening (54) which is so arranged that an electric circuit inside the housing can be balanced by electromagnetic radiation passing through this opening. The opening also serves for filling of the space (17) of the housing with a filler material encapsulating the electric circuit. An Independent claim is also included for a method for producing such a position sensor.

Description

The invention relates to a position sensor, comprising a housing with a Housing interior, in which a carrier with an electrical circuit is arranged.

The invention further relates to a method for producing a Position sensor, in which an electrical in a housing interior of a housing Circuit is arranged on a carrier.

Such a position sensor is for example from DE 100 13 218 A1 known.

A switching device is known from DE 31 36 994 A1, which has a cylindrical Has housing with a threaded bore and in which a tunable Component is provided which has an adjusting element, which by the threaded hole can be actuated through.

The invention has for its object a position sensor of the beginning to provide the type mentioned, which is defined, preset Has properties.

This task is carried out in the generic position sensor solved according to the invention in that the housing has at least one opening, which so arranged with respect to the electrical circuit and so is formed that the circuit by means of electromagnetic radiation is adjustable and that a filler material into the housing interior via the opening can be brought, and that a receiving space of the housing for the electrical Circuit is filled with filler.

Because of the solution according to the invention that the housing with at least is provided with an opening, it can be achieved in the manufacture that the Position sensor without contact, namely by means of electromagnetic radiation and in particular laser radiation, can be adjusted in order to achieve a specific one Set switching distance. The adjustment can take place if the electrical circuit and the sensor element in its final position in are fixed to the housing. The adjustment then takes place inside the housing, so that thereby the influence of the housing on the electrical Circuit and a sensor element is detected; this influence can be in Manufacturing tolerances exist in the installation tolerances of the electrical circuit in the housing and / or in the electrical influence of the housing on the Sensor element and the electrical circuit exist. Especially at Position sensors with small signal strokes can be used to change the switching distance defined with high accuracy. Because the adjustment is not isolated either Cables must be carried out during EMC interference of the adjustment process is greatly reduced.

The opening can also be used to fill a material mechanical stabilization of a support for the electrical circuit in the Housing and encapsulation of the electrical circuit to protect against Fill environmental influences. It is then difficult to do otherwise accessible internal cavities of the sensor homogeneous and in particular free of voids and Fill with the filling material without leaks. This in turn is high The position sensor is insensitive to interference, since the electrical circuit and the sensor element effective against one Outside are sealed.

In particular, it is advantageous if the at least one opening on one Long side of the housing is formed, for example in a cylindrical Housing is formed on the shell side of this. On the one hand, this allows one carry out a defined comparison and on the other hand cavities in the Recording space of the housing with filling material largely complete to complete.

In particular, the at least one opening is on a balancing element of the electrical circuit arranged aligned, so that for example the adjustment to adjust the switching distance via laser radiation is feasible.

It when the at least one opening through a from one end of the housing diving into the housing interior Closing element is closed. With this closure element, the Close the opening from the outside and seal it. The Corresponding closure element can be used if it is from one end of the Immersed housing forth in the housing interior, in a simple manner on the Secure the housing. It can then also be achieved that this in one certain position can be positioned in which the adjustment can be carried out and filling material can then be brought into the recording space, while after these steps then the opening through the closing element Displacement of the same is closed. This in turn can Filling material during curing and for example during a Do not exit the frothing process from the opening. In addition, by a the opening is also essentially rigid in design mechanically tightly closed.

Preferably, the end element is tubular, so that it can be fixed in a simple manner to the housing, can be moved into it and thereby also in a partial area as a receptacle for a plug element is trainable.

Advantageously, the end element has an attachment by means of which it can be applied to an end face of the housing. This is when the approach is appropriate, the shift to one opposite end of the housing locked. That is how it is End element can be automatically positioned in the housing.

In particular, it is provided that the receiving space by a electrical connector is limited. This electrical connector serves to supply the electrical circuit with electrical energy from the outside supply and position signals can be transmitted externally by a corresponding external plug element is connected. Then it can be if appropriately designed, use it to close the recording room limit and thus form a lock on the filling material. Thereby in turn, the manufacture of the position sensor can be optimized since Filling the receiving space with filling material, an opening is sufficient, which is in turn closable by the closure element and at one manufactured position sensor accordingly by such a terminating element is closed.

Conveniently, the termination element surrounds an electrical one Connection element at least partially. This allows the closure element in one Partial area formed as a receiving element for an external connector become. In addition, it can be ensured that the electrical Connection element represents a delimiting element for the receiving space and on the other hand via the closing element after adjustment and filling of the Recording space which can be closed at least one opening.

It is advantageous if the electrical connection element is at least partially in the interior of the housing connected to the support for the electrical Circuit sits. It can then be the combination of carrier and Insert the electrical connection element into the housing from one end.

This in turn makes this combination with the electrical circuit defined fixed positioned in the housing, so that a balance and a subsequent filling of the receiving space can be carried out.

It is particularly advantageous if between the electrical Connection element and the housing a gap for receiving the closure element is formed. About this gap, the end element of one End of the housing forth to close the at least one opening in insert the interior of the housing. After matching the electrical Circuit and filling the receiving space through the at least one opening can then be the end element from the outside in a simple manner in the Position the housing in its end position.

It is then advantageous if the electrical connection element is rigidly attached to the Carrier sits so that a carrier-connector element unit as a whole lets the housing insert and then fixes the electrical circuit is positioned in the housing. For example, it can be provided that in particular a holding body of the electrical connection element supports the housing interior, so that the gap between the Housing interior and the electrical connection element no continuous Is annular gap, but only includes ring segments. This in turn makes the carrier Connection element unit defined fixed in the housing, so that an adjustment is feasible, over which the switching distance can be set with high accuracy is.

In particular, it is provided that the receiving space with the filling material is filled in and above all completely filled out. Over the opening which facing the recording room, the relevant cavities of the Fill sensor essentially completely, so that a high mechanical Stability of positioning the carrier with the electrical circuit in the recording space is reached and the electrical circuit homogeneous and is encapsulated in particular free of voids and free of leaks from the filling material. In particular, the filling material encapsulates the electrical circuit to protect it from environmental influences and in particular moisture.

It is advantageous if the filling material between the electrical Connection element and an end cap is arranged in the housing interior. This also allows a sensor element which is close to the End cap is arranged, encapsulate by means of the filling material.

Furthermore, it is advantageous if the filler material on a closure element for which has at least one opening. The closing element ensures one mechanically stable closure of the opening to ensure high tightness provide. This tightness is further increased when the filler material is added is present at the end element in the receiving space.

It can be provided that the filling material is a foam material. With such a foam material, for example a potting foam the cavities remaining in the receiving space are homogeneous and Fill in particular without voids and without leaks. After filling such Potting foam through the opening, it expands in the receiving space and at this expansion becomes the air still in the recording room displaced in order to achieve homogeneity in the filling material. Through the gap between the electrical connection element and the This housing in turn can then escape this air, just for that to ensure high homogeneity of the filling material. Foam materials that closed-pore in particular also have a low dependency in their mechanical properties with temperature changes, so that especially when the temperature rises, the mechanical load on the electrical Circuit minimized due to thermal expansion of the filler is.

It can also be provided that the filling material is a casting resin or Is epoxy resin.

An opening advantageously serves as a window for an inside the Optical display element arranged inside the housing, such as a Led. This can be achieved if the end element accordingly transparent at least in the area that closes the opening, is trained. If only then the optical display element nearby this area is arranged, the optical display can be read externally be, at the same time a good seal is achieved without Additional measures must be provided.

The invention is also based on the object of a method at the outset to create the type with which one can easily Can produce position sensor with a defined switching distance.

This object is achieved according to the invention in the generic method solved in that the electrical circuit via electromagnetic Radiation is balanced, which on an opening in the housing Adjustment element of the electrical circuit is directed and then Filling material is introduced into the housing space through the opening.

It can then be done with minimized structural modification of the housing, namely only the provision of an opening, an adjustment of the circuit within of the housing and then a corresponding one Recording space within the housing material with this opening Fill the filling material. This procedure indicates the already in connection with the Position sensor according to the invention explained advantages.

In particular, it is advantageous if when filling with filling material in a gap between an electrical connector and the housing a closing element is immersed in the opening. This is so positioned so that it does not cover the opening to make the adjustment and then the To be able to fill with filling material. It can be done after graduation of these processes in its final position by a shift in the Bring the interior of the housing into it, which can be carried out in a simple manner. Thereby the opening is then closed. Furthermore, this is the free Cross-sectional area in the gap is reduced, so that the leakage of filler material is avoidable over the gap. On the other hand, however, over the gap still leak air, which for example when foaming one Foam material as filling material from the corresponding recording room is ousted. This in turn allows this to be filled homogeneously Reach the recording room.

After filling, a closing element for closing the Opening moved into the interior of the housing, so that the opening, which for Align the electrical circuit and is used to introduce the Filling material in the interior of the housing to be able to close securely and tightly.

Furthermore, it is advantageous if a closing element is arranged and is formed that air during a curing process of the filling material through a gap between the electrical connection element and the housing can escape from the interior of the housing in order to ensure homogeneous filling the cavities of a receiving space for an electrical circuit to reach.

In particular, the filling material is a potting foam, by means of which a homogeneous filling can be achieved and the optimal mechanical Features to define the electrical circuit in the Keep housing interior and for tight encapsulation of this electrical Circuit especially to ensure wet.

The following description of a preferred embodiment serves in Connection with the drawing of the detailed explanation of the invention. It demonstrate:

Fig. 1 is a sectional side view of an embodiment of a position sensor according to the invention during the assembly phase and

Fig. 2 shows the same sectional view with a manufactured position sensor.

A position sensor according to the invention, of which an exemplary embodiment is designated 10 as a whole in FIG. 2, comprises a housing 14 extending in a longitudinal direction 12 and having a housing interior 16 . This housing interior 16 , in which a receiving space 17 for a sensor element and an electrical circuit is formed, is approximately cylindrical.

The housing 14 is made of a metallic material. It has a first end 18 and an opposite second end 20 . From the first end 18 , an end cap 22 is immersed in the housing interior 16 , which closes the latter at the first end 18 from the exterior. For this purpose, the end cap 22 has a cover element 24 , which is seated on a cylindrical holding wall 26 which bears on an inner wall of the housing interior 16 . The lid member 24 is provided with an annular step 28 on which the end cap 22 at the first end face 18 abuts the housing 14 and thus the Weiterverschieblichkeit to the second end 20 is blocked out.

The end cap 22 is made, for example, from a plastic material and is designed such that it is held in the housing interior 16 , for example, by means of a press fit. It can additionally or alternatively be provided that the holding wall 26 is provided with annular step elevations 30 , which can dip into corresponding recesses 32 of an inner wall of the housing 14 and the step elevations 30 and the recesses 32 are adapted so that due to an elastic design of the End cap 22 this can be inserted in the direction of the second end 20 from the first end 18 into the housing interior 16 , but after immersion of the step elevations 30 in the associated recesses 32, the displaceability in the opposite direction is blocked.

On an inner side 34 of the end cap 22 facing the second end 20, there is a sensor element 36, such as a coil in the case of an inductive position sensor.

Furthermore, on the inside 34 of the end cap 22 there is a circuit board 38 as a carrier of an electrical circuit, by means of which the corresponding signals of the sensor element 36 can be evaluated that the position sensor 10 delivers a position signal. For this purpose, the electrical circuit on the board 38 is electrically connected to the sensor element 36 . The board 38 has a smaller width than the inner cross section of the receiving space 17 , so that an upper part with respect to the board 38 and a lower part of the receiving space 17 are connected to one another.

In addition to the electrical connection between the sensor element 36 and the circuit board 38 , these are also mechanically connected to one another and to the end cap 22 and in particular pre-encapsulated so that the end cap 22 with the sensor element 36 and the circuit board 38 as a unit in the manufacture of the position sensor 10 the housing interior 16 can be inserted.

An electrical connection element 40 is located on the board 38 facing the second end 20 , via which the corresponding electrical signals can be emitted to the outside and via which the electrical circuit can be supplied with electrical energy.

The electrical connection element 40 has a holding body 42 , which sits at a distance from the second end 20 in the housing interior 16 between opposite housing walls 44 . A gap 46 is formed between such a housing wall 44 and the holding body 42 , which is in particular ring-shaped or ring-segment-shaped. The receiving space 17 is delimited towards the second end 20 by the electrical connection element 40 via its holding body 42 .

On the holding body 42 , the second end 20 faces plug pins 48 , which in particular lie completely in a region 50 between the walls 44 of the housing 14 , so that they do not protrude beyond the second end 20 of the housing 14 . A corresponding corresponding plug element (not shown in the drawing) can then be fixed in this area 50 to the electrical connection element 40 , via which the electrical circuit can be supplied with energy and via which the corresponding position signals can be transmitted.

Contact elements 52 , which are electrically connected and in particular soldered to the circuit board 38 , sit on the holding body 42 facing the first end 18 , so that an electrical connection is established between the electrical circuit and the plug pins 48 .

In particular, it is also provided that the electrical connection element 40 is mechanically and in particular mechanically rigidly connected to the circuit board 38 , so that a unit comprising the end cap 22 , sensor element 36 , circuit board 38 with the electrical circuit and electrical connection element 40 from the front end 18 can be inserted into the housing interior 16 . When the end cap 22 is inserted, the receiving space 17 is then automatically formed.

The housing 14 is provided in the region of the receiving space 17 with an opening 54 which is designed as an opening between the outer space and the housing interior 16 . It is arranged on a longitudinal side 56 (jacket side) of the housing 14 aligned with a matching element 58 of the electrical circuit. This adjustment element 58 is, for example, a trim resistor. The adjustment element 58 can then be tuned via this opening 54 during the manufacture of the position sensor 10 , so that a switching distance can be set.

In this way, a comparison of the electrical circuit on the circuit board 38 is carried out and in particular is carried out when the circuit board 38 with the electrical circuit and the sensor element 36 are already positioned in the housing 14 in their end positions. The EMC susceptibility to interference is also minimized, since, for example, no adjustment has to be carried out on insulated lines.

In the case of a trimming resistor, the adjustment can be achieved in particular by exposure to electromagnetic radiation and in particular laser radiation (indicated in FIG. 1 by reference number 60 ). The adjustment element 58 and the opening 54 are then arranged so that they are aligned with one another in such a way that the laser radiation 60 can act on the adjustment element 58 in order to be able to carry out the adjustment. In particular, a connecting axis 62 between the adjustment element 58 and a center of the opening 54 is then oriented transversely to the longitudinal direction 12 and in particular is oriented perpendicularly to the latter.

From the second end 20, a closure element 64 is immersed in the housing interior 16 , which covers the opening 54 to the exterior. This closing element 64 , which closes the opening 54, is manufactured, for example, from a plastic material.

At its end facing the second end 20 of the housing 14, it has an annular extension 66 which provides a contact surface for contact with the second end 20 of the housing 14 . As a result, the closure element 64 can be positioned with respect to the longitudinal direction 12 in the housing interior 16 with the opening 54 closed , and when the shoulder 66 abuts the second end 20 , the further displaceability towards the first end 18 is blocked.

The closure element 64 is immersed in the gap or gaps 46 between the electrical connection element 40 and the housing walls 44 via corresponding walls 68 , which are nose-shaped in the case of a gap 46 which does not pass through, and thus reduces the free cross-sectional area of such a gap 46 . With an annular gap 46 , the walls 68 are cylindrical. The end element 64 abuts the housing walls 44 with its walls 68 . It can be provided that the closing element 64 is held in the housing walls 44 via step elevations and recesses in order to block the displaceability in the direction of the second end 20 , once it has been inserted into the housing 14 .

The terminating element 64 delimits the area 50 and is designed there in particular as a receiving element for a corresponding plug element for the electrical connection element 40 .

The termination element 64 surrounds the electrical connection element 40 .

In the receiving space 17, the closure element 64 closes the opening 54 to the outside, whereby it can be made, for example, of a transparent material, so that the display of a light-emitting diode 69 , which is arranged on the circuit board 38 , can be read via the opening 54 . The light-emitting diode 69 is positioned protected in the receiving space 17 .

Between the inside 34 of the end cap and the electrical connection element 40 , the receiving space 17 is filled with a filling material 72 which surrounds and in particular encapsulates the electrical circuit. This filling material serves on the one hand to mechanically stabilize the positioning of the circuit board 38 with the electrical circuit in the housing interior 16 and on the other hand to seal the electrical circuit against environmental influences such as moisture and the like. The filling material 72 thus encapsulates the electrical circuit from the outside.

It is in particular a foam material which is closed-pore. Such a foam material is only subjected to very slight mechanical changes even when the temperature changes, so that the mechanical load on the electrical circuit when the temperature changes due to the filling material 72 is minimized.

But it can also be provided that the filling material is a Cast resin or epoxy resin.

The position sensor 10 according to the invention is manufactured as follows ( FIG. 1):
The mechanical unit consisting of end cap 22 , sensor element 36 , circuit board 38 and electrical connection element 40 is pushed into the housing interior 16 from the first end 18 until the end cap 22 abuts the first end 18 . As a result, the receiving space 17 is then formed.

The gap 46 or the corresponding gaps are then formed in the housing interior 16 between the electrical connection element 40 and the housing walls 44 . The closure element 64 is displaced from the second end 20 into the housing interior 16 to such an extent that the opening 54 is not covered. An adjustment of the electrical circuit is then carried out within the housing 14 by means of the exposure to laser radiation 60 , a trimming resistor being influenced accordingly. The adjustment takes place in the final, mechanically fixed position of the electrical circuit and the sensor element 46 in the housing 14 . A defined switching distance can be set by comparing the electrical circuit.

Subsequently, the cavity 70 remaining in the receiving space 17 is filled via the opening 54 with the filling material 72 or with a material which converts into the filling material 72 . For example, a foaming casting compound is provided for this purpose, which is introduced through the opening 54 into the housing interior 16 in the not yet hardened state. It is provided that approximately 1/10 to 1/5 of the volume of the cavity 70 to be filled is filled. The potting foam expands accordingly to fill the entire cavity 70 . The filling quantity is adjusted so that the entire volume can be filled.

After the filling quantity has been introduced, the closure element 64 is displaced towards the first end 18 until it abuts the second end 20 . As a result, the opening 54 is closed, so that no filler material 72 can escape here. During the expansion of the potting foam, it expands and displaces any air still contained in the - now filled - cavity 70 through the remaining space between the closure element 64 and the holding body 42 of the electrical connection element 40 in the gap 46 . The gap 46 is adapted to the foam medium so that a closure is achieved here if the filler 72 then reaches the gap 46 accordingly.

If such a quantity of foam introduced that is filled after the expansion of the receiving space 17 substantially, then a short time spent can be achieved, wherein the receiving space is homogeneous and filled without voids 17 substantially.

According to the invention, a position sensor 10 can thereby be produced which is adjusted with high accuracy, since the electrical circuit is in the final positioning within the housing 14 , and on the other hand the cavities of the position sensor 10 around the electrical circuit can be filled homogeneously, where there is no blowholes or leakage. This can be achieved by providing one or more openings 54 in the housing 14 .

It can also be provided that instead of a potting foam, a casting resin or epoxy resin is used as the filling material or as the basis for a filling material 72 .

The closure element 64 , against which filler material 72 is applied, closes the opening 54 from the outside space and thus ensures a high level of tightness of the position sensor 10, in particular with regard to the penetration of liquids. In connection with a transparent closure element 64 , the opening 54 can serve as a window for a light-emitting diode display, the light-emitting diode being arranged in a protected manner within the housing 14 without additional measures for the sealing being necessary.

Claims (23)

1. Position sensor, comprising a housing ( 14 ) with a housing interior ( 16 ) in which a carrier ( 38 ) is arranged with an electrical circuit, characterized in that the housing ( 14 ) has at least one opening ( 54 ), which so is arranged with respect to the electrical circuit and is designed such that the circuit can be adjusted by means of electromagnetic radiation and that a filling material ( 72 ) can be brought into the housing space ( 16 ) via the opening ( 54 ), and that a receiving space ( 17 ) of the housing ( 14 ) for the electrical circuit is filled with filler material ( 72 ). 2. Position sensor according to claim 1, characterized in that the at least one opening ( 54 ) on a long side ( 56 ) of the housing ( 14 ) is formed. 3. Position sensor according to claim 1 or 2, characterized in that the at least one opening ( 54 ) is arranged aligned with a balancing element ( 58 ) of the electrical circuit. 4. Position sensor according to one of the preceding claims, characterized in that the at least one opening ( 54 ) is closed by an end face ( 20 ) of the housing ( 14 ) in the housing interior ( 16 ) diving end element ( 64 ). 5. Position sensor according to claim 4, characterized in that the closure element ( 64 ) is tubular. 6. Position sensor according to claim 4 or 5, characterized in that the closure element ( 64 ) has a projection ( 66 ) by means of which it can be applied to an end face ( 20 ) of the housing ( 14 ). 7. Position sensor according to one of the preceding claims, characterized in that the receiving space ( 17 ) by an electrical connection element ( 40 ) is limited. 8. Position sensor according to one of claims 4 to 7, characterized in that the closure element ( 64 ) at least partially surrounds an electrical connection element ( 40 ). 9. Position sensor according to claim 8, characterized in that the electrical connection element ( 40 ) sits at least partially in the housing interior ( 16 ) connected to the carrier ( 38 ) for the electrical circuit. 10. Position sensor according to one of claims 7 to 9, characterized in that a gap ( 46 ) for receiving the closure element ( 64 ) is formed between the electrical connection element ( 40 ) and the housing ( 14 ). 11. Position sensor according to one of claims 7 to 10, characterized in that the electrical connection element ( 40 ) sits rigidly on the carrier ( 38 ). 12. Position sensor according to one of the preceding claims, characterized in that the receiving space ( 17 ) with the filling material ( 72 ) is filled. 13. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) encapsulates the electrical circuit. 14. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) between the electrical connection element ( 40 ) and an end cap in the housing interior ( 16 ) is arranged. 15. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) is present on a closure element ( 64 ) for the at least one opening ( 54 ). 16. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) is a foam material. 17. Position sensor according to one of claims 1 to 15, characterized characterized in that the filling material is a cast resin or epoxy resin. 18. Position sensor according to one of the preceding claims, characterized in that an opening ( 54 ) serves as a window for an inside the housing interior ( 16 ) arranged optical display element ( 69 ). 19. A method for producing a position sensor, in which an electrical circuit is arranged on a carrier in a housing interior of a housing, comprising the steps: - Adjustment of the electrical circuit via electromagnetic radiation, which is directed through an opening in the housing onto a compensation element of the electrical circuit and - Introducing a filler material into the interior of the housing via the opening. 20. The method according to claim 19, characterized in that in the Filling with filler material in a gap between an electrical one Connection element and the housing a closure element for the opening is immersed. 21. The method according to claim 19 or 20, characterized in that after the filling a closing element for closing the opening in the Housing interior is moved. 22. The method according to claim 20 or 21, characterized in that a Closing element is arranged and designed so that during a Curing process of the filling material air through a gap between electrical connection element and housing from the housing interior can escape. 23. The method according to any one of claims 19 to 22, characterized in that that the filling material is a potting foam.