DE10215527B4 - Position sensor and method of manufacturing a position sensor - Google Patents

Abstract

Position sensor, comprising a housing (14) with a housing interior (16), in which a carrier (38) is arranged with an electrical circuit, characterized characterized in that casing (14) at least one opening (54) which are so with respect the electrical circuit is arranged and designed that means electromagnetic radiation of the circuit is calibrated and over the opening (54) filling material (72) into the housing interior (16) can be brought, and that a Receiving space (17) of the housing (14) for the electrical circuit with filling material (72) filled is.

Description

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

The Invention further relates to a method of manufacturing a position sensor, in the case of a housing interior a housing an electrical circuit is arranged on a carrier.

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

From the DE 31 36 994 A1 a switching device is known, which has a cylindrical housing with a threaded bore and in which a tunable component is provided, which has an adjusting element which can be actuated through the threaded bore.

Out DE-GM 66 02 341 is a device to indicate the presence, approach or enlargement of solid bodies, Liquids or Gas known in which an externally accessible potentiometer for change of the response range is installed.

Out WO 82/01630 is a method for producing a proximity switch in which a balancing resistor is carried over in a stream of air Abrasive particles is adjusted.

Of the Invention is based on the object, a position sensor of to provide the aforementioned type, which defined, preset Features.

These Task is in the generic position sensor according to the invention thereby solved, that this casing at least one opening which is so with respect to the electrical circuit is arranged and designed that means electromagnetic radiation of the circuit is calibrated and that over the opening one filling material in the housing interior Can be brought, and that one Recording room of the housing for the electrical circuit with filling material filled is.

by virtue of the inventive solution that the housing with at least one opening is provided, it can be during production, that the position sensor is contact-free, namely by means of electromagnetic radiation and in particular laser radiation, can be adjusted so as to set a specific switching distance. The adjustment can take place when the electrical circuit and fixes the sensor element in its final position in the housing are. The adjustment then takes place within the housing, so that by at the same time the influence of the housing is detected on the electrical circuit and a sensor element; this influence can exist in manufacturing tolerances in installation tolerances of the electrical circuit in the case and / or in the electrical influence of the housing on the sensor element and consist of the electrical circuit. Especially with position sensors with small signal strokes let yourself so set the switching distance defined with high accuracy. Since the adjustment is not carried out on insulated lines must, is the EMC susceptibility to interference while of the adjustment process is greatly reduced.

The opening can be at the same time use a filler for mechanical stabilization of a support for the electrical circuit in the case and for encapsulation of the electrical circuit for protection environmental influences to fill. It can then be otherwise difficult to access internal cavities of the Homogeneous and in particular void-free and leak-free with the filler to fill. This in turn is a high interference insensitivity of Position sensor ensures because the electrical circuit and the sensor element are effective against one outer space are sealed.

Especially it is advantageous if the at least one opening on one longitudinal side of the housing is formed, for example, in a cylindrical housing shell side formed at this. This can on the one hand a defined Perform adjustment and on the other cavities in the receiving space of the housing with Filling material largely Completely fill out.

Especially is the at least one opening aligned with a trimming element of the electrical circuit arranged so that, for example, via laser radiation the adjustment for setting the switching distance is feasible.

It is particularly advantageous if the at least one opening is closed by a closing element which dips into the housing interior from an end face of the housing. By this closure element, the opening can be closed against the outside and thus seal. The corresponding terminating element can thereby be fixed in a simple manner to the housing when it is immersed into the housing interior from an end face of the housing. It can then be achieved that this can be positioned in a certain position in which the adjustment by can be guided and then filling material can be brought into the receiving space, while after these steps, the opening is closed by the closing element by the same. As a result, in turn, the filling material can not escape from the opening during curing and, for example, during a foaming process. In addition, the opening is mechanically closed by a substantially rigidly formed terminating element.

Preferably is the final element tubular trained so that it in a simple way on the housing is fixable, this is displaceable and while still in a section as a recording for a plug element can be formed.

advantageously, has the terminating element In this case, an approach by means of which it at one end of the housing can be applied. Thus, if the approach is appropriate, the shift to an opposite Front side of the housing blocked. In this way, in turn, the terminating element automatically in the case positionable.

Especially it is envisaged that the Recording space is limited by an electrical connection element. This electrical connection element serves to electrical circuit the electrical circuit from the outside to supply and transmit position signals externally by a corresponding external connector element is connected. It can be then use it with appropriate design to the recording room to limit and thus form a barrier to the filling material. Thereby again it is possible optimize the production of the position sensor, because to fill the Recording room with filling material an opening enough, which in turn can be closed by the closure element and in a manufactured position sensor according to a such terminating element is closed.

conveniently, surrounds the closure element while an electrical connection element at least partially. This allows the terminating element in a partial area as a receiving element for a external connector can be formed. In addition, it can be so ensure that this electrical connection element a limiting element for the Recording space and on the other hand on the final element after adjustment and filling of the Recording room, the at least one opening is closed.

Cheap is it, when the electrical connection element at least partially in the housing interior connected to the carrier for the electrical circuit sits. It can then be the combination from carrier and electrical connection element Insert from one end into the housing.

Thereby Again, this combination is with the electrical circuit defined fixed in the housing positioned so that a Balance and a subsequent filling of the recording room can be.

All it is particularly advantageous if between the electrical connection element and the housing a gap is formed for receiving the closure element. About this Gap can be then the conclusion element from a front side of the housing to close the at least one opening in the housing interior Push. After adjustment of the electrical circuit and filling of the Recording room over the at least one opening let yourself then the conclusion element from the outside position in a simple manner in the housing in its final position.

It is advantageous if the electrical connection element rigidly on the carrier sits, so that a carrier-connector unit as a whole in the case can insert and thereby then the electrical circuit is fixed in the housing is. For example, it may be provided that in particular a holding body of the electrical connection element in the interior of the housing supported, so that the Gap between the housing interior and the electrical connection element no continuous annular gap, but only comprises ring segments. Thereby Again, the carrier-connector unit defined in the housing fixed so that a Matching feasible is over the switching distance is adjustable with high accuracy.

Especially it is envisaged that the recording room with the filler filled out is and above all complete filled out is. about the opening, which faces the receiving space, the relevant cavities Fill the sensor substantially completely, so that a high mechanical stability of the positioning of the carrier is reached with the electrical circuit in the receiving space and the electrical circuit homogeneous and in particular free of voids and leak-free from the filler encapsulated. In particular, so that the filling material encapsulates the electrical Circuit to protect it from environmental influences and especially moisture.

It is advantageous if the filling material is arranged between the electrical connection element and a closure cap in the housing interior. This also allows a sensor element, wel Ches is located near the end cap, encapsulate by means of the filling material.

Farther is it cheap if the filler material at a conclusion element for the at least one opening pending. The final element takes care of one mechanically stable closure of the opening to to provide such a high density. This tightness will still increased, if the filler then on the closure element pending in the recording room.

It can be provided that the filling material is a foam material. With such a foam material, for example a potting foam, let the cavities remaining in the receiving space become homogeneous and in particular fill void-free and leak-free. To pour in such a Vergußschaumes over the opening expands he in the recording room and during this expansion will be in the Reception room still displaced air displaced, just so the homogeneity in the filling material to reach. Through the gap between the electrical connection element and the housing again, this air can escape, just so for the high homogeneity of the filling material to care. Foam materials, in particular closed-pore also have a low dependence in their mechanical Properties with temperature changes on, so that in particular at temperature increases the mechanical load of the electrical circuit due a thermal expansion of the filling material is minimized.

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

advantageously, serves an opening as a window for a disposed within the housing interior optical display element such as a light emitting diode. This can be reach when the conclusion element correspondingly transparent at least in the region which closes the opening is formed is. If then the optical display element in the vicinity even this area is arranged, the optical display can be external be read while achieving a good seal is without any additional measures must be provided.

Of the Invention is also based on the object, a method of the initially to create type mentioned, with which easily a position sensor can be produced with a defined switching distance.

These Task is in the generic method according to the invention thereby solved, that the electrical circuit over electromagnetic radiation is adjusted, which via an opening in the housing directed to a balancing element of the electrical circuit and then filling material is introduced into the housing space over the opening.

It let yourself then with minimized constructive modification of the housing, namely only the provision of an opening, perform an adjustment of the circuit within the housing and then also one corresponding receiving space within the housing material through this opening with filling material fill. This method has the already in connection with the position sensor according to the invention explained Advantages.

Especially It is advantageous if when filling with filler in a gap between an electrical connection element and the housing a conclusion element in the opening is immersed. This is positioned so that it does not open concealed, just to make the adjustment and then the filling with filler. It let yourself after completion of this Processes in its final position by a shift in the housing interior bring in which is easy to carry out. This will then the opening locked. Furthermore, this is the free cross-sectional area in the Gap is reduced so that the exit of filler over the Gap is avoidable. On the other hand, then over the gap but still Air leak, which, for example, in the foaming of a foam material as filler is displaced from the corresponding receiving space. This in turn let yourself a homogeneous filling reach this recording room.

To the filling So will be a final element for closure the opening in the housing interior moved so as to open the opening serves to equalize the electrical circuit and to insert the filler in the housing interior, close securely and tightly to be able to.

Farther it is advantageous if a closure element arranged and is formed 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 so as to form a homogeneous filling of the cavities of a Recording room for one to achieve electrical circuit.

In particular, while the filler is a Vergußschaum, by means of which a homogeneous filling can be achieved and has the optimal mechanical properties to keep the electrical circuit defined in the housing interior and for a tight encapsulation of this electrical circuit in particular to provide moisture.

The The following description of a preferred embodiment is used in conjunction with the drawing of the closer explanation the invention. Show it:

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

2 the same sectional view with manufactured position sensor.

An inventive position sensor, of which an embodiment in 2 as a whole with 10 is designated, includes in a longitudinal direction 12 extending housing 14 with a housing interior 16 , This housing interior 16 in which a reception room 17 is formed for a sensor element and an electrical circuit is formed approximately cylindrical.

The housing 14 is made of a metallic material. It has a first end face 18 and an opposite second frontal end 20 on. From the first front end 18 here is a cap 22 in the housing interior 16 dipped, which at the first end 18 from the outside space. The end cap 22 has a lid element 24 on, which on a cylindrical retaining wall 26 sitting on an inner wall of the housing interior 16 is applied. The cover element 24 is doing with an annular step 28 provided over which the end cap 22 at the first front end 18 of the housing 14 is applied and so the Weiterverschieblichkeit to the second end 20 is locked out.

The end cap 22 For example, is made of a plastic material and designed such that it, for example, via a Preßverbund in the housing interior 16 is held. It may additionally or alternatively be provided that the retaining wall 26 with annular step elevations 30 is provided, which in corresponding recesses 32 an inner wall of the housing 14 can immerse yourself and the step elevations 30 and the recesses 32 adapted so that due to an elastic design of the end cap 22 this towards the second end 20 from the first end 18 forth in the housing interior 16 can be inserted, but after immersion of the step elevations 30 in the associated recesses 32 the mobility is locked in the opposite direction.

At a second end face 20 facing inside 34 the end cap 22 sits a sensor element 36 such as a coil in an inductive position sensor.

Continue to sit on the inside 34 the end cap 22 a circuit board 38 as a carrier of an electrical circuit, by means of which the corresponding signals of the sensor element 36 evaluate that the position sensor 10 provides a position signal. The electrical circuit on the board 38 is with the sensor element 36 electrically connected. The board 38 has a smaller width than the inner cross section of the receiving space 17 on, so that respect to the board 38 upper part and a lower part of the receiving space 17 connected to each other.

In addition to the electrical connection between the sensor element 36 and the board 38 these are also so mechanically with each other and with the end cap 22 connected and in particular with each other before that in the manufacture of the position sensor 10 the end cap 22 with the sensor element 36 and the board 38 as a unit in the housing interior 16 is insertable.

The second front end 20 facing is sitting on the board 38 an electrical connection element 40 , 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 on, which at a distance to the second front end 20 in the housing interior 16 between opposite housing walls 44 sitting. Between such a housing wall 44 and the holding body 42 is a gap 46 formed, which is in particular annular or ring segment-shaped. The recording room 17 is to the second front end 20 through the electrical connection element 40 about the holding body 42 limited.

On the holding body 42 sit on the second front end 20 facing plug pins 48 which in particular completely in one area 50 between the walls 44 of the housing 14 lie so that they do not have the second frontal end 20 of the housing 14 protrude. It can then be a corresponding corresponding connector element (not shown in the drawing) in this area 50 on the electrical connection element 40 fix, over which the electrical circuit can be supplied with energy and via which the corresponding position signals can be transmitted.

On the holding body 42 sit at the first front end 18 facing contact elements 52 , which are electrically connected and in particular soldered to the board 38 so that an electrical connection between the electrical circuit and the connector pins 48 is made.

In particular, it is also provided that the electrical connection element 40 mechanically and in particular mechanically rigid with the circuit board 38 is connected so that a unit of end cap 22 , Sensor element 36 , Circuit board 38 with the electrical circuit and electrical connection element 40 from the front end 18 forth in the housing interior 16 is insertable. With inserted end cap 22 is then automatically the recording room 17 educated.

The housing 14 is in the area of the recording room 17 with an opening 54 provided, which as a breakthrough between the outer space and the housing interior 16 is trained. It is on a long side 56 (Shell side) of the housing 14 aligned to a matching element 58 arranged aligned with the electrical circuit. In this adjustment element 58 For example, it is a trim resistor. It can then be over this opening 54 in the production of the position sensor 10 the adjustment element 58 vote, so that a switching distance is adjustable.

In this way, an adjustment of the electrical circuit on the board 38 performed and in particular performed when the board 38 with the electrical circuit and the sensor element 36 already in their end positions in the housing 14 are positioned. The EMC susceptibility to interference is minimized because, for example, no adjustment must be performed on insulated cables.

The adjustment can be achieved with a trim resistor in particular on the application of electromagnetic radiation and in particular laser radiation (in 1 by the reference numeral 60 ) Indicated. The adjustment element 58 and the opening 54 are then aligned so that just the laser radiation 60 the adjustment element 58 can apply to perform the adjustment. In particular, then is a connection axis 62 between the adjustment element 58 and a center of the opening 54 transverse to the longitudinal direction 12 oriented and oriented in particular perpendicular to this.

From the second front end 20 Her is in the housing interior 16 a conclusion element 64 dipped, which is the opening 54 obscured to the outside. This the opening 54 closing closure element 64 is made of a plastic material, for example.

It has at its the second front end 20 of the housing 14 facing end an annular approach 66 on, which has a contact surface for abutment with the second end face 20 of the housing 14 provides. This allows the terminating element 64 relative to the longitudinal direction 12 in the housing interior 16 with closure of the opening 54 position and when planting the approach 66 to the second end face 20 is the further mobility in the direction of the first front end 18 locked out.

The final element 64 is over appropriate walls 68 , which at a non-continuous gap 46 are formed nose-shaped, in the or the column 46 between the electrical connection element 40 and the housing walls 44 immersed and thus reduces the free cross-sectional area of such a gap 46 , At an annular gap 46 are the walls 68 cylindrically shaped. The final element 64 lies with its walls 68 on the housing walls 44 at. It can be provided that the closure element 64 over stepped elevations and recesses in the housing walls 44 held to the displacement in the direction of the second end 20 once inside the case 14 is used to lock.

The final element 64 limits the area 50 and is there in particular as a receiving element for a corresponding connector element for the electrical connection element 40 educated.

The final element 64 surrounds the electrical connection element 40 ,

In the recording room 17 closes the closure element 64 the opening 54 to the exterior, where it may be made for example of a transparent material, so as to display a light emitting diode 69 which on the board 38 is arranged over the opening 54 to be able to read. The light-emitting diode 69 is protected in the recording room 17 positioned.

Between the inside 34 the end cap and the electrical connection element 40 is the recording room 17 with a filling material 72 filled, which surrounds the electrical circuit and in particular encapsulates. On the one hand, this filling material serves to position the board 38 with the electrical circuit in the housing interior 16 mechanically stabilize 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 space.

This is in particular a foam material, which is closed-pored. Such a foam material is subject to very little mechanical change even with temperature changes, so that the mechanical stress of the electrical circuit with temperature changes due to the filling material 72 is minimized.

It but can also be provided that it is the filler around a casting resin or epoxy resin.

The position sensor according to the invention 10 is prepared as follows ( 1 ):
The mechanical unit made of end cap 22 , Sensor element 36 , Circuit board 38 and electrical connection element 40 is from the first front end 18 forth in the housing interior 16 pushed until the end cap 22 at the first front end 18 is applied. This then becomes the recording room 17 educated.

Between the electrical connection element 40 and the housing walls 44 is then in the housing interior 16 the gap 46 or are the corresponding column formed. The final element 64 is from the second front end 20 forth in the housing interior 16 moved so far that the opening 54 is not covered. It will then be inside the case 14 via the application of laser radiation 60 an adjustment of the electrical circuit is performed, whereby a trim resistance is affected accordingly. The adjustment takes place in the final, mechanical fixed position of the electrical circuit and the sensor element 46 in the case 14 , By adjusting the electrical circuit, a defined switching distance can be adjusted.

Subsequently, the in the recording room 17 remaining cavity 70 over the opening 54 with the filler 72 filled or with a material which is in the filler material 72 converts. For example, an intumescent potting compound is provided, which in the uncured state through the opening 54 in the housing interior 16 is introduced. It is provided that about 1/10 to 1/5 of the volume of the cavity to be filled 70 is filled. The potting foam expands accordingly to the entire cavity 70 fill. The capacity is adjusted so that just the entire volume space is refillable.

After insertion of the filling becomes the terminating element 64 to the first front end 18 shifted until this at the second front end 20 is applied. This will make the opening 54 closed, so that here no filler 72 can escape. During the expansion of the Vergußschaumes this expands and possibly displaced even in the - now filled - cavity 70 contained air 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, that here a conclusion is achieved, if then according to the filler 72 to the column 46 zoom ranges.

If such a foam amount filled that after the expansion of the receiving space 17 is essentially filled, then can be a short rest time reach, the recording room 17 is filled homogeneously and substantially void-free.

According to the invention can thereby be a position sensor 10 which is matched with high accuracy, since just the adjustment of the electrical circuit in the final positioning within the housing 14 on the other hand, the cavities of the position sensor can be 10 to fill the electrical circuit homogeneous, with a void freedom or freedom can be reached at leaks. This can be done by providing one or more openings 54 in the case 14 to reach.

It can also be provided that instead of a Vergußschaumes a casting resin or epoxy resin as a filler or as a basis for a filler 72 be used.

The final element 64 , to which filling material 72 pending closes the opening 54 to the outside space and thus ensures a high density of the position sensor 10 especially with regard to the penetration of liquids. In connection with a transparent closure element 64 can the opening 54 serve as a window for a light-emitting diode display, wherein the light-emitting diode within the housing 14 is arranged protected without additional measures for the seal are necessary.

Claims (23)

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 ) at least one opening ( 54 ), which is so arranged with respect to the electrical circuit and is formed so that by means of electromagnetic radiation, the circuit can be adjusted and that over the opening ( 54 ) a filling material ( 72 ) in the housing interior ( 16 ), and that a receiving space ( 17 ) of the housing ( 14 ) for the electrical circuit with filling material ( 72 ) be is filled. Position sensor according to claim 1, characterized in that the at least one opening ( 54 ) on one longitudinal side ( 56 ) of the housing ( 14 ) is formed. Position sensor according to claim 1 or 2, characterized in that the at least one opening ( 54 ) to a matching element ( 58 ) of the electrical circuit is arranged aligned. Position sensor according to one of the preceding claims, characterized in that the at least one opening ( 54 ) by a from a front side ( 20 ) of the housing ( 14 ) in the housing interior ( 16 ) diving end element ( 64 ) is closed. Position sensor according to Claim 4, characterized in that the terminating element ( 64 ) is tubular. Position sensor according to claim 4 or 5, characterized in that the terminating element ( 64 ) an approach ( 66 ), by means of which it at one end face ( 20 ) of the housing ( 14 ) can be applied. Position sensor according to one of the preceding claims, characterized in that the receiving space ( 17 ) by an electrical connection element ( 40 ) is limited. Position sensor according to one of Claims 4 to 7, characterized in that the terminating element ( 64 ) an electrical connection element ( 40 ) at least partially surrounds. Position sensor according to claim 8, characterized in that the electrical connection element ( 40 ) at least partially in the housing interior ( 16 ) connected to the carrier ( 38 ) sits for the electrical circuit. Position sensor according to one of claims 7 to 9, characterized in that between the electrical connection element ( 40 ) and the housing ( 14 ) A gap ( 46 ) for receiving the terminating element ( 64 ) is formed. Position sensor according to one of Claims 7 to 10, characterized in that the electrical connection element ( 40 ) rigidly on the carrier ( 38 ) sits. Position sensor according to one of the preceding claims, characterized in that the receiving space ( 17 ) with the filling material ( 72 ) is filled out. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) encapsulates the electrical circuit. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) between the electrical connection element ( 40 ) and a cap in the housing interior ( 16 ) is arranged. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) on a terminating element ( 64 ) for the at least one opening ( 54 ) pending. Position sensor according to one of the preceding claims, characterized in that the filling material ( 72 ) is a foam material. Position sensor according to one of claims 1 to 15, characterized in that the filling material a casting resin or epoxy resin. Position sensor according to one of the preceding claims, characterized in that an opening ( 54 ) as a window for inside the housing interior ( 16 ) arranged optical display element ( 69 ) serves. Method for producing a position sensor, in the case of a housing interior a housing an electrical circuit is arranged on a carrier, comprising the steps: - Compare the electrical circuit over electromagnetic radiation, which via an opening in the housing a balancing element of the electrical circuit is directed and - Introduce one filler into the housing interior via the opening. Method according to claim 19, characterized that at the filling with filling material in a gap between an electrical connection element and the housing End element immersed in the opening is. Method according to claim 19 or 20, characterized that after the filling a conclusion element to close the opening in the housing interior is moved. Method according to claim 20 or 21, characterized the existence terminating element is arranged and formed so that during a curing process of the filling material Air through a gap between the electrical connection element and casing from the housing interior can escape. Method according to one of claims 19 to 22, characterized that this Filling material Vergußschaum is.