DE102008041852A1 - Generator module and method for producing a generator module - Google Patents

Abstract

It is a generator module having a seismic mass, a piezoelectric element, an electrode and a housing, wherein the seismic mass and the piezoelectric element are disposed within the housing and wherein the piezoelectric element is electrically conductively connected to the electrode and further wherein the electrode at least is partially disposed outside of the housing.

Description

State of the art

The The invention is based on a generator module according to the preamble of claim 1.

Such generator modules are well known. For example, from the document DE 10 2007 006 994 A1 a circuit module comprising a housing and a piezoelectric generator having a mass element movable inside the housing and a spring device comprising at least one piezoelectric element, wherein the mass element and the spring device form a vibratory system and the piezoelectric element is elastic in the oscillation of the oscillatable system is deformable and wherein the circuit module comprises a power supply circuit for receiving a output from the piezoelectric element in its mechanical deformation piezoelectric voltage and the power supply of the circuit module.

Disclosure of the invention

The Generator module according to the invention and the inventive Method for producing a generator module according to have sibling claims against the The prior art has the advantage that the piezoelectric element of outside the housing via the electrode is contactable. This is achieved by using the electrode is partially disposed outside of the housing. In the interior of the housing are thus in particular only the oscillatory system of piezoelectric element and seismic mass arranged, wherein a bending of the piezoelectric Elements due to a deflection or acceleration of the seismic Mass generates a piezo voltage which is transmitted through the electrode is led out of the housing and therefore of Can be tapped off outside the housing. Especially advantageous is thus an arrangement of further electrical or electronic components within the housing are not necessary and the generator module is clearly space-compact executable. Further The generator module is modular in various electrical circuits integrated, wherein the generator module preferably directly can be mounted on printed circuit boards and contacted. The generator module is preferably as a vibration generator or power supply unit used in particular for tire pressure monitoring systems.

advantageous Refinements and developments of the invention are the subclaims, and the description with reference to the drawings.

According to one preferred development is provided that the generator module a further electrode, wherein the further electrode with the piezoelectric element electrically conductively connected is and wherein the further electrode at least partially outside of the housing is arranged. Is particularly advantageous thus a first side of the piezoelectric element with the electrode and a second side of the piezoelectric element with the other Electrode both electrically conductive, and preferably mechanically connected, so that by bending the piezoelectric Elements resulting piezoelectric voltage between the electrode and the another electrode and via the electrode and the another electrode in particular differentially from the housing is feasible.

According to one Another preferred embodiment provides that the electrode outside the housing at least one bend and / or the further electrode outside the housing has at least one further bend, wherein the electrode by the bend and / or the further electrode through the further bend preferably guided on a base side of the housing is, so that in particular the electrode and / or the further electrode form contact surfaces on the base side. Thus becomes special advantageous assembly, in particular by a soldering process, of the generator module as an SMD module (Surface Mounted Device) directly on a circuit board allows. Particularly preferred an automatic assembly of a printed circuit board with the Generator Module in an SMT Process (Surface Mounted Technology) realizable.

According to one Another preferred embodiment provides that the electrode and / or the further electrode outside the housing attached by a fastener to the housing are, so that particularly advantageous an undesirable further Bending the electrode and / or the other electrode outside of the housing is prevented.

According to one Another preferred embodiment provides that the housing a housing cover, wherein in a transition region between the housing cover and the rest of the housing preferably sealing means and / or adhesives are arranged so that particularly advantageous the housing hermetically sealed is and thus against interference, such as changing External pressure, moisture, dirt or oil, protected is.

According to a further preferred embodiment, it is provided that the electrode has a first part and a second part and / or the other Electrode comprises a further first part and a further second part, wherein preferably the first part and / or the further first part in the remaining housing and the second part and / or the further second part is at least partially disposed in the housing cover and wherein particularly preferably the second Part comprises a contact surface and / or the further second part comprises a further contact surface in each case on an outer side of the housing cover. Thus, the contact surfaces are particularly advantageously formed by the second part and / or the further second part, so that the contact surface to be arranged before closing the housing to the rest of the housing or on the housing cover and / or the rest of the housing or the housing cover before the closing of the housing on the circuit board is electrically contacted and fixed. Further, a bending method for bending the electrode and / or the further electrode for generating the contact surfaces on the base surface is thus possible.

According to one Another preferred development is provided that generator module a support member, wherein the support member is preferred is formed substantially beam-shaped and especially preferably at the end points of the support member anchoring elements for suspending the support element on the housing and in particular on the housing cover. Especially advantageous is the support member on the anchor elements on the Housing attached, the anchor elements are particularly preferred between the remaining housing and the housing cover are clamped, so when closing the housing attached particularly advantageous at the same time the support member becomes.

According to one Another preferred development is provided that on one first side of the support member seismic mass and on a second side of the support member, the piezoelectric Element, in particular in each case substantially centrally between the Both endpoints are arranged. In an advantageous way is about the Holder element, which preferably an elastically deformable material and particularly preferably comprises a metal sheet, the seismic Mass movable relative to the housing on the housing fixed, wherein the piezoelectric element preferably on the second side of the support member and therefore opposite the seismic mass with respect to the support member is arranged. Particularly advantageous generates a movement of the seismic mass relative to the housing a bending of the Retaining element in the middle of the support member, d. H. essentially centered between the anchor elements, so that the bending of the support member transmits directly to the piezoelectric element and thus a piezo voltage between the electrode and the other Electrode is generated.

According to one Another preferred embodiment provides that the housing a recess for taking out the first electrode from the Housing out and / or another recess for leading out having the second electrode out of the housing, wherein the recess and / or further recess preferably in the transition region and / or is arranged in the housing cover. Especially advantageous is thus a lead out of the electrode and / or the other Electrode in the area of the other housing, in Area of the housing cover and / or in the transition area possible, wherein a lead out of the electrode and / or the other Electrode through a recess in the transition region, which in particular a depression in the housing wall of the Housing from the transition area comprises, the Manufacturing process of the generator module simplified in an advantageous manner, because a comparatively complex manufacturing step for threading the electrode and / or the further electrode in a recess formed as a hole in the housing wall and / or further recess omitted.

According to one Another preferred development is provided that between the recess and the first electrode and / or between the other Recess and the further electrode further sealing means and / or more adhesives are arranged, so that is particularly advantageous the housing is hermetically sealed and thus against interference, such as changing external pressure, humidity, Dirt or oil, is protected.

Another object of the present invention is a method for producing a generator module, wherein in a first manufacturing step, a seismic mass, a piezoelectric element, an electrode and preferably another electrode are arranged in a housing and in particular on a housing cover such that the electrode and Preferably, the further electrode are each at least partially disposed outside of the housing. In a particularly advantageous manner, thus a generator module can be realized, wherein the piezoelectric element from outside the housing is directly or indirectly contacted. At the same time, the method according to the invention enables a comparatively efficient and cost-effective production process of this generator module, since the electrode and / or the further electrode are arranged in the housing in such a way that areas of the electrode and / or the further electrode are automatically outside the housing even after the housing has been closed are arranged. This is achieved by the fact that Electrodes and / or the other electrodes overlap the housing. The electrodes and / or the further electrodes are preferably arranged in the housing such that the electrodes and / or the further electrodes are partially arranged in recesses and / or in further recesses in the housing wall and in particular inserted or inserted, wherein the recesses and / or or further recesses are preferably in each case as holes in the housing wall and / or as emanating from the transition region depression in the housing wall. Particularly preferably, it is provided that, in a further production step, the electrode and / or the further electrode are coated with a comparatively easily solderable material, in particular in the area outside the housing. Alternatively, the material of the electrode and / or the further electrode particularly preferably comprises a comparatively easily solderable material, so that an electrically conductive solder contact on the electrode and / or the further electrode, in particular with a printed circuit board outside the housing, can be produced particularly easily.

According to one preferred development is provided that the first manufacturing step a first sub-step, wherein the housing by attaching closed the housing cover on the rest of the housing is, a second sub-step, wherein the electrode by a Recess and / or the further electrode through a further recess is led out of the housing, and / or a third sub-step, wherein a first part of the electrode with a second part of the electrode and / or another first part of the another electrode with a further second part of the other Electrode is connected comprises. Advantageously, therefore, in the first Manufacturing step with comparatively few steps the Housing hermetically sealed and the electrode and / or the further electrode led out of the housing. The preparation of a connection between, for example, a first and a second part of the electrode in the third partial step Particularly advantageous a separate assembly of the first part of Electrode, for example, in the remaining housing and of the second part of the electrode, which in particular by means of a Inserting part is integrated in the housing cover, wherein the second part contact surfaces on the outside of the Housing cover preferably for a SMT process includes.

According to one Another preferred development is provided that in one Second manufacturing step, the electrode and / or the further electrode outside the case, especially one Base of the housing, is bent. Advantageous is by the bending process in comparatively simpler and less expensive Way the formation of a contact surface or another Contact surface, in particular parallel to the base of the housing feasible, so that a fitting a circuit board with the generator module in an SMT process allows becomes.

According to one Another preferred development is provided that in one third manufacturing step, the piezoelectric element on a support member is fastened, wherein the first partial step preferably a pinching the support member or anchor elements of the support member between the housing cover and the rest of the housing includes. Advantageously, in the first sub-step simultaneously both hermetically sealed the housing, as well Support member together with the piezoelectric element and the seismic mass attached to the housing by clamping. For attachment and sealing is thus only a single Manufacturing step necessary.

embodiments The invention is illustrated in the drawings and in the following Description explained in more detail.

Brief description of the drawings

It demonstrate

1 FIG. 2 a schematic perspective view of a section through a generator module according to a first embodiment of the present invention, FIG.

2 a schematic and perspective partial view of a generator module according to the first embodiment of the present invention,

3 1 is a schematic side view of a generator module according to a second embodiment of the present invention,

4 a schematic side view of a generator module according to a third embodiment of the present invention and

5 a schematic side view of a generator module according to a fourth embodiment of the present invention.

embodiments of the present invention

In the figures are the same parts always with the same reference numerals Therefore, they are usually named only once.

In 1 is a schematic perspective view of a section 100 through a generator module 1 according to a first embodiment of the present invention, wherein the generator module 1 a seismic mass 2 , a piezoelectric nice element 3 , a support element 5 , an electrode 10 , another electrode 20 and a housing 4 having, wherein the support member 5 bar-shaped and at its end points 5 ' anchor members 5 '' for suspending the support element 5 on the housing 4 having. Essentially midway between the endpoints 5 ' on a first page 50 the support member 5 is the seismic mass 2 attached. D the support element 5 preferably comprises an elastically deformable material, in particular a metal sheet, so that the seismic mass 2 relative to the housing 4 movably suspended and an acceleration or deflection of the seismic mass 2 relative to the housing 4 a reversible deformation of the support member 5 causes. On one of the first page 50 opposite second sides 51 the support member 5 In particular, it is essentially centered between the endpoints 5 ' the piezoelectric element 3 attached, in particular glued, soldered or bonded, so that the deformation of the support member 5 a bending of the piezoelectric element 3 causes and between a first and a second contact surface of the piezoelectric element 3 a piezo voltage is generated. The electrode 10 is with the first contact surface and the electrode 20 mechanically and electrically conductively connected to the second contact surface, so that the piezoelectric voltage across the electrode 10 and / or further electrode 20 from outside the case 4 can be tapped. The first contact surface is preferably the upper side and the second contact surface is the underside of the piezoelectric element 3 , The housing 4 includes a housing cover 4 ' and a spare case 4 '' , wherein the anchor elements 5 '' in a transition area 40 between the housing cover 4 ' and the rest of the housing 4 '' are trapped. The electrode 10 or the further electrode 20 is through a recess 15 or further recess 25 out of the case 4 led out, leaving the electrode 10 and the other electrode 20 outside the case 4 are contactable. In the recess 15 or the further recess 25 Preferably further adhesive and / or sealing means are arranged, so that the housing 4 ' hermetically sealed. Preferably, the electrode has 10 or the further electrode 20 at least outside the case 4 a coating with a comparatively good solderable material. Between the housing cover 4 ' and the rest of the housing 4 '' is especially in the transition area 40 preferably an adhesive and / or sealant arranged so that the housing 4 hermetically sealed and the housing cover 4 ' with the rest of the housing 4 ' is connected cohesively. Alternatively, a positive and / or non-positive connection between the housing cover 4 ' and the rest of the housing 4 '' intended. The housing cover 4 ' is with the rest of the housing 4 '' in particular glued, pressed, welded, clamped, screwed and / or fastened by means of clips.

For the production of the generator module 1 For example, according to the first embodiment of the present invention, first, the electrode becomes 10 and the other electrode 20 on the top and bottom of the piezoelectric element 3 arranged, preferably then the seismic mass 2 and the piezoelectric element 3 together with the electrode 10 and the other electrode 20 on the support element 5 is attached and in a subsequent step, the support member 5 along with the seismic mass 2 , the piezoelectric element 3 , the electrode 10 and the other electrode 20 on the housing cover 4 ' is arranged, wherein the electrode 10 and the other electrode 20 the housing cover 3 ' overlap such that when closing the housing 4 Areas of the electrode 10 and the other electrode 20 outside the case 4 are arranged. This will be the electrode 10 and the other electrode 20 particularly preferred in a recesses 15 and another recess 25 inserted or inserted. The recess 15 and the further recess 25 most preferably comprise of the transition region 40 outgoing U-shaped depressions in the housing wall of the housing 4 or alternatively holes in the housing wall of the housing. In a subsequent step, the rest of the housing 4 '' on the housing cover 4 ' arranged and thus the support member 5 between the housing cover 4 ' and the rest of the housing 4 '' clamped, with the remaining housing 4 '' with the housing cover 4 ' material, force and / or positively connected and being between the housing cover 4 ' and the rest of the housing 4 '' preferably an adhesive and / or sealant for hermetically sealing the housing 4 is introduced. In subsequent steps become the electrode 10 and the other electrode 20 outside the case 4 preferably coated and the generator module 1 arranged on a non-illustrated printed circuit board and / or the electrode 10 and the other electrode 20 electrically conductive outside of the housing 4 contacted. On the electrode 10 or the further electrode 20 outside the case 4 In an intermediate step, an easily solderable material is particularly preferably applied, for example in the form of sputtered or galvanically grown layers and / or in the form of so-called "bumps" or "solder balls", which are applied in particular by means of pick-and-place methods and then melted ,

In 2 is a schematic and perspective partial view 1' a generator module 1 according to the first embodiment of the present invention, wherein the in 2 illustrated partial view 1' identical to the one in 1 illustrated generator module 1 is, with only the housing cover 4 ' , the seismic mass 2 , the piezoelectric element 3 , the support element 3 , the electrode 10 and the other electrode 20 are shown and for reasons of clarity, only the rest of the housing 4 '' not shown. The sectional view of the 1 corresponds to a section through the partial view 1' according to the line 100 ,

In 3 a schematic side view of a generator module 1 according to a second embodiment of the present invention, wherein the second embodiment is substantially identical to the first embodiment shown in FIGS 1 and 2 is, with the side view only the housing 4 with housing cover 4 ' and remaining housing 4 '' , as well as the areas of the electrode 10 and the other electrode 20 outside the case 4 represents.

In 4 is a schematic side view of a generator module 1 according to a third embodiment of the present invention, the third embodiment being identical to the second embodiment illustrated in FIG 3 is, with the electrode 10 and the other electrode 20 two times outside of the housing 4 in particular in a trim-and-molding process, along the outside of the housing 4 were bent, leaving on a base page 6 of the housing 4 a contact surface 14 the electrode 10 and another contact surface 24 the further electrode 20 arises. The generator module 1 can thus be soldered or bonded as an SMD component in an SMT process, for example, directly to a non-illustrated circuit board. Alternatively, the generator module 1 mechanically clamped on a circuit board and contacted or connected to an unillustrated circuit board by a gluing process with a conductive adhesive.

In 5 is a schematic side view of a generator module 1 according to a fourth embodiment of the present invention, wherein the fourth embodiment substantially the third embodiment shown in 4 resembles the electrode 10 a first and a second part 12 . 13 and the other electrodes 20 another first and another second part 22 . 23 includes. Preferably, the second and further second part 13 . 23 as an insert in the housing cover 4 ' are formed. In the production of the generator module 1 is preferably the insert in the housing cover 4 ' arranged and particularly preferably then the support member 5 along with the seismic mass 2 , the piezoelectric element 3 , the first part 12 the electrode 10 and the other first part 22 the further electrode 20 in the housing cover 4 ' arranged. Subsequently, the first part 12 with the second part 13 in a contact 18 electrically conductive, so that the first and the second part 12 . 13 together the electrode 10 form. Analog will be the other first part 22 with the other second part 23 in another contact 28 electrically connected, so that the further first and the second second part 22 . 23 together the further electrode 20 form. The contact 18 and further contact 28 are made in particular by soldering, welding or gluing. Alternatively, the first and further first part 12 . 22 in the rest of the housing 4 '' arranged and with the top and bottom of the piezoelectric element 3 directly mechanically and electrically conductively connected, the second and further second part 13 . 23 as an insert in the housing cover 4 ' are formed and a contact surface 14 and another contact surface 24 at the bottom 6 of the housing cover 4 ' include. The first part 12 and the insert part or the second part 3 In this case, for example, are arranged such that when closing the housing 4 , ie when assembling the housing cover 4 ' and remaining housing 4 '' , the first and the second part 12 . 13 come into contact and an electrically conductive contact 18 trains so that the first and second part 12 . 13 together the electrode 10 form. Similarly, the other first and second part come 22 . 23 in contact and form an electrically conductive further contact 28 and thus the further electrode 10 ,

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 102007006994 A1 [0002]

Claims (14)

Generator module ( 1 ) with a seismic mass ( 2 ), a piezoelectric element ( 3 ), an electrode ( 10 ) and a housing ( 4 ), the seismic mass ( 2 ) and the piezoelectric element ( 3 ) within the housing ( 4 ) are arranged and wherein the piezoelectric element ( 3 ) with the electrode ( 10 ) is electrically conductively connected, characterized in that the electrode ( 10 ) at least partially outside the housing ( 4 ) is arranged. Generator module ( 1 ) according to claim 1, characterized in that the generator module ( 1 ) another electrode ( 20 ), wherein the further electrode ( 20 ) with the piezoelectric element ( 3 ) is electrically conductively connected and wherein the further electrode ( 20 ) at least partially outside the housing ( 4 ) is arranged. Generator module ( 1 ) according to one of the preceding claims, characterized in that the electrode ( 10 ) outside the housing ( 4 ) at least one bend ( 11 ) and / or the further electrode ( 20 ) outside the housing ( 4 ) at least one further bend ( 21 ), wherein the electrode ( 10 ) through the bend ( 11 ) and / or the further electrode ( 20 ) by the further bending ( 21 ) preferably on a base side ( 6 ) of the housing ( 4 ) to be led. Generator module ( 1 ) according to one of the preceding claims, characterized in that the electrode ( 10 ) and / or the further electrode ( 20 ) outside the housing ( 4 ) by means of a fastening element on the housing ( 4 ) are attached. Generator module ( 1 ) according to one of the preceding claims, characterized in that the housing ( 4 ) a housing cover ( 4 ' ), whereby in a transitional area ( 40 ) between the housing cover ( 4 ' ) and the remaining housing ( 4 '' ) are preferably arranged sealing means and / or adhesive. Generator module ( 1 ) according to one of the preceding claims, characterized in that the electrode ( 10 ) a first part ( 12 ) and a second part ( 13 ) and / or the further electrode ( 20 ) another first part ( 22 ) and another second part ( 23 ), preferably the first part ( 12 ) and / or the further first part ( 22 ) in the remaining housing ( 4 '' ) and the second part ( 13 ) and / or the further second part ( 23 ) at least partially in the housing cover ( 4 ' ) and particularly preferably the second part ( 13 ) a contact surface ( 14 ) and / or the further second part ( 23 ) another contact surface ( 24 ) each on an outer side of the housing cover ( 4 ' ). Generator module ( 1 ) according to one of the preceding claims, characterized in that the generator module ( 1 ) a support element ( 5 ), wherein the support element ( 5 ) is preferably substantially bar-shaped and particularly preferably at the end points ( 5 ' ) of the support element ( 5 ) Anchor elements ( 5 '' ) for suspending the support element ( 5 ) on the housing ( 4 ) and in particular on the housing cover ( 4 ' ) having. Generator module ( 1 ) according to one of the preceding claims, characterized in that on a first side ( 50 ) of the support element ( 5 ) the seismic mass ( 2 ) and on a second page ( 51 ) of the support element ( 5 ) the piezoelectric element ( 3 ), in particular in each case substantially centrally between the two endpoints ( 5 ' ) are arranged. Generator module ( 1 ) according to one of the preceding claims, characterized in that the housing ( 4 ) a recess ( 15 ) for removing the first electrode ( 10 ) out of the housing ( 4 ) and / or another recess ( 25 ) for leading out the second electrode ( 20 ) out of the housing ( 4 ), wherein the recess ( 15 ) and / or further recess ( 25 ) preferably in the transition region ( 40 ) and / or in the housing cover ( 4 ' ) is arranged. Generator module ( 1 ) according to one of the preceding claims, characterized in that between the recess ( 15 ) and the first electrode ( 10 ) and / or between the further recess ( 25 ) and the further electrode ( 20 ) further sealing means and / or further adhesives are arranged. Method for producing a generator module ( 1 ), in particular according to one of the preceding claims, characterized in that in a first production step a seismic mass ( 2 ), a piezoelectric element ( 3 ), an electrode ( 10 ) and preferably a further electrode ( 20 ) in a housing ( 4 ) and in particular on a housing cover ( 4 ' ) are arranged so that the electrode ( 10 ) and preferably the further electrode ( 20 ) each at least partially outside the housing ( 4 ) are arranged. A method according to claim 11, characterized in that the first manufacturing step comprises a first sub-step, wherein the housing ( 4 ) by attaching the housing cover ( 4 ' ) on the remaining housing ( 4 '' ), a second substep, wherein the electrode ( 10 ) through a recess ( 15 ) and / or the further electrode ( 20 ) by a further recess ( 25 ) out of the housing ( 4 ) and / or a third sub-step, wherein a first part ( 12 ) of the electrode ( 10 ) with a second part ( 13 ) of the electrode ( 10 ) and / or another first part ( 22 ) of the further electrode ( 20 ) with another second part ( 23 ) of the further electrode ( 20 ). Method according to one of claims 11 or 12, characterized in that in a second manufacturing step, the electrode ( 10 ) and / or the further electrode ( 20 ) outside the housing ( 4 ), in particular on a base of the housing ( 6 ), is bent. Method according to one of claims 11 to 13, characterized in that in a third manufacturing step, the piezoelectric element ( 3 ) on a support element ( 5 ), wherein the first sub-step preferably a clamping of the support member ( 5 ) or anchor elements ( 5 ' ) of the support element ( 5 ) between the housing cover ( 4 ' ) and the remaining housing ( 4 '' ).