DE10309724B4 - Holding device for sliding contacts and electric motor - Google Patents

Abstract

Holding device for sliding contacts (22), in particular for electric motors, with
a holding element (10), which carries a sliding contact (22), can be connected to a housing cover (12) and has a latching device (20, 32, 34) connected to the holding element (10),
wherein the latching device (20, 32, 34) holds the sliding contacts (22) for mounting the housing cover (12) in an assembled state and, when the housing cover (12) is substantially mounted, releases the sliding contact (22) so that it comes into contact with a contact surface (24) can get.

Description

The The invention relates to a holding device for sliding contacts and a Electric motor with a holding device for sliding contacts. Such electric motors are especially as servomotors for motor vehicles and especially suitable for throttle valves.

In Automotive used electric motors, especially in Engine compartment are arranged, have an electric motor protective casing on. The housing has a housing body, which surrounds the electric motor and can be closed with a housing cover. When mounting the electric motor u.a. the sliding contacts, i.e. usually the carbon brushes, be mounted so that they rest on corresponding contact surfaces of the rotor. Because the carbon brushes In operation, subject to a relatively high wear, the carbon brushes, for example pressed by a spring against the contact surfaces to compensate for the wear. The springs must thus during the assembly is compressed become. For this purpose, for example, spreading devices are used. Such spreading devices are used for mounting the electric motor by a specially for this provided opening in the lid or in the housing introduced to the brush spring to spread. After assembly, the spreader is restored pulled out of the opening. Such spreading devices are difficult to handle, so that the assembly is difficult.

Out DE 3 731 409 A1 an electric motor with a carbon brush is known, which is pressed by a spring to a contact surface. For simplified assembly of the spring arm is at its free end on a nose of a retaining tongue, so that the carbon brushes do not interfere with the assembly. During assembly of the lid, in which the spring is arranged, abuts in the end position of the lid part of the housing against a lever of the retaining tongue, whereby the retaining tongue is moved such that the free end of the spring arm from slipping off the nose. As a result, the carbon brush comes into contact with the contact surface of the electric motor. The retaining tongue is integrally formed on the lid.

Of the Invention is based on the object, a holding device for sliding contacts and to provide an electric motor with corresponding holding elements, through which the assembly is simplified.

The solution The object is achieved according to the invention by a holding device according to claim 1 and an electric motor according to claim 13th

A Inventive holding device for sliding contacts, especially for provided in electric motors sliding contacts, such as carbon brushes, points a holding element. The holding element carries the sliding contacts and is with a housing cover or a receiving element that carries the holding elements connectable. In the receiving element can it is an element which can be connected to the electric motor, for example, instead of or in addition to a housing cover is provided. According to the invention the holding element connected to the holding element latching device on. The latching device is designed such that it the sliding contacts for mounting the housing cover or the receiving element holds in an assembled state. In the assembled state the sliding contacts are arranged so that a simple assembly possible is, without that for example additionally a spreading device or the like. Is required. Furthermore, the latching device according to the invention is such designed that with substantially attached housing cover or in the case of an essentially mounted receiving device, the sliding contacts be released automatically, in particular by solved the locking device becomes. As a result, the sliding contacts come into contact with contact surfaces, the especially with the motor rotor are connected. By the holding element according to the invention is the assembly considerably simplified.

Preferably the retaining element is designed as a spring element. This has the Advantage that the retaining element in addition to holding the sliding contacts in an assembled state also a spring force on the sliding contacts, as the carbon brushes, can exercise and thus ensures the electrical contact even when occurring wear is.

at a particularly preferred embodiment includes the holding device in addition to Holding element a release element. Done by the release element the release the sliding contacts from the mounting state to the sliding contacts in contact with the contact surfaces bring to. The release element thus serves in particular for releasing the Latching device.

Especially it is preferred that the release element is designed in such a way that that it is on a spring arm of the spring element or a latching arm of Locking device acts. By the release element is thus at the assembly, for example, a spring arm or a locking arm elastic deformed, so that the latching device is released.

In a preferred embodiment of the invention, the mounting of the housing cover takes place in axial direction of the motor shaft. Preferably, the or the holding elements are also aligned in the axial direction. In particular, in the case of a holding element with spring arms, these extend essentially in the axial direction. In particular, in such an embodiment of the invention, the release element is preferably annular or partially annular and surrounds the motor shaft at least partially. Preferably, the release element has one or more ramps, so that the diameter of an annular release element in the axial mounting direction preferably increases. This has the consequence that a spring arm of the retaining element is elastically deformed. This results in a release of the locking device.

Further The invention relates to an electric motor, in particular a servo motor for motor vehicles, such as for pressing of throttle valves. The electric motor has a housing body, the one with a housing cover connectable or closable is. Furthermore, a sliding contact is provided on a holding element, wherein the retaining element in the housing cover is held. The holding element has a connected to the holding element Locking device, through which the sliding contact for mounting in is held in an assembled state and at substantially attached housing cover the sliding contact is free, so this in contact with contact surfaces, the especially with the motor rotor are connected.

The Retaining element is preferably part of the above-described Holding device and preferably further developed as described above.

following the invention will be described with reference to a preferred embodiment explained in more detail in the accompanying drawings.

It demonstrate

1 a schematic sectional view of the housing cover with inserted retaining elements,

2 a schematic longitudinal section of the housing body and the housing cover with strained or spread-apart holding elements immediately prior to assembly,

3 a schematic longitudinal section of the housing body and the housing cover during assembly,

4 a schematic longitudinal section of the housing body and the housing cover in the fully assembled state,

5 an increase of the area V in 2 .

6 an enlargement of the area VI in 3 .

7 an increase of the area VII in 4 and

8th a schematic plan view of the holding element along the line VIII-VIII in 1 ,

Two trained as a spring element holding elements 10 are in a housing cover 12 used. The holding elements 10 have two V-shaped mutually arranged spring arms 14 . 16 on, which are preferably made of a metal sheet and resilient. The respective outer spring arm 14 For example, by welding at the free end 18 with the housing cover 12 connected. Furthermore, with the outer spring arm 14 one in the direction of the second inner spring arm 16 pointing latch arm 20 connected.

The two inner spring arms 16 hold at their ends in each case a sliding contact or a carbon brush 22 , The sliding contacts 22 lie on completion of mounting on a contact surface 24 of the motor rotor 26 ( 4 ) at.

Before fitting the housing cover 12 on a housing body 28 ( 2 ) become the holding elements 10 preloaded by the grinding wheels 22 together with the inner spring arms 16 relative to a longitudinal axis 30 be pushed outward. Here is the lower spring arm 16 with the help of the locking arm 20 by a latching device in the in 2 held shown mounting state. The latching device ( 5 ) includes a detent 32 and a latching hook 34 , The latch is on the in the direction of the inner spring arm 16 pointing end of Rastarms 20 arranged and formed in the illustrated embodiment such that it is in the latching arm 20 is an elastic sheet metal part, the end in the direction of the sliding contact 22 is bent by about 90 °. The latching hook 34 is in the lower spring arm 16 educated. In the illustrated embodiment, it is a slight bend of a part of the spring arm 16 , The bend or the latching hook 34 do not extend over the entire width of the spring arm 16 ( 8th ), but are arranged substantially centrally, taking on the latching hook 34 one of the sliding contact 22 pointing away opening 36 followed. Through the opening 36 can the latch arm 20 and especially with the locking arm 20 connected latch 32 be guided. Of course, snap hooks can 34 and latch 32 also be provided in each case on the other component. For holding the sliding contacts 22 in the assembled state ( 2 ) becomes the sliding contact 22 together with the spring arm 16 pressed outwards until the latch 32 through the opening 36 protrudes. In the illustrated embodiment, there is then an elastic bending or deformation of the latching arm 20 in the direction of the grinding wheel 22 until the catch 32 below the latch 34 is arranged. Then, the outward on the sliding contact 22 acting pressure is reduced, so that the inner spring arm 16 from the latching hook 34 in cooperation with the latch 32 , ie by a latching device, is held in the assembled state. Of course, another embodiment of a locking device may be provided.

In the assembled state, the housing cover 12 then in the direction of an arrow 38 ( 3 ) on the housing body 28 postponed. Inside the case body 28 is an electric motor 40 with a longitudinally extending shaft 42 arranged. On the wave 42 is a ring-shaped release element in the illustrated embodiment 44 intended. The release element 44 can be firmly connected to the shaft and can thus simultaneously as axial positional fixation of the motor rotor 26 serve. The release element 44 ( 6 ) has a ramp 46 on. This causes an increase in the diameter of the release element 44 in mounting direction. When mounting the housing cover 12 in the direction of the arrow 38 on the housing body 28 the sliding contact slides 22 along the ramp 46 and is pushed outward. As a result, the friction between the latching hook 34 and the latch 32 ( 5 ) or the two parts 32 . 34 get out of the way. Because the latch arm 20 in the illustrated embodiment in the direction of the sliding contact 22 for holding the spring arm 16 was resiliently biased in the assembled state, the locking arm snaps in 5 to the right. As a result, the locking connection between the inner spring arm 16 and the latch arm 20 canceled. The locking connection is thus solved according to the invention automatically during assembly.

For a further installation of the housing cover 12 on the housing body 28 ( 4 ) are the sliding contacts 22 on the contact surface 24 pushed. Because the locking connection between the spring arm 16 and the latch arm 20 is canceled, press the sliding contacts 22 on the contact surface 24 , Due to the elastic spring action of the retaining element 10 an automatic wear compensation of the sliding contacts takes place 22 , In this state, the catch is 32 inside the opening 36 or outside the opening 36 - depending on the wear of the sliding contact 22 - arranged and with the latching hook 34 not engaged ( 7 ).

Furthermore, the holding element 10 from that in an electric motor depending on the number of sliding contacts required 22 a corresponding number is present, two opposing tabs 48 on. At the tabs 48 These are 90 ° bent guide plates with respect to the spring arm 16 , In the assembled state, the tabs or lugs engage 48 in corresponding in the housing cover 12 provided bags 50 ( 1 ) one. As a result, twisting of the holding elements is avoided even in reversing. Furthermore, through the tabs 48 whose position on the pockets 50 is precisely tuned at low tolerances, taken over management functions during the pivoting movement.

Claims (14)

Holding device for sliding contacts ( 22 ), in particular for electric motors, with a holding element ( 10 ), which has a sliding contact ( 22 ), with a housing cover ( 12 ) is connectable and one with the holding element ( 10 ) connected latching device ( 20 . 32 . 34 ), wherein the latching device ( 20 . 32 . 34 ) the sliding contacts ( 22 ) for mounting the housing cover ( 12 ) holds in an assembled state and with substantially mounted housing cover ( 12 ) the sliding contact ( 22 ) so that it is in contact with a contact surface ( 24 ) can get. Holding device according to claim 1, characterized by a release element ( 44 ) for releasing the latching device ( 20 . 32 . 34 ). Holding device according to claim 1 or 2, characterized in that the holding element ( 10 ) is designed as a spring element. Holding device according to one of claims 1-3, characterized in that the holding element ( 10 ) two spring arms ( 14 . 16 ) substantially in the mounting direction ( 38 ). Holding device according to one of claims 1-4, characterized in that the latching device ( 20 . 32 . 34 ) a resilient latching arm ( 20 ) having. Holding device according to one of claims 1-5, characterized in that the latching device ( 20 . 32 . 34 ) a catch ( 32 ), which with one on the holding element ( 10 ) or the locking arm ( 20 ) provided latching hooks ( 34 ) cooperates. Holding device according to claim 5 or 6, characterized in that the latching arm ( 20 ) for holding the sliding contact ( 22 ) is biased in the assembled state. Holding device according to one of the claims 4-7, characterized in that the release element ( 44 ) for releasing the latching device ( 20 . 32 . 34 ) on the latch arm ( 20 ) and / or one of the spring arms ( 14 . 16 ) acts. Holding device according to one of claims 5-8, characterized in that the release element ( 44 ) for releasing the latching device ( 20 . 32 . 34 ) a spring arm ( 16 ) elastically deformed, so that the latching arm ( 20 ) releases. Holding device according to one of claims 2-9, characterized in that the release element ( 44 ) is annular and a motor shaft ( 42 ) surrounds. Holding device according to one of claims 2-10, characterized in that the release element ( 44 ) a ramp ( 46 ), which for releasing the latching device ( 20 . 32 . 34 ) when mounting the housing cover ( 12 ) one of the spring arms ( 16 ) elastically deformed. Holding device according to one of claims 1-11, characterized by on the holding element ( 10 ) provided tabs ( 48 ) with the housing cover ( 12 ) are connectable as a guide element and rotation. Electric motor, in particular servomotor for motor vehicles, with an electric motor ( 40 ) surrounding housing body ( 28 ), one with the housing body ( 28 ) connectable housing cover ( 12 ) and a holding device with a sliding contact ( 22 ), of a holding element ( 10 ) in the housing cover ( 12 ) is held, wherein the retaining element ( 10 ) one with the holding element ( 10 ) connected latching device ( 20 . 32 . 34 ) having the sliding contact ( 22 ) for mounting the housing cover ( 12 ) holds in an assembled state and with substantially mounted housing cover ( 12 ) the sliding contact ( 22 ) so that it is in contact with a contact surface ( 24 ). Electric motor according to claim 13, characterized by a holding device according to one of claims 2-12.