DE3818563A1 - Electric motor for driving window/headlamp wipers on motor vehicles - Google Patents

Abstract

Electric motors are known which are used to drive window/headlamp wipers on motor vehicles and which have a transmission housing and a parked position switch which has a metallic switching disc which is attached to a gear wheel which is produced from plastic and a plurality of wiper springs which are fixed to the housing, one of which springs is located in a gap in the switching disc when the engine is stationary in the parked position. With these electric motors there is the risk of a overheated wiper contact burning into the plastic material of the gear wheel and being torn off when the electric motor starts up. In order to prevent this, according to the invention a metal plate which is electrically insulated from the switching disc is attached in the gap of the switching disc, on which metal plate the wiper spring can rest with a wiper contact borne by it when the motor is at a standstill in the parked position.

Description

The invention relates to an electric motor that is used to drive Windshield wipers on motor vehicles is used and the characteristics from the Preamble of claim 1.

In the electric motors used in practice today to drive Windshield wipers on motor vehicles are usually the speed of the motor shaft via a worm and a worm wheel to a lower speed reduced. There is also a parking position switch in the electric motor housed, which ensures that the electric motor even after the Switching off an operating switch as long as power is being supplied until the wipers have reached a parking position.

DE-OS 30 22 442 shows an electric motor for driving Windshield wipers, whose parking position switch is a metallic Switch disc and several housing-fixed grinding springs. In practice the switching disc shown in the cited document is mostly on the Worm gear attached. However, designs are also known in which although the worm wheel is rotatably connected to the output shaft, the However, the switching disc is on an additional wheel, the worm wheel subordinate reduction stage. This can be achieved that the wipers after switching off the electric motor with the Run the operating switch for several wiping cycles.

The switching disk shown in DE-OS 30 22 442 extends over three contact tracks lying concentrically to each other, on which three grinding springs Grind along with sliding contacts when the switching disc rotates. The switching disc consists of a closed ring, one of which follows ring sector on the inside and a second on the outside of the closed Ring adjoining open ring, the gap of which is opposite the ring sector and encompasses a larger angular range than the ring sector. If the The electric motor is in the parked position of the windscreen wipers a loop spring in the gap of the open ring on the material of the  Worm wheel, which is usually injection molded from plastic.

Are the windshield wipers stiff because of drying of the windshield or Snow has accumulated below the park position, so it can occur that after the standstill of the electric motor in the gap of Switching disc located at the very beginning of the gap very close to the switching disc lies. By external manipulation of the Windshield wipers, e.g. B. in a car wash or when folding the Disc, the grinding spring can be brought even closer to the switching disc be, so that an arc arises, the grinding spring together with your Sliding contact is heated and the sliding contact becomes in the plastic of the gearwheel burns in. When switching on the electric motor via the Operating switch, the sliding contact can break out of the sliding spring. At least this means that the windshield wipers are no longer automatically in get to the parking position. In the worst case, the electric motor fails.

The invention has for its object an electric motor for driving Develop windshield wipers on motor vehicles so that the Functionality of the parking position switch is improved.

This object is achieved by an electric motor in which the features from the preamble of claim 1 are realized and at the one in the gap of the switching disc one of the switching disc electrically insulated sheet metal is attached, on which a loop spring at standstill of the engine in the park position. Through the sheet prevents the sliding contact of the sliding spring into the material of the Gear wheel on which the switching disc and the sheet metal are fastened, can incorporate. Because through the sheet the heat of the switch contact quickly dissipated and the force exerted by the grinding spring on a distributed larger area of the gear wheel.

Advantageous embodiments of an electric motor according to the invention can be take from the subclaims.

Thus, according to claim 2, the sheet is adapted to the shape of the gap, so that it  can largely fill this gap. Is that of the switching disc opposite edge of the sheet on the same circle as an outer edge of the Switch disc, so the material consumption for the sheet is very low. The Distance between the opposite edges of the Switch disc and the sheet is advantageously on the whole radial extent of the sheet of equal size. This ensures that regardless of the shape and position of the loop spring, which is subject to tolerances the conditions at the transition from sheet metal to the switching disc or conversely are always the same. It is advantageously two opposite edges that of the switching disc on a radius beam to a circular arc formed by an outer edge of the switching disc. Because then the angle at which the switch contact of the loop spring depends Switch disc leaves or runs on this, not from the distance of Switch contact from the center of the switching disc.

To simplify assembly, you can use the sheet together with the Punch out the switching disc from a single board, but still through at least one narrow bridge connecting the sheet and the Leave the switching disc only after the switching disc and Sheet on the gear wheel is cut.

In claims 7 to 10 it is specified how the switching disc and sheet metal in can be conveniently attached to the gear.

The invention will now be explained in more detail with reference to the drawings. It shows

Fig. 1 shows a circuit arrangement having a used for driving windshield wipers on motor vehicles, electric motor with a park position switch having a parking position disk with a gap, in which a sheet is located,

Fig. 2 is an end view of a worm wheel on which the switching disc shown in Fig. 1 and the gap-filling plate shown in Fig. 1 are attached, and

Fig. 3 is a section along the line III-III in FIG. 2.

To the switching arrangement of FIG. 1 includes a motor 10, an operation switch 11, a voltage source 12 and a plurality of electrical lines, the electric motor operating switch and power source together. A carbon brush 14 of the electric motor 10 is connected to ground 15 . A switching disk 16 is fastened on a worm wheel, not shown in FIG. 1, which meshes with a worm formed on an elongated motor shaft. The switching disc 16 consists of a single conductor track, which consists of a closed ring 18 , a ring sector 19 pointing from this ring to the center of the disc 16 , which extends over an angular range of approximately 40 °, and an outwardly on the closed Ring 18 adjoining open ring 20 , the gap 21 of which has the shape of a ring sector extending over an angular range of approximately 65 ° and lies opposite the ring sector 19 of the switching disk 16 .

Three grinding springs 25, 26 and 27 interact with the switching disk 16 . The loop spring 25 slides on the open ring 20 and the gap 21 , the loop spring 26 on the closed ring 18 and the loop spring 27 on the ring sector 19 and the material of the worm wheel adjoining it in the circumferential direction.

The loop spring 25 is connected via a line 29 to the positive pole 30 of the voltage source 12 , the loop spring 26 via a line 31 to a fixed contact 32 in the operating switch 11 and the loop spring 27 to ground 15 . The second coal 33 of the electric motor is connected via a line 34 to a fixed contact 35 of the operating switch 11 . Another fixed contact 36 is connected to the connection point between the loop spring 25 and the positive pole 30 of the voltage source 12 . With the handle 38 of the operating switch 11 , a contact bridge 39 can be adjusted between two switching positions. It connects the fixed contact 32 with the fixed contact 35 in the off position and the fixed contact 36 with the fixed contact 35 in the on position .

In the on position of the contact bridge 39 , the brush 33 of the electric motor 10 is supplied with positive potential via the line 29 , the fixed contact 36 , the contact bridge 39 , the fixed contact 35 and the line 34 . The electric motor thus rotates and with it the switching disk 16 . If the operating switch 11 is now brought into the off position, the brush 33 remains via the line 34 , the fixed contact 35 , the contact bridge 39 , the fixed contact 32 , the line 31 , the loop spring 26 , the switching disk 16 , the loop spring 25 and the line 29 is connected to the positive pole 30 of the voltage source 12 . The electric motor 10 and the switching disc 16 continue to rotate. Finally, the sliding spring 27 leaves the switching disc 16 , so that the electric motor 10 is disconnected from the voltage source 12 and its speed of rotation is reduced. After a short time, the sliding spring 27 comes onto the ring sector 19 of the switching disk 16 . Both carbon brushes 14 and 33 are now grounded and the electric motor is braked electrodynamically. Since the gap 21 extends over a larger angular range than the ring sector 19, it is ensured that the sliding spring 27 only slides on the sector 19 when the sliding spring 25 has already left the switching disc completely, so that no short circuit occurs.

It is possible that tampering with the shutdown wipers, e.g. B. in a car wash or when folding a wiper arm from the disc, the worm wheel and with it the switching disc can be rotated somewhat in the opposite direction. Now comes the electric motor, e.g. B. due to a binding of the windshield wiper or because of a snow cushion at the lower edge of a motor vehicle window, directly after the wiper has left 25, the switching disc 16, to a standstill, so the distance of that are available in the gap 21 slide spring 25 of the indexing disk 16 so be small that a slight turning back of the switching disc 16 is sufficient to cause an arc to arise between the latter and the grinding spring 25 . This heats up the sliding spring and the sliding contact it carries. In order to prevent the hot sliding contact of the sliding spring 25 from being impressed into the material of the worm wheel 40 , which is shown in more detail in FIGS. 2 and 3, a sheet 41 electrically insulated from the switching disk is fastened in the gap 21 of the switching disk 16 , on which the grinding spring 25 rests when it is in the gap 21 of the switching disk 16 .

Corresponding to the shape of the gap 21, the sheet has at least approximately the shape of a ring sector which is at a distance of 1 mm to 1.5 mm from the switching disk 16 . The outer edge 43 of the switching disk 16 facing the teeth 42 of the worm wheel 40 lies on the same circle as the outer edge 44 of the sheet 41 . The opposite edges 45 and 46 of the switching disk 16 and the sheet 41 in the circumferential direction run parallel to one another, so that their distance from one another is the same across the entire radial extent of the sheet 41 . The choice is made so that the edge of the switching disk is 45 16 on a radius beam passing through the axis of the switching disc 16 and thus the worm wheel 40th The extensions of the two edges 46 of the sheet 41 thus intersect outside the axis of the switching disk 16 .

Switch disk 16 and sheet 41 are punched out of a sheet metal plate in one operation. In Fig. 2, a web 50 is indicated by dashed lines, via which the switching disc 16 and the sheet 41 are still connected to one another after punching out, so that they can be handled as one part. This web is only severed after the switching disk 16 and sheet metal 41 have been fastened together on the worm wheel 40 . Therefore, a recess 51 is provided in the worm wheel 40 below the web 50 .

For fastening switch disk 16 and plate 41 at the worm wheel 40 are connected to the end face of the worm wheel 40, which is to carry the switching disc 16 and the sheet 41, several projections 52, 53, 54 and 55 formed. After the switching disc 16 and the sheet metal 41 have been placed on, these projections rise above these parts and are caulked above them. The projections 52 are five pins which are evenly distributed over an angular range of 240 ° and pass through holes in the switching disk 16 . The projections 53, 54 and 55 have an elongated shape and are each curved concentrically to the edge of the switching disk 16 or the sheet 41 over which they engage. The projections 55 are located directly on both sides of the ring sector 19 of the switching disk 16 and overlap the ring sector 19 and the inner edge 56 of the switching disk 16 . The two projections 53 are located on different sides of the web 50 in the intermediate space 57, which extends longitudinally in the circumferential direction, between the sheet metal 41 and the switching disk 16 . They overlap both the switching disc and the sheet metal. The two projections 54 are located in the region of the edges 45 and 46 of the switching disk 16 and the sheet 41, respectively, and overlap the outer edge 43 of the switching disk 16 and the outer edge of the sheet 41 . Overall, the shape and size and the position of the projections 52, 53, 54 and 55 are selected so that on the one hand the sheet 41 and the switching disc 16 are securely held on the worm wheel 40 and on the other hand the relative movement between the wiper springs and the switching disc 16 and the Sheet 41 is not hindered.

The sheet 41 avoids that the sliding spring 25 rests with its sliding contact within the gap 21 of the switching disk 16 on the plastic of the worm wheel 40 . In this way, the burning of the hot sliding contact into the plastic material is prevented, so that the full functionality of the electric motor is guaranteed at all times.

Claims (10)

1. Electric motor for driving windshield wipers on motor vehicles with a gear housing and with a parking position switch ( 13 ), which has a metallic switching disc ( 16 ) attached to a gear wheel ( 40 ), in particular made of plastic, and several grinding springs ( 25, 26, 27 ) fixed to the housing. one of which ( 25 ) is in the parking position in a gap ( 21 ) of the switching disk ( 16 ) when the motor ( 10 ) is stopped, characterized in that in the gap a sheet metal ( 41 ) electrically insulated from the switching disk ( 16 ) ), for resting one of the sliding springs ( 25 ) when the motor ( 10 ) is stopped in the park position. 2. Electric motor according to claim 1, characterized in that the sheet ( 41 ) has at least approximately the shape of a ring sector corresponding to the shape of the gap ( 21 ). 3. Electric motor according to claim 2, characterized in that the (16) facing away edge (44) of the switching disc (16) of the sheet (41) on the same circle as an outer edge (43) of the switching disc. 4. Electric motor according to claim 2 or 3, characterized in that the distance between the opposite edges in the circumferential direction ( 45, 46 ) of the switching disc ( 16 ) and the sheet ( 41 ) over the entire radial extent of the sheet ( 41 ) is the same size . 5. Electric motor according to claim 4, characterized in that of two opposite edges ( 45, 46 ) that of the switching disc ( 16 ) lies on a radius beam to an arc formed by an outer edge ( 43 ) of the switching disc ( 16 ). 6. Electric motor according to one of claims 1 to 5, characterized in that the sheet ( 41 ) together with the switching disc ( 16 ) is punched out of a circuit board that it is still with the switching disc after being punched out by at least one narrow web ( 50 ) ( 16 ) is connected and that this web ( 50 ) after the attachment of the switching disc ( 16 ) and sheet metal ( 41 ) on the gear wheel ( 40 ) is severed. 7. Electric motor according to one of claims 1 to 6, characterized in that on the gear wheel ( 40 ) projections ( 53, 54 ) are formed, which are caulked over the edge of the sheet ( 41 ). 8. Electric motor according to claim 7, characterized in that the projections ( 53, 54 ) have an elongated shape and are curved concentrically to a respective overlapped edge ( 44 ). 9. Electric motor according to claim 8, characterized in that a projection ( 54 ) extends in the circumferential direction partially both over the outer edge ( 44 ) of the sheet ( 41 ) and the outer edge ( 43 ) of the switching disc ( 16 ). 10. Electric motor according to one of claims 7 to 9, characterized in that there is at least one projection ( 53 ) in the circumferentially extending space ( 57 ) between the plate ( 41 ) and the switching disc ( 16 ).