EP0291765A2 - Carbon brush holder arrangement - Google Patents

Abstract

A carbon brush holder arrangement is proposed in which the carbon brush holders (18, 20), which are connected to different electrical terminals, are arranged on separate carrier plates (10), which are, however, of identical design, and for their part are assembled to be detachable. The carbon brush holders themselves are stamped as a unit with the required electrical wiring (16) and are folded to the necessary extent. <IMAGE>

Description

The invention relates to a carbon holder arrangement for in particular direct current motors comprising at least two carbon holders, a carrier plate and electrical connections in the form of preferably leadframes, which optionally have components for interference suppression, which connect electrical connections.

Charcoal holder arrangements for e.g. a universal electric motor for use in hand-held power tools has carbon holders arranged on a plastic support plate, which are connected to lead frames in order to then connect them to the phases of a power source. A corresponding structure simplifies assembly, even if the separate fastening of the carbon holder, lead frame and the attachment of the electrical connections is quite time-consuming and therefore costly.

When using DC motors, the current load is considerably higher than with AC motors, especially when using electric motors in the automotive industry. Current currents can amount to approx. 40 A. To carry these high currents and to ensure good functional reliability, so-called quadruple plates are used, for example, for alternators, starters, power steering or radiator fans, ie a collector is connected to four coals, two of which are connected in parallel. In addition to the four charcoal holders with the respective coals and strands are arranged on the carrier plate components for interference suppression such as chokes and capacitors and the mains connection.

According to the prior art, these individual elements are interconnected in a single wiring, e.g. with insulated wires or with additionally insulated extra long carbon strands or in the case of components without interference for interference suppression in the form of a lead frame. As a result, considerable disadvantages are accepted, which affect not only the high assembly costs, but also the connection of the carbon holder busbar, taking into account the high currents, since soldering is often not sufficient. Rather, welding or additional crimping (e.g. with soldering lugs) usually has to be carried out.

The object of the present invention is to design a carbon holder arrangement of the type mentioned at the outset in such a way that the entire arrangement can be easily assembled, and in addition the possibility is to be created that the contacting problems which arise by connecting the carbon holder and the busbar are avoided.

The object is basically achieved in that each carbon holder assigned to a specific electrical connection is arranged on a separate carrier plate. In particular, the teaching according to the invention is advantageous if the coal holder arrangement has at least four coal holders, two of which are arranged diametrically to the longitudinal axis of the motor and are electrically connected in parallel, in which case the coal holders which are connected in parallel are each arranged on a carrier plate. In other words, it is proposed according to the invention that the carbon holders, which are to be connected to different electrical connections, are separated from one another and arranged on separate carrier plates, which in turn can be detachably connected, preferably plugged together. In particular, the carbon holder plates can be detachably assembled by, for example, latching or plug-in connections, the electrical connections and components such as chokes or cones to be emphasized capacitors are only arranged on one of the carbon holder plates. During assembly, it is then only necessary that the carbon holder plates are assembled and a single electrical connection z. B. is produced by soldering.

In particular, the invention is further characterized in that the carbon holder is punched and folded together with the circuit as a unit. This completely bypasses the problems that normally arise from connecting the holder to the electrical circuit without leaving the effect desired by the prior art of a four-carbon holder plate; because the carrier plates to be assembled act from the current supply as a four-carbon holder plate.

In an embodiment, the possibly identical carrier plates have recesses through which the lead frame runs and in which the lead frame can be punched out. This has the advantage that, to the extent required, components for interference suppression, e.g. Chokes or capacitors can be used without the need for complex wiring measures.

Furthermore, the assembled carrier plates can have mutually associated recesses forming a type of pocket, into which a capacitor can be arranged which is to be connected in parallel with the busbars present on the carrier plates.

Since the carbon holders form a unit with the busbars, it is only necessary for the electric motor to function properly that the braid of the coal to be introduced into the carbon holder is welded to the holder, the connection being designed as a notch from the carbon holder.

According to another particularly noteworthy embodiment of the invention for a coal holder arrangement with four coal holders, it is provided that the respective busbar to be arranged on a carrier plate runs two symmetrically to a plane in which the longitudinal axis of the electric motor lies preferably has an L-shaped leg, which are connected by a bridge. The legs run essentially parallel or perpendicular to the plane, with the carbon holders arranged diametrically to the longitudinal axis extending from the legs running perpendicular to the plane.

Furthermore, it can be provided that the busbars run in recesses provided in the carrier plates, whereas the carbon holders are supported on surfaces of the carrier plate which run offset to the planes spanned by the busbars.

The teaching of the invention essentially gives the advantages that the carbon holder and busbar form a part as a lead frame and can be assembled as a unit. The busbar can easily be equipped with interference suppression elements or not.

The carrier plates themselves can be provided with a large number of free spaces, since there is little space required to fasten the busbars with carbon holders. This has the advantage that air can pass through the carrier plates in the axial direction of the motor, so that good cooling is ensured. Since the carbon holder with the busbar forms a rigid unit, the assembly of the plastic carrier plate can be integrated directly into the manufacturing process for the carbon holder or busbars. This eliminates the additional handling of brass parts and plastic parts.

The carrier plates themselves preferably comprise struts constructed in the manner of a truss, which can have a U-shaped or semicircular arch shape in section. The struts can be covered by an outer skin.

Characterized in that the carbon holder is punched together with the circuit as a unit from a sheet metal strip, it is possible to close the holder in the middle and, if necessary, to provide it with feet which are in corresponding recesses in the Carrier plate are inserted and bent to ensure secure attachment. The holder can optionally also be designed with dovetail teeth for firm locking on the carrier plate.

Embodiments of the invention result from the claims and the features to be extracted from them - individually and / or in combination.

The invention is explained in more detail below on the basis of exemplary embodiments illustrated in the drawing, on the basis of which further details, advantages and features result.

• Fig. 1 eine Draufsicht auf eine erste Ausführungsform einer Trägerplatte,
• Fig. 2 eine Draufsicht eines Stanzgitters mit integrierten Kohlehaltern,
• Fig. 3 ein Schnitt entlang der Linie III-III in Fig. 2,
• Fig. 4 eine Draufsicht auf eine zweite Ausführungsform einer Trägerplatte,
• Fig. 5 eine Draufsicht einer der Trägerplatte nach Fig. 4 zu­ordbare weitere Trägerplatte,
• Fig. 6 einen Schnitt entlang der Linie VI-VI in Fig. 4 in ver­größerter Darstellung und
• Fig. 7 ein Schaltbild für die Verschaltung der Trägerplatten nach Fig. 4 und 5.

Show it:

• 1 is a plan view of a first embodiment of a carrier plate,
• 2 is a plan view of a lead frame with integrated carbon holders,
• 3 shows a section along the line III-III in FIG. 2,
• 4 shows a plan view of a second embodiment of a carrier plate,
• 5 shows a plan view of a further carrier plate which can be assigned to the carrier plate according to FIG. 4,
• Fig. 6 is a section along the line VI-VI in Fig. 4 in an enlarged view and
• 7 shows a circuit diagram for the connection of the carrier plates according to FIGS. 4 and 5.

In Fig. 1 is a plan view of a carrier plate (10) made of plastic, which is disc-shaped, wherein one half - in the embodiment, the left half (12) - wheel-shaped and the right half (14) below in more detail Descriptive stiffeners and depressions to receive a busbar (16) designed as a lead frame with carbon holders (18) and (20). The busbar (16) and the carbon holder (18) and (20) are punched out as a unit from preferably sheet metal material and then folded to the desired extent.

For more detailed characterization of the busbar (16), it should be noted that the integral carbon holders (18) and (20) are assigned to a collector, not shown, of an electric motor. For this purpose, the carbon holders (18) and (20) are arranged diametrically to the longitudinal axis of the electric motor, the center of which is indicated by the reference number (22). A plane (24) runs through the longitudinal axis (22) and consequently penetrates the drawing perpendicularly. The busbar (16) now has two sections (28) and (30) which are connected to one another via a bridge (26) and which consist of legs (32) and (34) or (34) or which run parallel or perpendicular to the plane (24) Assemble (36) and (38). These legs form approximately an L-shape, the carbon holders (18) and (20) extending from the legs (36) and (38) running perpendicular to the plane (24). The bridge (26) is designed as a web and is preferably angled at right angles from the plane spanned by the sections (28) and (30). The carbon holders (18) and (20) are also arranged offset to the plane formed by the sections (28) and (30), in fact opposite to the bridge (26). A section (4ß) extends from the leg (34) and serves as a connection to a power source.

As illustrated in FIG. 3, the carbon holders (18) and (20) have connecting tabs or feet (42) and (44). In the unfolded state, the flag (44) is adjacent to the section to be folded to the step (46) and the flag (42) is at the right outer end. Accordingly, the carbon holder (18) is formed by folding the sheet metal material in a clockwise direction, the closing of the holder (18) or (20) in the central region (48) or (50) on the upper one not closest to the step (46) specified area takes place. This results in a high tolerance accuracy of the guide for the coals to be introduced into the coal holders (18) and (20).

The feet, which are provided with the reference numerals (40) and (44) in FIG. 3, are of course located in each case on the end faces of the carbon holders, in order to corresponding slots (52) and (54) or recesses (56) and (58) introduced into the carrier plate (14) and then bent over on the back of the carrier plate, in order to enable a positional fixation.

The outer side surfaces (60) and (62) of the carbon holder (18) and (20) are provided with notches that serve as connections (64) and (66) for the carbon strands, not shown. The connection is preferably carried out by welding.

As mentioned, the carrier plate (12) consists of plastic and is disk-shaped. So that in the exemplary embodiment the right part (14) can accommodate the lead frame (16) with the integrated carbon holders (18) and (20) (the lead frame (16) according to FIG. 2 must be set upside down on the part (14)) is the following Structure chosen. Corresponding to the course of the sections (28) and (30) of the lead frame (16), the part (16) has L-shaped regions (60) and (62) which result from the sections (64), (66) , (68) or (70), (72) and (74). Recesses (76), (78), (80) or (82), (84) and (86) are provided between these, in order to subsequently retrofit the lead frame (16) introduced into sections (60) and (62) to be punched out in certain areas in order to then connect the sections of the lead frame via components which lead to interference suppression. For example, the areas (88) and (90) shown in dashed lines in FIG. 2, which lie above the openings (84) and (78), can be punched free, in order then to adjoin the adjacent areas of the sections (28) and (30). to connect the lead frame (16) with throttles, not shown.

In order to ensure a good positioning of the lead frame on the carrier plate (10), the areas (60) and (62) are recessed in relation to the edges (116), (118) and (120), (122) surrounding them. This is to be clarified in the illustration by the fact that the inwardly offset sections (64), (66), (68) or (70), (72) and (74) are cross-hatched and this is at the height of the peripheral edge (92) of the support plate (10) extending boundary walls (116), (118), (120) and (122) are identified by a simple line hatching.

The bridge (26), which is designed as an angled web, is introduced into a slot (94) and then bent over on the back of the carrier plate (10). The fixation of the carbon holders (18) and (20) via feet (42) and (44) takes place accordingly.

Between the peripheral edge (92) and the areas (60) and (62) for the lead frame (16) there is on the one hand a fastening eye (96) designed as a ring and on the other hand a pocket (108), (110) diametrically closed the fastening eye (96) has a wall (98), which is drawn with a more dashed line and protrudes from the plane formed by the edge (92) and whose inner diameter corresponds to the outer diameter of the fastening eye (96). If the carrier plate (10) shown is now assembled with an identically designed carrier plate, a wall of the other carrier plate corresponding to the wall (98) encompasses the eye (96), whereas a corresponding eye of the other carrier plate from the wall (98) of the carrier plate ( 10) is surrounded.

Furthermore, projections (100) and (102) designed as snap hooks are provided, which engage corresponding recesses in the recesses (104) and (106) when they are assembled with a counter-carrier plate and capture the second carrier plate (not shown) on the back, in order to ensure that the ones to be assembled a carbon holder assembly forming a four-carbon holder plate forms a unit.

The areas not hatched in the drawing represent breakthroughs. As a result, it can be seen that even with assembled carrier plates, sufficient air can flow in the axial direction of the electric motor, so that the required cooling is ensured.

In the area (62) of the carrier plate (10) there is also a recess (110) surrounded by a wall (108) which serves as the mentioned pocket for a capacitor to be inserted, which is parallel to the lead frame (16) of the carrier plate (10) and the carrier plate is arranged, which is arranged in the carrier plate (10) to be assigned to the carrier plate. The pockets formed from the wall (108) and (110) come to lie one on top of the other. For this purpose, as mentioned, the identically constructed carrier plate must be assigned to the carrier plate (10) in mirror image and rotated by 90 °. In other words, the backs of the carrier plates must be placed on top of one another and rotated by 90 °, so that on the one hand the fastening eyes interact with the associated walls and the locking projections with the corresponding recesses offset by 90 °.

The carbon holders (18) and (20) come to lie on surfaces (112) and (114) which run in a plane which is spanned by the edge (12) of the carrier plate (10).

4 and 5 show a coal holder arrangement which is particularly noteworthy and which comprises a first carrier plate (120) and a second carrier plate (122) associated therewith. The carrier plate (120) is disk-shaped and cuboid in plan view and provided with a large number of openings in order to offer the possibility of adequate ventilation of the electric motor. Carbon holders (126) and (128), which are electrically connected in parallel, are arranged on a diagonal of the carrier plate (120) diametrically to the longitudinal axis of the electric motor indicated by the reference number (124). The connection between the carbon holders (126) and (128) takes place via a conductor track (130) designed as a lead frame, which together with the coal holders (126) and (128) have been punched and folded as a unit from sheet metal material. In this regard, reference is made to the explanation in connection with FIGS. 2 and 3.

The carrier plate (122) receives the second carbon holders (132) and (134), which are also connected in parallel. The connection between these is also made via a lead frame (136). The carrier plate (122) is detachably assembled with the carrier plate (120) via preferably plug-in or snap-in connections. For this go e.g. from the carrier plate (120) locking lugs, which can snap into corresponding recesses in the carrier plate (122). Corresponding elements are indicated by way of example with the reference numerals (138) and (140). The connection is made in such a way that the distance between the carrier plates (120) and (122) is ensured to the extent necessary.

Since the carrier plate (122) only receives the carbon holders (132), (134) and the lead frame (136), their geometry is selected accordingly. This means that the carrier plate (122) essentially consists of two holding surfaces (142) and (144) which are connected via a bridge (146) corresponding to the geometry of the conductor track (136). Since the conductor track (136) has approximately a U-shape with outer legs directed away from one another, the geometry of the bridge (146) is accordingly selected.

As shown in FIGS. 4 and 5, the carbon holders (126) and (128) and (132) and (134) with the lead frame (130) and (136) connecting them are identical. Furthermore, the carrier plate (120) is provided with the electrical connections and the interference suppression means, whereas the carrier plate (122) has only the carbon holders (132) and (134) with the mesh (136).

The connection on the carrier plate (120) is illustrated in connection with FIG. 7. The carrier plate (120) has two electrical connections (148) and (150), to which a capacitor (152) is connected in parallel. From the connection (148) then goes out a suppressor choke (154) which is connected to the carbon holders (126) and (128) connected in parallel via the lead frame (130).

Another suppression choke (160) is connected to the other electrical connection (150). All of these elements are arranged on the carrier plate (120). The free connection of the suppression choke (160) is then e.g. connected by soldering to a connecting lug (162) of the lead frame (136), so that in this way the electrical connection to the lead frame (136) and thus to the carbon holders (132) and (134) is established.

A corresponding construction makes recognizable an extremely simple assembly possible, since the carrier plates are only put together and then e.g. must be soldered via the connection lug (162).

If the carrier plates (120) and (122) are to be assembled, it is therefore only necessary that the carrier plate (122) is folded out of the drawing plane and placed on the carrier plate. The electrical connection between the terminal lug (162) and the interference suppression choke (160) can then take place.

According to a further proposal of the invention, the ribs of the carrier plates (120) and (122) or the carrier plate (10) can be designed in the manner of a framework. This is to be illustrated by the section along the line VI-VI in FIG. 4, which is shown in an enlarged representation in FIG. 6. It can be seen that the carrier plate ribs consist of intersecting struts, which are provided with the reference numerals (164) and (166) by way of example. The struts can be arched and covered by an outer skin (168). Another framework-like structure is of course also possible. Appropriate construction results in considerable weight savings without sacrificing load-bearing capacity.

Claims (14)

1. Coal holder arrangement for in particular DC motors comprising at least two coal holders (18, 20, 126, 128, 132, 134), a carrier plate (10, 120, 122) and optionally components (152, 158, 160) connecting the carbon holder with electrical connections Interference suppression electrical circuits in the form of preferably lead frames (16, 130, 136),
characterized by
that each carbon holder (18, 20; 126, 128; 132, 134) assigned to a specific electrical connection (148; 150) is arranged on a separate carrier plate (10, 120, 122). 2. Coal holder arrangement according to claim 1,
characterized by
that the carbon holder (18, 20, 126, 128, 132, 134) together with the interconnection (conductor tracks) (16, 130, 136) is a unit preferably formed by stamping and folding. 3. coal holder arrangement according to claim 1,
characterized by
that the carrier plates (10) are constructed identically and in particular can be detachably plugged together, the carrier plate (10) having cutouts (76, 78, 80, 82, 84, 86) through which the lead frame (16) extends and in which the lead frame can be punched out is. 4. Coal holder arrangement according to at least claim 1 with at least four coal holders (18, 20; 126, 128; 132, 134), two of which are arranged diametrically to the longitudinal axis of the motor (22, 124) and are connected electrically in parallel,
characterized by
that each of the electrically parallel carbon holders (18, 20, 126, 128, 132, 134) are arranged on a separate carrier plate (10, 120, 122) and preferably with the circuitry (conductor tracks) (16, 130, 136) as a unit are punched and shaped. 5. coal holder arrangement according to claim 4,
characterized by
that the conductor tracks in the form of a lead frame (16) have two legs (32, 36; 34, 38) which run symmetrically to a plane (24) in which the longitudinal axis (22) of the electric motor is located and which preferably form an L-shape are connected by a bridge (26), the legs (32, 34; 36, 38) running essentially parallel or perpendicular to the plane (24) and the legs (36, 38) running perpendicular to the plane being the Coal holder (18, 20) arranged diametrically to the longitudinal axis (22). 6. coal holder arrangement according to claim 4,
characterized by
that the conductor tracks (16) run at least partially in recesses (64, 66, 68, 70, 72, 74) provided in the carrier plate (10). 7. coal holder arrangement according to claim 4,
characterized by
that the carbon holders (18, 20) are supported on surfaces (112, 114) of the carrier plate (10) which run offset to the planes spanned by the lead frames (16). 8. coal holder arrangement according to at least claim 1 or 4,
characterized by
that the carrier plates (10) are connected to one another in a mirror image and offset by 90 °, a fastening eye (96) of a carrier plate preferably interacting with a wall of the other plate comprising this. 9. coal holder arrangement according to at least claim 1 or 4,
characterized by
that the lead frame (16) extends in the region of one half (14) of the carrier plate (10) and the other half (12) is preferably wheel-shaped. 10. coal holder arrangement according to preferably one of the preceding claims,
characterized by
that the carbon holder assembly consists of two detachably assembled carrier plates (10), that the carrier plates are of identical design, that the carrier plates lie on one another with the same sides and are detachably connected to one another in a position rotated by 90 °, that each carrier plate corresponds to the outline of the lead frames (16 ) has adapted areas (60, 62) which are offset from the free surface of the carrier plate towards the rear, that the areas (60, 62) have openings in which the lead frame can be punched out and in which the components which cause the interference suppression can be used that the carbon holder (18, 20) forming a unit with the lead frame (16) can be supported on surfaces (112, 114) which run diametrically with respect to the longitudinal axis of the motor (22) and in a plane which is offset from the lead frame (16) receiving areas (60, 62), and that the carrier plate (10) has slots (52, 54, 94) into which, on the one hand from the carbon holders (18, 20) projecting as feet (42, 44) and on the other a bridge angled from the plane of the lead frame (16) are introduced and bent on the back of the support plate and parallel to it. 11. coal holder arrangement according to at least claim 4,
characterized by
that one of the carrier plates (120) is equipped with essentially all electrical components (152, 158, 160). 12. Coal holder arrangement according to claim 11,
characterized by
that the carrier plate (120) connects the connections (148, 150) with the phases of a voltage source, preferably a first interference suppression element, such as a capacitor (152), which is connected in parallel with the connections, and at least one further one originating from the connections and in series with a pair of each Coal holder (126, 128; 132, 134) connected in parallel has interference suppression element (158; 160) such as interference suppression choke. 13. charcoal holder arrangement according to at least claim 12,
characterized by
that the disc-shaped openings having the interference suppression elements (152, 158, 160) has a support plate (120) which is square in plan view and that the carbon holders (126, 128) are arranged on a diagonal and that preferably the other support plate (122) is one of the Coal holder (132, 134) connecting interconnect (136) preferably has a corresponding U or V shape. 14. coal holder arrangement according to at least claim 1,
characterized by
that webs or ribs of the carrier plate (10, 120, 122) are formed from truss-like struts (164, 166), which are preferably surrounded by an outer skin (168).

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