EP0302985A2 - Holder for a contact carbon brush - Google Patents

Abstract

A holder (10) for a contact carbon brush is proposed, particularly for an electric motor, which has a rectangular housing (14). A longitudinal slot (30) originates from the front end face (32) of the housing (14), within which slot (30) a braided element originating from the rear end of the contact carbon brush (12) moves freely. The braided element is connected to the housing (14) via an open sleeve (68) facing the longitudinal slot (30), which sleeve (68), for its part, originates in the region of the front end face (32) of the housing (14). A spring element is inserted from the rear face (48) of the housing (14), whose mobility is limited firstly in the front region of the housing (14) by a change in cross-section and, in the rear region, by web-shaped sections (50, 52, 56, 58), which can be bent towards one another. <IMAGE>

Description

The invention relates on the one hand to a holder according to the preambles of claims 1, 2, 9 and 10 and on the other hand to a method for mounting the holder according to the preamble of claim 11.

The coal, which transmits electrical current from a stationary to a movable part, is to be guided in a resilient manner in the axial direction and in the transverse direction as free of play and rotation-proof as possible by a corresponding holder.

A strand emerging centrally from the rear surface of the grinding brush in the axial direction can be guided through the center of the spiral compression spring to the rear end of the housing and fastened there. The length of the connecting wire is dimensioned so that the abrasive brush can be adjusted. The threading of the flexible connecting strands into the spiral spring requires a certain skill, so that the production of this type of carbon holder is time-consuming and can only be automated with a large amount of equipment.

It has therefore proven useful to lead the connecting wire laterally out of the housing via a slot extending from the front end face and to fasten it directly to its rear end.

A holder is mounted in such a way that a carbon is inserted into the housing from the rear and then the connecting wire is positioned and fastened to the rear end of the housing. The spring is then inserted, held in place and finally locked in place by a counterholder.

The workflow is similar if the wire is threaded through the spring. Here, too, the connecting wire is attached to the rear end of the housing, which is opposite the exit of the carbon brush.

In another embodiment, the free end of the connecting strand connected to the carbon brush has a contact element which is inserted on the end face between the spring and the housing. The assembly of such a carbon holder is also time-consuming and not accessible to automation.

An object of the present invention is to provide a holder according to the preamble of claims 1, 2, 9 and 10 so that a simple assembly allows easy assembly of the individual parts with fully automatic assembly in large quantities, which should be ensured in particular that the strand can be securely fixed and that the housing has the required dimensional stability and thus mixed geometry.

The object is essentially achieved by the features of claims 1, 2, 9 or 10. According to the invention it is therefore proposed, inter alia, that a receptacle for strands runs over the longitudinal slot, which is automatically inserted into the receptacle when the coal is introduced. It is not required that the slot is continuous from the end face from which the coal is inserted into the housing. Rather, a web connecting the slot side surface can be provided in the region of the end face. As a result, the housing experiences a high degree of dimensional accuracy, so that the coal must be taken up with unnecessary play. An automatic threading of the strand into the receptacle nevertheless takes place, namely because of the inherent tension of the strand, it jumps through the slot into the receptacle, provided the strand and slot length are correctly matched to one another. In order not to impede the introduction of the coal with the strand and its passage under the web, the latter is preferably slightly bulged or, if the slot is present in a spring-bellied wall, its contour is adapted.

If there is no web, i.e. the slot starts from the stone side and is designed to be continuous, the wire is guided through the receptacle in the area of the end of the longitudinal slot during the assembly process and connected to it after the carbon has been completely introduced into the housing produced. The attachment preferably consists of an open sleeve facing the longitudinal slot, which is crimped or welded to the stranded element. The previously described embodiment enables simple and time-saving assembly, the end of the stranded element to be fastened being automatically positioned at the desired fastening point at the end of the housing.

The receptacle can be designed as an open sleeve and extend from two webs running on both sides of the longitudinal slot, a type of bridge being formed which ensures that the housing is not bent apart in an uncontrolled and unwanted manner in the area of the slot. As mentioned, there is also the possibility of leaving a bulged web in the front area of the longitudinal slot which bridges the longitudinal slot. This ensures particularly good shape retention ensures that it can withstand high external loads. This also ensures that the abrasive carbon is arranged almost free of play and exclusively axially displaceable within the housing.

If the longitudinal slot extends over the entire length of the housing, there is the advantage that the carbon can be introduced from both end faces. In this case, the dimensional accuracy of the housing is ensured by the fact that webs forming bridge-like guides are arranged on both end faces.

In a further embodiment of the invention to be emphasized, the rear end face of the housing has at least one movable element which changes the free cross section of the housing and which serves as a rear boundary for the spring element introduced into the housing.

The electrical connection of the housing is particularly simplified in that, in the area of the rear end of the housing, a projection extending from a side wall is designed as a plug. Usual receptacles can be plugged onto this connector.

According to a further proposal of the invention, the front limitation of the spring element takes place by changing the cross section of the housing, the spring element in the form of a helical spring partially projecting laterally over the grinding carbon and the housing showing at least one support for the compression spring at the end having the open end face.

A further embodiment provides for a projection such as an angle to be left on one edge of the longitudinal slot, which projection is bent over after the installation of carbon, braid and spring in such a way that it projects transversely into the open slot. The stranded wire can then hang on the rear edge of the web, see above that the wear length of the coal is determined by the position of the web and is prevented that the remaining remainder and the spring come out of the guide after worn coal.

The above-described solution features ensure that the spring element can be positioned within the housing regardless of the presence of the abrasive carbon, it being possible to insert it from the rear of the housing when the preferably hook-shaped elements in the rear area have the cross-section of the Release the housing. As soon as the spring element is introduced, the elements, which can be sections of the side walls, are bent inwards, so that an uncontrolled sliding out of the spring element is no longer possible.

The housing made of sheet metal inevitably has a longitudinal joint. This parting line is arranged in one of the side walls not having the longitudinal slot. The dimensional accuracy of the housing is increased in that this parting line is dovetailed.

The attachment of the housing on a circuit board or the like is particularly facilitated in that bending tabs are arranged at least on the rear end of the housing. These bending tabs can be arranged on both sides of the parting line, so that thereby a smooth parting line is held together via the board serving as the holder.

In its own inventive design, the invention relates to a holder for a carbon brush for in particular electric motors, comprising a preferably cuboid housing and the carbon brush arranged therein, which can be displaced in the axial direction, on which a spring element such as a coil spring acts in the fully assembled state, and is characterized in that the holder forms a preassembled unit with the coal, the coal being pushed into the holder from the front end, the wire automatically being inserted or threaded into the receptacle and clamped and / or welded there.

The proposal according to the invention accordingly provides a preassembled unit by means of which a fully automatic assembly can be facilitated. A particular advantage is that the unit consisting of the housing and the coal can be stored, into which, if necessary, only the grinding carbon with the strand element can be inserted from the front of the housing in order to provide a fully functional carbon holder.

A method for assembling a holder for a carbon brush comprising a housing, a spring element and the carbon brush having a laterally projecting strand element is characterized in that the spring element is introduced into the rear of the housing in order to prevent the spring element from sliding out in an uncontrolled manner in the area of the rear end face at least one hook-shaped element is moved into the displacement path of the spring element, that the carbon is inserted from the front of the housing and locked by a releasable holding element, and that the stranded element is attached laterally to the housing. In particular, the method is characterized in that the stranded element is guided through a longitudinal slot extending from an end face of the housing, in the area of which there is a fastening in which the stranded element is automatically inserted when the abrasive carbon is introduced, so that after the abrasive carbon has been fully inserted, the Fastening element is only connected to the stranded element, such as, for example, welding or crimping.

Further details, advantages and features of the invention result not only from the claims, the features to be extracted from them - each individually and / or in combination - but also from the following description of a preferred exemplary embodiment shown in the drawing.

• Fig. 1 eine perspektivische Darstellung eines Halters für Schleifkohle von der Rückseite aus betrachtet,
• Fig. 2 einen Längsschnitt des Halters nach Fig. 1,
• Fig. 3 eine Vorderansicht des Halters nach Fig. 1 und 2,
• Fig. 4 eine perspektivische Darstellung eines Halters mit über die gesamte Länge des Gehäuses verlaufendem Längs­schlitz,
• Fig. 5 eine perspektivische Darstellung eines Halters in einer weiteren Ausführungsform,
• Fig. 6 die perspektivische Darstellung eines Halters mit integriertem Verbindungsstecker und
• Fig. 7 und 8 Varianten des Halters nach Fig. 1

Show it:

• 1 is a perspective view of a holder for grinding carbon viewed from the rear,
• 2 shows a longitudinal section of the holder according to FIG. 1,
• 3 is a front view of the holder of FIGS. 1 and 2,
• 4 is a perspective view of a holder with a longitudinal slot extending over the entire length of the housing,
• 5 is a perspective view of a holder in a further embodiment,
• Fig. 6 is a perspective view of a holder with an integrated connector and
• 7 and 8 variants of the holder of FIG. 1st

The figures show a holder (10) for carbon brushes (12) for in particular electric motors, which has a cuboid housing (14) in which the carbon brush (12) and a helical spring (16) are arranged to be axially displaceable. The inner cross section of the housing (14) is adapted at least in sections to the cross section of the carbon brush (12) in order to enable guidance without play. From the carbon brush (12), namely from its rear end (18) a current leads (20) for power supply, which is connected to a receptacle or fastening (24) to be described in more detail below at the front end (22) housing (14).

In the longitudinal direction of the housing (14), namely in the spring channel side wall (28), there is a longitudinal slot (30) which starts from the end face (32) of the housing (14) and has a length that is approximately the length of the unused carbon ( 12) corresponds. 7 and 8, the longitudinal slot (30) in the region of the end face (32) can be bridged by a web or bridge (77) following the contour of the wall (28) in order to ensure high dimensional stability.

1 and 8 in particular, the wall (28) and also the opposite wall (34) each have a bulge (36) or (38), which is at a distance from the front end (22) of the housing (14 ), i.e. to the front (32) ends. The helical spring (16) can be moved freely in the region of the bulges (36) and (38). The cross-sectional change of the housing (14) to the front end (22) results in a support for the helical spring (16), which limits its movement. Despite the bulges (36) and (38), the walls (28) and (34) in the edge regions (40), (42) and (44), (46) are still at a distance from the cross-section of the carbon brush (12 ) turned off, so that an almost play-free and exclusive axial displacement is guaranteed.

The helical spring (16) can be inserted into the housing (14) from the rear end side, that is to say from the rear side (48), into the region of the housing (14) which has the bulges (36) and (38). Subsequently, web-shaped sections (50), (52), (56) and (58) are bent towards one another in order to ensure that the helical spring (16) does not become uncontrolled can slide out of the housing (14). The web-shaped sections (50), (52), (56) and (58) facing each other are preferably sections of the walls (28) and (34).

In the area of the rear side (48) there are also bending tabs (60), via which the housing (14) with e.g. can be easily connected to a carrier.

In Fig. 8 further features to be emphasized are illustrated. Thus, on one edge of the longitudinal slot (30) there is a projection such as an angle (41) which, after mounting coal, braid and spring, is bent in such a way that it projects into the slot (30) in such a way that there is on the rear edge of the web or projection (41) can hang the strand. Consequently, the position of the web (41) determines the length of wear of the coal and prevents the last remnant and the spring from coming out of the guide after the coal has been worn.

Also shown in Fig. 8 is the bridge (77) bridging the slot (30) to ensure that the housing is not expanded unintentionally and unintentionally. Nevertheless, the strand (20) lies in the receptacle (24) after the coal (12) has been pushed into the housing (14). In this case, the strand (20) jumps through the slot due to its own tension and lies in the concave area of the receptacle (24) in order to be welded, soldered or the like there. Of course, this area of the receptacle must lie above the slot (30) so that the bridge (77) lies in relation to the end face (32) in front of the concave area of the receptacle (24).

In Fig. 2, the reference numeral (61) shows a dovetail-shaped parting line of the housing (14).

In the upper wall (62) of the housing (14) there is also a holding element (64) by means of which the grinding carbon (12) can be held in a desired position, namely when the carbon is not displaced within the housing (14) shall be. For this purpose, the holding element (64) has a section (66) protruding into the housing interior at the front end. As soon as the holding element (64) is bent outwards, only the helical spring (16) acts on the carbon brush (12), so that it can be displaced outwards, that is to say through the front end face (32).

The fastening (24) on the front end face (32) of the housing (14) is preferably designed as an open sleeve (68) facing the longitudinal slot (30), which extends from the wall (28). Web-shaped sections (70) and (72) go out on both sides of the slot (30), initially run in the plane of the end face (32), and are then bent parallel to the wall (28) (section 74). The section (74) then merges into the open sleeve (68), which can also be referred to as a "shoe". The free end of the strand (20) is then automatically inserted into the open sleeve (68) when the grinding carbon (12) is inserted into the housing (14) via the front end face (32). The strand (20) can then move freely within the longitudinal slot (30) and automatically lies in the open sleeve (68). As soon as the abrasive carbon (12) is locked in place by the holding element (64), only the free legs (76) and (78) of the sleeve (68) need to be crimped or welded to the strand (20).

In particular in Fig. 3, the cross section of the attachment (24) is clear and it can be seen that it is freely accessible from the inside of the housing (14), whereby the automatic threading of the strand (20) when inserting the carbon (12) in the housing (14) is understandable.

The embodiment according to FIG. 7 differs from that of FIG. 1 in that a bridge serves as an attachment, which is formed by a bulged web (77) running over the longitudinal slot (30), which is formed by the longitudinal slot edges of the side wall designed as a spring belly going out. The bridge can be seen at a distance from the front end of the housing (14). If a receptacle corresponding to that of FIG. 1 is added to the exemplary embodiment starting from the end face (32) and initially parallel to this and then running along the wall (36), a construction according to FIG. 8 is obtained.

FIG. 4 shows a holder (80) which has a longitudinal slot (84) which extends over the entire length of the housing (82). A bridge-like connecting web (86) or (88) is arranged in the area of the front and rear end faces of the housing (82), which ensures the dimensional stability of the housing despite the continuous longitudinal slot.

5 shows a holder (90), in the housing (92) of which a longitudinal slot (94) extending from the rear end face is arranged. In the area of the rear end face there is a bridge (96) extending to the side, the extension of which serves as a fastening (98) for receiving the strand extending from the grinding carbon.

6 shows a holder (100), on the housing (102) of which flap-like angle pieces (106) and (108) extending from two opposite side walls are arranged, which are angled towards the center of the housing after insertion of the helical spring and so hold the coil spring in the housing. A projection is arranged on one of the two other side walls, which has the shape of a plug (110). A sleeve for the electrical connection of the Housing. In the exemplary embodiment, the plug (11) is bent at right angles from the housing wall. It goes without saying that the plug (110) can also be arranged running in the axial direction of the housing or in any other direction.

Claims (12)

1. carbon holder (10, 80, 90, 100) for a carbon brush (12), in particular for an electric motor comprising a cuboid housing (14, 82, 92, 102) preferably made of metal, through the front end face (32) of which the housing can be moved axially displaceable, a spring element (16) arranged in the housing axially acting on the carbon, a strand element (20) extending from the carbon and a longitudinal slot (30, 84, 94) running in a side wall of the housing, through which at least a portion of the strand element can be guided, characterized in that
that the housing (14, 82) in the region of the end face (32) has a receptacle (24, 86, 88, 98) extending over the longitudinal slot (30, 84, 94) for the free end of the stranded element (20) and that a bulged web (77) extends or closes off the longitudinal slot in the region of the end face (32). 2. Carbon holder (10) for a carbon brush (12), in particular for an electric motor, comprising a cuboid-shaped housing (14), preferably made of metal, through whose front end face (32) an axially displaceable carbon brush can be moved, an arranged in the housing spring element (16) acting axially on the carbon brush, a strand element (20) starting from the carbon brush and a longitudinal slot (30) running in a side wall of the housing, through which at least a section of the strand element can be guided,
characterized by
that in the area of the longitudinal slot (30) there is an outgoing fastening (24) for the free end of the stranded element (20) extending from two webs (70, 72) forming a bridge-like guide and running on both sides of the longitudinal slot (30). 3. coal holder according to claim 1 or, 2,
characterized by
that the receptacle is designed as an open sleeve-like element (68) facing and bridging the longitudinal slot. 4. Holder according to at least one of the preceding claims,
characterized by
that the receptacle (70, 72) starts from an end face (32, 48) of the housing (14) and extends in sections parallel to the end face. 5. Holder according to claim 1,
characterized by
that the distance of the web (77) to the front end face is less than that of the area of the receptacle (70, 72) holding the strand. 6. Holder according to at least one of the preceding claims,
characterized by
that the longitudinal slot (84) extends over the entire length of the housing (82), and that webs (86, 88) forming bridge-like guides are formed in the region of both end faces. 7. Holder according to at least one of the preceding claims,
characterized by
that in the area of the rear end face of the housing (102) a projection extending from a side wall is designed as a plug (110). 8. Holder according to at least one of the preceding claims,
characterized by
that a web (41) protrudes into the longitudinal slot (30) on which the carbon strand can be suspended. 9. holder (10, 80, 90, 100) for a carbon brush (12) for in particular an electric motor comprising a preferably cuboid housing (14, 82, 92, 102) and a spring element (16) such as a coil spring arranged therein exerts a force on the grinding carbon in the axial direction of the housing,
characterized by
that the holder (10, 80, 90, 100) forms a preassembled unit with the spring element (16), the spring element in the front region of the housing (14, 82, 92, 102) by a cross-sectional change and in the rear region by at least one in the area of the rear side (48) bendable web-shaped element (50, 52, 56, 58) can be locked. 10. holder (10) for a carbon brush (12) for in particular an electric motor comprising a preferably cuboid housing (14) and arranged in this in the axial direction of the housing displaceable a strand (20) having carbon brush on which a spring element in the assembled state (16) exerts a force
characterized by
that the holder (10) forms a preassembled unit with the carbon brush, the carbon brush being insertable from the front end into the housing (14) and the wire having a prestressing such that the wire automatically moves into the receptacle (24, 68, 77) is inserted and fastened there by clamping and / or welding. 11. A method for assembling a holder for an abrasive carbon comprising a housing, a spring element and the abrasive carbon having a laterally projecting strand element,
characterized by
that the spring element is inserted into the rear end of the housing,
that at least one web-shaped element is moved into the displacement path of the spring element in order to prevent the spring element from sliding out in an uncontrolled manner,
that the carbon is inserted from the front end of the housing and locked by a releasable holding element and
that the stranded element is attached to the side of the housing. 12. The method according to claim 1,
characterized by
that the heald element is guided through a longitudinal slot extending from an end face of the housing, in the area of which a fastening for the heald element is arranged and in which the heald element is inserted into the housing when the grinding carbon is pushed in.

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