EP0398320A2 - Carbon brush holder - Google Patents

Abstract

A carbon brush holder (10) is proposed, for mounting on a fixing support, such as a plastic support, the carbon brush holder being provided with laterally projecting projections (36, 38), which can be fitted into receptacles of the fixing support. <IMAGE>

Description

The invention relates to a carbon holder for attachment to a support carrier such as a plastic carrier, wherein flat projections extending from the carbon holder and parallel to the mounting surface of the support carrier engage in associated recesses in the support carrier or to a carbon holder made of an electrically conductive material for a carbon brush, in particular for an electric motor comprising a preferably cuboid housing, through the front end face of which an axially displaceable carbon brush can be moved, a spring element arranged in the housing axially acting on the carbon brush, a stranded element extending from the carbon brush and a longitudinal slot running in a side wall of the housing, in which at least one section of the strand element is arranged to be freely movable, with a section in the region of the wall having the slot as a fastening for the free end of the strand element is formed.

A brush holder for electrical machines is known from DE-A-27 33 130, in which the housing has laterally projecting tabs which can be inserted into slot guides of a brush guide. The rags must also be punched out of the sheet material from which the sections for the Housing of the carbon brush are punched. A sheet metal blank is selected that only allows the carbon brush to be inserted into the housing from the front end side, that is to say from the side on which the carbon brush rests on a commutator or slip ring.

DE-A-37 26 894 describes a carbon holder in which the attachment of a strand element extending from the carbon brush can be introduced in a sleeve spanning a slot in a wall of the carbon holder.

The object of the present invention is, on the one hand, to enable the carbon holder to be securely fixed on a holding support, such as a plastic support, using structurally simple means without additional material being required. A tension-free fixation in the support bracket should be possible, with a hook in the desired positions being possible if necessary. Of course, there should be the possibility that the carbon brush can be inserted into the carbon holder from the rear, so that the advantages that can be achieved in this way can be retained when equipping the carbon holder. It is also an object of the invention to ensure that, while avoiding additional shaping and the use of special tools, the stranded element emanating from the carbon brush can be fastened to a sufficient extent, with sufficient space for the fastening itself. Finally, it should also be excluded that the stranded element can emerge from the coal holder when the coal is worn out.

The object is essentially achieved in that the projections are cut-out sections from the walls running perpendicularly to the fastening surface of the holding support, to which the walls are folded away, and / or that the projections are extensions of a dovetail-shaped toothing which starts from wall sections and which are in the fastening surface of the support bracket facing wall. The projections can preferably be used as latching hooks be trained. In such a case, the latching hooks preferably have the shape of an unequal leg triangle, the long side leg of which extends in the direction of the front end face of the carbon holder.

If the projections are extensions of the sections of the carbon holder which form the parting line, it is necessary that, in contrast to the alternative in which the sections form part of the walls running perpendicular to the fastening surface, slightly more sheet metal material is required. Nevertheless, the projections are quasi sections of a wall of the carbon holder, which are predetermined by the course of the wall itself.

A solution also provides for the section forming the fastening to protrude laterally, preferably essentially at right angles, from the wall, between which and the slot a strand brake limiting the strand movement in the direction of the front open end of the carbon holder can be provided. If a stranded brake is present, it can be formed by an area of the carbon holder wall running between the slot and the fastening, specifically by the edge delimiting the slot. The section forming the fastening is essentially perpendicular to the wall and is preferably planar, that is to say designed as a flat plate element.

Due to the design of the mounting surface, a small space requirement for the holder itself is only required. The holder can also be produced in a material-saving manner.

A high intrinsic stiffness is given if the length of the slot runs only in some areas within a wall. It is no longer necessary that the strand is automatically threaded into the sleeve known from the prior art. Rather, by means of, for example, a tool, the strand which can be detected from the slot can be pulled out of the holder and then with the fastening which is angled out of the wall in the front end region by, for example, ultrasonic welding, soldering or something like that. The length of the strand with respect to the distance between the attachment and the nearby edge of the slot, which serves as a strand brake, is chosen so that when the coal is used, the strand with the spring element on the back cannot come out of the coal holder. Consequently, no change in cross-section of the carbon holder is required to act as a spring brake, which prevents the spring element from slipping out according to the prior art.

In the carbon holder according to the invention, the carbon brush can, as mentioned, be pushed into the holder from the rear, an abutment for the spring element being formed by flexible webs.

The housing punched out of sheet metal and then folded is closed by the dovetail-shaped parting line already mentioned. According to a further embodiment, at least a section of the parting line can extend over the wall running perpendicular to the surface having the parting line and can preferably be angled parallel to it, in order to e.g. as a plug for a carbon strand or e.g. as attachment for an active or passive electrical component such as serve a throttle.

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

• Fig. 1 eine perspektivische Darstellung einer ersten Ausführungsform eines Kohlehalters, betrachtet von schräg hinten,
• Fig. 2 eine perspektivische Vorderansicht des Kohlehalters nach Fig. 1,
• Fig. 3 eine zweite Ausführungsform eines Kohlehalters,
• Fig. 4 eine dritte Ausführungsform eines Kohlehalters,
• Fig. 5 eine vierte Ausführungsform eines Kohlehalters und
• Fig. 6 eine fünfte Ausführungsform eines Kohlehalters.

Show it:

• 1 is a perspective view of a first embodiment of a carbon holder, viewed obliquely from behind,
• 2 is a front perspective view of the coal holder of FIG. 1,
• 3 shows a second embodiment of a carbon holder,
• 4 shows a third embodiment of a carbon holder,
• Fig. 5 shows a fourth embodiment of a carbon holder and
• Fig. 6 shows a fifth embodiment of a carbon holder.

In the figures, in which the same elements are provided with the same reference numerals, different embodiments of carbon holders (10), (44), (54), (60) and (70) are shown, which receive grinding charcoals, not shown, which with the flaps of a commutator or slip rings of an electric motor interact.

Each charcoal holder (10), (44), (54), (60) or (70) has a cuboid housing (12), the side walls (14) and (16) of which have bulges around a preferably screw-shaped one, not shown Increase spring element, which exerts a force directed towards the grinding carbon in the direction of the front end face (18) of the carbon holder (10), (44), (54), (60) or (70). At the back, flexible webs (20) are provided which serve as spring brakes. As a result, the abrasive carbon with the spring element can be pushed into the carbon holder (10), (44), (54), (60) or (70) from the rear thereof. After the grinding carbon and spring element have been introduced, the webs (20) are then bent to partially close the rear end face.

In the exemplary embodiments in FIGS. 1-3, a slot (22) is provided in the bulged side wall (16) at a distance from the end region (18) and the spring brakes (20) arranged on the rear from web-like elements, through which a slot emanating from the carbon brush is provided Strand element can be moved freely so as to connect its front end to a fastening (24) extending from the housing (12). The fastening (24) is from the wall (16) cut out and bent so that it runs approximately perpendicular to this. The result is a rectangular or square flat surface which serves as a fastening (24) for the strand element. The attachment (24) is located in the axial direction of the holder (10) in front of or behind the slot (22).

Between the attachment (24) and the slot (22) runs a section (26) of the wall (16) which serves as a braid brake. If the abrasive carbon and thus the strand element is displaced in the direction of the end face (18) due to the spring force acting on it, the strand element is placed around the edge (18) which delimits the section (26) or the slot (22) and faces the fastening (24). 28), so that with a coordinated length of the strand element after a certain consumption of the carbon, further movement of the latter is no longer possible despite the action of the spring element. In other words, a remainder of the abrasive carbon remains within the carbon holder (10), namely when the length of the strand element is less than the distance between the attachment (24) and the edge (28) and this and the end region (18) of the carbon holder (10 ) is.

Although the slot (22) only extends over a certain area of the wall (16), the strand can be moved freely. Due to the small extent of the slot (22), however, a high stability of the carbon holder (10) or (44) itself is guaranteed.

The carbon holder (10), (44), (54), (60) or (70) consists of stamped and folded sheet material, the edges to be joined together by a dovetail-shaped connection (30) in the upper wall (32) .

The opposite wall (24) forming the underside can be arranged on a fastening surface (not shown) of a holding bracket. For this purpose, protrusions (36), (38), (40) emanate from the lower edge area (42) of the walls (16) and (14). These projections (36), (38), (40) remain in the plane of the lower wall (24) to which the side walls (14) and (16) are folded. The projections (36), (38), (40) can be inserted into assigned slot-shaped recesses in the holding support, so that the holder (10) or (44) is preferably fixed in a plastic support without tension.

The projections (36), (38), (40) can be round or shaped as barbs. The latter is the case when an uncontrolled movement of the coal holder (10) is to be prevented.

If the function of a barb is to be fulfilled, a shape of an isosceles triangle is preferably chosen, with its long leg (56) (see FIG. 4) preferably the front end face (18) of the respective carbon holder (10), (44), (54), (60) or (70) faces.

3 differs from that of FIGS. 1 and 2 in that the wall (32) having the dovetail-shaped parting line (30) can also have projections (46) and (48) which are parallel to that Wall (32) runs and can interact with a support bracket. For this purpose, it is not necessary for sections to be punched out of the walls (16), even if this is additionally possible, as the projection (40) shows.

The projections (46) and (48) of the carbon holder (44) which produce the connection to the holding carrier are preferably formed by sections of toothing which otherwise provide the connection between the mutually facing sections (50) and (52) of the wall (32) of the coal holder (44) form. It is therefore only necessary that some gears are punched out of the sheet-like base material over a large area and the associated opposite sections of the edge section (50) or (52) are removed in order to flush the extended gears, i.e. the projections (46) and (48) level (32). Of course, one can Overlap takes place in the area of the projections (46) and (48) in the area of the sections (50) and (52), so that the projections (46) and (48) rest on the wall (32).

In the embodiment of carbon holders shown in FIGS. 4 to 6, essentially only those features are discussed which are not found in FIGS. 1 to 3. Consequently, reference is made to the description given above for the same features.

The carbon holder (54) according to FIG. 4 has a slot (56) running in the side wall (16), from the longitudinal edge of which the attachment (24) extends. Consequently, there is no portion of the side wall (16) between the fastening (24) and the slot, which serves as a braid brake.

From Fig. 4 it can be seen in relation to the projections (36) which fix the carbon holder (54) in a carrier plate (not shown) that these can be designed as latching hooks so as to enable immovable fixing at a certain position of the carrier plate. The projections (36) have the geometry of an unequal leg triangle, the longer side leg (56) facing the front end face (18) of the carbon holder (54).

The charcoal holder (60) according to FIG. 5 has a special feature with regard to the parting line (62) provided in the wall (32). Sections (64), (66) of the parting line can be extended beyond the wall (32) and then parallel to the side walls (14), (16) have angled sections (68) and (70), e.g. serve as an attachment of the carbon strand, making the attachment plate (24) unnecessary, or as an attachment for e.g. a choke can be used.

In the carbon holder (70) of FIG. 6, fastening sections (36), (38) and (74), (76) run both in the plane of the wall (72) and the wall (32) having the parting line (62). , each consisting of sections of the wall (16) or opposite wall are formed. As a result, the carbon holder (70) can be easily attached to a carrier in any desired position.

6 shows a further feature to be emphasized. For example, for the controlled fixing of the strand and thus its attachment by e.g. Weld the fastener (24) with a recess such as Longitudinal bead (77). A depression in the form of an indentation or the like is also possible.

Claims (10)

1. charcoal holder (10, 44, 54, 60, 70) for attachment to a holding support such as a plastic support, with flat projections (36, 38, 40, 46, 48, 74, 76) extending from the carbon holder and running parallel to the fastening surface of the holding support engage in assigned recesses in the support bracket,
characterized by
that the projections (36, 38, 40, 74, 76) are cut-out sections from the walls (14, 16) running perpendicular to the fastening surface of the holding support, to which the walls (14, 16) are folded away, and / or that the projections (46, 48) are extensions of a dovetail-shaped toothing (30) extending from wall sections, which extends in the fastening surface of the wall facing the holding carrier. 2. Coal holder according to claim 1,
characterized by
that the projections (36, 38, 40, 46, 48, 74, 70) are designed as locking hooks. 3. coal holder according to at least one of the preceding claims,
characterized by
that projections (36, 38, 40, 46, 48) are present in planes from opposite walls (24, 32) running parallel to the fastening surface. 4. Coal holder according to claim 2
characterized by
that the latching hook (36) has a shape of an unequal leg triangle, the longer side leg (56) of which extends in the direction of the front end face (18) of the carbon holder (10, 44, 54, 60, 70). 5. charcoal holder (10, 44, 54, 60) made of an electrically conductive material for a carbon brush, in particular for an electric motor, comprising a preferably cuboid housing (12) through the front end face (18) of which an axially displaceable carbon brush can be moved is a spring element axially acting on the carbon brush, a strand element extending from the carbon brush, and a longitudinal slot (22) running in a side wall (16) of the housing, in which at least a section of the strand element is freely movable, in the region a section of the slot having the slot is designed as a fastening (24) for the free end of the strand element, preferably according to claim 1,
characterized by
that the attachment (24) forming section protrudes laterally from the wall (16) and runs in front of or behind the slot (22). 6. charcoal holder according to at least claim 5,
characterized by
that between the fastening (24) and the slot (22) is a strand brake limiting the strand movement in the direction of the front end face (18) (26, 28) is arranged. 7. charcoal holder according to at least claim 5,
characterized by
that the strand brake is an area of the carbon holder wall (16) extending between the slot (22) and the fastening (24). 8. charcoal holder according to claim 5,
characterized by
that the portion (24) forming the attachment extends essentially perpendicular to the wall (16) and is preferably of flat design. 9. charcoal holder according to at least one of the preceding claims,
characterized by
that the carbon holder (70) made of stamped and folded sheet material has a dovetail-shaped parting line (62), at least a section (64, 66) of the parting line extending over the wall (14, 16) running perpendicular to the surface having the parting line and is preferably angled parallel to the latter, the end section (68, 69) being designed as a plug part or as an attachment of, for example, a throttle. 10. coal holder according to at least one of the preceding claims,
characterized by
that the fastening (22) has a recess such as a bead (77) for the controlled fixing of the strand element.

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