DE102004064289B3 - DC motor - Google Patents

Abstract

A DC motor comprising: a case (2) having an opening (2a); a plurality of magnets (6) fixed in the case (2); an armature (8) provided in the case (2) is to be rotatable relative to the magnets (6) and includes a commutator (11) having a plurality of sections; a shaft (4) for outputting a rotation of the armature (8); a first bearing (5) for supporting the shaft (4) relative to the housing (2); a brush holder (3) provided in the opening (2a) of the housing (2) for holding a plurality of brushes (12) relative to the Commutator (11) of the armature (8) are slidably movable, and a second bearing (7) provided on the brush holder (3) for supporting the shaft (4) freely rotatable, the second bearing (7) having an inner race ( 7a) and an outer race (7c), and a fastening means (13) is arranged on an outer peripheral surface of the outer race (7c) for adjusting the Position of this relative to the brush holder (3), the brush holder (3) having a flange portion (3b) extending in the axial direction of the shaft (4) and a projection (3e) formed on the flange portion (3b) which is engaged with the fastening means (13), characterized in that the projection (3e) is deformed by contact with the fastening means (13), and the fastening means (13) in a continuous cavity (7e) on the outer peripheral surface of the outer race (7c), and the fastener (13) is sandwiched between the flange (3b) and a housing (21) of a portion driven by the DC motor (1).

Description

The invention relates generally to a DC (direct current) brush motor which is operated with direct current. More particularly, the invention relates to a direct current motor (DC motor) which is compact and thin and which is mountable in a vehicle to be preferably used as a drive source, for example for an anti-lock braking system or a traction system.

A known DC motor is for example in the JP 2001-086 719 A disclosed, wherein in the 7th an internal structure of the known brush DC motor is shown. As in 7th shown includes a housing 102 a main body 102a which is curved as a yoke, and an end plate (face plate) 102b that have an opening of the main body 102a covers. The main body 102a , which is cylindrical, has a bottom portion and a hub portion 103 , which is also cylindrical, is formed at the center area of the bottom area. The hub area 103 also includes a step area 103a and an area 103b with a small diameter at the end of the hub area 103 . A wave 105 an anchor 104 is through a first camp 106a and a second warehouse 106b supported, and the first bearing 106a that is formed near the brushes is in the area 103b fitted with a small diameter. The end plate 102b contains a cylindrical hub area 107 which is located at a central area of the end plate 102b extends inward, and the second bearing 106b is in the cylindrical hub area 107 fitted.

With such a structure, a length of the DC motor increases in the axial direction, in other words, a thickness of the DC motor increases by the thickness of the end plate 102b due to the position of the end plate 102b that are on the outside of the main body 102a is appropriate, as in 7th shown.

WO 02/037 645 A1 discloses the features of the preamble of claim 1.

DE 198 05 003 A1 relates to an electric motor for driving a pump unit.

DE 26 58 157 A1 relates to an axial fixation for rolling bearings in the bore of undivided housings by means of a snap ring arranged in the bearing outer ring, which engages in a groove made in the bearing bore.

DE 295 03 978 U1 relates to a motor-pump unit with simple manufacturing and assembly technology, in which the axial compactness of a motor-pump unit that can be fed preferably by means of a connecting line that can be inserted into the motor housing in a sealing manner is further improved.

DE 44 03 820 A1 relates to an electric motor with a rotor of short axial length, whereby the windings can be simply inserted into the grooves of the laminated rotor core.

JP S59-153453 A relates to a rotating electrical machine of reduced thickness for eliminating a spark generated between a commutator and a brush.

JP S52- 80 408 A relates to a commutator motor with a spark absorber provided in parallel between the brushes.

The object of the invention is to create a direct current motor which has a structure with which the length of the direct current motor can be reduced in the axial direction or the size of the direct current motor can be reduced, a shaft of the direct current motor being able to be safely rotatably supported on the direct current motor .

The solution to the problem posed can be found in claim 1. Further developments of the invention are given in the subclaims.

According to an illustrative example of the invention, a DC motor includes a housing ( 2 ) with an opening ( 2a) , a plurality of magnets ( 6th ) in the housing ( 2 ) are fixed, an anchor ( 8th ) in the housing ( 2 ) is provided to be relative to the magnet ( 6th ) to rotate, and a commutator ( 11 ) contains a plurality of sections, a shaft ( 4th ) to output a rotation of the armature ( 8th ), a first camp ( 5 ) for bearing the shaft ( 4th ) relative to the housing ( 2 ), a brush holder ( 3 ) in the opening ( 2a) of the housing ( 2 ) is provided for holding a plurality of brushes ( 12th ) slidable relative to the commutator ( 11 ) of the anchor ( 8th ), and a second bearing ( 7th ) attached to the brush bearing ( 3 ) is provided to support the shaft ( 4th ) so that it can rotate freely, whereby the anchor ( 8th ) a concave area ( 8a) around an axis of the anchor ( 8th ) around and the brushes ( 12th ) relative to the commutator ( 11 ) are slidable in the concave area ( 8a) are provided.

Due to such a structure in which the brushes ( 12th ) within the anchor ( 8th ) are provided, a length of the DC motor ( 1 ) reduced in the axial direction and the DC motor ( 1 ) can be reduced. The brush holder ( 3 ) is also at the opening of the DC motor ( 1 ) provided to be connected to the housing ( 2 ) of the DC motor ( 1 ) to be integrated. The DC motor thickness ( 1 ) can consequently be reduced and the DC motor ( 1 ) can be reduced. In addition, the fastener ( 13 ) on the outer race ( 7c) of the second camp ( 7th ) provided for determining a position of the second bearing ( 7th ) relative to the brush holder ( 3 ), which acts as an outer shell of the DC motor ( 1 ) serves. In other words, such a DC motor ( 1 ), the fastener ( 13 ) can be securely attached to a driven area regardless of its structure.

• 1 eine Längsquerschnittsansicht eines Gleichstrommotors gemäß einem erläuternden Beispiel;
• 2 eine Längsquerschnittsansicht eines Gleichstrommotors gemäß einem Ausführungsbeispiel der Erfindung;
• 3 eine Längsquerschnittsansicht eines Gleichstrommotors gemäß einem erläuternden Beispiel;
• 4 eine Draufsicht, die einen inneren Aufbau des Gleichstrommotors gemäß 3 verdeutlicht;
• 5 eine Längsquerschnittsansicht eines Gleichstrommotors gemäß einem erläuternden Beispiel;
• 6 eine Draufsicht, die einen inneren Aufbau des Gleichstrommotors gemäß 5 verdeutlicht; und
• 7 eine Draufsicht, die einen inneren Aufbau eines bekannten Gleichstrommotors verdeutlicht.

The above and other features and characteristics of the invention will become apparent from the following detailed description in conjunction with the accompanying drawings. Show it:

• 1 Fig. 10 is a longitudinal cross-sectional view of a DC motor according to an explanatory example;
• 2 a longitudinal cross-sectional view of a DC motor according to an embodiment of the invention;
• 3 Fig. 10 is a longitudinal cross-sectional view of a DC motor according to an explanatory example;
• 4th FIG. 13 is a plan view showing an internal structure of the DC motor according to FIG 3 clarified;
• 5 Fig. 10 is a longitudinal cross-sectional view of a DC motor according to an explanatory example;
• 6th FIG. 13 is a plan view showing an internal structure of the DC motor according to FIG 5 clarified; and
• 7th Fig. 3 is a plan view showing an internal structure of a known DC motor.

The invention is explained below with reference to the accompanying drawings. In the case of a DC motor according to an illustrative example as shown in FIG 1 shown includes a housing 2 of a DC motor 1 an opening at one end 2a and at its other end a floor area 2 B . The case 2 , which is formed from metal, for example, serves as a yoke for a magnetic circuit of the DC motor 1 . The opening 2a is through a brush holder 3 covered, which serves as an end plate (face plate). The floor area 2 B of the housing 2 is press molded to have a curved portion 2c pointing towards the opening 2a stands away, is formed, and a first camp 5 is within the curved area 2c formed to support a shaft 4th acting as the output shaft of the DC motor 1 serves. The first camp 5 can alternatively be attached to the housing 2 be fixed to the shaft 4th to store.

An external shape of the brush holder 3 made of resin, for example, is identical to the shape of the opening 2a . A flange 3b moving in the axial direction of the DC motor 1 extends is at a central area 3a of the brush holder 3 formed, and a second warehouse 7th is inside the flange 3b provided to support the shaft 4th . The warehouse 7th contains an inner race 7a , a ball bearing 7b , an outer race 7c and a mechanical seal 7d . The structure of the bearing is not limited to a ball bearing. The bearing can have other structures as long as there is an inner race and an outer race.

The brush holder 3 is good in the opening 2a of the housing 2 fitted to an interior space 1a to build. Magnets 6th serving as a stator are in the interior 1a provided and along an inner peripheral surface 2d of the housing 2 fixed. The length of the magnets 6th in the axial direction is approximately equal to the inner diameter of the housing 2 in the axial direction. An anchor 8th is provided in a space occupied by the magnets 6th is surrounded to get along with the wave 4th to be rotatable. The anchor 8th , which forms a rotor, contains a core 9 and an armature coil 10 . According to the embodiment, the core contains 9 several layers of iron plates, but alternatively a body molded from soft magnetic powder can serve as the core 9 be used.

A concave area 8a is roughly at the center of the anchor 8th who at the shaft 4th is fixed, formed, which extends towards the brush holder 3 opens. In other words, the concave area 8a is around an axis of the anchor 8th made around. A commutator 11 having a plurality of sections and electrically connected to the armature coil 10 is connected is on an inner peripheral surface of the concave portion 8a provided. to brush 12th are in the concave area 8a provided to slidably engage the commutator 11 to be. The commutator 11 and the brushes 12th are consequently positioned to be axially in the length of the armature 8th and the magnet 6th to fit.

Flanges 3c moving in the axial direction of the shaft 4th are on the brush holder 3 formed on the anchor side. The flanges 3c contain brush holding holes 3d for picking up and fixing the brushes 12th to get to the commutator 11 to assign.

The wave 4th of the DC motor 1 is connected to a driven section such as a drive mechanism 20th an anti-lock braking system or a traction system, and with a mounting flange 2e that next to the opening 2a of the housing 2 is formed over which the DC motor 1 on the driven area is fixed. The brush holder 3 is consequently attached directly to a housing 21st of the driven section attached.

A continuous hollow 7e is on the outer peripheral surface of the outer race 7c of the camp 7th formed on the flange 3b of the brush holder 3 is provided. After the camp 7th on the brush holder 3 is mounted, a fastener is used 13 into the hollow 7e fitted to the bearing 7th to support. The fastener 13 is special between the flange 3b of the brush holder 3 and the case 21st of the driven section sandwiched. According to the present embodiment, a C-ring is used as a fastening means 13 is used, however other fasteners may alternatively be used in place of such a C-ring so long as the outer raceway is used 7c of the camp 7th is fixed by such a means.

2 shows an embodiment of the invention, the in 1 Reference numbers used in the same parts 2 mark. The DC motor according to the embodiment has the same structure as the DC motor according to FIG 1 , except for the structure of the flange 3b of the brush holder 3 so that only the structure of the flange 3b will be explained below.

A head start 3e is at the end of the flange 3b formed in the direction of fasteners 13 that in the hollow 7e of the outer race 7c is provided, protrudes and engages therewith. A top edge of the ledge 3e may be deformed to create a gap (space) between the DC motor 1 and to bridge the driven area. The lead 3e is triangular in cross section ( 2 ), but may have another curved shape, for example a circular shape or an elliptical shape, as long as the protrusion 3e due to engagement between the fastener 13 and the driven area where the DC motor 1 attached, can be deformed. The lead 3e can be on the entire circumference of the flange 3b of the brush holder 3 be provided, or multiple projections 3e can be spaced from each other on the perimeter of the flange 3b be educated. When the lead 3e on the entire circumference of the flange 3b of the brush holder 3 is provided, the gap between the DC motor 1 and the driven area over the entire circumference of the flange 3b be bridged.

In the embodiment, a length of the flange is 3b of the brush holder 3 smaller than a distance from a left end face of the outer race 7c in 1 and in 2 to a left end face of the fastener 13 in 1 and 2 , and at the same time is a distance from a surface of the fastener 13 with which the housing 21st of the driven portion engages with a surface of the brush holder 3 with which the housing 21st is engaged, less than a thickness of the fastener 13 in the axial direction, thereby making the DC motor 1 to be securely fixed to the driven area.

In the following, with reference to the 3 and 4th another illustrative example of a DC motor is described. An in 3 and 4th The DC motor shown contains several magnets 6th that serve as a stator attached to the inner peripheral surface 2d of the housing 2 is fixed. A length of the magnet 6th in the axial direction is identical to the inner diameter of the housing 2 in the axial direction. Four magnets 6th (Stator) are in the housing 2 arranged, and spaces S are between every two magnets 6th and the inner peripheral surface 2d educated. A capacitor C serving as a noise filter element for removing noise is arranged in the space S and with the brushes 12th electrically connected.

In the following, with reference to the 5 and 6th another illustrative example of a DC motor is described. In the 5 and 6th are the positions of the brush holder 3 , the capacitor C and the bearing 7th compared to those in the 3 and 4th positions shown reversed. The brushes 12th attached to the central area of the brush holder 3 are provided by compressed coil springs 52 biased to be movable (slidable) with the commutator 11 to be engaged. A pen holder 53 is provided to hold the springs 52 attached to the brush holder 3 are provided, and for covering the opening of the brush holder 3 . The penholder 53 contains flanges 53a to hold the coil springs 52 who have favourited the brushes 12th preload. A cover housing 54 as part of the housing 2 is also in an outer periphery of the housing 2 fitted. The penholder 53 and the brush holder 3 are on the housing 2 through the cover housing 54 attached.

The brush holder 3 contains a flange 3a to cover an opening 2f of the housing 2 , and a hollow 3f on part of a face of the flange 3a that lead to the cover housing 54 shows. The capacitor C, the one with the brushes 12th is electrically connected, to filter (remove) noise, is in the cavity 3f arranged. The capacitor C is through an extended area 53b of the pen holder 53 to the brush holder 3 pressed. The position of the extended area 53b of the pen holder 53 is through the cover housing 54 determined the outside of the case 2 is positioned so that the capacitor C is inside the cavity 3f that is on the brush holder 3 is formed, is fixed.

6th Figure 3 shows a top view of a DC motor with the brush holder 3 , the warehouse 7th , the end plate 50 and the penholder 53 are not clearly visible. The capacitor C is inside the cavity 3f that is on the brush holder 3 is formed, fixed and electrically connected to part of a wire W which is the brush 12th connects to a connection TM.

Claims (8)

A DC motor comprising: a housing (2) having an opening (2a); a plurality of magnets (6) fixed in the housing (2); an armature (8) provided in the housing (2) so as to be rotatable relative to the magnets (6) and including a commutator (11) having a plurality of sections; a shaft (4) for outputting a rotation of the armature (8); a first bearing (5) for supporting the shaft (4) relative to the housing (2); a brush holder (3) provided in the opening (2a) of the housing (2) for holding a plurality of brushes (12) slidably movable relative to the commutator (11) of the armature (8), and a second bearing (7) provided on the brush holder (3) for supporting the shaft (4) freely rotatable, the second bearing (7) having an inner race (7a) and an outer race (7c), and a Fastening means (13) is arranged on an outer peripheral surface of the outer race (7c) for adjusting the position of this relative to the brush holder (3), the brush holder (3) having a flange portion (3b) extending in the axial direction of the Shaft (4) extends, and a protrusion (3e) is formed on the flange portion (3b), which engages with the fastening means (13), characterized in that the protrusion (3e) extends by contact with the fastening means (13) deformed, and the fastening means (13) in a continuous A. cavity (7e) is fitted on the outer peripheral surface of the outer race (7c), and the fastener (13) is sandwiched between the flange (3b) and a housing (21) of a portion driven by the DC motor (1). DC motor after Claim 1 , in which the fastening means (13) has a C-ring. DC motor after Claim 1 or 2 wherein the brush holder (3) made of resin is provided at the opening (2a) to cover it. DC motor after Claim 1 to 3 , in which a concave portion (8a) is provided on one side and around the axis of the armature (8), and the brushes (12), which are freely slidable relative to the commutator (11), in the concave portion ( 8a) are provided. DC motor after Claim 1 wherein the protrusion (3e) is formed on the entire flange portion (3b). DC motor according to one of the Claims 1 to 5 in which a noise filter element (C) is electrically connected to the brushes (12). DC motor after Claim 6 wherein the noise filter element (C) is provided between the magnets (6) arranged in the housing (2). DC motor after Claim 6 wherein the noise filter element (C) is provided between the brush holder (3) and the housing (2).

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