CN108471188B - Brush mounting assembly and motor - Google Patents

Abstract

The invention discloses a brush mounting assembly and a motor, wherein the brush mounting assembly comprises: a fixed mounting box (3); the electric brush (1) is arranged in the box cavity of the fixed mounting box (3); and an elastic pressure member mounted to the fixed mounting case (3) and applying an elastic pressure to the brush (1), the elastic pressure being maintained substantially constant during contact wear of the brush (1). The elastic pressing piece in the brush assembly can act on the brush with approximately constant elastic pressure, so that the contact pressure between the brush and the commutator is basically kept unchanged in the abrasion process, the continuous and stable operation of the motor is ensured, electromagnetic sparks and working noise generated by insufficient contact pressure are effectively reduced, and the reliability of the motor is improved. In addition, because elasticity pressure applying piece fixed mounting is in fixed mounting box, brush installation component's assembly stability is better, can improve motor's job stabilization nature.

Description

Brush mounting assembly and motor

Technical Field

The invention relates to the technical field of motors, in particular to a brush mounting assembly and a motor.

Background

The brush motor needs to realize the commutation of winding current through sliding friction contact between the brush and the commutator, thereby ensuring continuous and stable operation of the motor. In order to ensure good contact between the brushes and the commutator, a certain contact pressure is required to be maintained between the brushes and the commutator. Therefore, in the existing brush motor, a spiral pressure spring or torsion spring capable of applying elastic pressure is usually arranged at the tail end of the brush, and in the process that the brush is continuously worn, the pressure spring or torsion spring can always push the brush to be pressed against the commutator, so that the brush and the commutator are ensured to be mutually pressed to realize good conduction.

However, in the case of applying elastic pressure to the brush using the above-described compression spring or torsion spring, the contact pressure between the brush and the commutator during the period from the start of use to the end of the service life varies greatly, that is, the fluctuation range of the contact pressure is large. When the contact pressure is too large, friction force between the brush and the commutator increases, and the brush wear becomes fast, the service life becomes short, or the phenomenon of seizing easily occurs, so that heat generation of the motor increases or noise becomes large. When the contact pressure is too small, a phenomenon that the brush and the commutator are in poor contact is likely to occur, so that the motor rotation speed is unstable or electromagnetic spark is generated. In short, the contact pressure between the brush and the commutator is too large or too small to affect the normal operation of the motor, and the reliability is greatly reduced.

Therefore, there is still a need to better optimize the structure and performance of the brush assembly to solve the above-mentioned technical problems.

Disclosure of Invention

In order to overcome the defects or shortcomings in the prior art, the invention provides the electric brush installation assembly and the motor, which can keep the contact pressure between the electric brush and the commutator in a small fluctuation range in the abrasion process, and can optimize the installation position of the elastic pressing piece, so that the reliability and the stability of the motor are improved.

In order to achieve the above object, the present invention provides a brush mounting assembly including:

Fixing the mounting box;

a brush disposed in the cartridge cavity of the fixed mounting cartridge; and

And a resilient biasing member mounted to the fixed mounting box and exerting a resilient pressure on the brush that remains substantially constant during contact wear of the brush.

Preferably, the elastic pressing piece is a spiral spring, the spiral spring comprises a fixed winding section and a stretching extension section, the fixed mounting box is provided with a spring mounting column, the fixed winding section is windingly mounted on the spring mounting column, and the stretching extension section extends from the fixed winding section in parallel to the length direction of the electric brush and is connected with the pressure end of the electric brush at the tail end.

Preferably, the spring mounting column is fixedly arranged at the outer side part of the fixed mounting box, a through notch is formed at the outer side part of the fixed mounting box, and the stretching extension section extends into the box cavity from the through notch.

Preferably, the brush extends from a first end of the cartridge chamber, the spring mounting post is disposed outboard of the first end, and the tensile extension extends toward a second end of the cartridge chamber opposite the first end.

Preferably, the fixed mounting box comprises a first box body and a second box body which are buckled with each other, the spring mounting column is fixedly arranged on the outer side part of the first box body and extends towards the second box body, the outer side part of the second box body extends out to form an ear plate, and the spring mounting column is in plug-in connection with an ear plate hole on the ear plate.

Preferably, the two outer sides of the first box body are respectively provided with the spring mounting posts, and the two outer sides of the second box body are respectively provided with the lug plates.

Preferably, the first box body is provided with a positioning column which extends away from the second box body.

Preferably, two outer side parts of the second box body are also respectively provided with a box body mounting seat.

Preferably, the brush mounting assembly further comprises a brush sleeve, wherein the brush sleeve is arranged in a brush groove of the brush sleeve and can slide along the length direction of the brush groove;

The side wall of the electric brush groove is provided with a side wall through groove extending along the length direction, the stretching extension section extends along the outer side of the side wall through groove, the tail end of the stretching extension section is formed into a flanging end, and the flanging end penetrates through the side wall through groove and is connected to the tail end of the electric brush.

In addition, the invention also provides a motor adopting the brush mounting assembly.

Through the technical scheme, the elastic pressing piece in the electric brush installation assembly can act on the pressed sleeving end of the electric brush, and the elastic pressure of the pressed sleeving end in the abrasion process of the electric brush is kept approximately constant, so that the contact pressure between the electric brush and the commutator is in a smaller fluctuation range, continuous and stable operation of the motor is guaranteed, electromagnetic sparks and working noise caused by insufficient contact pressure are effectively reduced, and the reliability of the motor is improved. In addition, because the elastic pressure applying part is fixedly arranged on the fixed mounting box, the assembly stability of the electric brush mounting assembly is better, and therefore the working stability of the motor is improved.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the description serve to explain, without limitation, the invention. In the drawings:

FIG. 1 is a schematic view of a spiral spring in accordance with an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the spiral spring of FIG. 1;

FIG. 3 is a perspective view of a brush mounting assembly in accordance with an embodiment of the present invention;

FIG. 4 is a structural exploded view of the brush mount assembly of FIG. 3;

FIG. 5 is a side view of the brush mount assembly of FIG. 3;

FIG. 6 is a cross-sectional view A-A of the brush mounting assembly of FIG. 5;

FIG. 7 is a side view of a second housing of the brush mount assembly of FIG. 3;

FIG. 8 is a top plan view of a second housing of the brush mount assembly of FIG. 3;

FIG. 9 is a cross-sectional view B-B of the second cartridge of FIG. 8;

FIG. 10 is a top plan view of a first case of the brush mount assembly of FIG. 3;

FIG. 11 is a side view of a first housing of the brush mount assembly of FIG. 3;

FIG. 12 is a top plan view of a brush sleeve of the brush mount assembly of FIG. 3;

FIG. 13 is a cross-sectional view C-C of the brush sleeve of FIG. 12;

FIG. 14 is a side view of a brush sleeve of the brush mount assembly of FIG. 3;

FIG. 15 is a front elevational view of the brush sleeve of the brush mount assembly of FIG. 3;

fig. 16 is a schematic view of a motor employing a brush mounting assembly according to an embodiment of the present invention.

Reference numerals illustrate:

100. Motor with a motor housing

1. Electric brush 2 electric brush sleeve

3. Fixed mounting box 4-scroll spring

5. Commutator 6 end cover assembly

21. Side wall through groove 22 heat radiation hole

23. First end of the clamping boss 31

32. Second end 33 first box

34. The second case 41 fixes the curled section

42. Stretch panel 43 cuff end

331. Positioning column of spring mounting column 332

341. Through notch 342 otic placode

343. Box body mounting seat

Detailed Description

The following describes specific embodiments of the present invention in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the invention.

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

In the present invention, unless otherwise indicated, terms of orientation such as "upper, lower, top, bottom" are used generally with respect to the orientation shown in the drawings or with respect to the positional relationship of the various components with respect to one another in the vertical, vertical or gravitational directions.

The invention will be described in detail below with reference to the drawings in connection with embodiments.

The invention provides a brush assembly, as shown in figures 1 to 6, which comprises a brush 1, a brush sleeve 2 and an elastic pressing piece, wherein one end of the brush 1 is a pressed sleeve joint end sleeved in a sleeve cavity of the brush sleeve 2, and the other end is a sliding contact end extending out of the sleeve end surface of the brush sleeve 2 and in sliding contact with a commutator. Wherein the elastic pressure exerted by the elastic pressure element on the pressed socket end during wear of the sliding contact end of the brush 1 can be kept substantially constant, i.e. it is ensured that the contact pressure between the sliding contact end and the commutator remains substantially unchanged during wear of the brush 1.

It can be seen that after the initial contact pressure between the brush 1 and the commutator is preset to the optimum contact pressure, the contact pressure between the brush 1 and the commutator can be maintained substantially constant even if the brush 1 is worn out continuously. During the period from the beginning of the use of the electric brush 1 to the end of the service life, the motor adopting the electric brush assembly can continuously and stably run, the conditions of excessive heating, excessive noise or electromagnetic spark generation and the like affecting the normal operation of the motor are avoided, and the stability and the reliability of the motor are greatly improved.

In the present invention, the amount of change in the elastic pressure applied by the elastic pressure member to the pressed socket end during actual wear of the brush 1, which is negligible with respect to the optimal contact pressure, i.e., approximately constant contact pressure is ensured, may be preferably set to not more than 0.25N.

In a preferred embodiment of the invention, the elastic pressure element may be provided as a spiral spring 4, and the spiral spring 4 can be fixed to a fixed part of the motor, which may be a fixed structure in the brush assembly or another fixed structure in the motor.

Specifically, the brush assembly further includes a spring mounting post 331 fixedly disposed laterally of the brush 1, the spring mounting post 331 being disposed closer to the sliding contact end than the compression socket end. The wrap spring 4 may include a fixed crimp section 41 windingly mounted on the spring mounting post 331 and a tensile extension section 42 extending from the fixed crimp section 41 in parallel with the length direction of the brush 1, and the tensile extension section 42 is connected at its distal end to the compression socket end.

Because the fixed winding section 41 of the spiral spring is in an elastic winding state, the generated torque can be transmitted through the stretching extension section 42 and acts on the pressed sleeved end of the electric brush 1 in the form of elastic pressure, so that the sliding contact end of the electric brush 1 is always pressed against the commutator, and the sliding contact conduction between the electric brush 1 and the commutator is realized.

The reason for choosing the spiral spring 4 as the above-mentioned elastic pressing member is that the fixed winding section 41 of the spiral spring 4 is generally more wound, meaning that the deformation angle of the spiral spring 4 is larger and the stored energy is more. When the brush 1 is worn to reduce the length, the deformation angle of the spiral spring is correspondingly and slowly changed, and meanwhile, the torque change of the spiral spring 4 is smaller, the fluctuation of the contact pressure between the brush 1 and the commutator is smaller, and the effect that the contact pressure is kept basically constant is achieved. Of course, the elastic biasing member in the brush assembly of the present invention may alternatively be a constant pressure elastic member having other structures or shapes, and the spiral spring 4 herein is merely for illustrating the present invention and should not be construed as limiting the present invention.

Specifically, after selecting the spiral spring 4 as the elastic pressing member in the brush assembly of the present invention, reasonable values of each parameter of the spiral spring 4 may be selected according to the following design concept.

First, the cross-sectional thickness h of the spiral spring 4 can be found by the following formula:

Wherein F is an initial elastic pressure applied to the pressed socket end by the spiral spring 4, R1 is a radius of the spring mounting post 331, b is a cross-sectional width of the spiral spring 4, σ _p is a material allowable bending stress of the spiral spring 4, K1 is a first design constant, and k1= 2,F, R1, b, and σ _p are all preset values.

Preferably, h.gtoreq.0.1 mm, b.gtoreq.8 mm, 2.5N.ltoreq.F.ltoreq.2.7N, 5 mm.ltoreq.R1.ltoreq.10mm, 5 MPa.ltoreq.Sigma _p.ltoreq.10MPa, and preferably, h=0.15 mm, b=10mm.

Then, the total length L of the spiral spring 4 can be found by the following formula:

L＝(π*n*E*b*h³)/(6K2*F*R1)；

Where n is the number of windings of the fixed winding section 41, E is the material elastic modulus of the spiral spring 4 (the material of the spiral spring 4 can be selected according to the working condition, and the material elastic modulus E is further determined), K2 is a second design constant, k2=1.25, and n and E are both preset values.

Preferably, n.gtoreq.4, L.gtoreq.140 mm, and more preferably, 4.ltoreq.n.ltoreq.8, 150 mm.ltoreq.L.ltoreq.170 mm.

Finally, the radial spacing t of adjacent windings in the stationary winding section 41 can be found by the following formula:

Wherein R2 is a distance between the tensile extension 42 and the central axis of the spring mounting post 331 in the width direction of the brush 1.

Preferably, 10 mm.ltoreq.R2.ltoreq.15 mm,1 mm.ltoreq.t.ltoreq.2.5 mm, and more preferably, 1 mm.ltoreq.t.ltoreq.1.5 mm.

Through the above design steps, preset values of F, R, b, σ _p, n and E can be determined according to practical situations, and according to design constants K1 and K2, the value ranges of the cross section thickness h of the scroll spring 4, the total length L of the scroll spring 4 and the radial distance t between adjacent coils in the fixed winding section 41 are sequentially obtained, and finally reasonable values of h, L and t are selected from the above preferred value ranges, so that setting of each parameter of the scroll spring 4 is completed.

Further, it is also possible to limit the initial torque of the spiral spring 4 acting on the pressed socket end to be not less than 25n·mm, so as to ensure that the deformation angle of the spiral spring is slowly changed during the wear of the brush 1, thereby ensuring that the contact pressure between the brush 1 and the commutator is kept approximately constant, and improving the working stability and reliability of the motor.

The present invention also provides a brush mounting assembly including a fixed mounting case 3, a brush 1 disposed in a case cavity of the fixed mounting case 3, and the above-described elastic pressing member mounted to the fixed mounting case 3, as shown in fig. 3 to 11. As can be seen from the above, the elastic pressing member can apply a substantially constant elastic pressure to the brush 1 during contact wear of the brush 1, thereby ensuring stability and reliability of the motor.

Preferably, the spring mounting post 331 is provided on the fixed mounting case 3, and the fixed crimp section 41 is wound around the spring mounting post 331, and the tensile extension section 42 extends from the fixed crimp section 41 parallel to the length direction of the brush 1 and is connected to the compression end (i.e., the compression socket end) of the brush 1.

It can be seen that since the spring mounting post 331 is provided on the fixed mounting box 3, the spiral spring 4 can be mounted to the fixed mounting box 3 first and then the brush mounting assembly can be integrally mounted to the motor during assembly of the motor. This structure is advantageous in simplifying the installation manner of the scroll spring 4, and further improving the installation efficiency of the brush installation assembly.

Further, the spring mounting post 331 may be fixedly disposed on the outer side of the fixed mounting case 3, and at this time, the outer side of the fixed mounting case 3 is provided with a through notch 341, and the extension 42 of the spiral spring 4 can extend into the case cavity from the through notch 341 to be connected to the brush 1. Furthermore, the sliding sleeve end of brush 1 extends from the first end 31 of the housing, and spring mounting posts 331 may be more preferably disposed on the outer side of the first end 31, with the tensile extension 42 extending toward the second end 32 of the housing, i.e., the tensile extension 42 is between the first and second ends 31, 32 of the housing and in a resiliently straightened state, thereby providing a resilient pressure against the compressed sleeve end of brush 1.

To simplify assembly to increase the efficiency of the production of the fixed mounting box 3, in a preferred embodiment of the present invention, the fixed mounting box 3 may include a first box 33 and a second box 34 that are snapped together. The spring mounting post 331 is fixedly disposed on an outer side portion of the first box 33 and extends toward the second box 34, the ear plate 342 extends from an outer side portion of the second box 34, and the spring mounting post 331 is in plug-in fit with the ear plate hole on the ear plate 342. In addition, the first box 33 is provided with a positioning column 332 extending away from the second box 34, the positioning column 332 can be in plug-in fit with positioning holes in other fixing structures of the motor, two outer side parts of the second box 34 are also respectively provided with a box mounting seat 343, the box mounting seat 343 is provided with a box mounting hole, and the box mounting hole can be aligned with mounting holes in other fixing structures of the motor and screwed by fasteners such as screws.

By arranging the structure, when the brush installation assembly provided with the first box body 33 and the second box body 34 is installed, the brush 1 can be sleeved in the sleeve cavity of the brush sleeve 2, then the brush sleeve 2 sleeved with the brush 1 is installed in the box cavity of the second box body 34, meanwhile, the first box body 33 is positioned and inserted into the motor through the positioning column 332, then the first box body 33 and the second box body 34 are buckled with each other, at the moment, the spring installation column 331 in the first box body 33 can be inserted into the lug hole of the lug plate 342 in the second box body 34, finally, the box body installation hole in the second box body 34 can be screwed with the installation holes in other fixing structures in the motor through fasteners such as screws, so that the assembly and the fixation of the whole brush installation assembly are realized. The assembly process is simple to operate, and the installation efficiency of the electric brush installation assembly can be effectively improved, so that the production cost is saved.

The spring mounting posts 331 in the brush mounting assembly of the present invention may be provided on only one outer side portion of the first housing 33, or may be provided on both outer side portions of the first housing 33, and accordingly, the number of the spiral springs 4 may be one or two. At this time, the two outer sides of the second case 34 are respectively provided with the ear plate 342 and the ear plate hole on the ear plate 342.

Further, since the brush 1 is sleeved in the brush groove (i.e. the sleeve cavity) of the brush sleeve 2 and can slide along the length direction of the brush groove, in order to avoid the direct contact between the tensile extension section 42 and the brush 1 to prevent the brush 1 from being blocked, a sidewall through groove 21 extending along the length direction may be provided on the sidewall of the brush groove. At this time, the tensile stretch 42 can extend along the outside of the sidewall through groove 21, and the end of the tensile stretch 42 is formed as an outer burring end 43, and the outer burring end 43 can pass through the sidewall through groove 21 and be connected to the end of the brush 1, thereby separating the tensile stretch 42 from the brush 1 and improving the operational reliability of the brush 1.

As shown in fig. 12 to 15, the outer peripheral wall of the brush holder 2 is provided with a plurality of heat radiation holes 22, so that the brush 1 can be ensured to radiate heat rapidly during sliding friction contact with the commutator. As shown in fig. 9 and 15, the outer peripheral wall of the brush sleeve 2 is further provided with a plurality of clamping protrusions 23, and the plurality of clamping protrusions 23 can ensure that the brush sleeve 2 is clamped in the box cavity of the second box 34, so that the assembly stability between the brush sleeve 2 and the second box 34 is improved.

The present invention also provides an electric motor 100 employing the brush mounting assembly described above, as shown in fig. 16, the electric motor 100 including a commutator 5 and an end cap assembly 6. The brush mounting assembly may be fixedly mounted on the end cover assembly 6 through the case mounting seat 343 in the second case 34, and the sliding contact end of the brush 1 is in sliding contact with the commutator 5, and the two have a substantially constant contact pressure all the time during sliding friction. Therefore, the motor has the advantages of low working noise, high working reliability and the like.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the scope of the technical concept of the present invention, and all the simple modifications belong to the protection scope of the present invention.

In addition, the specific features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described further.

Moreover, any combination of the various embodiments of the invention can be made without departing from the spirit of the invention, which should also be considered as disclosed herein.

Claims (8)

1. A brush mounting assembly, the brush mounting assembly comprising:

A fixed mounting box (3);

The electric brush (1) is arranged in the box cavity of the fixed mounting box (3); and

-A resilient pressure member mounted to the fixed mounting box (3) and exerting a resilient pressure on the brush (1), the resilient pressure remaining substantially constant during contact wear of the brush (1);

The elastic pressing piece is a spiral spring (4), the spiral spring (4) comprises a fixed winding section (41) and a stretching extension section (42), the fixed mounting box (3) is provided with a spring mounting column (331), the fixed winding section (41) is wound and mounted on the spring mounting column (331), and the stretching extension section (42) extends out of the fixed winding section (41) in parallel to the length direction of the electric brush (1) and is connected with the pressure-receiving end of the electric brush (1) at the tail end; the spring mounting column (331) is closer to the sliding contact end of the electric brush (1) relative to the pressed end of the electric brush (1), the electric brush mounting assembly further comprises an electric brush sleeve (2), the electric brush (1) is sleeved in an electric brush groove of the electric brush sleeve (2) and can slide along the length direction of the electric brush groove, a side wall penetrating groove (21) extending along the length direction is formed in the side wall of the electric brush groove, a stretching extension section (42) extends along the outer side of the side wall penetrating groove (21), the tail end of the stretching extension section (42) is formed into an everting edge end (43), and the everting edge end (43) penetrates through the side wall penetrating groove (21) and is connected to the tail end of the electric brush (1).

2. The brush mounting assembly of claim 1, wherein the spring mounting post (331) is fixedly disposed on an outer side of the fixed mounting case (3), a through-cut (341) is provided on the outer side of the fixed mounting case (3), and the tensile extension (42) extends into the case cavity from the through-cut (341).

3. The brush mounting assembly of claim 2, wherein the brush (1) extends from a first end (31) of the cartridge chamber, the spring mounting post (331) being disposed outboard of the first end (31), the tensile extension (42) extending toward a second end (32) of the cartridge chamber opposite the first end (31).

4. The brush mounting assembly according to claim 3, wherein the fixed mounting case (3) includes a first case (33) and a second case (34) that are snap-fit to each other, the spring mounting column (331) is fixedly arranged on the outer side part of the first box body (33) and extends towards the second box body (34), the outer side part of the second box body (34) is extended with an ear plate (342), and the spring mounting column (331) is in plug-in fit with an ear plate hole on the ear plate (342).

5. The brush mounting assembly of claim 4, wherein the spring mounting posts (331) are provided on both outer sides of the first case (33), respectively, and the lug plates (342) are provided on both outer sides of the second case (34), respectively.

6. The brush mounting assembly of claim 4, wherein the first housing (33) is provided with a locating post (332) projecting away from the second housing (34).

7. The brush mounting assembly of claim 4, wherein the two outer sides of the second housing (34) are further provided with housing mounts (343), respectively.

8. An electric motor, characterized in that the electric motor (100) comprises a brush mounting assembly according to any one of claims 1-7.