Brushless DC motor

A brushless DC motor, including: a rotating shaft; a rotor assembly; a stator assembly; a casing; a rear cover; and a control box. The rotating shaft is connected together with the rotor assembly. The stator assembly is sleeved outside the rotor assembly. The casing is connected together with the stator assembly. The rear cover includes a rear bearing seat in the middle for receiving a rear bearing. A plurality of support legs protrudes outwards from a wall surface on the outer side of the rear bearing seat, and is supported and installed on a flanged edge folded outwards from an end surface of the casing. One end of the rotating shaft is supported on the rear bearing. The control box is installed on the casing.

CROSS-REFERENCE TO RELATED APPLICATIONS

Pursuant to 35 U.S.C. §119 and the Paris Convention Treaty, this application claims the benefit of Chinese Patent Application No. 201220741207.0 filed Dec. 28, 2012, the contents of which are incorporated herein by reference. Inquiries from the public to applicants or assignees concerning this document or the related applications should be directed to: Matthias Scholl P.C., Attn.: Dr. Matthias Scholl Esq., 14781 Memorial Drive, Suite 1319, Houston, Tex. 77079.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to a brushless DC motor.

2. Description of the Related Art

The traditional servo motor has the defects of complex structure, larger volume, high cost, poor reliability, low efficiency and low matching precision, and cannot meet the demands of market.

SUMMARY OF THE INVENTION

In view of the above-described problems, it is one objective of the invention to provide a brushless DC motor. The brushless DC motor has the advantages of simple structure, small volume, low cost, good reliability, high efficiency, and high matching precision.

To achieve the above objective, in accordance with one embodiment of the invention, there is provided a brushless DC motor, comprising: a rotating shaft; a rotor assembly; a stator assembly; a casing; a rear cover; and a control box. The rotating shaft is connected together with the rotor assembly. The stator assembly is sleeved outside the rotor assembly. The casing is connected together with the stator assembly. The rear cover comprises a rear bearing seat in a middle for receiving a rear bearing. A plurality of support legs protrudes outwards from a wall surface on an outer side of the rear bearing seat, and is supported and installed on a flanged edge folded outwards from an end surface of the casing. One end of the rotating shaft is supported on the rear bearing. The control box is installed on the casing.

In a class of this embodiment, a chamber is formed in the middle of the casing, a front bearing seat for receiving a front bearing is arranged on a bottom wall of the casing. An opening is formed at the top of the casing. The flanged edge is folded outwards from the outside of the opening and the end surface of the casing. The rotor assembly and the stator assembly are assembled in the chamber. The other end of the rotating shaft is supported on the front bearing, and the rear cover is locked on the flanged edge through screws.

In a class of this embodiment, the number of the support legs is four, and the four support legs are distributed into a cross shape.

In a class of this embodiment, an arc-shaped convex plate protrudes from a bottom surface of the support leg, and positioned with a wall surface on an inner side of the casing in a matched manner.

In a class of this embodiment, the support legs comprise a first support leg, a second support leg, a third support leg, and a fourth support leg. The first support leg and the third support leg are symmetrical about the rear bearing seat. The second support leg and the fourth support leg are symmetrical about the rear bearing seat. The first support leg is longer than the second support leg. The second support leg and the fourth support leg are supported on the flanged edge, and the first support leg and the third support leg are supported on the flanged edge and locked through screws.

In a class of this embodiment, an end surfaces on an outer sides of the second support leg and the fourth support leg are arc-shaped surfaces, the control box covers the rear cover, and the arc-shaped surfaces are matched with a wall surface on an inner side of the control box.

In a class of this embodiment, two grooves are formed on an end surface of the control box, and the first support leg and the third support leg are embedded in the two grooves respectively.

In a class of this embodiment, a circuit board is installed in the control box, and the control box is supported on the flanged edge and locked through screws.

In a class of this embodiment, a protective cover is installed on the bottom of the casing, far from one end of the opening.

In a class of this embodiment, the casing is formed by stretching.

Advantages of the invention are summarized below.(1) The brushless DC motor comprises a rotating shaft, a rotor assembly, a stator assembly, a casing, a rear cover and a control box. The rotating shaft is connected together with the rotor assembly. The stator assembly is sleeved outside the rotor assembly. The casing is connected together with the stator assembly. The rear cover comprises a rear bearing seat for receiving a rear bearing in the middle. A plurality of support legs extends out from the wall surface on the outer side of the rear bearing seat and is supported and installed on an outwardly folded edge at the end part of the casing, one end of the bearing is supported on the rear bearing of the rear cover, and the control box is installed on the casing. Thus, the brushless DC motor is simple in structure, small in volume, low in cost, good in reliability, high in efficiency and high matching precision;(2) A chamber is formed in the middle of the casing, a front bearing seat for receiving a front bearing is arranged on the bottom wall of the casing, an opening is formed at the top of the casing, a flanged edge is folded outwards from the outside of the opening and the end surface of the casing, both the rotor assembly and the stator assembly are assembled in the chamber, the other end of the rotating shaft is supported on the front bearing, and the rear cover is locked on the flanged edge through screws. Thus, the structural design is reasonable and compact, and the volume is small.(3) The number of the support legs is four, the four support legs are distributed into a cross shape, and the rear cover has light weight. Thus, weight of the motor is reduced when the strength of the rear cover is ensured, and the cost is reduced.(4) An arc-shaped convex plate protrudes from the bottom surface of the support leg, and is positioned with the wall surface on the inner side of the casing in a matched manner, and the rear cover is positioned through the convex plate, so as to prevent the rear cover from moving horizontally.(5) Two grooves are formed on the end surface of the control box, and the first support leg and the third support leg are embedded in the two grooves respectively. Thus, the purpose of positioning and installing the control box is realized, and the assembly is easy;(6) A protective cover is installed on the bottom surface of the casing, far from one end of the opening, a fan blade is installed in the protective cover, and the protective cover is separated for protecting the fan blade.(7) The casing is formed by stretching and suitable for mass production. Thus, the cost is low.

DETAILED DESCRIPTION OF THE EMBODIMENTS

As shown inFIGS. 1-9, a brushless DC motor comprises a rotating shaft1, a rotor assembly2, a stator assembly3, a casing4, a rear cover5and a control box6. The rotating shaft1is connected together with the rotor assembly2. The stator assembly3is sleeved outside the rotor assembly2. The casing4is connected together with the stator assembly3. The rear cover5comprises a rear bearing seat51for receiving a rear bearing7ain the middle. A plurality of support legs52protrudes outwards from the wall surface on the outer side of the rear bearing seat51, and is supported and installed on a flanged edge41folded outwards from the end part of the casing4. One end of the rotating shaft1is supported on the rear bearing7aof the rear cover5, and the control box6is installed on the casing4.

On the basis of Example 1, the technical characteristics are added as follows: a chamber42is formed in the middle of the casing4; a front bearing seat43for receiving a front bearing7bis arranged on the bottom wall44of the casing4; an opening400is formed at the top of the casing4; a flanged edge41is folded outwards from the outside of the opening400and the end surface of the casing4; the rotor assembly and the stator assembly3are assembled in the chamber42; the other end of the rotating shaft1is supported on the front bearing7b, and the rear cover5is locked on the flanged edge41through screws.

On the basis of Example 2, the technical characteristics are added as follows: the number of the support legs52is four, and the four support legs are distributed into a cross shape.

On the basis of Example 1, 2, or 3, the technical characteristic is added as follows: an arc-shaped convex plate53protrudes from the bottom surface of the support leg52, and positioned with the wall surface on the inner side of the casing4in a matched manner.

On the basis of Example 4, the technical characteristics are added as follows: the support legs52comprise a first support leg521, a second support leg522, a third support leg523and a fourth support leg524; the first support leg521and the third support leg523are symmetrical about the rear bearing seat51; the second support leg522and the fourth support leg524are symmetrical about the rear bearing seat51; the first support leg521is longer than the second support leg522; the second support leg522and the fourth support leg524are supported on the flanged edge41, and the first support leg521and the third support leg523are supported on the flanged edge41and locked through screws10b.

On the basis of Example 5, the technical characteristics are added as follows: the end surfaces on the outer sides of the second support leg522and the fourth support leg524are arc-shaped surfaces, the control box6covers the rear cover5, and the arc-shaped surfaces are matched with the wall surface on the inner side of the control box6.

On the basis of Example 6, the technical characteristics are added as follows: two grooves61are formed on the end surface of the control box6, and the first support leg521and the third support leg523are embedded in the two grooves61respectively.

On the basis of Example 1, the technical characteristics are added as follows: a circuit board8is installed in the control box6, and the control box6is supported on the flanged edge41and locked through screws10a.

On the basis of Example 2, the technical characteristic is added as follows: a protective cover9is installed on the bottom of the casing4, far from one end of the opening400.

On the basis of Example 1, the technical characteristic is added as follows: the casing4is formed by stretching.

The brushless DC motor comprises a rotating shaft1, a rotor assembly2, a stator assembly3, a casing4, a rear cover5and a control box6. The rotating shaft1is connected together with the rotor assembly2. The stator assembly3is sleeved outside the rotor assembly2. The casing4is connected together with the stator assembly3. The rear cover5comprises a rear bearing seat51for receiving a rear bearing7ain the middle. A plurality of support legs52extends out from the wall surface on the outer side of the rear bearing seat51, and are supported and installed on a flanged edge41folded outwards from the end part of the casing4. One end of the rotating shaft1is supported on the rear bearing7aof the rear cover5, and the control box6is installed on the casing4. The brushless DC motor has the advantages of simple structure, small volume, low cost, good reliability, high efficiency and high matching precision.