DE202016004886U1 - Low vibration electric motor - Google Patents

Abstract

Low-vibration electric motor, comprising a housing (7), wherein at both ends of the housing (7) each have a front end cap (1) and a rear end cap (2) are arranged, and wherein a rotor (8) via a bearing (5) rotatable between the front and rear end cap (2) is supported in the housing (7), and wherein on the front and rear end cap in each case a bearing chamber (3) for arranging the bearing is formed, characterized in that inside the storage chamber (3) a rubber sleeve (4) is arranged with a cup-shaped structure, wherein the rubber sleeve (4) comprises a cylindrical portion (41) and a bottom portion (42), and wherein the outer wall of the outer ring of the bearing (5) into the interior of the cylindrical portion (41 ) of the rubber sleeve (4) is fitted.

Description

Technical area

The present invention relates to the technical field of production of the electric motor, in particular a low-vibration electric motor.

State of the art

At the front and rear end cap of an electric motor often a storage chamber for the arrangement of a bearing is to be processed, while the outer ring of the bearing is fitted directly into the storage chamber. In the above structure, there is a greater demand on the processing accuracy of the inner wall of the bearing chamber, otherwise it will result in a poorer coaxiality between the bearing installed in the bearing chamber and the rotary shaft of the electric motor, thereby causing a serious vibration when the electric motor is running exists while causing higher processing costs.

Content of the invention

It is an object of the present invention to provide a low-vibration electric motor which has lower processing costs and can better secure the coaxiality between the bearing and the rotary shaft of the electric motor to solve the problems of the prior art that has a higher demand the machining accuracy of the inner wall of the bearing chamber is otherwise poorer in coaxiality between the bearing installed in the bearing chamber and the rotating shaft of the electric motor, thereby causing severe vibration during running of the electric motor, while causing higher processing costs become.

The technical objective of the present invention is solved mainly by a following technical solution comprising a housing, wherein at both ends of the housing in each case a front end cap and a rear end cap are arranged, and wherein a rotor via a bearing rotatably between the front and rear End cap is supported in the housing, and wherein on the front and rear end cap each have a bearing chamber for arranging the bearing is formed, and wherein inside the bearing chamber, a rubber sleeve is arranged with a cup-shaped structure, and wherein the rubber sleeve comprises a cylindrical portion and a bottom portion , and wherein the outer wall of the outer ring of the bearing is fitted inside the cylindrical portion of the rubber sleeve. In this case, a rubber ring between the inner wall of the bearing chamber and the outer ring of the bearing is arranged to reduce the requirement for the processing accuracy of the inner wall of the storage chamber, while the storage chamber requires no post-processing, thereby processing costs are reduced, while the coaxiality between the bearing and the Rotary shaft of the electric motor can be better ensured, at the same time, the rubber ring can realize a better damping function for the rotor of the electric motor.

Preferably, a through hole for passing the rotary shaft of the electric motor is provided at the bottom portion of the rubber bushing.

Preferably, there is a gap between the inner surface of the bottom portion of the rubber sleeve and the end surface of the bearing, so that frictional contact between the end surface of the inner ring of the electric motor and the bottom portion of the rubber ring can be avoided to reduce the resistance to the rotor of the electric motor and the Rubber sleeve to protect against wear.

Preferably, the height of the rubber sleeve is greater than the height of the bearing chamber to ensure that the outer ring of the bearing is located entirely within the rubber sleeve.

Due to this, the present invention has the following features that it has lower processing cost, which can better ensure coaxiality between the bearing and the rotary shaft of the electric motor and can realize a damping function to some degree for the rotor of the electric motor.

Short description of the drawing

1 shows a schematic structural view of the present invention.

2 shows a partial enlarged view of the point A according to 1 ,

Detailed embodiments

In connection with embodiments and figures, the technical solution of the present invention will be explained in more detail below.

First embodiment: as in 1 and 2 shown are at both ends of the housing 7 one front end cap each 1 and a rear end cap 2 arranged, being a runner 8th about a camp 5 is rotatably supported between the front and rear end cap in the housing, and wherein on the front end cap 1 and the rear end cap 2 the electric motor in each case a storage chamber 3 is designed for arranging the bearing, and wherein in the storage chamber 3 a rubber sleeve 4 is arranged with a cup-shaped structure, and wherein the rubber sleeve 4 a cylindrical section 41 and a bottom section 42 includes, and wherein the outer wall of the outer ring of the bearing 5 inside the cylindrical section 41 the rubber sleeve 4 is fitted, and wherein at the bottom portion of the rubber sleeve 4 a through hole 6 is provided for passing the rotary shaft of the electric motor, and wherein between the inner surface of the bottom portion 41 the rubber sleeve 4 and the end surface of the bearing 5 There is a gap, and the height of the rubber sleeve 4 greater than the height of the storage chamber 3 is.

Claims (4)

Low-vibration electric motor comprising a housing ( 7 ), wherein at both ends of the housing ( 7 ) each have a front end cap ( 1 ) and a rear end cap ( 2 ) and wherein a runner ( 8th ) about a warehouse ( 5 ) rotatably between the front and rear end cap ( 2 ) in the housing ( 7 ) is supported, and wherein at the front and rear end cap in each case a storage chamber ( 3 ) is arranged for arranging the bearing, characterized in that in the interior of the storage chamber ( 3 ) a rubber sleeve ( 4 ) is arranged with a cup-shaped structure, wherein the rubber sleeve ( 4 ) a cylindrical section ( 41 ) and a bottom section ( 42 ), and wherein the outer wall of the outer ring of the bearing ( 5 ) into the interior of the cylindrical section ( 41 ) of the rubber sleeve ( 4 ) is fitted. Low-vibration electric motor according to claim 1, characterized in that at the bottom portion ( 42 ) of the rubber sleeve ( 4 ) a through hole ( 6 ) is provided for passing the rotary shaft of the rotor. Low-vibration electric motor according to claim 1 or 2, characterized in that a gap between the inner surface of the bottom portion ( 42 ) of the rubber sleeve ( 4 ) and the end surface of the bearing ( 5 ) consists. Low-vibration electric motor according to claim 1 or 2, characterized in that the height of the rubber sleeve ( 4 ) greater than the height of the storage chamber ( 3 ).

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