KR100253658B1 - Supporting apparatus of motor shaft - Google Patents

Abstract

PURPOSE: A supporting apparatus of a motor shaft is provided to form a floating type steel ball to be integral with a base and assemble a motor under the state that the motor shaft is positioned in its position, thereby enhancing the workability and preventing the release of the steel ball. CONSTITUTION: One end of a motor shaft(34) is supported by a rotation supporting member(61). The motor shaft(34) rotated by a rotor(33) is rotatably supported by two bearings(41,42) mounted on both housings(11,21). The bearings(41,42) are inserted into fitting grooves(12,22). The one end of the motor shaft(34) is extended through the bearing(41) to be protruded through a shaft hole(13), and the other end of the motor shaft(34) is supported by the rotation supporting member(61) rested on one end of the fitting groove(22) of the second housing(21). The supporting member(61) consists of a steel ball and a square type base.

Description

Rotating support device of motor shaft for motor

The present invention relates to a rotation support device for a motor shaft, and more particularly, to a rotation support device for a motor shaft for a motor installed at one end of the motor shaft so that the external pressure applied to the other motor shaft is supported.

In general, a motor is an electric motor that converts electrical energy into mechanical energy to use this mechanical energy, which is conventionally generated in the stator 31 and the stator 31, as shown in FIG. The rotor 33 rotated by magnetic force, the motor shaft 34 which transmits the rotational force of the rotor 33 to other parts, and the motor while accommodating parts such as the stator 31 and the rotor 33. It consists of a housing (11, 21) forming an outer shape of.

Here, the stator 31 generates a magnetic force directed in one direction according to the current flow to the winding 32 wound around the iron core, the rotor 33 is in the forward or opposite direction to the magnetic force formed in the stator 31 The magnetic force in the direction is generated to rotate in one direction by the attractive force and repulsive force between the magnetic force is generated a rotational force.

In addition, as the rotor 33 rotates, the motor shaft 34 penetrated and fixed to the center of the rotor 33 in the axial direction is rotated, and the other parts connected to the motor shaft 34 are connected to the motor shaft ( Rotate according to the rotation of 34).

At this time, the rotating motor shaft 34 is fixed so as to be rotatable at a predetermined point on both sides thereof to maintain the uniform rotation of the rotor 33 and the motor shaft 34, so as to surround the outside of the stator 31. Both sides of the motor shaft 34 by a pair of bearings 41 and 42 attached to the centers of the first housing 11 and the second housing 21 joined together in a circular plate shape at upper and lower ends of the outer circumference of the stator 31. Certain parts are fixed to be rotatable.

Here, the bearings (41, 42) are in contact with the outer circumferential fixed point of the motor shaft 34, the sliding body or ball, etc. are installed to support the outer circumference of the motor shaft 34 is rotated, the first housing 11 ) And the receiving grooves 12 and 22 recessed in the central portion of the second housing 21.

Accordingly, current is supplied to the stator 31 and the rotor 33 so that the rotor 33 rotates, and the motor shaft 34 rotates the first housing 11 and the first shaft according to the rotation of the rotor 33. 2 is rotated while the position is fixed by the bearings (41, 42) installed in the housing (21).

In addition, since the rotational force of the motor shaft 34 is transmitted to the other parts to rotate the other parts, the motor shaft 34 is pressed into the motor by the pressure installation of the other parts or the load of the other parts. To support this pressing force, the other side of the motor shaft 34 to which the other parts are connected is supported by the steel balls 162 provided in the motor.

Here, the steel ball 162 is installed in the receiving groove 22 of the second housing 21 where one end of the motor shaft 34 penetrated by the bearing 42 is located, and the steel ball 162 rotates smoothly. And the support 163 is seated on the bottom of the receiving groove 22, the steel ball 162 is seated for the flow, the steel ball 162 is seated on the top of the support 163.

In addition, a portion of the steel ball 162 is inserted into one end of the motor shaft 34 in contact with the steel ball 162 is supported in contact with the support groove 51 is to be rotated freely while the outer circumference of the upper surface is supported. .

Therefore, the steel shaft 162 is pressed in the inward direction of the motor by another component connected to one side of the motor shaft 34, and the steel ball 162 and the steel ball are in contact with the tile side of the motor shaft 34. Supported by the support 163 supporting the (162), the inner surface of the support groove 51 of the motor shaft 34 is rotated while the motor shaft 34 supported by the steel ball 162 is rotated. The rotation of the motor shaft 34 is supported while being rotated while sliding on the upper outer surface of the ball, or simultaneously with the steel balls 162.

However, as described above, as the steel ball 162 is placed on the top of the base 163 seated on the bottom of the receiving groove 22 is used during assembly work, it becomes difficult to fix the steel ball 162 in place, the bearing 42 It is difficult to place the steel ball 162 into the support groove 51 of the motor shaft 34, which is inserted into and fixed), and there is a problem in that the efficiency of the assembly work is lowered.

Therefore, the object of the present invention was invented to solve the above problems, it is easy to fix the position of the steel ball is easy to improve the efficiency of the assembly work, as well as the fluidity of the steel ball is lowered the processability of parts It is to provide a rotation support device for a motor shaft for a motor that is easy to contact the steel ball and the motor shaft is positioned in the improved productivity.

The present invention for achieving the above object, in the rotation support device for a motor shaft for a motor installed between the motor shaft and the inner surface of the housing so that the axial pressure applied to the motor shaft is supported, one side of the motor shaft support The upper end is smoothly formed so as to slide in contact with the groove, and a rotation supporting member having a flat bottom is seated on the inner side of the housing so as to be joined to the receiving groove of the housing.

1 is a cross-sectional view of a motor according to the present invention.

Figure 2 is a perspective view of a rotation support member according to the present invention.

3 is a cross-sectional view of a conventional motor.

* Explanation of symbols for main parts of the drawings

11: first housing 12: accommodation home

13: shaft hole 21: the second housing

22: receiving groove 31: stator

32: winding 33: rotor

34: motor shaft 41: bearing

42: bearing 51: support groove

61: rotating support member 62: steel ball

63: support

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the inside of the motor, and the same reference numerals are denoted at the same parts as in FIG. 3 showing a conventional shape, and a detailed description thereof will be omitted.

In the present invention, one end of the motor shaft 34 of the motor is rotatably supported by a rotation support member 61 formed integrally.

Here, the motor includes a stator 31 for generating a magnetic force in one direction according to the energization of a current, a rotor 33 rotated in one direction under the magnetic force of the goggle 31, and the rotor 33 Rotating in accordance with the rotation is made of a motor shaft 34 for transmitting power to other parts.

Further, both sides of the motor shaft 34 rotated by the rotor 33 are supported by the bearings 41 and 42 attached to both housings 11 and 21, so that the rotation of the motor shaft 34 is maintained. do.

The bearings 41 and 42 are fitted into and fixed to the receiving grooves 12 and 22 recessed and formed in the central portions of both housings 11 and 21, and the motor shaft holes are formed to penetrate the motor shaft 34 in the center thereof. Thus, both outer peripheral portions of the motor shaft 34 penetrated into the motor shaft hole are rotatably supported by a ball-like fluid in the bearings 41 and 42.

In addition, one end of the motor shaft 34 extends outward through a bearing 41 fitted in the receiving groove 12 of the first housing 11 and opens in the center of the receiving groove 12. Rotating support member 61 is protruded to the outside and connected to other parts, that is, the rotary actuator, the other end of the motor shaft 34 is seated at the end of the receiving groove 22 of the second housing (21) Is supported by.

Here, as shown in FIG. 2, the rotary support member 61 is integrally joined to reach the central portion of the steel ball 62 and the steel ball 62 while the receiving groove 22 of the second housing 21 is formed. It consists of a base plate (63) formed in a square plate shape to be seated.

In addition, the rotary support member 61 is a bearing 63 of the resin or fiber material is injected in the state in which the steel ball 62 is inserted into the mold, and the bearing 63 is integrally joined to the central load end of the steel ball 62. do.

On the other hand, the end of the motor shaft 34 in contact with the upper end of the rotation support member 61 is concave inwards to form a concave shape and the like is rotatably supported while the upper portion of the steel ball 62 of the rotation support member 61 is inserted. .

Next, the operation and effects of the present invention configured as described above will be described.

The support 63 of the rotation support member 61 is seated and fixed in the receiving groove 22 of the second housing 21 by the surface joining, and the upper portion of the accommodation groove 22 on which the rotation support member 61 is seated. The bearing 42 is inserted into the bearing 42, and one end of the motor shaft 34 is inserted through the motor shaft hole of the bearing 42, and the upper end of the steel shaft 62 of the rotary support member 61 of the motor shaft 34 is inserted into the bearing 42. The support groove 51 formed at one end is in contact.

At this time, the steel ball 62 formed integrally with the support 63 is fixed in place without flowing in accordance with the mounting of the support 63, the motor shaft 34 on the top of the fixed steel ball 62 is fixed. The support groove 51 is in contact with the position.

Electric current flows through the stator 31 and the rotor 33 to generate a constant magnetic force on the stator 31 and the rotor 33, and the rotor 33 is attracted to the stator 31 by the magnetic force. Or rotated in one direction while being repulsed, the motor shaft 34 fastened to the center of the rotor 33 in accordance with the rotation of the rotor 33 is rotated in one direction.

Both ends of the motor shaft 34 inserted into the motor are supported in the motor shaft holes of the bearings 41 and 42 fixed in the receiving grooves 12 and 22 of the housings 11 and 21, respectively. Rotation of the motor shaft 34 by the electrons 33 is maintained at one point.

In addition, the support groove 51 formed at one end of the motor shaft 34 is in contact with the upper end of the rotary support member 61 seated in the receiving groove 22 of the second housing 21 to the motor shaft 34 Axial pressurization is supported.

Here, one end of the motor shaft 34 on which the support groove 51 is formed is supported by its bearing 42 fitted into the accommodation groove 22 of the second housing 21, and the bearing 42 is supported. The support groove 51 of the motor shaft 34 inserted through the motor shaft hole of the contact with the upper end of the rotary support member 61 seated on the bottom of the receiving groove (22).

In addition, the support groove 51 is in contact with the upper end portion of the steel ball 62 of the rotary support member 61 is rotated in accordance with the rotation of the motor shaft 34, the sliding movement.

Therefore, the axial pressure applied to the motor shaft 34 or the load of the component connected to the motor shaft 34 is supported by the steel ball 62 seated and fixed by the support 133 in the receiving groove 22. The motor shaft 34 which is rotated while being pressed in the axial direction is rotatably supported by the sliding motion of the support groove 51 and the steel ball 62.

As described above, according to the present invention, the steel ball is easy to flow by its shape is integrally formed with the base, and the motor is assembled in a fixed position at the seating position of the receiving groove to facilitate assembly. The detachment of the steel balls in contact with the support groove of the motor shaft during the operation of the motor is prevented has the effect of improving the merchandise.

Claims (2)

In the rotation support device for a motor shaft for a motor installed between the motor shaft and the inner surface of the housing so that the axial pressure applied to the motor shaft is supported, the upper end is smoothly formed so as to slide in contact with the support groove on one side of the motor shaft; In addition, the rotation support device of the motor shaft for a motor, characterized in that the lower surface is formed on the inner surface of the housing is rotatable support member to be plane bonded to the receiving groove of the housing. The rotation support of the motor shaft for a motor according to claim 1, wherein the rotation support member comprises a steel ball in contact with an end of the motor shaft, and a support integrally formed in the lower end of the central portion of the steel ball and in close contact with the receiving groove. Device.

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