KR101135295B1 - Rotating power increasing device for motor and working tool with the same - Google Patents

Abstract

According to an aspect of the present invention, the rotating body coupled to the rotating shaft of the motor and rotated by the motor, and a weight that is coupled to the rotating body spaced apart from the rotating shaft in the radial direction of the rotating shaft, the rotating body As the weight is rotated, the weight is rotated around the axis of rotation and generates a centrifugal force to provide a motor torque increasing apparatus for enhancing the torque of the motor. According to another aspect of the present invention, there is provided a work tool having a motor torque increasing device to transmit the enhanced rotating force to the work member.

Description

Rotating Power Increasing Device for Motor and Working Tool with the same}

The present invention relates to a motor torque increasing device and a work tool having the same, and more particularly, to a torque increasing device coupled to the motor to increase the torque of the motor and a work tool having the same.

Working tools such as grinders generally drive the work member (grinder blade) to rotate using only the rotational force of the motor.

When the driving member is driven to rotate using only the rotational force of the motor, a phenomenon in which the rotational force of the motor sharply drops frequently occurs due to the work load generated while the working member contacts the workpiece.

When the rotational force of the motor is drastically reduced, an overcurrent flows to the motor to generate a high temperature, and a large friction is generated to generate a large amount of sparks.

The generated high temperature and a large amount of sparks can damage the drive circuit of the motor, thereby reducing the durability of the motor. In addition, unnecessary power is excessively consumed, resulting in a significant drop in work efficiency.

The present invention is to solve the problems of the prior art as described above, to increase the rotational force of the motor to prevent damage to the motor, and to provide a motor rotational force enhancer that can prevent unnecessary power consumption and a work tool having the same The purpose.

According to an aspect of the present invention, the rotating body coupled to the rotating shaft of the motor and rotated by the motor, and a weight that is coupled to the rotating body spaced apart from the rotating shaft in the radial direction of the rotating shaft, the rotating body As the weight is rotated, the weight is rotated around the axis of rotation and generates a centrifugal force to provide a motor torque increasing apparatus for enhancing the torque of the motor.

According to one embodiment, the rotary body is formed with a conduit formed concentrically around the rotation axis, the spherical weight is provided inside the conduit, it is movable along the conduit.

The motor torque increasing apparatus further includes a housing surrounding the rotating body, wherein the rotating body may be freely rotatable with respect to the housing, and the rotating body may be freely rotatably fixed to the housing inside the housing. Needle bearing may be provided.

In addition, the motor rotational force increasing apparatus is detachable to the motor, the upper surface of the rotating body has the same shape as the rotation axis of the motor, the engaging projection to which the work member can be formed, the lower surface of the rotating body Coupling grooves may be formed to be inserted into the rotating shaft of the motor.

According to another aspect of the present invention, a motor, a rotational force increasing device coupled to the motor and a work member coupled to the rotational force increasing device, the rotational force increasing device is coupled to the rotation axis of the motor rotated by the motor And a weight coupled to the rotating body spaced apart from the rotating shaft in a radial direction of the rotating shaft, wherein the weight rotates around the rotating shaft while generating the centrifugal force as the rotating body rotates. A work tool is provided which enhances the rotational force of the tool and in which the enhanced rotational force is transmitted to the work member.

The work tool may be a small capacity work tool, and more particularly, the work tool may be a 4 inch grinder.

According to the present invention, the durability of the motor is increased, unnecessary power consumption is greatly reduced and the workability of the user can be improved.

1 is a view illustrating a motor torque increasing apparatus and a motor to which the motor torque increasing apparatus is coupled according to an embodiment of the present invention.
2 is a perspective view of a motor torque increasing apparatus according to an embodiment of the present invention.
3 is an exploded view of the motor torque increasing apparatus of FIG. 2.
4 is a partial cross-sectional view of a rotating body provided in the motor torque increasing apparatus according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, this is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

1 illustrates a motor torque increasing apparatus 10 and a motor 20 according to an embodiment of the present invention.

As shown in FIG. 1, the motor torque increasing apparatus 10 according to the present embodiment includes a rotating body 100 coupled to the rotating shaft 21 of the motor 20, and a housing 200 surrounding the rotating body 100. ). The rotating body 100 has a coupling protrusion 110 exposed on the upper surface of the housing 200.

The motor 20 is a driving means of a grinder, more particularly a 4 inch grinder, which is a kind of work tool. The motor 20 is fixedly installed in the grinder housing (not shown). When the user applies power of the grinder, the motor 20 is driven to rotate the rotating shaft 21.

According to this embodiment, the motor torque increasing device 10 is coupled to the rotating shaft 21 of the motor 20, the engaging projection 110 of the motor torque increasing device 10, such as a grinder blade (not shown) ) Are combined.

The motor rotational force increasing apparatus 10 according to the present exemplary embodiment may be detachable from the motor 20, and the shape of the coupling protrusion 110 may be substantially the same as the shape of the rotation shaft 21 of the motor 20. Therefore, the user directly connects the work member to the rotation shaft 21 of the motor 20, and then, if necessary, couples the motor rotation force increasing apparatus 10 to the rotation shaft 21 and couples the motor rotation force increasing apparatus 10. The work member may be coupled to the protrusion 110 to be used.

As used herein, it is to be understood that the "work member" includes not only a member that directly contacts the workpiece, such as a grinder blade, but also a connecting member such as a pinion for connecting such member with a motor.

2 is a perspective view of the motor torque increase device 10 according to the present embodiment, Figure 3 is an exploded view of the motor torque increase device 10 of FIG.

2 and 3, the housing 200 includes a body 400, an upper cover 510 covering an upper surface of the body 400, and a lower cover 520 covering a lower surface of the body 400. Include.

Body 400 has a substantially rectangular shape, the upper and lower surfaces are open. An accommodating space 401 is formed in the central portion of the body 400 to accommodate the rotating body 100, and a bearing coupling part 402 is formed around an inner surface of the accommodating space 401.

Near the four corners of the body 400, screw coupling holes 403 are formed. Although not shown in the drawings, the screw coupling hole 403 is also formed at a corresponding position of the lower surface of the body 400.

The upper cover 510 is a plate member having a rectangular shape substantially the same as the cross-sectional shape of the body 400. The screw coupling hole 512 is formed near four corners corresponding to the screw coupling hole 403 formed on the upper surface of the body 400. After mounting the upper cover 510 on the upper surface of the body 400, the upper cover 510 and the body 400 can be coupled by connecting the corresponding screw coupling hole 403 and the screw coupling hole 512 using a screw. have.

A through hole 511 is formed at the center of the upper cover 510. When all the motor torque increasing apparatuses 10 are assembled, the engaging protrusion 110 of the rotating body 100 is connected to the upper cover 510 through the through hole 511. ) Protrude out (see FIG. 1).

The lower cover 520 is a plate member having a rectangular shape substantially the same as the cross-sectional shape of the body 400. Screw coupling holes 522 are formed around the four corners corresponding to the positions of the screw coupling holes 403 formed on the bottom surface of the body 400. After placing the lower cover 520 on the lower surface of the body 400, the lower cover 520 and the body 400 can be coupled by connecting the corresponding screw coupling hole 403 and the screw coupling hole 522 using a screw. have.

A through hole 521 is formed at the center of the lower cover 520, and when the motor torque increasing device 10 is assembled, the coupling groove 120 (see FIG. 4) formed on the lower surface of the rotating body 100 is a through hole ( 521 is exposed to the outside.

The rotating body 100 is a cylindrical rotating spindle, which is accommodated in the inner space 401 of the body 400. The rotor 100 is fitted into the central space 301 of the needle bearing 300, and the needle bearing 300 is coupled to the bearing coupling part 402 of the internal space 401. According to this configuration, the rotating body 100 is coupled to the inside of the housing 200 to be free to rotate relative to the housing 200.

4 is a partial cross-sectional view of the rotating body 100 according to the present embodiment. 4 illustrates a half of the rotating body 100 cut in the vertical direction, and for convenience of description, the pipeline 130 formed inside the rotating body 100 is indicated using a dotted line.

Referring to Figure 4, the upper surface of the rotating body 100 is formed with a coupling protrusion 110 extending perpendicular to the upper surface, the lower surface is formed with a coupling groove 120 formed perpendicular to the lower surface. As described above, the working member is coupled to the coupling protrusion 110, and the rotation shaft 21 of the motor 20 is coupled to the coupling groove 120.

Inside the rotating body 100, the conduit 130 is formed concentrically around the coupling groove 120. Since the rotating shaft 21 of the motor is coupled to the coupling groove 120, when the rotating body 100 is coupled to the motor 20, the conduit 130 forms a concentric circle around the rotating shaft 21 of the motor.

The weight 101 is inserted into the pipeline 130. The weight 101 according to the present embodiment is a spherical metal ball. The weight 101 may be freely rolled in the conduit 130 and moved along the conduit 130 to rotate about the rotation shaft 21.

Pipe line 130 is formed along the circumference of the rotating body 100 is formed concentrically around the rotating shaft 21 of the motor, the weight 101 is spaced apart from the rotating shaft 21 in the radial direction of the rotating shaft 21 Are arranged.

Hereinafter, with reference to the accompanying drawings, it will be described the operation and motor torque enhancement principle of the motor torque increase device 10 according to the present embodiment.

The user first fits the motor torque increasing device 10 to the motor 20 by inserting the coupling groove 120 formed on the lower surface of the rotating body 100 into the rotating shaft 21 of the motor 20 of the work tool, and the rotating body 100. The working member is coupled to the coupling protrusion 110 formed on the upper surface of the). In this state, the work tool is switched on to rotate the motor 20. Since the rotating body 100 can rotate freely with respect to the housing 200, the rotating body 100 inside the housing 200 is rotated by the motor 20, and the housing 200 does not substantially rotate. .

The housing 200 protects the rotating body 100 accommodated therein, and serves to keep the rotating body 100 in a stable state without being separated from the motor 20. While the rotor 100 located inside the housing 200 rotates in a stable state by the motor 20, the housing 200 is fixed to the upper surface of the motor 20 so as not to be separated from the rotating shaft 21, or the work is performed. It will be appreciated that it may be secured to the tool body.

When the rotating body 100 rotates about the rotating shaft 21 by the motor 20, the weight 101 accommodated in the conduit 130 of the rotating body 100 rotates along the conduit 130. 21) Rotate around.

Since the weight 101 has a predetermined weight, when the rotating body 100 rotates, the weight 101 is rotated at a speed equal to or higher than the rotational speed of the rotating shaft 21. Rotational movement along 130), thereby generating centrifugal force.

The reaction force of the centrifugal force generated by the weight 101 is applied to the rotating shaft 21 of the motor 20, so that the torque, that is, the rotating force of the rotating shaft 21 of the motor 20 is increased.

The heavier the weight of the weight 101, the faster the rotational speed of the weight 101 in the conduit 130 and the greater the centrifugal force. That is, by increasing the weight of the weight 101, it is possible to increase the rotational force of the motor 20 more.

If the weight of the weight 101 is heavy, the weight of the work tool is also increased, the weight of the weight 101 is determined in consideration of the user's work efficiency.

According to this embodiment, the weight 101 is freely movable within the conduit 130 formed in the rotating body 100, but is not necessarily limited thereto. Since the weight 101 is to allow the center of gravity of the rotating body 100 rotating around the motor rotating shaft 21 to be disposed in the radial direction of the rotating shaft 21, the weight 101 is rotated by the rotating body 100. It will be appreciated that it may be fixed at a specific location inside.

However, as in this embodiment, by allowing the weight 101 to move freely along the conduit 130 formed on the rotating body 100, the fluctuation of the work tool due to the imbalance of the center of gravity of the rotating body 100 is reduced. It can be, and the weight (101) is rotated above the rotational speed of the rotating body 100 can generate a large centrifugal force has the advantage that can effectively enhance the rotational force of the motor (20).

The motor torque increasing apparatus 10 according to the present embodiment can be effectively applied to a work tool of a relatively small capacity, such as a 4 inch grinder. However, it is not necessarily limited thereto, and for example, it may be used in a work tool other than a grinder such as a drill, and it should be understood that it may be applied to various mechanical devices having a motor as a driving means.

10: Motor torque enhancer
20: motor
100: rotating body
101: weight
130: pipeline
200: housing
300: needle bearing
400: body
510: top cover
520: lower cover

Claims (9)

A rotating body coupled to the rotating shaft of the motor and rotating by the motor;
It includes a weight coupled to the rotating body spaced apart from the rotating shaft in the radial direction of the rotating shaft,
The rotary body is formed with a conduit formed concentrically around the rotation axis,
The weight is provided in the conduit, movable along the conduit,
And the weight is rotated around the rotary shaft as the rotor rotates to generate centrifugal force to enhance the rotational force of the motor.
delete The method of claim 1,
The weight of the motor torque enhancer, characterized in that having a spherical shape. The method of claim 1,
Further comprising a housing surrounding the rotating body,
And the rotating body is rotatable freely with respect to the housing. The method of claim 4, wherein
And a needle bearing for freely fixing the rotatable body to the housing in the housing. The method of claim 1,
The motor torque increasing device is detachable to the motor,
An upper surface of the rotating body has the same shape as the rotation axis of the motor, the engaging projection to which the working member can be formed is formed,
And a coupling groove into which a rotating shaft of the motor can be inserted in a lower surface of the rotating body. motor;
Rotation force enhancer coupled to the motor; And
A work member coupled to the rotational force enhancer;
The rotational force enhancer,
A rotating body coupled to the rotating shaft of the motor and rotating by the motor;
It includes a weight coupled to the rotating body spaced apart from the rotating shaft in the radial direction of the rotating shaft,
The rotary body is formed with a conduit formed concentrically around the rotation axis,
The weight is provided in the conduit, movable along the conduit,
And the weight is rotated around the rotary shaft as the rotor rotates to generate centrifugal force to enhance the rotational force of the motor, and the enhanced rotational force is transmitted to the work member. The method of claim 7, wherein
The work tool is a small-capacity work tool. The method of claim 8,
The work tool is a 4 inch grinder.

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