KR100779773B1 - Plastic motor housing - Google Patents

Abstract

A plastic motor housing is provided to reduce the overall weight of a motor and prevent the corrosion of the motor housing without a separate painting process by using a plastic material instead of a metallic material. A plastic motor housing includes a housing body(10), a suspending part(20), a suspending protrusion(30), and a guiding part(40). The housing body is made of a plastic material. A stator is formed in the housing body. The stator is composed of a pair of magnets having different polarities. The suspending part fixes the stator in an axial direction. The suspending protrusion protrudes in upper and lower portions on a front surface of an inner peripheral surface of the housing body, and fixes the stator in the axial direction with the suspending part. A gentle slope is formed on one surface of the suspending protrusion and a suspending surface is vertically formed on the other surface of the suspending protrusion. The guiding part protrudes in an axial length direction at an edge of the suspending part.

Description

Plastic motor housing {plastic motor housing}

1 is a perspective view of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a front view of the present invention.

4 is an explanatory view of the assembly according to an embodiment of the present invention.

5 is an explanatory view of the assembly according to another embodiment of the present invention.

6 is a perspective view according to another embodiment of the present invention.

7 is a use state diagram showing a use state of the present invention.

<Description of the symbols for the main parts of the drawings>

10: housing body 11: adhesive groove

20: jam jaw 30: jam projection

31: inclined surface 32: locking surface

40: guide jaw 41: fastening groove

100: stator 101: fastening protrusion

200: rotor 300: rotation axis

The present invention relates to a motor housing made of a synthetic resin, and more particularly, to form a guide inside a housing made of synthetic resin to facilitate the eccentricity of the stator, which is two magnets of different poles, and thus the center of the stator. It is a synthetic resin motor housing that reduces the cost and time required to hold, does not require a separate process for attaching the stator to the housing, and is lighter by using a synthetic resin that is less expensive than metal. .

In general, a motor is a device in which a stator and a rotor are built in a housing to generate power by rotating the rotor from the stator due to polarity opposition of the magnetic force generated in the coil. The stator is fixed inside the housing, and the rotor has a rotating shaft. This is press-fitted and the torque is output through the rotating shaft. Motors are widely used in almost all mechanical and electronic products. They vary in shape and range in size from large motors to very small nanomotors.

Conventional motor housings were made of a metal material to bond stators, which are two magnets corresponding to each other, having an N pole and an S pole. In the process of manufacturing the motor housing, first of all, the pipe-shaped metal pipe is cut to a certain length, and the cut end is chamfered in preparation for a safety accident that may be caused by a sharp surface, and then painted in various colors. The magnet was attached to the inside of the tube using an adhesive or the like.

However, in the process of attaching the stator magnet, it is very difficult to grasp the center of gravity of the two magnets, which requires a lot of cost and time, an increase in the number of manufacturing processes, a slight eccentricity, and a bias toward one side. The frequency of producing defective products was high. For reference, when the eccentricity of the stator and the rotor of the motor occurs, the motor cannot be rotated forward. Accordingly, the output of the motor is deteriorated, and the wear life of the motor parts is generated. In addition, as the motor is made larger as the metal is manufactured, there is a problem that the weight increases and the manufacturing cost increases.

In addition, the conventional housing made of metal required a separate coating process in order to prevent corrosion or the beauty of the appearance, so the number of manufacturing processes and production cost inevitably increased. There was a problem that peeling off occurs some corrosion shortens the life and the appearance is not beautiful.

The present invention has been made to solve the conventional problems as described above, to facilitate the center of the stator consisting of a pair of magnets having different poles to reduce the failure rate and reduce the cost and time to hold the center, injection Since it can be formed integrally by molding or the like, it greatly reduces the number of manufacturing processes and increases productivity, and by using synthetic resin which is cheaper than metal, the weight of the motor is lighter and there is no fear of corrosion even without a separate coating process. Its purpose is to provide a motor housing made of synthetic resin material.

In order to achieve the above object, in the present invention, in a housing of a motor in which a stator made of a pair of magnets having different poles is fixed therein, the stator is formed in a synthetic resin material such as nylon. main body; A latching jaw formed on the rear side of the inner circumferential surface of the housing main body so as to face each other so as to form a pair to fix the stator in the axial direction; A locking protrusion protruding from an upper side and a lower side of an inner circumferential surface of the housing main body to fix the stator together with the locking step in an axial direction; The guide jaw formed in the longitudinal direction of each shaft at the end side of the locking jaw; is configured to provide a motor housing of a synthetic resin material, characterized in that to facilitate the holding of the center of the stator.

In addition, the present invention is to provide a motor housing made of a synthetic resin material, characterized in that the engaging projection is formed on one side is gently inclined surface and the other surface is formed vertically engaging surface.

In addition, in the present invention, the guide jaw is formed with a fastening groove in the shape in which the end is bent inward, the stator to form a fastening projection to be fastened to the fastening groove, the stator is not separated from the housing body, characterized in that To provide a motor housing of the material.

In addition, the present invention is to provide a motor housing of a synthetic resin material, characterized in that the inner circumferential surface of the housing body to form a plurality of adhesive grooves in place of the locking projection and to apply the adhesive to the adhesive grooves to be attached to the stator.

Hereinafter, the technical configuration of the present invention according to the accompanying drawings in detail.

Motor housing of the synthetic resin material according to the present invention, as shown in Figures 1 to 7, the stator 100 and the rotating shaft 300 made of a pair of magnets having different poles therein, the rotor 200 is press-fitted In the housing of the motor in which the rotor 200 rotates from the stator 100 to generate power due to the polarity opposition of the magnetic force generated in these coils, the stator 100 is made of a synthetic resin material such as nylon. A housing body 10 formed therein; A latching jaw 20 configured to protrude in a pair to face each other on the rear side of the inner circumferential surface of the housing body 10 to fix the stator 100 in the axial direction; A locking protrusion (30) formed to protrude from the upper and lower front sides of the inner circumferential surface of the housing body (10) to fix the stator (100) in the axial direction together with the locking jaw (20); Guide jaw 40 formed to protrude in the longitudinal direction of the shaft from the end side of the locking jaw 20, respectively, consisting of the housing body 10, the locking jaw 20, the locking projection 30, the guide jaw ( The components of 40) are made of synthetic resin, which is characterized by its composition.

The housing body 10 is made of a synthetic resin material such as nylon to have a strong mechanical strength and hardness to prevent deformation such as bending or bending even when the external force or impact, and to rotate at high speed inside the motor The thermal resistance of the housing due to the high temperature generated by the heat is excellent to have a property of excellent heat resistance. The housing body 10 may be formed in a cylindrical shape or other various shapes of the outside thereof, but in general, the inside shape of the housing body 10 should be exactly formed in a circular shape on the front view. This is to allow the rotor 200 and the stator 100 attached to the housing body 10 to be rotated by the rotation shaft 300 to be rotated forward without eccentricity.

The stator 100, which is a magnet corresponding to each other having an N pole and an S pole, is attached to the housing body 10 so that the top and bottom are symmetrical. At this time, in order for the motor to be rotated normally, there should be no eccentricity in the two magnets are fixed, the stator 100 is attached to the inside of the housing body 10 by holding the center to minimize the error in the process. In the present invention, instead of forming a jaw and protrusions in the housing body 10 to separate the process of holding the exact center as described above, it is possible to easily attach and attach the magnet.

The locking jaw 20 is formed to protrude in an annular shape in the circumferential direction on the upper and lower rear side of the inner peripheral surface of the housing body 10, respectively. The latching jaw 20 has a pair of protruding symmetrically up and down inside the housing body 10 so that the two magnets can be located up and down inside the housing body 10. The locking jaw 20 serves to fix and hold the stator 100 in the direction of the axis. As shown in Figures 1 to 3, the locking jaw 20 is formed in a semicircular shape with the upper and lower portions spaced apart at regular intervals. This is because two magnets having different poles of the stator 100 are generally semicircular and fixed at regular intervals on the upper and lower portions, respectively. Since the shape of the locking jaw 20 has been described in the preferred example, of course, it may be formed in another shape that can fix the stator 100.

The locking projections 30 are formed to protrude on the upper and lower front sides of the inner circumferential surface of the housing body 10, respectively, to secure and hold the stator 100 along the locking jaw 20 in the axial direction. . The locking projection 30 is also formed in the housing body 10 is a pair of protruding symmetrically up and down.

In addition, as shown in FIG. 2, the locking protrusion 30 has a slanted surface 31 gently formed on one surface thereof, and a locking surface 32 formed vertically on the other surface thereof, such that the stator 100 includes a housing body 10. The sliding stator 100 comes into contact with the inclined surface 31 when inserted into the sliding surface 31, and the stator 100 once fitted is fixed to the locking surface 32 vertically formed so as not to fall out.

As such, the locking step 20 and the locking protrusion 30 are formed so that the stator 100 is fixed to and attached to the housing body 10 in a forward and backward direction, that is, in the longitudinal direction of the shaft. In addition, the locking protrusion 30 not only prevents the stator 100 from being separated from the housing body 10, but also allows the stator 100 to be assembled to the housing body 10 without applying a large force.

The guide jaw 40 is formed at each end side of the locking jaw (20). That is, the left and right sides of the inner circumferential surface of the housing body 10 respectively protrude in a straight line in the longitudinal direction of the shaft, and the left and right sides are formed to be spaced apart from each other by the same distance. The guide jaw 40 is a device that restrains the stator 100 by being in close contact with each end of the stator 100. The guide jaw 40 is located at both ends of the stator 100 made of a pair of magnets so as to be symmetrically positioned up and down. Pair is protruded in the housing body (10). At this time, the distance between the two magnets of the stator 100 should be formed to be spaced at the same interval to catch the correct center according to the great effect on the performance of the motor. That is, the interval between the pair of guide jaw 40 formed in the upper and lower sides is formed equally to the left and right.

The guide jaw 40 is positioned at both ends of the stator 100 to hold the stator 100 so as not to move in the circumferential direction of the housing main body 10, and having two different poles of the stator 100. The magnets act to allow the magnets to be spaced apart from each other at regular intervals.

In addition, the guide jaw 40, as shown in Figure 5, the end is bent inwardly bent to form a fastening groove 41, the fastening groove 41 at both ends of the stator 100 By forming the fastening protrusion 101 to be fastened to the), the stator 100 is configured so as not to be separated after being fastened to the housing body (10). As the fastening groove 41 formed by bending the ends of the guide jaw 40 at approximately right angles and the fastening protrusions 101 formed at both ends of the stator 100 are engaged with each other, the stator 100 is coupled to the housing body 10. ) Is fixed with stronger clamping force so that it does not fall out.

In addition, according to another feature of the present invention, as shown in Figure 6 in the inner circumferential surface of the housing body 10 to form a plurality of adhesive grooves 11 in place of the locking projection 30 and in the adhesive groove 11 The stator 100 is attached and fastened by applying an adhesive.

When the size of the motor is enlarged, the size of the stator 100 is also increased, so that the fixing force is weak with only the locking protrusion 30, so that the stator 100 may be fastened to the housing body 10 by using an adhesive such as a bond. Therefore, a plurality of adhesive grooves 11 are formed on the inner circumferential surface of the housing main body 10, and after the adhesive is applied to the adhesive grooves 11, the stator 100 is fixed to the housing main body 10. It is fixed to).

As described above, the components of the housing body 10 and the locking jaw 20, the locking protrusion 30, and the guide jaw 40 formed on the inner circumferential surface thereof are made of a synthetic resin material, using a process such as injection molding. Since it is possible to form integrally, it is possible to easily manufacture a large quantity of housings without any defective products by manufacturing a mold once holding the center correctly. In addition, since the weight of the housing is light and the external shock is prevented from being deformed, such as bending or bending, the motor is prevented from being broken by being made of synthetic resin, not metal, thereby prolonging the life of the motor.

The configuration and the operating state are described as preferred embodiments of the present invention, and are not limited to the scope of the embodiments. Various configurations can be changed without departing from the spirit of the invention.

As described above, the motor housing of the synthetic resin material according to the present invention can be easily assembled by forming a guide inside the housing to easily grasp the eccentricity of the stator, thereby reducing the cost and time required to grasp the center of the stator. Since it is made of synthetic resin material, it can be formed integrally by injection molding method, so it can reduce production process and produce a lot of products in a short time to increase productivity. It is a very useful invention that reduces the weight, reduces the separate process of coloring by compensating for the disadvantages of the housing made of metal which is peeled off due to corrosion, and does not cause corrosion, and reduces manufacturing costs.

Claims (4)

In a housing of a motor in which a stator 100 made of a pair of magnets having different poles is fixed therein, A housing body 10 made of synthetic resin material such as nylon and having the stator 100 formed therein; A latching jaw 20 configured to protrude in a pair to face each other on the rear side of the inner circumferential surface of the housing body 10 to fix the stator 100 in the axial direction; A locking protrusion (30) formed to protrude from the upper and lower front sides of the inner circumferential surface of the housing body (10) to fix the stator (100) in the axial direction together with the locking jaw (20); Guide jaw (40) formed to protrude in the longitudinal direction of the shaft from the end side of the locking jaw (20); consisting of, the motor housing of the synthetic resin material, characterized in that to facilitate the holding of the center of the stator (100). The method of claim 1, The locking projection 30 is one surface is gently inclined surface 31 is formed, the other surface is a motor housing of a synthetic resin material, characterized in that the vertical locking surface 32 is formed. The method of claim 1, The guide jaw 40 forms a fastening groove 41 in a shape in which an end is bent inward, and the stator 100 forms a fastening protrusion 101 to be fastened to the fastening groove 41 to stator 100. The motor housing of the synthetic resin material, characterized in that is not separated from the housing body (10). The method of claim 1, An inner circumferential surface of the housing body 10 forms a plurality of adhesive grooves 11 instead of the locking protrusions 30, and a stator 100 is attached and fastened by applying an adhesive to the adhesive grooves 11. Motor housing made of synthetic resin.

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