KR200160473Y1 - Bevel gear - Google Patents

Abstract

The present invention relates to a bevel gear for transmitting a rotational force, in which the driving force generated from the motor is transmitted to the output unit by the gear by the supply of electricity, the side portion of the gear is formed long, and a predetermined portion of the side portion is The lubrication groove is formed to move the grease, and the lubrication layer is inclined according to the rotational direction of the gear so that the lubricant can continuously form an oil film on the face of the gear, thereby minimizing the wear of the gear and To improve the life of the peripheral equipment, the driving force of the motor to be transmitted to the grinding surface smoothly.

Description

Bevel Gear

The present invention relates to a bevel gear, and in particular, a gear that drives a motor by receiving power and transmits the driving force to an output part, wherein a groove is formed to be inclined in the body of the gear that transmits the driving force of the motor in a vertical direction. Is moved along the groove, and the lubricating oil is continuously maintained on the face of the gear, thereby improving the lubrication of the gear.

In general, the bevel gear is to transmit a rotational force, in the present invention will be described by taking the gear of the electric grinding machine as an embodiment.

As shown in FIG. 1, the conventional electric grinding machine includes a power input unit 23 for receiving power from the lower part of the body 22, and a power input from the power input unit 23, as shown in FIG. A switch unit 24 capable of intermittent control, a gear for outputting a driving force generated by a motor configured inside the body 22, and an output unit 25 receiving a rotational force from the gear and transmitting the rotational force to the blade unit 26. It consisted of.

The electric grinder 21 as described above receives external power from the power input unit 23 and is supplied to the body 22 of the grinder 21 while being interrupted by the switch unit 24. At this time, the power supplied to the body 22 generates a driving force in the motor, the driving force is supplied to the blade portion 26 of the output portion 25 through the gear. The rotational force transmitted to the blade portion 26 comes into contact with the workpiece so that the blade portion 26 of the grinding machine 21 processes the workpiece into a desired shape.

At this time, the gear that transmits the driving force generated from the motor of the grinding machine 21 to the output unit 25, as shown in Figure 2 the gear body 11 constitutes the gear blade portion 12 at a predetermined portion, the gear The gear surface part 13 was formed in the lower part of the blade part 12, and the insertion hole 14 penetrated the center of the gear body 11, and was comprised.

The gear body 11 transmits the driving force generated in the motor to the blade portion of the grinding machine by changing the driving force transmission direction in the perpendicular direction. At this time, the blade portion 12 of the gear is filled with grease (Grease) to reduce the friction. The grease filled in the gear blade 12 allows the gear and the gear to rotate smoothly. In addition, the grease is scattered to the inner wall of the gear cover by a gear that is rotated at high speed, and the grease scattered to the inner wall of the cover forms an oil film to come into contact with the face portion 13 of the gear, and the inner wall of the cover and the face portion of the gear 13 is smoothly rotatable by the oil film.

However, in the related art as described above, the gear and the gear rotate to scatter the lubricant, and the scattered lubricant moves outward through the inner surface of the cover, so that the lubricant and the blade portion of the gear gradually disappear. Therefore, it is necessary to frequently fill the lubricating oil, when the filling is not achieved, the gear is shortened by the friction life, the gear was not rotated smoothly, the abrasive stone did not play a predetermined role.

In addition, the oil film is lubricated by contact with the conventional gear tooth surface, the gear continues to rotate, and as time passes, the oil film becomes thinner and thinner, the oil film is unable to perform the lubrication smoothly. In addition, when the thin oil film disappears more quickly and the oil film itself disappears, the gears come into contact with the outer cover, causing friction, and the friction shortens the life of the gears and peripheral parts.

Therefore, the present invention was conceived in consideration of such a situation, so that the oil film formed by the grease provided in the gear transmitting the driving force of the motor can be maintained continuously, improving the life of the gear and the peripheral parts, and improving the driving force of the motor. The purpose is to ensure smooth delivery to the output.

In order to achieve the above object, the present invention transfers the driving force generated from the motor by the supply of electricity to the output part by the gear, and forms a long side portion of the gear, and grease is formed on a predetermined portion of the side portion. The lubrication groove is configured to be movable, and the lubrication groove is configured to be inclined according to the rotation direction of the gear so that the lubricating oil can be moved along the face of the gear by the rotation of the gear so that an oil film can be continuously formed on the inner surface of the cover. It would be.

1 is a perspective view showing a general grinding machine.

2 is a perspective view showing a conventional gear.

3 is a perspective view showing a gear of the present invention.

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

1: gear body 2: gear blade

3: gear surface part 4: insertion groove

5: Lubrication groove

Hereinafter, an embodiment of a gear according to the present invention will be described in detail with reference to the accompanying drawings.

Looking at the application of the gear to the grinder as an embodiment of the present invention as follows.

3 is a perspective view of the gear of the present invention, the gear blade portion 2 is formed on the body 1 of the gear, the gear surface portion 3 is formed on the lower side of the gear blade portion 2, In the gear body (1) in which the insertion groove (4) is formed in the center of the gear body (1), the gear face portion (3) is formed to be long downward, and the gear blade portion is formed at a predetermined portion of the gear face portion (3). In (2), the lubrication grooves 5 extending to the other side are configured.

At this time, the lubrication groove 5 is formed in the inclined direction according to the rotation direction of the gear is formed to move the grease from one side to the other side.

The present invention configured as described above will be described in detail the operation of the reduction gear.

The gear of the present invention as described above is used as follows. The motor powered from the outside generates the driving force, and the driving force is transmitted to the output through the reduction gear. At this time, a large amount of grease is filled in the gear blade portion 2 of the reduction gear. The grease is scattered to the cover that surrounds the gear body 1 by rotation of the gear blade 2 and the gear blade 2, and the cover has a centrifugal force, and the grease gradually moves outward. The oil film of grease surrounds the face of the gear. At this time, the grease passing through the face of the gear is moved to the other side of the gear body 1 so that the grease gradually moves outward from the meshing portion of the gear as time passes by the use of the gear.

At this time, the grease moved to the outside of the gear surface portion 3 by the lubrication groove 5 of the present invention is moved to the portion where the gear blade portion 2 and the gear blade portion 2 are engaged again along the lubrication groove. That is, when the gear body 1 rotates in the direction of the arrow shown in FIG. 3, the grease moves inward along the lubrication groove 5, and the grease moved to the gear blade 2 again as described above is geared. Induces smooth rotation of the blade (2) and gear blade (2).

In addition, the grease that is moved through the lubrication groove (5) is continuously buried in the cover of the gear by the rotation of the gear surface portion 3, the grease buried in the cover is continuous between the gear surface portion (3) and the cover of the gear The oil film can be maintained.

The present invention allows the grease to be continuously supplied to the gear that transmits the driving force of the motor, so that the gear rotates smoothly, and the oil film formed by the grease can be continuously maintained at the gear surface to ensure the life of the gear and the peripheral parts. It is improved, and the driving force of the motor is smoothly transmitted to the output effect.

Claims (2)

In the gear body 1 in which the gear surface part 3 is formed in the lower surface of the gear blade part 2 formed in the body 1 of a gear, and the insertion groove 4 was formed in the center of the gear body 1, Bevel gear, characterized in that the gear surface portion (3) is formed long downward, and the lubrication groove (5) extending from the gear blade portion (2) to the other side in a predetermined portion of the gear surface portion (3). The bevel gear according to claim 1, wherein the lubrication groove (5) is formed in an inclined direction along the rotational direction.