KR20120126922A - Driving force transferring apparatus for a grass cutter - Google Patents

Abstract

PURPOSE: A power transferring apparatus of a grass cutter is provided to prevent the overload of a cutting blade from transferring to a driving source and a battery by stopping the cutting blade if the cutting blade is overloaded. CONSTITUTION: A power transferring apparatus includes a shaft connecting unit(18), a driven shaft(26), and a driven connecting part(30). The shaft connecting unit rotates by the driving shaft of a driving source installed at a main body housing. A frictional driving rod is arranged at the tip end part of the shaft connecting unit. The driven shaft is concentrically connected to the shaft connecting unit and rotates by the driving force of the driving source. A cutting blade is arranged at the driven shaft. An elastic member is arranged in the driven connecting part. The elastic member is adjacently arranged to the external side of the frictional driving rod. The driven connecting part is arranged at one end part of the driven shaft. If load applied to the cutting blade is more than a pre-determined value, the driven shaft is stopped about the shaft connecting unit by the driven connecting part.

Description

Driving force transferring apparatus for a grass cutter}

The present invention relates to a lawn mower, and more particularly, to a power transmission device of the lawn mower to block the driving force of the drive source is transmitted to the cutting blade when the cutting blade is overloaded in transmitting power from the drive source of the lawn mower.

In general, weeds growing in paddies such as paddy fields tend to be hotbeds of pests, so they are cut and removed several times a year. The graveyard or garden lawn is cut at that time so that it does not grow longer than a certain length.

However, cutting grass or weeds is usually a very difficult task, and for this purpose, various types of mowers have been manufactured and used. The mower rotates the cutting blade with the driving force of the driving source to cut grass or weeds. In this process, when the cutting blade hits a stone, coarse wood, ground, etc. hidden in grass or weeds, the driving force of the driving source is being transmitted, but the cutting blade is not rotated, thereby acting as a large load on the driving source. As a load acts on the driving source in this way, the life of the driving source is shortened.

In particular, when the cutting blade is stopped by a load acting on the cutting blade, the driving source is also stopped. When the load is removed, the driving source is rotated again. The motor, which is the driving source, needs a considerable initial driving force to stop and rotate again, and such a large initial driving force requires a large current, resulting in shortening the life of the battery and the driving source.

An object of the present invention is to solve the conventional problems as described above is to provide a power transmission device of the lawn mower so that the drive source can continue to operate even if the cutting blade is not rotated due to overload.

According to a feature of the present invention for achieving the above object, the present invention is a shaft connector that is rotated by the drive shaft of the drive source installed in the main body housing and the friction driving rod is provided at the tip, and is connected concentrically with the shaft connector The driven shaft is rotated by receiving the driving force of the driving source and is provided with one end of the driven shaft and an elastic member provided at one end of the driven shaft to be in close contact with the outer surface of the friction driving rod, thereby providing a load applied to the cutting blade. And a driven connector that causes the driven shaft to stop relative to the shaft connector when the magnitude exceeds a predetermined value.

The driven connector is formed with a driving rod insertion hole which is concentric with the rotational center of the driven shaft and the friction driving rod is positioned, is opened to an outer surface of the driven connection portion, communicates with the driving rod insertion hole, and the elastic member is positioned. Position holes are formed.

The elastic member position hole is formed to be symmetrical with respect to the driving rod insertion hole in the driven connection portion.

The elastic member has a cylindrical coil spring, one end of which is in close contact with the friction driving rod in the state of being positioned in the elastic member positioning hole by a set screw.

The connecting portion of the shaft connector and the driven shaft of the driven shaft is shielded by the shaft cover provided in the drive source or the main housing.

In the power transmission device of the lawn mower according to the present invention the following effects can be obtained.

The lawn mower of the present invention is configured to cause slip when the cutting blade is overloaded between the components provided on the path for transmitting the driving force of the driving source to the cutting blade. Therefore, when the cutting blade is overloaded, the driving source is continuously rotated, but the cutting blade is stopped and the overload is removed and the driving force of the driving source is transferred to the cutting blade again so that the driving source and battery are prevented from being overloaded. This has the effect of increasing durability.

1 is a side sectional view showing a schematic configuration of a lawn mower in which a preferred embodiment of the power transmission device according to the present invention is employed;
Figure 2 is a cross-sectional perspective view showing the main portion of the embodiment of the present invention.
Figure 3 is a partial cross-sectional view showing the main portion of the embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the power transmission device of the lawn mower according to the present invention will be described in detail.

As shown in the drawings, the operation rod 12 extends from one side of the main body housing 10. In the illustrated embodiment, the main body housing 10 has a substantially cylindrical shape with one end open and the other end closed. Of course, the shape of the main body housing 10 may be configured in various ways. For example, it may be a rectangular cylindrical shape in which one end is opened and the other end is blocked.

The operation rod 12 extending from the main body housing 10 is to allow the operator to operate by holding the lawn mower by hand. The manipulation rod 12 extends to have a predetermined length, and a power source for operation of a driving source such as a battery (not shown) is provided at one side or the end thereof. At or near the end of the manipulation rod 12 there is a handle (not shown) that allows the operator to hold the manipulation rod 12 by hand.

The drive source 14 is installed inside the main body housing 10. As the drive source 14, for example, a motor may be used. In the case of a motor, the driving source 14 may be driven by receiving electricity from the battery. The drive source 14 has a drive shaft 16 to protrude forward of the front end of the main body housing 10. The drive shaft 16 is rotated when the drive source 14 is operated. The drive shaft 16 is provided with a shaft connector (18). The shaft connector 18 is fixed to the drive shaft 16 to rotate with the drive shaft 16, the friction drive rod 19 is provided at the tip. The friction drive rod 19 is a rod-shaped portion having a predetermined diameter is a portion where one end of the elastic member 36 to be described below is in close contact and friction. The shaft connector 18 has a diameter larger than that of the friction driving rod 19 that is fastened to the drive shaft 16 by the fastening screw 18 '.

A safety cover 20 is provided at the front end of the main body housing 10. The safety cover 20 serves to prevent stones or the like from splashing toward the worker by the cutting blade 28 to be described below. To this end, the safety cover 20 does not need to surround the entire front end of the main body housing 10, and as shown, it may cover the side where the manipulation rod 12 extends, that is, the side where the worker is. It is configured to be.

A shaft cover 21 is installed at the tip of the drive source 10. The shaft cover 21 shields a portion where the driving shaft 16 and the driven shaft 26 to be described below are connected. The shaft cover 21 is cylindrical in this embodiment. However, it is not limited thereto. A cover inner space 22 is formed inside the shaft cover 21, and the outside and the cover inner space 22 communicate with each other through a through hole 24 formed at one side of the shaft cover 21. The shaft cover 21 may be connected to and fixed to the body housing 10.

Connected to the shaft connector 18 is provided with a driven shaft 26 is rotated by receiving the driving force of the drive source 14 through the shaft connector (18). The driven shaft 26 is connected to be concentric with the drive shaft 16 of the drive source 14. One side of the driven shaft 26 is rotatably supported by a bearing 27 inside the shaft cover 21.

A cutting blade 28 is installed at the end of the driven shaft 26. The cutting blade 28 is installed so that its center is concentric with the driven shaft 28 and rotates with the driven shaft 28.

A driven connector 30 is provided at the opposite end of the driven shaft 26 on which the cutting blade 28 is installed. The driven connector 30 is a portion connected to the shaft connector 18. The overall appearance of the driven connecting portion 30 is in the shape of a thick disk. The driven connector 30 is positioned at the center thereof to be concentric with the rotation center of the driven shaft 26. The driving rod insertion hole 32 in which the friction driving rod 19 of the shaft connector 18 is positioned is formed at the rotation center of the driven connector 30. The driving rod insertion hole 32 is open to one end portion in the longitudinal direction of the driven shaft 26.

An elastic member position hole 34 is formed to communicate with the driving rod insertion hole 32 and open to the outer surface of the driven connection part 30. The elastic member position hole 34 is preferably formed in a plurality of regular intervals in the driven connector 30. In this embodiment, two are formed to be symmetrical.

An elastic member 36 having a cylindrical coil spring shape is positioned in the elastic member positioning hole 34. The elastic member 36 does not necessarily have to be a cylindrical coil spring, and may be a cylindrical member having very good elasticity. That is, when the load applied to the cutting blade 28 is a predetermined value or less, the friction driving rod 19 is in close contact with the driven shaft 26 and the shaft connector 18 to rotate integrally, the drive shaft 16 The rotational force of) is transmitted to the driven shaft 26.

The elastic member 36 is positioned in the elastic member positioning hole 34 so that one end is in close contact with the friction driving rod 30 by using a set screw 38. The set screw 38 has a threaded portion formed on its outer surface and is coupled to a threaded portion formed on the inner surface of the elastic member positioning hole 34 to be fixed inside the elastic member positioning hole 34.

Hereinafter, the power transmission device of the lawn mower according to the present invention having the configuration as described above will be described in detail.

Referring to the transmission of power in the present invention, when the operator operates the drive source 14 by pressing an operation button (not shown), the drive shaft 16 is rotated. The shaft connector 18 is rotated by the rotation of the drive shaft 16.

One end of the elastic member 36 positioned in the elastic member positioning hole 34 of the driven connector 30 is in close contact with the friction driving rod 30 of the shaft connector 18. Therefore, power is transmitted by friction due to the close contact between the friction driving rod 30 and the elastic member 36. By this operation, the driving force of the drive shaft 16 is transmitted to the driven shaft 26 through the shaft connector 18, the friction driving rod 30, the elastic member 36 is installed on the driven shaft 26 The cutting blade 28 is rotated.

By the rotation of the cutting blade 28, weeds, grass, and the like are cut. As the cutting work proceeds by the rotation of the cutting blade 28 as described above, the cutting blade 28 cannot rotate when the cutting blade 28 is caught by stones, ground, thick branches, or the like.

The drive source 14 continues to operate even when the cutting blade 28 cannot be rotated by an obstacle. Accordingly, the driven shaft 22, which is connected by the elastic member 36 to the friction driving rod 30 of the shaft connector 18, is not rotated by the load applied to the cutting blade 28. The shaft connector 18 continues to rotate. This is because the driven shaft 26 is stationary, and the shaft connector 18 continues to rotate by the drive source 14, so that the elastic member 36 is slightly compressed and the shaft connector 18 is driven by the shaft. This is because it rotates separately from the coaxial 26.

As such, when the shaft connector 18 is rotated separately from the driven shaft 26, that is, the cutting blade 28, the driving source 14 does not act as a load of the cutting blade 28 so that the operation is smooth. This can be done continuously.

On the other hand, when the load acting on the cutting blade 28 is removed, the elastic member 36 is in close contact with the friction driving rod 19 again, the driven shaft 26 and the shaft connector 18 integrally Will rotate. In this case, while the cutting blade 28 rotates together with the driven shaft 26, the cutting operation by the cutting blade 28 can be performed again.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

10: main body housing 12: operation rod
14: drive source 16: drive shaft
18: shaft connector 19: friction driving rod
20: safety cover 21: shaft cover
22: cover inner space 24: through hole
26: driven shaft 28: cutting blade
30: driven connection part 32: driving rod insertion hole
34: elastic member position hole 36: elastic member
38: set screw

Claims (5)

An axial connector that is rotated by a drive shaft of a drive source installed in the main body housing and is provided with a friction driving rod at its tip;
A driven shaft connected concentrically with the shaft connector and driven by a driving force of the driving source and provided with a cutting blade;
An elastic member provided at one end of the driven shaft to be in close contact with the outer surface of the friction driving rod is provided therein so that the driven shaft stops with respect to the shaft connector when the magnitude of the load applied to the cutting blade exceeds a predetermined value. A power train of the lawn mower comprising a driven connection to the.
According to claim 1, wherein the driven connecting portion is formed with a driving rod insertion hole which is concentric with the center of rotation of the driven shaft, the friction driving rod is located, open to the outer surface of the driven connection portion and in communication with the driving rod insertion hole and the elastic The power transmission device of the lawn mower, characterized in that the elastic member position hole is formed is formed.
The power transmission device of claim 2, wherein the elastic member position hole is formed to be symmetrical with respect to the driven rod insertion hole in the driven connection part. 4. The power transmission device of claim 3, wherein the elastic member has a cylindrical coil spring and one end is in close contact with the friction driving rod in a state in which the elastic member is positioned in the elastic member position hole by a set screw.
The power transmission device according to any one of claims 1 to 4, wherein the portion connecting the shaft connector and the driven connector of the driven shaft is shielded by a shaft cover provided in the driving source or the main body housing. .

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