KR20230163863A - Handle structure for high and low c0ntrol of polishing machine - Google Patents

Abstract

The handle structure for height adjustment of a polishing machine according to the disclosed invention includes a body portion in which a plurality of polishing pads are rotatable at the bottom and rotatable by a driving force, and wheels are provided for movement; a handle portion whose end is rotatably provided on one side of the body portion; And both ends are supported on opposite ends of the body and the handle, and both ends are supported on opposite ends of the body and the handle, and the fluid transfer hole opening and closing pin is opened by operating a lever provided at the end of the handle. The fluid transfer hole is opened and closed by pressurizing or releasing the pressure. When the fluid transfer hole opening/closing pin is pressed, the fluid transfer hole is opened and the rod is maintained to be movable. When the fluid transfer hole opening/closing pin is depressurized, the fluid transfer hole is opened. It includes a fine adjustment unit that prevents the rod from moving while being closed.
According to the present invention, when the pressure on the fluid transfer hole opening/closing pin is released by releasing the lever, the fluid transfer hole is closed and the rod cannot be moved, so the angle of the handle is fixed, and the fluid transfer hole opening/closing pin is pressurized by operating the lever. As the fluid transfer hole is opened and the rod remains movable, fine angle adjustment of the handle part is possible, allowing the operator to perform convenient and detailed work.

Description

Handle structure for height adjustment of polishing machine {HANDLE STRUCTURE FOR HIGH AND LOW C0NTROL OF POLISHING MACHINE}

The present invention relates to a handle structure for height adjustment of a polishing machine, and more specifically, to a handle structure for height adjustment of a polishing machine capable of fine adjustment of the angle of the handle.

In general, a polishing machine is used to polish the surface of concrete, marble, granite, and terrazzo used as flooring materials in buildings, making it smooth and shiny. Conventionally, wet or dry methods are used to polish the surfaces of concrete, marble, granite, and terrazzo, which are used as building floors. The wet method was mainly used to polish the floor, but due to the problem of low polishing efficiency, the dry method has been widely used recently.

Additionally, polishing machines are also used to smooth the surface of concrete after it has been cured.

This technology related to the polishing machine has been proposed in Korean Patent No. 1392991.

However, in Patent Document 1, the height of the operating handle is adjusted using a gear method depending on the worker's physical condition or working environment, but there was a problem in that fine adjustment was difficult due to the gap between gear teeth.

In addition, other conventional polishing machines have the problem of loosening the lever, placing the operating handle in the desired position, and then tightening the lever again, which is inconvenient to use because the operator has to bend down.

Korean Patent No. 1392991 (2014.04.30)

The present invention was conceived in consideration of the above points, and the object of the present invention is to provide a handle structure for height adjustment of a polishing machine capable of finely adjusting the angle of the handle provided on the body without bending the waist. .

A handle structure for adjusting the height of a polishing machine according to the present invention for achieving the above object includes a body portion in which a plurality of polishing pads are rotatable by a driving force at the bottom and wheels are provided for movement; a handle portion whose end is rotatably provided on one side of the body portion; And both ends are supported on opposite ends of the body and the handle, and both ends are supported on opposite ends of the body and the handle, and the fluid transfer hole opening and closing pin is opened by operating a lever provided at the end of the handle. The fluid transfer hole is opened and closed by pressurizing or releasing the pressure. When the fluid transfer hole opening/closing pin is pressed, the fluid transfer hole is opened and the rod is maintained to be movable. When the fluid transfer hole opening/closing pin is depressurized, the fluid transfer hole is opened. It may include a fine adjustment unit that prevents the rod from moving while being closed.

The fine adjustment unit may be a locking gas spring.

According to the present invention, when the pressure on the fluid transfer hole opening/closing pin is released by releasing the lever, the fluid transfer hole is closed and the rod cannot be moved, so the angle of the handle is fixed, and the fluid transfer hole opening/closing pin is pressurized by operating the lever. As the fluid transfer hole is opened and the rod remains movable, fine angle adjustment of the handle part is possible, allowing the operator to perform convenient and detailed work.

Figure 1 is a perspective view showing a handle structure for height adjustment of a polishing machine according to the present invention.
Figure 2 is a side view showing a handle structure for height adjustment of a polishing machine according to the present invention.
Figure 3 is a cross-sectional view explaining the operation process of the fine adjustment unit in the handle structure for height adjustment of the polishing machine according to the present invention.
Figure 4 is a side view showing a state in which the connection bar is supported by a support bar in the handle structure for height adjustment of the polishing machine according to the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, a handle structure for height adjustment of a polishing machine according to an embodiment of the present invention will be described in detail with reference to the attached drawings.

Figure 1 is a perspective view showing a handle structure for adjusting the height of a polishing machine according to the present invention, Figure 2 is a side view showing a handle structure for adjusting the height of a polishing machine according to the present invention, and Figure 3 is a view showing a handle structure for adjusting the height of a polishing machine according to the present invention. It is a cross-sectional view explaining the operation process of the fine adjustment unit in the height adjustment handle structure, and Figure 4 is a side view showing a state in which the connection bar is supported by a support in the height adjustment handle structure of the polishing machine according to the present invention.

1 to 4, the handle structure 100 for height adjustment of a polishing machine according to an embodiment of the present invention includes a body portion 110, a handle portion 120, and a fine adjustment portion 130.

As shown in FIGS. 1 and 2, the body portion 110 is provided with at least one polishing pad 112 at the bottom to be rotatable by the driving force of the drive motor 114 located at the top, and has wheels for movement. (116) is provided on both rear sides.

Furthermore, a bracket 118 is fixed to the body portion 110 to the rear upper portion of the wheel 116 so that the lower ends of the handle portion 120 and the fine adjustment portion 130 are rotatably supported.

Referring to Figure 4, the bracket 118 is provided with a support 1180 rotatable by a transverse axis 1182 at the rear end, and the upper end of the support 1180 is connected to the handle portion 120 ( 122) It is bound to one of the binding protrusions 1220 formed on the outer surface and can be mounted in an upright position when the handle unit 120 is not used.

At this time, when the support 1180 is not used, it rotates downward in the direction of the wheel 116.

Meanwhile, although not shown in the drawing, a torsion spring is provided on the shaft 1182 so that an elastic force is applied so that the support 1180 always moves in the direction of the binding protrusion 1220.

At this time, the binding protrusion 1220 is provided in a sawtooth structure in which an inclined surface and a vertical surface alternate, so that when the handle unit 120 is rotated upward, the upper end of the support 1180 is pointed to the corresponding position.

As shown in FIGS. 1 and 2, the handle portion 120 is rotatably supported at the rear of the bracket 118 at the lower end of the connecting rod 122, and has handles 124 on both sides of the upper end.

Furthermore, the handle unit 120 is provided with a lever 126 on one upper side that controls the operation of the fine adjustment unit 130. That is, when the lever 126 is pulled upward, the fine adjustment unit 130 is unlocked, and when the lever 126 is released, the fine adjustment unit 130 is converted to a locked state.

As shown in FIGS. 1 to 3, the fine adjustment unit 130 is located at both ends of the upper bracket 128 coupled to the front of the bracket 118 coupled to the body portion 110 and the front of the connection bar 122 opposite thereto. This support allows fine adjustment of the withdrawal distance of the rod 134 from the cylinder body 132, and a locking gas spring, etc. is applied to this.

Here, the fine adjustment unit 130 includes a cylinder body 132, a rod 134, a piston 136, and a fluid movement hole opening/closing pin 138.

The cylinder body 132 is hollow on the inside and is divided into a first fluid space (S1) and a second fluid space (S2) starting from the piston 136, and the first fluid space (S1) and the second fluid space ( S2) is filled with fluid (oil, gas, etc.).

And a rear connection hole (132a) is formed at the rear of the cylinder body 132 to be rotatably supported by the upper bracket 128.

The rod 134 emerges while positioned inside the cylinder body 132, and is formed to penetrate the interior along the longitudinal direction, allowing the fluid transfer hole opening/closing pin 138 to move back and forth.

In addition, on the opposite side of the cylinder body 132 among the rods 134, a connector 1340 having a front connection hole 1340a rotatably formed is fixed to the upper bracket 128 supported on the connector 122.

"자 형상으로 절곡 형성되며, 유체이동홀 개폐핀(138)의 끝단부가 수평부 일측에서 출몰하게 되고 수평부 타측에 가압/가압해제 레버(1342)의 타단을 당기거나 원위치로 미는 와이어(1346)를 감싸도록 구비한 마감관(1344)의 단부가 고정된다.Connector 1340 is "

It is bent and formed in the shape of a ruler, and the end of the fluid movement hole opening/closing pin (138) protrudes from one side of the horizontal portion, and a wire (1346) that pulls or pushes the other end of the pressurization/release lever (1342) to the original position on the other side of the horizontal portion. The end of the finishing pipe 1344 provided to surround is fixed.

One end of the pressurizing/depressurizing lever 1342 is rotatably supported by a shaft S on the opposite side of the connector 1340, and a locking portion 1346a provided at the end of the wire 1346 is caught at the other end. .

Meanwhile, the pressurizing/depressurizing lever 1342, although not shown in the drawing, may be provided with a torsion spring on the shaft S. In this case, it can be compressed when rotated and returned to its original position when the rotation is released.

The finishing tube 1344 has a tube structure that protects the wire 1346, one side of which is fixed to the end of the lever 126 of the handle unit 120, and the other side is supported by the connector 1340.

One side of the wire 1346 is supported so as to be caught by the pressurization/release lever 1342 and the other side is fixed to the lever 126, so that when the lever 126 is pulled, the pressurization/release lever 1342 moves along the axis S. It is provided so as to pressurize the end of the fluid transfer hole opening/closing pin 138 while rotating from the starting point.

The piston 136 is fixed to the end of the rod 134 located inside the cylinder body 132, and moves together when the rod 134 moves back and forth along the longitudinal direction to increase the internal fluid resistance of the cylinder body 132. The gas spring action is enabled by this.

Furthermore, the piston 136 has a moving hole (136a) formed through it along the center of the axis so that the fluid moving hole opening/closing pin 138 moves, and a fluid moving hole (136b) is formed crossing the moving hole (136a).

And at the end of the moving hole (136a), a blocking groove (136a') of a corresponding shape is formed to engage the opening and closing protrusion (138a) provided on the other end of the fluid movement hole opening and closing pin (138).

The fluid movement hole opening/closing pin 138 opens and closes the fluid movement hole 136b while moving along the movement hole of the rod 134 and the movement hole 136a of the piston 136.

At this time, the fluid movement hole opening/closing pin 138 has an externally exposed end of the rod 134 formed in a hemispherical shape so that it is in close contact with the back surface of the pressurization/release lever 1342 in a point structure, and the piston 126 An opening/closing protrusion (139a) that is coupled to or separated from the blocking groove (136a') formed at the end of the moving hole (126a) is provided.

Here, the opening and closing protrusion 139a is formed in the shape of a truncated cone.

Furthermore, although not shown in the drawing, the fluid movement hole opening/closing pin 138 compresses the spring located inside the piston 136 when pressed, and can move to the pre-pressing position by the elastic force of the spring when the pressing force is released.

In this way, the handle structure 100 for height adjustment of the polishing machine of the present invention is positioned in an upright state on the body portion 110, or when fine adjustment of the angle of the handle portion 120 is required, the operator moves the lever 126 to the handle 124. ) direction, and when the lever 126 is pulled, the wire 1346 is interlocked and the pressurization/release lever 1342 rotates around the axis S (clockwise based on FIG. 3(a)).

And when the pressurization/release lever 1342 rotates about the axis S, the fluid transfer hole opening/closing pin 138 in close contact with the lower portion is raised, thereby opening the fluid transfer hole 136b of the piston 136, Since the fluid inside the first fluid space (S1) can pass through the fluid movement hole (136b) into the second fluid space (S2), the rod 134 is in an unlocked state in which it can move in the forward and backward directions. It becomes.

And when the angle of the handle unit 120 is determined and the operator pulls and releases the lever 126, the wire 1346 is interlocked and the pressurization/release lever 1342 rotates in the opposite direction about the axis S [Figure 3 ( b) standard counterclockwise].

And when the pressurizing/depressurizing lever 1342 rotates in the opposite direction about the axis S, the fluid moving hole opening/closing pin 138 in close contact with the lower portion is advanced, and the fluid moving hole 136b of the piston 136 is closed. 1 As the fluid inside the fluid space (S1) is blocked from passing into the second fluid space (S2), the movement of the piston 136 is restricted, so the rod 134 is in a locked state.

Although embodiments of the present invention have been described above with reference to the attached drawings, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. You will be able to understand it. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

100: Handle structure for height adjustment of polishing machine
110: body part
120: handle part
130: Fine adjustment unit

Claims (2)

A body portion in which a plurality of polishing pads are rotatable at the bottom and rotatable by driving force, and wheels are provided for movement;
a handle portion whose end is rotatably provided on one side of the body portion; and
Both ends are supported on opposing ends of the body and the handle, and the fluid transfer hole is opened and closed by pressing or depressurizing the fluid transfer hole opening/closing pin by operating a lever provided at the end of the handle, and opening and closing the fluid transfer hole. When the pin is pressed, the fluid transfer hole is opened and the rod is maintained to be movable, and when the fluid transfer hole opening/closing pin is depressurized, the fluid transfer hole is closed and the rod cannot be moved. A handle structure for height adjustment of a polishing machine.
According to paragraph 1,
A handle structure for height adjustment of a polishing machine, wherein the fine adjustment unit is a locking gas spring.