KR20160063602A - Spring-load type caster structure - Google Patents

Abstract

The present invention relates to a spring load type-castor structure. The spring load type-castor structure comprises; a wheel; an elastic force support body; and a wheel connection body making connection between the wheel and the elastic support body. The elastic force support body comprises; a case having a cylindrical shape; a spring installed on the interior of the case to provide elastic force; and an elasticity adjusting means including an elasticity adjusting shaft and an elasticity adjusting lever, which are coupled by a screw coupling method, to adjust elastic force of the spring. Accordingly, the wheel can be spaced from the sloped ground such as a downhill or the like by adjusting the elastic force of the spring. Thus, according to the present invention, the wheel is easily spaced from the ground surface of the downhill to be fixed, thereby ensuring to work safely. Moreover, the strength of the castor structure can be maintained to allow easy replacement of the inner spring.

Description

[0001] The present invention relates to a spring-loaded type caster structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spring-loaded type wheel structure installed on a ladder or a work table, and more particularly, To a rod-type wheel structure.

Generally, a truck or a dolly is used to move heavy cargo to a specific place.

At this time, a support frame for supporting a cargo or a cargo to be turned is formed, and a caster is mounted on the bottom of the support frame.

In particular, since a bogie often handles a large cargo at a factory, a terminal or an airport, or carries a heavy cargo, it is necessary to install a wheel in order to easily carry the cargo.

At this time, the wheel is not only used for moving the neutralizer, but also used for ladders and work benches for chairs and various operations.

For example, it can be used in a high position such as a wall or a ceiling, in a bridge of a workbench called a ladder, which can be used for wallpapering, curtain installation, painting, store display, or other tasks such as car washing By installing the wheels, the movement can be easily performed even during the operation.

However, since the wheel is always in close contact with the ground and the work table is moved on the ground, it is difficult to work on the work table.

Accordingly, a workbench (Registration Utility Model No. 20-0459872) has been developed in which wheels are provided on the side of the legs, and the contact of the wheels to the ground is selectively and easily carried out, thereby improving the convenience of movement.

In the above-described conventional workbench, a spring is provided inside the leg and a hook is provided on the side surface of the leg to provide a hook, and the hook is caught by the hook on the hook so that the hook is caught by the hook. The work surface can be stably supported on the ground as the outer peripheral surface of the wheel does not touch the ground.

However, when the support shaft is released from the engagement jaw during the operation, an accident such as a worker falling due to the sudden cloud of the wheel may occur, and the spring strength is decreased during long-time use, .

In addition, when a worker mounts a support stand, the work platform is lowered toward the ground by a load when the worker stands on the work platform, and the support is also lowered to touch the ground, thereby suppressing the flow of the work platform.

However, even if a support is provided, there is a problem that the work surface is not fixed and the sliding risk is always present when the wheel comes into contact with the ground surface on a sloping ground such as a downward slope.

In other words, it is easy to move due to the installation of the wheels on the work platform, but when it is placed on the slope, it is exposed to the risk of safety accidents.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a spring loaded type wheel structure which can securely fix a wheel by separating the wheel from a sloped ground surface by adjusting an elastic force of the spring, .

In order to achieve the above object, a spring rod type wheel structure according to the present invention comprises a wheel, a wheel connecting body in which the wheel is partially accommodated, and a wheel connecting member which is axially coupled to the wheel connecting body, The elastic force supporting body includes a cylindrical case, a spring received and installed in the cylindrical case, upper and lower panels for supporting the spring, and elastic members for adjusting the magnitude of the elastic force of the spring And an elastic force adjusting means for adjusting the elastic force.

The spring rod type wheel structure according to the present invention is configured so that the wheel can be easily separated from the inclined ground surface by simply pressing the spring for elastically supporting the wheel by a screw fastening method to adjust the elastic force.

Accordingly, even if the workbench is placed on a sloping ground surface such as a downward slope, it is possible to prevent the wheels from touching the ground surface reliably, thereby preventing the workbench from flowing and stably supporting the workbench, thereby improving stability and workability .

In addition, since the wheel structure can be easily disassembled by a screw loosening method, the spring can be replaced and the internal spring strength can be maintained at all times.

1 is an exploded perspective view showing a spring rod type wheel structure according to the present invention,
Fig. 2 is an installation view showing a spring-loaded wheel structure according to the present invention. Fig.
3 to 5 are sectional views for explaining an operating state of a spring rod type wheel structure according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view showing a spring rod type wheel structure according to the present invention, FIG. 2 is an installation state view showing a spring rod type wheel structure according to the present invention, Sectional view showing an operating state of the structure.

1 to 5, a spring rod type wheel structure according to the present invention includes a wheel 100, a wheel coupling body 200 in which a portion of the wheel 100 is received and coupled to rotate, And an elastic supporter 300 installed upright on the upper portion of the wheel connector 200 to be elastically supported.

The elastic support 300 includes a case 310 having a cylindrical shape with a predetermined length opened on both sides and a spring 320 disposed inside the cylindrical case 310.

Inside the cylindrical case 310, upper and lower panels 330 and 340 for supporting the spring 320 are further provided. The upper and lower panels 330 and 340 are formed in the shape of a circular panel and made of a soft synthetic resin.

The upper panel 330 is fixed to the inside of the cylindrical case 310 and moves together with the upward and downward movement of the cylindrical case 310.

Further, elastic force adjusting means 350 for adjusting the elastic force of the spring 320 is further provided inside the cylindrical case 310.

The elastic force adjusting means 350 includes an elastic adjusting shaft 351 fixed to the upper portion of the wheel connecting body 200 in a standing manner and an elastic adjusting lever 352 coupled to the shaft.

On the axis of the elasticity adjusting shaft 351, the spring 320 and the upper and lower panels 330 and 340 are also engaged.

The elastic regulating shaft 351 may be formed in a bolt shape in which a screw thread 351a is formed on one side of the outer circumferential surface of the elastic regulating shaft 351. The elastic regulating lever 352 is formed in a nut shape in which an inner circumferential surface of the hole formed in the central portion is formed with a thread 352a .

Therefore, the thread 351a formed on the outer circumferential surface of the elasticity adjusting shaft 351 and the thread 352a formed on the inner circumferential surface of the elasticity adjusting lever 352 can be engaged with each other by the bolt-nut fastening method.

That is, the elasticity adjusting lever 352 is coupled to be rotatable along the thread 351a of the elasticity adjusting shaft 351, so that when the elasticity adjusting lever 352 is turned in one direction, it is screwed. Accordingly, the elastic adjustment shaft 351 protrudes and the cylindrical case 310 moves downward, so that the upper panel 330 also moves downward to press the spring 320, so that the magnitude of the elastic force is reduced do.

When the elasticity adjusting lever 352 is rotated in the other direction, the cylindrical case 310 is moved upward and the upper panel 330 is moved backward to release the spring 320, so that the elasticity is increased.

That is, according to the elastic force of the spring 320, an operation interval with the wheel connecting body 200 is adjusted.

As shown in FIG. 2, the wheel structure according to the present invention having such a structure is fixed to a lower portion of a leg of a ladder, a work platform, or the like by means of bolts or the like using a bracket 400 or the like.

A support base 500 is installed under the leg of the work platform.

Hereinafter, the operation of the spring rod type wheel structure will be described.

The wheel structure constructed as described above is coupled to the lower end of the workbench, and the workbench is moved to the required place.

At this time, since the wheel 100 is in contact with the ground, the work bench can be moved without difficulty.

3, the cylindrical case 310 of the elastic supporter 300, which is fixed to the work table by the load of the worker, is lowered downward as shown in FIG. 3 The spring 320 is contracted. At this time, the support table 500 is also lowered to closely contact the ground.

Accordingly, the flow of the workbench can be suppressed by the moment the worker stands on, and the worker can perform the work without difficulty.

At this time, when work is required on a sloping ground such as a downhill, it is necessary to separate the wheel 100 from the inclined surface to perform a stable operation.

4, when the elasticity adjusting lever 352 of the elasticity adjusting means 350 is rotated in one direction, the thread 352a is rotated along the thread 351a of the elasticity adjusting shaft 351, The case 310 is lowered in accordance with the amount of the rotation, thereby pressing the spring 320. At this time, the elastic regulating shaft 351 protrudes out, and the spring 320 contracts to the maximum, so that the elastic force is lost. As a result, the elastic force supporting body 300 is fixed without vertically moving, .

At this time, the support table 500 is kept in a state of being in close contact with the ground surface.

As described above, since the support base 500 is in close contact with the ground and only the wheel 100 is separated from the ground, the operator can stand on the work platform and perform stable operation.

In order to move the work table after the work is completed, the position of the wheel 100 separated from the ground is restored as shown in FIG.

For this, when the elasticity adjusting lever 352 is rotated in the opposite direction, the thread 352a is rotated along the thread 351a of the elasticity adjusting shaft 351, and the cylindrical case 310 is lifted upward The spring 320 is released from the pressure. At this time, the cylindrical case 310 is moved backward corresponding to the amount of rotation thereof, so that the gap between the cylindrical case 310 and the wheel 100 is increased, and the wheel 100 is brought into contact with the ground.

The elasticity adjusting lever 352 is disassembled from the elastic adjusting shaft 351 in a screw releasing manner and then the spring 320 disposed on the elastic adjusting shaft 351 can be easily replaced, .

As described so far, by adjusting the elastic force of the spring to allow the wheels to be spaced apart from the ground, it is possible to stably support the workbench when the workbench is to be placed on a sloping ground surface have.

It is to be understood that the above-described embodiments are only examples that are within the scope of the technical idea of the present invention, and those skilled in the art will appreciate that other modified embodiments are possible within the technical scope of the present invention.

100: wheel 200: wheel coupling body
300: elastic support 310: cylindrical case
320: spring 330, 340: upper and lower panels
350: elasticity adjusting means 351: elasticity adjusting axis
352: elasticity control lever 351a, 352a:
400: Bracket 500: Support

Claims (5)

wheel;
A wheel coupling body in which the wheel is partially accommodated; And
And an elastic force supporting body for adjusting the magnitude of the elastic force by being axially coupled to the upper portion of the wheel connecting body to elastically support the wheel connecting body,
The elastic force supporting body
A cylindrical case;
A spring accommodated in the cylindrical case;
Upper and lower panels supporting the spring; And
And an elastic force adjusting means for adjusting the magnitude of the elastic force of the spring. The apparatus of claim 1, wherein the upper panel
Wherein the spring-loaded type wheel structure is in the form of a circular panel fixedly installed inside the cylindrical case, and the spring is interlocked with the vertical movement of the cylindrical case to press or release the spring. 2. The apparatus according to claim 1, wherein the elastic force adjusting means
An elastic regulating shaft fixed upright on an upper portion of the wheel connecting body and inserted into the spring and having a thread formed on an outer circumferential surface of one side; And
And an elastic control lever having a thread formed on an inner circumferential surface thereof and rotating along a thread formed on an outer circumferential surface of the elastic adjustment shaft to adjust an elastic force by pressing or releasing the spring. 4. The connector according to claim 3, wherein the elastic force supporting body
And a spring-loaded wheel structure fixed to the lower portion of the leg of the work platform through a bracket. 4. The connector according to claim 3, wherein the elastic force supporting body
Wherein the elastic regulating shaft is protruded by being rotated in one direction and the elastic force of the spring is minimized so that the wheel is separated from the ground and the cylindrical case is fixed. Wheel structure.

Images