KR100360616B1 - Air slider with air dampen - Google Patents

Abstract

The present invention injects air between the support and the fluid to generate a gap between the support and the fluid by the air pressure, thereby eliminating frictional resistance of the sliding surface, thereby acting as a bearing between the support and the fluid, thereby smoothly moving. The present invention relates to a softened air slider and air spindle, and more particularly to forming an air damper therein to prevent shaking and uneven wear during flow of the fluid.

In an air slider in which a support body and a fluid flowing left and right are formed and an air injection port and an air injection port are formed in the support or the fluid, an air damper having a relatively large cavity is formed in the middle of the flow path between the air injection port and the air injection port.

Description

Air slider with air damper {Air slider with air dampen}

The present invention injects air between the support and the fluid to generate a gap between the support and the fluid by the air pressure, thereby eliminating frictional resistance of the sliding surface, thereby making the bearing play between the support and the fluid. The present invention relates to a softened air slider and air spindle, and more particularly, to an air damper formed therein to prevent shaking and uneven wear during flow of the fluid.

Air slides and air spins combine the left and right flow or rotating fluid and the support for supporting the same, and form a plurality of air injection holes in the support or the fluid toward the portion where the support and the fluid abut each other, by means of an air hose connected thereto As air is injected into the sliding surface by injecting air, the air pressure is applied between the support and the fluid, and a force is pushed to each other to generate a gap between the support and the fluid, so that there is no frictional resistance between each other. By softening it, it is possible to easily flow the blood animal mounted on the fluid.

However, the air supply structure of the existing air slider and spindle is connected only to the flow path from the air hose to the injection hole so that the injected air pressure is transmitted to the sliding surface of the support and the fluid as it is, so that it is sensitive to the change of the external pressure. Since there is a problem that the movement occurs in accordance with the change of the injection air pressure, the operation life is shortened due to the uneven wear of the sliding surface due to the shaking.

In the air slider, this problem is eliminated. In the air supply structure, a damper space is provided in the air supply structure to absorb the change in the external air pressure, so that the air is injected to the sliding surface despite the external air pressure change. It is an object of the present invention to provide an air slide with even movement while maintaining a relatively constant pressure.

1 is an exploded perspective view showing a part of the present invention incision

Figure 2 is a cross-sectional view of the air slider of the present invention

Figure 3 is a cross-sectional view of the air spin of the present invention

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

1 support 2 fluid

3: air injection hole 4, 4 ': air injection hole

5, 5 ': Euro 6: Air damper

Hereinafter, the technical means of the present invention by the embodiments of the accompanying drawings will be described in detail.

1 is a perspective view of the air slider support and the fluid according to the present invention separately.

The slider is composed of a support 1 that acts as a guider and a fluid 2 that flows left and right in a wrapped form.

The roles of the support 1 and the fluid 2 can be changed.

The air inlet 3 which can be connected to the air hose from the outside in the support 1 or the fluid 2, and the air injection port 4, 4 'formed toward the inner sliding surface are formed.

In the middle of the flow paths 5 and 5 'between the air injection port 3 and the air injection port 4 and 4', an air damper 6 having a relatively large cavity space is formed.

FIG. 2 is a cross-sectional explanatory view of a state in which the support 1 and the fluid 2 are coupled as an exemplary embodiment in which the present invention is applied to an air slider.

The air injected into the air inlet 3 of the support 1 flows into the air damper 6, stays in a predetermined volume space of the damper, and is sprayed to the air injectors 4 and 4 '.

3 is an explanatory cross-sectional view showing an embodiment of a state in which the present invention is applied to a spindle.

The support 1 is formed into a cylindrical housing body, and is circumferentially inserted into the fluid 2 to be rotatably coupled to each other.

Again, the air damper 6 is formed between the air injection port 3 of the support 1 and the air injection port 4, 4 '.

Such operation of the present invention will be described.

When the fluid is mounted on the fluid 2 and the air is injected into the air inlet 3 from a separate air tank, the injected air flows into the air damper 6 to be filled and then is again filled with the air jet port 4 and 4. When the fluid is moved by manual or separate motor or actuator by generating air gap between the fluid 2 and the support 1 to smooth and smooth the sliding or rotating operation, It is very easy to operate and accurate, and even in the case of a motor or actuator, it has the effect of minimizing the load and saving energy, and extending the service life by minimizing wear.

In particular, since air flows into and stays in the air damper 6 which is a relatively large cavity space, even if a change in the pressure or amount of air injected during operation of the fluid is absorbed, the air is absorbed by the already introduced air. Since the injected air pressure is maintained to be relatively constant, even if there is a change in the external air inlet pressure, it can be slid evenly without shaking without affecting the movement of the fluid 2.

As described above, the air slider and the air spinner according to the present invention form an air damper therein, such that air of a constant pressure is injected to the entire sliding surface between the support and the fluid, thereby smoothly and smoothly moving the fluid and the support. It is effective in extending the service life by preventing the occurrence of shaking and uneven wear of the liver.

Claims (2)

In an air slider in which an air inlet 3 and an air injector 4 and 4 'are formed in a support 1 or a fluid 2 that flows left and right, and is formed in the support 1 or fluid 2, An air damper having an air damper, characterized by forming an air damper 6 having a relatively large cavity space in the middle of the flow paths 5, 5 'between the air inlet 3 and the air injection port 4, 4'. . delete