KR100866468B1 - Cylinder absorbing device - Google Patents

Abstract

A cylinder absorbing device is provided to control the speed of a piston in impact area by absorbing impact sufficiently. A piston load is moved inside of a cylinder straightly. An operation groove is formed on a piston(20) in constant intervals, and an operation ring(26) narrower than the width of the operation groove is inserted into the operation groove while being moved backward and forward. At least one inclined groove(22) is formed from front to the operation groove while being separated by predetermined interval from periphery. A fine groove which is formed on the brim behind the operation groove connected with the inclined groove and opens and seals the fine groove while the piston is moved.

Description

Cylindrical absorber device

1 is an exploded perspective view of a cylindrical shock absorber according to the present invention.

Figure 2 is an assembled state of the cylindrical shock absorber according to the present invention.

3 is a perspective view of a piston which is an important part of the cylindrical shock absorber according to the present invention;

Figure 4a, 4b is a cross-sectional view of the operating state of the cylindrical shock absorber according to the present invention.

5 is a perspective view of a state in which the cylindrical shock absorber according to the present invention is used for a medical bed.

Figure 6 is a side view of the cylindrical shock absorber according to the present invention installed on a medical bed.

Figure 7 is a side view showing a state in which the cylindrical buffer according to the invention is installed and operated in the medical bed.

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

10: cylinder 20: piston

22: recessed groove 24: fine groove

25: operating groove 26: operating ring

30: piston rod 40: table

The present invention relates to a cylindrical shock absorber, and more particularly, to a cylindrical shock absorber that can be attached to a moving object in a linear movement or rotation to prevent vibration and noise generated when a collision.

In general, vibrations and noises are greatly generated when an object moving in a straight line or in rotation hits a fixed object in various door devices and folding devices.

As an example, a medical bed is provided with a table that patients can use as a table or a desk, and the table is configured to be folded in rotation as shown in FIGS. 5 and 6 so that it can be used only when needed. However, since the table has a considerable weight, the table collides with the frame of the bed in the process of returning to generate a large vibration and noise.

This continuous impact can cause damage to the product and shorten its lifespan. In particular, a person close to the folded portion is frequently injured, and noise generation may create anxiety, discomfort and hurt emotions in patients.

As a means for solving such a problem, various devices for alleviating shock have been proposed, and a shock absorber having a structure using compressed gas and a compression spring has been used.

In addition, a "cylinder-type non-powered shock absorber" has already been filed by the present applicant.

However, such a conventional shock absorber has a problem that the cost of the product is increased due to the complicated structure, the operation is not smooth.

In other words, when a rotating leg is attached to the piston rod of the cylinder, the cylinder body also has a rotating structure according to the rotating leg, and thus the cylinder is not securely mounted and requires sufficient space for rotating the cylinder. When rotating, the entire rotation section is braked by the cylinder, which causes a problem of force and speed when folding the table.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention to provide a cylindrical shock absorber that can lower the production cost as a simple structure.

Another object of the present invention is to provide a cylindrical shock absorber that is easy to use by smoothly operating and controlling the speed only near the impact area.

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

1 and 2 show the disassembled state and assembled state to show the internal structure of the cylindrical shock absorber according to the present invention, Figure 3 is an exploded state of the piston which is an important part in the cylindrical shock absorber according to the present invention Perspective view. 4A and 4B show the operating state of the piston in the cylindrical shock absorber according to the present invention.

The cylindrical shock absorber according to the present invention includes a cylinder in which the inside is closed by a cap, a piston rod passing through the cap and moving linearly, and a piston 20 mounted on the piston rod to move the cylinder linearly. The piston has a structure that can mitigate the external shock by controlling the flow of air when the piston rod is operated in one direction.

The above is described in more detail as follows.

First, the cylinder 10, which is partially opened, to which the piston to be described later can be mounted, is provided with a fixing part 12 which can be fixed to an immovable part of the object to be mounted. And the opening of the cylinder is closed by the cap 14, the inner space of the cylinder is formed.

At this time, the piston rod 30 penetrates to the center of the cap 14 and is assembled to move linearly. A piston 20 is mounted inside one cylinder of the piston rod, and a predetermined connection portion 32 is provided outside the other cylinder. It is provided.

The piston 20 and the piston rod 30 may be fastened to each other by assembling by pins, assembling by screwing, assembling by insert molding, and the like.

In addition, as the piston 20 forms a guide ring groove 27 forward and mounts the guide ring 28 therein, the piston 20 may reduce friction and extend the life of the piston.

And the piston is in close contact with the inner wall of the cylinder in accordance with the movement of the piston is fitted to the piston rod while controlling the air movement inside the cylinder as it has a groove in the front and the rear groove and the micro groove in the rear is applied to the piston rod Loss of shock is alleviated.

That is, one or more recesses 22 are formed in the longitudinal direction at regular intervals along the outer circumference of the piston 20. At this time, the recess groove is started from the front but is not connected to the rear.

And the rear end portion of the concave groove 22 is formed with an operating groove 25 along the outer circumference, the operating groove includes a portion of the concave groove.

At this time, the edge portion 23 is formed at the rear of the operation groove 25, and the outer groove 24 is formed at the edge portion with a fine groove 24 formed at minute intervals and connected to the operation groove 25. A medial incision 24b connected to 22 is configured.

Thereafter, the operating groove 25 is narrower than the operating groove, and the operating ring 26 is assembled to move in the front / rear direction so that the operating ring is moved to open and close the outer cut groove 24a of the fine groove.

Therefore, as shown in Figure 4a when the piston rod is pulled backward, the operating ring 26 is in close contact with the inner wall of the cylinder to move to the front of the operating groove to open the outer periphery of the rim. And the air in the rear space (10b) is discharged into each recess groove 22 through the outer gap of the rim 23 to move to the front space (10a) and at the same time the piston rod is easily and quickly transferred to the rear room Can be.

And when the piston rod is moved to the front as shown in Figure 4b the operating ring 26 is in close contact with the inner wall of the cylinder is moved to the rear of the operating groove, the fine groove of the rim 23, preferably the outer cutout 24a ) Seal. Therefore, the air in the front space (10a) of the cylinder does not escape to the outside of the rim 23 closed by the operation ring 26 to move slowly through the inner portion of the micro groove, that is, the inner cutout (24b). .

Due to this, the shock applied to the piston rod is gradually operated while the shock is gradually alleviated by the air in the cylinder front space 10a.

Meanwhile, FIGS. 5 to 7 illustrate a state where the cylindrical shock absorber of the present invention is installed and used in the medical bed 1.

According to the drawing, the cylinder 10 is mounted on the side frame 2 of the bed by the fixing part 12 of the cylinder, and the connecting part 32 provided on the piston rod is provided on both lower legs 42 of the table 40. Is fitted.

In this case, a rectangular hole 34 is formed in the connection portion to form a space in which the connector 46 connected to the rotating leg 42 can freely move.

That is, both legs of the table are rotated by the rotation shaft 44, and the pin 47 is assembled at the lower end of the connector connected below. Therefore, the rotation of the table causes the connector to rotate through the legs, and the pins fitted into the connector are inserted into the rectangular holes 34 of the connection portion.

Therefore, the pin that rotates inside the rectangular hole has a structure that does not operate the piston rod and easily passes over without being braked by the shock absorber 100 when the table moves to an angle, that is, the frame ( 2) When the table comes close to the upper surface, the braking force is applied and the shock absorbing operation starts.

As described above, the cylindrical shock absorber according to the present invention can be easily operated without being limited to the shock absorber in a position irrelevant to the shock absorber, but the shock absorber is completely absorbed while the speed is greatly reduced near the impact point. This convenient, simple structure can be produced at low cost.

Claims (3)

delete delete In the cylindrical shock absorber, A cylinder defining an inner space by a cap; A piston rod penetrating the cap and linearly moving inside the cylinder; Mounted on the piston rod to linearly move the inside of the cylinder, the working groove 25 is formed at predetermined intervals along the outer circumference, the operating groove 26 is narrower than the working groove is inserted into the operating groove before / after A piston 20 which is assembled to move and has one or more concave grooves 22 formed in the longitudinal direction at regular intervals along the outer circumference from a front to a part of the operation groove 25; A microgroove 24 formed at the rear of the operation groove with an outer cutout 24a formed at the edge 23 and an inner cutout 24b connected to the operation groove while being connected to the outer cutout; The cylinder is attached to the frame 2 of the medical bed, and at the outer end of the piston rod is provided with a connecting portion 32 having a rectangular hole 34; Since the pin hole 47 fixed to the connector 46 connected to the leg 42 of the rotating table is fitted into the rectangular hole 34, the shock absorber is used to move the inside of the rectangular hole 34 when the table is rotated. Cylindrical shock absorber characterized in that it is not controlled by.

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