KR20180137669A - Pressure transfer cylinder having bumper section - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure transmission cylinder having a bumper section, more specifically, a bumper section provided inside a cylinder body, and a bumper section capable of increasing a permissible range of incompressible fluid introduced into a cylinder body To a pressure-transmitting cylinder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressure transfer cylinder having a bumper section,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure transmission cylinder having a bumper section, more specifically, a bumper section provided inside a cylinder body, and a bumper section capable of increasing a permissible range of incompressible fluid introduced into a cylinder body To a pressure-transmitting cylinder.

BACKGROUND ART Generally, a cylinder is a device that performs mechanical work by linearly reciprocating a piston or a plunger by pneumatic or hydraulic pressure. A cover is coupled to both sides of a cylindrical housing, a piston is provided inside the housing and slides in a straight line, And the rod is exposed to the outside of the cover to apply pressure to the sample.

Such a cylinder is applied to various fields for performing a work in which a joint is driven by applying a load to a joint of a mechanical device, an operation is performed while a sample is fixed at a predetermined pressure, or a sample is moved in a fixed state.

However, in the conventional cylinder, when the inflow amount of the inflow fluid due to the tolerance generated between the constituent parts is not precisely controlled, the degree of movement of the rod coupled to the piston is different from the preset control value, There is a problem in that it is broken.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve such a problem, and it is an object of the present invention to provide a compressor, in which two pistons are provided inside a cylinder body and a space between adjacent pistons functions as a buffer region of incompressible fluid, And to provide a pressure transmission cylinder equipped with a bumper section capable of increasing the allowable range of the fluid.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the present invention provides a cylinder head comprising: a cylindrical cylinder body having both ends opened; A first cap installed at one end of the cylinder body; A second cap installed at the other end of the cylinder body; A first piston which is slidably reciprocable within the cylinder body and which divides a space between one side surface and the first cap into a first region; And the other end is formed to have a recessed groove at a predetermined depth along the longitudinal direction, and the groove is exposed through the other side of the first piston so that the groove is exposed through the other side of the first piston. A first rod fitted and connected to the first piston; And a second piston which is located between the first piston and the second cap and which has a space between one side surface and the other side surface of the first piston as a second area, A second piston for partitioning the space between the second caps into a third region; And a second rod having one end inserted into the groove of the first rod to a predetermined depth and the other end connected to the second piston, wherein the cylinder body has a compressible fluid in the first region and the second region Wherein the pressure in the second region is higher than the pressure in the first region and the pressure in the third region is higher than the pressure in the second region. A cylinder equipped with a bumper section characterized in that an incompressible fluid is introduced.

In a preferred embodiment, the incompressible fluid entering the third region presses the other side of the second piston such that the first piston, the second piston, the first rod, and the second rod move forward together And the volume of the first region is gradually decreased.

In a preferred embodiment, when the incompressible fluid is introduced into the third region after the first piston is in contact with the first cap, the second piston and the second rod are moved in the forward direction, 2 region functions as a buffer region of the incompressible fluid that is additionally introduced and the volume is gradually reduced.

In a preferred embodiment, the first rod has a groove formed in the groove, and the second rod has a stepped shape so that one end of the rod is caught by the latching jaw and is not released in the second cap direction.

The present invention may also be applied to a cylinder equipped with a bumper section according to the present invention; An auxiliary cylinder for supplying the incompressible fluid to the cylinder; And a fluid line connected between the third region of the cylinder and the auxiliary cylinder to form a flow path for allowing the incompressible fluid to flow into the third region of the cylinder, wherein the fluid line is made of a flexible material, Wherein a mounting position of the cylinder and the auxiliary cylinder is variable.

In a preferred embodiment, the auxiliary cylinder includes: a cylindrical auxiliary cylinder body having both ends opened; A first auxiliary cylinder cap installed at one end of the auxiliary cylinder body; A second auxiliary cylinder cap provided at the other end of the auxiliary cylinder body; An auxiliary cylinder piston slidably reciprocable within the auxiliary cylinder body; And an auxiliary cylinder rod having one end connected to the auxiliary cylinder piston and the other end extending through the first auxiliary cylinder cap and exposed to the outside of the auxiliary cylinder body, The auxiliary cylinder piston is moved so that the incompressible fluid filled inside the auxiliary cylinder body is supplied to the third region of the cylinder.

The present invention has the following excellent effects.

According to the pressure transfer cylinder provided with the bumper section of the present invention, two pistons are provided inside the cylinder body, and the space between the neighboring pistons functions as a buffer region of the incompressible fluid, so that the allowable range of the incompressible fluid Can be increased.

1 is a view for explaining a pressure transfer cylinder having a bumper section according to an embodiment of the present invention.
2 is a view for explaining a driving principle of a pressure transfer cylinder having a bumper section according to an embodiment of the present invention.
3 is a view for explaining a double cylinder according to an embodiment of the present invention.
4 is a view for explaining a driving principle of a double cylinder according to an embodiment of the present invention.

Although the terms used in the present invention have been selected as general terms that are widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, the meaning described or used in the detailed description part of the invention The meaning must be grasped.

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

However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

FIG. 1 is a cross-sectional view showing a pressure transfer cylinder equipped with a bumper section according to the present invention.

Referring to FIG. 1, a cylinder 100 according to an embodiment of the present invention is provided with a bumper section at an inner side thereof to increase a permissible range of a fluid introduced into a cylinder body. The cylinder 100 includes a cylinder body 110, A first piston 140, a first rod 150, a second piston 160, and a second rod 170. The first cap 120, the second cap 130, the first piston 140,

The cylinder body 110 is provided in a cylindrical shape with both open ends.

The first cap 120 is a one-side cap coupled to one end of the cylinder body 110.

Here, the first cap 120 may be coupled to one end of the cylinder body 110 with a snap ring 121 interposed therebetween.

The second cap 130 is an other cap coupled to the other end of the cylinder body 110 to seal the inside of the cylinder body 110 together with the first cap 120.

 The second cap 130 may be coupled to the other end of the cylinder body 110 with a snap ring 122 inserted therebetween.

The first piston 140 is slidably movable within the cylinder body 110 by hydraulic pressure.

In addition, the first piston 140 divides the space between the first piston 120 and the first cap 120 into a first region a.

One end 151 of the first rod 150 passes through the first cap 120 and is exposed to the outside of the cylinder body 110. The other end 152 of the first rod 150 has a predetermined depth An excitation groove 152a is formed and connected to the first piston 140 so that the groove 152a is exposed through the other side 142 of the first piston 140. [

The second piston 160 is slidably reciprocated by hydraulic pressure in the cylinder body 110 and is positioned between the other side 142 of the first piston and the second cap 130 do.

Here, the second piston 160 has a space between the one side surface 161 and the other side surface 142 of the first piston as the second region b, and the space between the other side surface 162 and the second cap 142 130 are partitioned into a third region (c).

In addition, the cylinder body 110 is provided with a compressible fluid filled in the first region a and the second region b, and an incompressible fluid is introduced into the second region c.

In this case, the pressure of the second region (b) is higher than that of the first region (a), and the pressure of the third region (c) is higher than the pressure of the second region Respectively.

That is, the inner pressure is formed in the order of the third region (c), the second region (b), and the first region (a).

This is because the second region (b) functions as a buffer region of the incompressible fluid, and a detailed description thereof will be given later, together with the driving principle of the cylinder according to the present invention.

One end 171 of the second rod 170 is inserted into the groove 152a of the first rod to a predetermined depth and the other end 172 is connected to the second piston 160.

One end 171 of the second rod is caught by the latching jaw and is engaged with the latching jaw portion 152a so as not to be released in the direction of the second cap 130. In this case, And may be provided in a corresponding stepped shape.

Hereinafter, with reference to FIG. 2, a driving principle of a pressure transmission cylinder having a bumper section according to the present invention will be described.

The incompressible fluid flows into the third region (c) of the cylinder body through the fluid inlet (110a).

At this time, the fluid inlet 110a is formed in the upper and lower surfaces of the cylinder body 110, the first cap 120 or the second cap 130, and the third region c of the cylinder body And can be installed to communicate with each other.

The fluid introduced into the third region c may then be pressurized on the other side of the second piston 160 so that the first piston 140, the second piston 160, the first rod 150, , The second rod 170 moves together in the forward direction (first cap direction).

This is because the pressure of the first region (a) is lower than the pressures of the second region (b) and the third region (c), so that the volume of the incompressible fluid The first piston 140, the second piston 160, the first rod 150, and the second rod 170 are moved together as the volume of the first region a gradually decreases .

When the incompressible fluid is introduced into the third region c after the first piston 140 is inserted into the first cap 120, the second piston 160 and the second rod 170 are moved to the second region, Lt; / RTI >

This is because the first piston 140 is not moved in the forward direction because it is in contact with the first cap 120 and the pressure of the second region b is less than the pressure of the third region c The volume of the second region b is gradually decreased and the second piston 160 and the second rod 170 are moved in the forward direction.

That is, the second region (b) functions as a buffer region of the incompressible fluid that is additionally introduced, so that it has an advantage that the allowable range of the incompressible fluid to be introduced can be increased.

3 is a view for explaining a double cylinder 200 according to the present invention.

Referring to FIG. 3, the present invention includes a cylinder 100 having a bumper section, an auxiliary cylinder 210, and a fluid line 220 according to the present invention.

Here, since the cylinder 100 is the same as that described above, a repetitive description will be omitted.

The auxiliary cylinder 210 is a cylinder for providing an incompressible fluid to the cylinder 100.

For example, the auxiliary cylinder 210 includes an auxiliary cylinder body 211, a first auxiliary cylinder cap 212, a second auxiliary cylinder cap 213, an auxiliary cylinder piston 214, an auxiliary cylinder rod 215 .

The first and second auxiliary cylinder caps 212 and 213 are disposed at both ends of the auxiliary cylinder body 211. The first and second auxiliary cylinder cylinders 211 and 211 are provided at both ends of the auxiliary cylinder body 211, And the auxiliary cylinder piston 214 is slidably reciprocable within the auxiliary cylinder body 211. One end of the auxiliary cylinder rod 215 is connected to the auxiliary cylinder piston 214 And the other end is exposed to the outside of the auxiliary cylinder body 211 through the first auxiliary cylinder cap 212.

 The fluid line 220 forms a flow path between the third region c of the cylinder and the auxiliary cylinder 210 so as to flow from the auxiliary cylinder 210 to the third region c of the cylinder 100, Allow fluid to flow.

In addition, the fluid line 220 is made of a flexible material, and the mounting position of the cylinder 100 and the auxiliary cylinder 210 can be easily changed.

Referring to FIG. 4, the auxiliary cylinder piston 214 is moved down by a load applied to the auxiliary cylinder rod 215, The incompressible fluid received inside the auxiliary cylinder body 210 is supplied to the third region c of the cylinder.

The fluid gradually introduced into the third region c of the cylinder then pressurizes the other side of the second piston 160 so that the first piston 140, the second piston 160, One rod 150 and the second rod 170 are moved together in the forward direction.

When the incompressible fluid is introduced after the first piston 140 is inserted into the first cap 120, the second piston 160 and the second rod 170 are moved in the forward direction And the second region (b) functions as a buffer region of the incompressible fluid that is additionally introduced, so that the volume gradually decreases.

As described above, in the cylinder equipped with the bumper section according to the present invention, two pistons are provided inside the cylinder body, and the space between the adjacent pistons is driven to the buffer region of the incompressible fluid, There is an effect that the range can be increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

100: Cylinder with bumper section
110: cylinder body 120: first cap
130: second cap 140: first piston
150: first rod 160: second piston
170: second load
a: first region
b: second region
c: third region
210: Auxiliary cylinder

Claims (6)

A cylindrical cylinder body having both ends opened;
A first cap installed at one end of the cylinder body;
A second cap installed at the other end of the cylinder body;
A first piston which is slidably reciprocable within the cylinder body and which divides a space between one side surface and the first cap into a first region;
The other end of the piston is formed to have a groove having a predetermined depth along the longitudinal direction, and the groove is exposed through the other side of the first piston. A first rod fitted and connected to the first piston;
And a second piston which is located between the first piston and the second cap and which has a space between one side surface and the other side surface of the first piston as a second area, A second piston for partitioning the space between the second caps into a third region;
And a second rod having one end fitted in the groove of the first rod to a predetermined depth and the other end connected to the second piston,
The cylinder body
Wherein the first region and the second region are filled with a compressible fluid and an incompressible fluid is introduced into the third region, wherein the pressure of the second region is higher than the pressure of the first region, And the incompressible fluid is introduced such that the pressure of the region is higher than the pressure of the second region.
The method according to claim 1,
The incompressible fluid entering the third region
And pressing the other side of the second piston such that the first piston, the second piston, the first rod and the second rod move together in a forward direction, and the volume of the first region is gradually reduced A cylinder equipped with a bumper section.
3. The method of claim 2,
When the incompressible fluid is introduced into the third region after the first piston is in contact with the first cap,
Wherein the second piston and the second rod are moved in a forward direction and the second region functions as a buffer region of an additional incompressible fluid to gradually decrease the volume.
3. The method of claim 2,
Wherein a groove is formed in the groove of the first rod,
Wherein one end of the second rod is provided in a stepped shape so as to be caught by the engaging jaw and not to be released in the direction of the second cap.
A cylinder having a bumper section according to any one of claims 1 to 4;
An auxiliary cylinder for supplying the incompressible fluid to the cylinder; And
And a fluid line connected between the third region of the cylinder and the auxiliary cylinder to form a flow path for allowing the incompressible fluid to flow into a third region of the cylinder,
Wherein the fluid line is made of a flexible material, and the installation position of the cylinder and the auxiliary cylinder is variable.
6. The method of claim 5,
The auxiliary cylinder
A cylindrical auxiliary cylinder body having both ends open;
A first auxiliary cylinder cap installed at one end of the auxiliary cylinder body;
A second auxiliary cylinder cap provided at the other end of the auxiliary cylinder body;
An auxiliary cylinder piston slidably reciprocable within the auxiliary cylinder body;
And an auxiliary cylinder rod having one end connected to the auxiliary cylinder piston and the other end extending through the first auxiliary cylinder cap and exposed to the outside of the auxiliary cylinder body,
Wherein the auxiliary cylinder piston is moved by a load applied to the auxiliary cylinder rod so that the incompressible fluid filled inside the auxiliary cylinder body is supplied to the third region of the cylinder.

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