KR101939647B1 - High-pressure Sealing Device for Compression Device - Google Patents

Abstract

The present invention relates to a high-pressure sealing device for a compression apparatus, capable of performing operation without pressure leakage even if high pressure is applied to a large diameter. According to the present invention, the high-pressure sealing device for a compression apparatus comprises: a contact packing including a piston contact protrusion formed between a piston and a cylinder to be closely attached to the piston by a high pressure inside the cylinder, and a cylinder contact protrusion operated to be closely attached to the cylinder; a backup packing disposed on the rear end of the contact packing; a cylinder contact packing arranged on the rear end of the backup packing; and a piston contact packing. Accordingly, when the internal pressure of a high pressure vessel forming the compression apparatus is increased, the piston contact protrusion of the contact packing in contact with the high pressure vessel is closely attached toward the piston by pressure generation and the cylinder contact protrusion is closely attached toward the cylinder, such that the pressure leakage is primarily prevented. The backup packing made of a material with strength and elasticity prevents the contact packing from being pushed by the pressure, and secondarily prevents the pressure leakage by the elasticity. The cylinder and piston contact packings made of a material, which is restored to an original shape after deformation by the elasticity to be continuously used in ultrahigh pressure, maintain a state of being closely attached toward the cylinder and the piston by first and second slopes when force is generated by the pressure, such that the leakage of the internal pressure is tertiarily prevented, and a high supporting force preventing the contact packing and the backup packing from being pushed is formed, thereby preventing the pressure leakage even if a pressure equal to or greater than 6,000 bar is applied in the cylinder with a diameter of 200 mm or more.

Description

Technical Field [0001] The present invention relates to a high-pressure sealing device for a compression device,

The present invention relates to a high-pressure sealing device for a compression device capable of performing an operation without causing leakage of pressure even when pressure is applied to a large diameter at a high pressure.

The compression device is a device capable of changing the physical properties of the object and sterilizing the object by applying pressure to the high-pressure container.

Such a compression device has a structure in which a high pressure is formed in the compression container by a high pressure generating part.

Therefore, it is very important to seal between the compression device and the high-pressure vessel when using the compression device.

The sealing of the conventional compression device mainly uses an O-ring.

Explaining the sealing structure using the O-ring, in the structure using the O-ring as the piston sealing device, when the pressure corresponding to the intended use in the piston-cylinder is applied to the O-ring, the O- Lt; / RTI > However, since the conventional O-ring does not support the sealing portion uniformly, it does not cause a problem at low pressure. However, if a high pressure of 2,000 bar or more is continuously applied to the O-ring, There is a phenomenon that the sealing is pushed and tearing may occur when the limit is reached. In the case of a sealing device using an O-ring as described above, since it is not possible to use the O-ring at high pressure, there is a problem that the O-ring loses its elasticity when it is used for a long time and needs to be replaced.

To solve such a problem, Korean Patent No. 10-1150153 (hereinafter referred to as "Patent Document 1") has been proposed.

In Patent Document 1, a C-shaped high-pressure ring, a first guide ring, and an O-ring second guide ring are sequentially applied between the cylinder and the piston to prevent pressure leakage.

On the other hand, in order to withstand the high pressure in general, the configuration in which the first pressure is contacted is excellent in elastic deformation, so that leakage of the maximum pressure is prevented.

However, in the above-described Patent Document 1, since the high-pressure ring contacting the pressure at the time of pressure generation is composed of a mixture of Teflon and Bronze, elastic deformation is small, so there is a possibility that the high-

In the case of a high-pressure ring which is first contacted when a high pressure is applied, the stiffness of the high-pressure ring itself is also important. However, since the high-pressure ring is sufficiently supported at the rear end to reduce the sheet loss due to pressure leakage, Patent Document 1 has a structure in which an O- There is a problem in that the high pressure ring is pushed at the time of applying a high pressure, so that it is difficult to withstand a high pressure.

In order to solve the above problems, according to the present invention, when the internal pressure of the high-pressure vessel constituting the compression device is increased, the piston-tightening projection of the contact packing in contact with the high- The cylinder close contact protrudes in the cylinder direction to prevent the leakage of the pressure, and the back-up packing made of a material having strength and elasticity prevents the packing of the close packing due to pressure and prevents the leakage of pressure due to the elastic force The cylinder-tight packing and the piston-tight packing, which are made of materials that can be used continuously to restore the original shape after being deformed by the elastic force even at ultra-high pressure, can be applied to the first and second inclined surfaces Respectively, in the cylinder and piston directions, It is possible to prevent the leakage of the pressure three times and to prevent the packing and the backup packing from being damaged by the high holding force so that the damage of each packing can be prevented. Even if the pressure of 6,000 bar or more is applied in the cylinder having a diameter of 200 mm or more, And an object of the present invention is to provide a high-pressure sealing device for a compression device capable of preventing a high-

When the internal pressure of the high-pressure vessel constituting the compression device is increased, the piston contact projection of the contact packing in contact therewith is brought into close contact with the piston in the direction of the piston, and the cylinder close- The backing packing made of a material having strength and elasticity functions to prevent the packing of the tight packing by pressure and to prevent the leakage of the pressure due to the elastic force. The cylinder-tight packing and the piston-tight packing, which are made of materials that can be continuously used after being restored to the original shape, are maintained in tight contact with the cylinder and the piston by the first and second inclined surfaces, respectively, To prevent the leakage of the packing and the backup packing. So that it is possible to prevent leakage of pressure even if a pressure of 6,000 bar or more is applied in a cylinder having a diameter of 200 mm or more.

1 is a state diagram showing a state in which a high-pressure sealing device is coupled to a compression device;
2 is an exploded perspective view of a high-pressure sealing apparatus of a compression apparatus according to the present invention.
3 is an enlarged view of part A of Fig.

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

1, the present invention is a structure in which a high pressure generating portion 2 including a piston 2a having a step formed therein and a high pressure vessel 3 including a cylinder 3a are coupled to each other, The operation of generating the high pressure in the generator 2 is such that the high pressure is generated in the cylinder 3a in the high-pressure vessel 3. The detailed description of the compressor 1 will be omitted.

However, in the present invention, the sealing packing 10 is coupled between the piston 2a and the cylinder 3a.

As shown in FIGS. 2 to 3, the sealing packing 10 is coupled to prevent the pressure of the cylinder 3a from leaking to the outside when a high pressure is generated in the cylinder 3a. A piston contact projection 11 is formed at a contact position and a cylinder contact projection 12 is formed at a position where the cylinder contact projection 12 is in contact with the cylinder 3a so as to have a substantially U-shaped cross section.

When a pressure is generated in the cylinder 3a, the piston seal projection 11 is brought into close contact with the piston 2a and the cylinder close contact projection 12 comes into close contact with the cylinder 3a, It works to prevent leakage.

That is, the sealing packing 10 in the present invention is a structure for sealing the pressure in the cylinder 3a in which a high-pressure pressure is formed, and is made of a urethane-based material which does not cause damage to the surface of the piston 2a and the cylinder 3a Synthetic resin.

Next, the back-up packing 20 is formed so as to abut the above-mentioned tightening packing 10 to support the adhering packing 10.

The back-up packing 20 is made of any one material selected from polyacetal and uretan which smoothly deforms and restores due to elastic force while forming a certain strength. The back-up packing 20 is formed of a soft packing material 10 And is structured so as not to be damaged on the surfaces of the piston 2a and the cylinder 3a while being held in close contact with the cylinder 3a by elastic force.

Next, the cylinder-adhering packing 30 is disposed to abut the backup packing 20 described above.

The cylinder packing pack 30 has a structure in which the surface abutting the back-up packing 20 is formed in a linear shape in a vertical direction and the opposite surface is formed in a first inclined surface 31.

The piston seal packing 40 is structured to have the second slope 41 contacting the first slope face 31 of the cylinder seal packing 30. The piston seal packing 30 and the piston seal package 30 40 have a rectangular cross-section when they are in contact with each other.

The first inclined face 31 is configured to form an inclined face in the direction of the outer diameter 33 contacting the piston packing 40 in the inner diameter 32 of the cylinder packing 30 abutting against the backup packing 20.

The cylinder-packing packing 30 and the piston-packing packing 40 are made of a titanium material which can be restored after deformation while the deformation is small even under ultrahigh pressure, and does not cause damage to the surfaces of the piston 2a and the cylinder 3a. .

The operation and effect of the high-pressure sealing apparatus of the compression apparatus according to the present invention having the above-described structure will be described.

First, the high-pressure sealing apparatus 50 of the compression apparatus according to the present invention includes the high-pressure generating unit 2 including the piston 2a constituting the compression apparatus 1 shown in Fig. 1 and the cylinder 3a Pressure vessel 3 and prevents the pressure from leaking when a high pressure is formed in the cylinder 3a of the high-pressure vessel 3 by performing an operation for generating a high pressure in the high-pressure generating portion 2, The internal high pressure up to 6,000 bar is not leaked to the outside even if it is 200 mm or more.

That is, when pressure is generated in the cylinder 3a as shown in FIG. 3, pressure is generated in the axial direction of the cylinder 3a.

When the piston 10 is in contact with the piston 10, the piston 11 is brought into pressure contact with the piston 2a and the pressure is applied to the piston 2a, Thereby preventing leakage to the space between the packings 10.

The cylinder contact projection 12 of the seal packing 10 is bent in a direction in which the cylinder contact projection 12 comes into contact with the cylinder 3a so as to prevent the pressure from leaking into the space between the cylinder 3a and the seal packing 10.

In particular, the adhesive packing 10 of the present invention is made of urethane, which is excellent in elasticity and restoring force, and is excellent in sealing property, so that the phenomenon of leakage of pressure can be prevented first.

On the other hand, the back packing 20 is coupled to the rear surface of the above-mentioned tight packing 10.

The backing packing 20 is made of a polyacetal material having a certain strength and elasticity so that the backing packing 20 forms a sufficient supporting force to prevent the backing packing 20 from being pushed by the pressure in the cylinder 3a, It is possible to prevent breakage and pressure leakage.

Particularly, the above-mentioned back-up packing 20 is coupled in a state of being slightly spaced from the piston 2a and the cylinder 3a because the back-up packing 20 is engaged with a clearance tolerance when engaged with the cylinder 3a.

Therefore, when the pressure in the cylinder 3a is generated, the pressure leaking from the tightly packed packing 10 may leak through the back-up packing 20.

However, since the backup packing 20 of the present invention is made of a polyacetal material having elasticity, when the sealing packing 10 is supported, the backing packing 20 is deformed by the elastic force by the pivoting and tightly contacted with the piston 2a and the cylinder 3a It is possible to prevent the phenomenon that the pressure is leaked therebetween in the second place, and also the supporting force of the packing 10 can be further improved due to the deformation due to the elastic force.

On the other hand, the cylinder packing packing 30 and the piston packing packing 40 are formed on the back surface of the backup packing 20.

The cylinder packing packing 30 and the piston packing packing 40 are in contact with the backing packing 20 when the high pressure is applied to the packing 10 and the backing packing 20 when the high pressure is generated in the cylinder 3a The cylinder-tight packing 30 also receives a high-pressure force.

Then, the cylinder packing packing (30) is partially pushed by the backing packing (20).

At this time, the cylinder-packed packing 30 is in contact with the piston-sealing packing 40 by the first and second inclined faces 31 and 41, so that the cylinder-packed packing 30 is deformed by elasticity due to ultra- And the piston seal packing 40 is deformed by the elastic force due to the upward movement of the cylinder seal packing 30. The piston seal packing 40 is pressed against the principle of the oblique face, 2a.

Therefore, the cylinder-packed packing 30 and the piston-packed packing 40 are in close contact with the cylinder 3a and the piston 2a, respectively, to prevent leakage of the pressure and to support the backup packing 20, Can be prevented.

Particularly, the cylinder-packing packing 30 and the piston-packing packing 40 are made of a titanium material capable of preventing deformation and restoration by a certain elastic force and also preventing damage to the piston 2a and the cylinder 3a The cylinder-attached packing 30 is brought into close contact with the cylinder 3a by the ultra-high pressure as described above, and the piston-sealing packing 40 is restored to its initial shape after being deformed by the elasticity when the piston- A functional effect that can be used is obtained.

Accordingly, the present invention can prevent leakage of pressure due to structural stability even when applied to a cylinder 3a having a large diameter of ultra-high pressure.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative of the present invention and not to limit the scope of the invention. It is expressly evident to those of ordinary skill in the art.

1: Compressor
2: High pressure generating portion 2a: Piston
3: High-pressure vessel 3a: Cylinder
10: Adhesive packing
11: Piston contact projection 12: Cylinder contact projection
20: Backup packing
30: Cylinder tight packing
31: first inclined surface 32: inner diameter 33: outer diameter
40: Piston tight packing
41: second inclined surface
50: High-pressure sealing device of compression device

Claims (5)

A piston 2a having a stepped portion included in the high pressure generating portion 2 for generating a high pressure and a cylinder 3a for receiving a pressure of the high pressure generating portion 2 to form a high pressure Pressure vessel (3), characterized in that the high-pressure vessel (3)
A piston contact projection 11 which is formed between the piston 2a and the cylinder 3a and which is operated to come into close contact with the piston 2a by a high pressure in the cylinder 3a and a piston (10) composed of a cylinder contact projection
A backing packing 20 formed at a rear end of the packing 10 for retaining the packing 10 and restored by the elastic force to prevent pressure leakage;
A cylinder-packed packing (30) disposed at a rear end of the backup packing (20) and forming a first inclined surface (31) at a side opposite to the backup packing (20);
And a piston sealing packing (40) having a second sloping surface (41) formed to abut the first sloping surface (31) of the cylinder - packing packing (30)
The adhesive packing (10) is made of a urethane material,
The back-up packing 20 is made of any one material selected from polyacetal and urethane which has elasticity and forms a strength,
The cylinder packing packing 30 has a piston packing packing 40 at a position where the face abutting the backup packing 20 is linear in the vertical direction and the first inclined face 31 is in contact with the backup packing 20, The piston seal packing 40 is pushed in the direction of the cylinder 3a and the piston seal packing 40 coupled to the piston seal packing 40 is in close contact with the piston 2a,
Wherein the cylinder packing packing (30) and the piston packing packing (40) are made of a titanium material which is deformed and restored after being deformed by an elastic force. delete delete delete delete

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