KR101200354B1 - Sealing cap and pressure vessel - Google Patents

Abstract

PURPOSE: A sealing cap and a pressure container with the same are provided to receive a body inside a shell because the sealing cap is comprised of a body and a pair of cut surfaces formed in both sides of the body. CONSTITUTION: A pressure container comprises a shell(10), an oil valve body(20), a sealing cap(30), an O-ring(40), a pressure ring(50), a spacer(60), and a fastening screw(70). The shell is filled with fluid. The oil valve body is connected to one side of the shell to provide a fluid flow path. The sealing cap comprises a body and cut surfaces. The body is coupled to the oil valve body and is arranged inside the shell. The cut surfaces are formed by vertically cutting both sides of the body. The body is formed by a metal. The O-ring is positioned between the oil valve body and the shell to arrange on the sealing cap. The pressure ring presses the O-ring in a sealing cap direction. The spacer presses the pressure ring in the sealing cap direction. The fastening screw is positioned in the outside of the shell; is fastened to the sealing cap; and presses the spacer.

Description

Sealing cap and pressure vessel including the same {SEALING CAP AND PRESSURE VESSEL}

The present invention relates to a hermetic cap and a pressure vessel comprising the same.

A bladder type accumulator is composed of a shell and a bladder. The bladder is generally made of an elastic material such as rubber and is mounted inside the shell. The bladder is prefilled with a gas such as nitrogen gas at a predetermined pressure through a gas inlet. With the gas filling completed, liquid or oil flows into and accumulates in the shell inner space outside the bladder through the liquid inlet.

At this time, in order to maintain the airtightness of the shell, a plurality of rings are installed on the liquid inlet side, the conventional rubber ring has a problem that is difficult to reuse because it is broken by the pressure inside the shell or hardened by the fluid.

Republic of Korea Utility Model Registration No. 20-0246144 (Accumulator) 2001.10.19.

In order to solve the above-mentioned problem, it is an object that the ring installed in the accumulator is not broken and can be reused.

The airtight cap according to an embodiment of the present invention is mounted on a pressure vessel including a shell in which fluid is filled and an oil valve body connected to one side of the shell to provide a fluid movement passage. It is coupled to the body disposed inside the shell, and a cutting surface formed by cutting one side of the body and the other side facing the one side in the height direction of the body.

In this case, the body may include a first body portion having a constant cross-sectional area along a height direction thereof, and a second body portion connected to the first body portion and gradually decreasing in cross-sectional area.

The body may be formed of metal.

A pressure vessel according to an embodiment of the present invention includes an airtight cap, a shell that is empty inside and can accommodate fluid, and an oil valve body mounted to the shell and to which the fluid enters and to which the cap is coupled. .

The pressure vessel is located between the oil valve body and the shell O-ring disposed on the hermetic cap, a pressure ring for pressing the O-ring in the direction of the hermetic cap, the pressure ring in the direction of the hermetic cap And a fixing screw positioned outside the shell and fastened to the airtight cap to pressurize the spacer.

The lower side of the oil valve body may be formed with a step for supporting the airtight holding cap.

According to an embodiment of the present invention, the airtight cap includes a body and a pair of cut surfaces formed on both sides of the body. Therefore, the body can be easily inserted and accommodated inside the shell.

In addition, even when the airtight cap is formed of a metal, and the oil is hardened by the oiltight cap, the body can be easily separated from the shell and is more durable than the case where the airtight cap is formed of rubber so that it is not damaged by the pressure inside the shell. Therefore, the use of the airtight cap can be repeated.

1 is a cross-sectional view of a pressure vessel according to an embodiment of the present invention.
FIG. 2 is an enlarged view of portion A shown in FIG. 1; FIG.
3 is an exploded perspective view of a pressure vessel according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. Like parts are designated by like reference numerals throughout the specification.

Hereinafter, the x direction of FIG. 3 is referred to as the height direction of the body.

1 is a cross-sectional view of a pressure vessel according to an embodiment of the present invention, Figure 2 is an enlarged view of a portion A shown in Figure 1, Figure 3 is an exploded perspective view of the pressure vessel according to an embodiment of the present invention.

The airtight cap according to the embodiment of the present invention is a member mounted to the pressure vessel to maintain the airtight inside the pressure vessel.

1 to 3, the pressure vessel according to the present embodiment includes an oil valve body 20 in which a shell 10 and an airtight cap 30 are mounted.

The shell 10 is a pressure vessel in which fluid is accommodated. Fluids include gases such as oils and gases. The present invention does not limit the type of fluid.

The interior of the shell 10 is empty so that fluid can be received. The shell 10 is formed in the cylindrical form. Both sides of the shell 10 are formed in a hemispherical shape so as to easily withstand the pressure generated therein. However, the shell 10 may not be cylindrical. One side of the shell 10 is open. Accordingly, the inside of the shell 10 may be in communication with the outside. The shell 10 may be made of metal. The present invention allows the shell 10 to be made of metal. The present invention does not limit the shell 10 to metal.

The oil valve body 20 is located at one side of the shell 10 and is disposed in an open portion. At this time, the oil valve body 20 penetrates through the open portion of the shell 10 and the lower side is located inside the shell 10 and the upper side is exposed to the outside of the shell 10.

On the lower side of the oil valve body 20, the stepped portion 21 is formed along the circumferential direction of the oil valve body 20. The diameter of the stepped portion 21 is larger than the diameter of the central portion of the oil valve body 20.

A screw is formed on the upper side of the oil valve body 20.

In the center of the oil valve body 20, a passage 21 through which a fluid passes is penetrated vertically. Accordingly, the inside of the shell 10 may be connected to the outside through the passage 21.

The hermetic cap 30 includes a body 31 and a cut surface 32.

The body 31 is formed in a substantially cylindrical shape such as the oil valve body 20. The through hole 33 through which the oil valve body 20 passes is formed in the center of the body 31. The inner circumferential surface of the through hole 33 is in contact with the outer circumferential surface of the oil valve body 20.

Such a body 31 is located in the step (21) is located inside the shell (10). The bottom of the body 31 is located on the stepped portion 21, and at least a portion of the upper surface of the body 31 may contact the upper circumferential surface of the shell 10.

In the body 31, one side and the other side facing one side are cut along the height direction, and a pair of cutting surfaces 32 are formed.

That is, the body 31 is formed in a shape including a straight line and a curve facing each other by the cutting surface 32, the both sides of the cross-section is not a complete circular cut. Due to the pair of cutting surfaces 32 formed on both sides of the body 31, the body 31 can be easily inserted into the shell 10.

Specifically, when the hermetic cap 30 is inserted into the shell 10, the body 31 is rotated after being inserted into the shell 10 by using a pair of cutting surfaces 32 formed on the body 31. In this case, the position of the cutting surface 32 is changed in the shell 10 so that the body 31 interferes with the shell 10 and does not fall out of the shell 10.

That is, by easily inserting the body 31 into the shell 10 using the cutting surface 32, the body 31 can be rotated so that the body 31 can be stably housed inside the shell 10. have.

On the other hand, the body 31 according to the embodiment of the present invention is entirely formed of a metal.

Since the body 31 is inserted into the shell 10 and oil is introduced and the body 31 is hardened by oil, the body 31 is formed of a metal material rather than rubber, so that the body 31 is formed of a shell ( It can be easily separated in 10).

In addition, when the body 31 is formed of a metal, the degree of breakage due to pressure is weaker than that of the rubber. That is, even if the oil repeatedly flows in and out of the shell 10 and presses the body 31, the metal is more durable than rubber so that the body 31 is not damaged or deformed.

Therefore, even when the oil on the body 31 formed of metal is hardened compared to the rubber material, the body 31 can be easily separated from the shell 10 and oil can be removed, and the durability of the body 31 is excellent. It can be used repeatedly.

The body 31 includes a first body portion 311, a second body portion 312, and a third body portion 313.

The first body part 311 has a constant cross-sectional area along the height direction of the body 31.

The second body part 312 is connected to the first body part 311 and gradually decreases in cross-sectional area along the height direction of the body 31. At this time, the outer surface of the second body portion 312 may be formed in a plane along the height direction may be formed in a curved surface. That is, the second body portion 312 may be formed by bending at a predetermined angle in the first body portion 311 or may be connected to form a gentle curve in the first body portion 311. This second body portion 312 is in contact with the inner peripheral surface of the upper side of the shell (10). The shape of the second body portion 312 may vary depending on the shape of the upper side of the shell 10.

In the third body portion 313, the inner circumferential surface of the through hole 33 vertically extends to protrude upward from the second body portion 312. The third body portion 313 is located between the outer circumferential surface of the oil valve body 20 and the open circumferential surface of the shell 10.

As described above, when the body 31 includes the first body part 311, the second body part 312, and the third body part 313, the body 31 may be inserted into the shell 10. The contact area with the shell 10 may increase.

Referring back to FIGS. 1-3, the open one side of the shell 10 is not necessarily such that it is curved in a gentle curve. The body 31 is inserted into an open side of the shell 10 to be in contact with the inside of the shell 10 and the body 31 includes a second body portion 312 whose cross-sectional area gradually decreases along its height direction. In this case, the second body part 312 may be in contact with the inner surface of the shell 10 and connected to the shell 10.

Therefore, the contact area between the body 31 and the shell 10 is increased to enable the body 31 to be stably disposed inside the shell 10, and then the body 31 by oil introduced into the shell 10. Even if a pressure is applied to the body 31 is supported by the shell 10, the degree of breakage of the body 31 is weak.

On the other hand, the oil valve body 20, the O-ring 40, the pressure ring 50, the spacer 60, and the fixing screw 70 is coupled.

O-ring 40 and the pressure ring 50 is sequentially stacked on the third body portion 313 is coupled to the oil valve body (20). The O-ring 40 and the pressure ring 50 are located between the outer circumferential surface of the oil valve body 20 and the open inner circumferential surface of the shell 10. Accordingly, the O-ring 40 and the pressure ring 50 are hermetically sealed between the outer circumferential surface of the oil valve body 20 and the open inner circumferential surface of the shell 10.

The spacer 60 is coupled to the oil valve body 20 and positioned on the upper surface of the shell 10. At least a portion of the spacer 60 is inserted into the space between the outer circumferential surface of the oil valve body 20 and the open inner circumferential surface of the shell 10. The inserted portion of the spacer 60 presses the O-ring 40 and the pressure ring 50 in the direction of the hermetic cap 30 by the externally applied pressure.

Fixing screw 70 is located on the outside of the shell 10 is coupled to the screw of the oil valve body (20). The set screw 70 coupled to the oil valve body 20 pressurizes the spacer 60. At this time, the inner circumferential surface of the shell 10 may be in close contact with the second body portion 312 of the airtight cap 30. The fixing screw 70 pressurizes the spacer 60 to increase the airtightness of the O-ring 40 and the pressure ring 50, and firmly fixes the oil valve body 20 to the open portion of the shell 10.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

10: shell
20: oil valve body
21: step 22: passage
30: confidentiality cap
31: body
311: first body part 312: second body part 313: third body part
32: cutting surface 33: through hole
40: O-ring
50: pressure ring
60: spacer
70: set screw

Claims (6)

delete delete delete delete Shell in which the fluid is filled (Shell);
An oil valve body connected to one side of the shell to provide a fluid movement passage;
A body disposed in the shell and coupled to the oil valve body; and
A cutting surface formed by cutting one side of the body and the other side facing the one side along a height direction of the body, wherein the body has an airtight cap formed of metal;
An O-ring positioned between the oil valve body and the shell and disposed on the hermetic cap;
A pressure ring for urging the O-ring in the direction of the airtight cap;
A spacer for pressing the pressure ring in the hermetic holding cap direction; And
A fixing screw positioned outside the shell and fastened to the airtight cap to pressurize the spacer;
Pressure vessel comprising a. The method of claim 5,
A pressure vessel is formed on the lower side of the oil valve body for supporting the airtight cap.

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