KR100897291B1 - Method for coupling components, method for sealing pressure vessel using the same and pressure vessel - Google Patents

Abstract

The present invention relates to a method for joining parts, to a method for sealing a pressure vessel and to a pressure vessel sealed accordingly, the method comprising: preparing a first part in which an O-ring for sealing is disposed and a second part in which the first part is inserted and coupled; ; Applying vulcanizable silicone rubber to the portions where the first component and the o-ring will contact the second component upon insertion; And inserting the first part into the second part while the applied vulcanizable silicone rubber lubricates the contacting parts, thereby joining the vulcanizable silicone rubber to harden to a solid state after the insertion. By being configured, the lubricant can be easily removed afterwards while ensuring lubrication between the parts to which it is coupled.

Description

METHOD FOR COUPLING COMPONENTS, METHOD FOR SEALING PRESSURE VESSEL USING THE SAME AND PRESSURE VESSEL}

1 is a flow chart for explaining a method of coupling parts according to an embodiment of the present invention,

2 is a perspective view of a pressure vessel according to another embodiment of the present invention,

3 is a cross-sectional view of the sealing unit added to the cross-sectional view taken along the line III-III of FIG. 2.

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

100: pressure vessel 110: pressure vessel body

111: jacket 112: jacket

113: internal space 120: opening forming unit

121: opening 130: airtight unit

131: groove 132: O-ring

140: vulcanized silicone rubber

The present invention relates to a method of joining parts, and more particularly, to a method of joining two parts in contact with each other, a method of sealing a pressure vessel using the same, and a pressure vessel so sealed.

In general, when two parts are combined, there are parts in contact between the two parts. Lubricating materials, such as grease, are also used to minimize friction in these areas.

After disassembling the combined parts, foreign matters and the like adhere to grease applied at the time of the previous bonding. As a result, foreign matter remaining on the surface of the part may cause scratch-like damage to the surface of the counterpart in contact when the parts are recombined.

In order to prevent this, a process of removing lubricating components such as grease may be performed after the decomposition.

However, since the lubricant is in a gel state, a difference occurs in the degree of removal depending on the skill of the operator during the removal process. In addition, there is a problem that requires a lot of time for complete removal.

The present invention has been made in order to solve the above problems, and an object of the present invention is to enable a lubricant responsible for lubrication at the time of joining between components to be easily separated from the components after disassembly of the components.

In order to achieve the above object, a method of joining parts according to an embodiment of the present invention comprises the steps of preparing a first part and the second part is inserted and coupled to the first ring O-ring for sealing; Applying vulcanizable silicone rubber to the portions where the first component and the o-ring will contact the second component upon insertion; And inserting the first part into the second part while the applied vulcanizable silicone rubber lubricates the contacting parts, thereby joining the vulcanizable silicone rubber to harden to a solid state after the insertion. .

Pressure vessel sealing method according to another embodiment of the present invention is to seal the opening and the pressure vessel body having a hole forming unit for forming the opening, the O-ring for sealing is arranged and at least a portion is inserted into the opening forming unit Preparing a sealed unit to be coupled; Applying vulcanizable silicone rubber to the surfaces at which the closure unit and the o-ring contact the aperture forming unit; And inserting the closure unit into the pore forming unit with the applied vulcanizable silicone rubber lubricating the contacting portions, thereby joining the vulcanizable silicone rubber to harden to a solid state after the insertion.

According to another embodiment of the present invention, a pressure vessel includes a pressure vessel body having an inner space in which a fluid is stored; An opening-forming unit mounted to the body, the opening-forming unit forming at least one opening for communicating the interior space with the outside; An o-ring for sealing, at least a part of which is inserted into and contacted with the opening forming unit and coupled to the opening forming unit to seal the opening; And a vulcanized silicone rubber radish that is applied to the sealing unit and the O-rings in contact with the hole-forming unit to lubricate the contacting portions upon insertion, and cures to a solid state after the insertion.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, a part joining method, a pressure vessel sealing method, and a pressure vessel according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a flowchart illustrating a method of coupling parts according to an embodiment of the present invention.

Referring to FIG. 1, an operator first prepares a first part in which an o-ring for sealing is disposed and a second part in which the first part is inserted and coupled.
A lubricant is applied to at least one part of the parts (parts in which the O-ring and the second part are to be contacted and parts in which the first part and the second part are to be contacted when joined). The lubricant may be a vulcanizable silicone rubber. The vulcanized silicone rubber is initially in a gel state and then becomes a solid state as it is cured. In order to facilitate the curing, it is preferable to employ a room temperature vulcanizing silicone rubber that is cured at room temperature.

The lubricant joins the two parts while lubricating the two parts.

As time passes, the silicone rubber in the gel becomes a solid state. Accordingly, the silicone rubber also improves the degree of airtightness between the two parts.

When the two parts are separated from each other, the solid state silicone rubber can be easily removed by the operator. Unlike the initial gel state, the solid silicone rubber can be pulled out by the operator by hand and separated from the part.

According to this constitution, the vulcanized silicone rubber initially provides a benefit of functioning as a lubricant and of changing state after a certain time to facilitate separation. As a result, the problem that the lubricant remains on the surface of the part and causes foreign matters to adhere is eliminated.

Next, a method of sealing a pressure vessel using the above method according to another embodiment of the present invention and a pressure vessel that is hermetically sealed will be described.

2 is a perspective view of a pressure vessel according to another embodiment of the present invention.

2 shows the pressure vessel with reference numeral 100. The pressure vessel 100 refers to a fluid container for storing a high pressure liquid or gas without changing the volume such as a steam boiler, an air tank, a hydraulic press, an internal combustion engine, and the like.

The body of the pressure vessel 100, in other words the pressure vessel body 110, has an internal space 103 (see FIG. 3) for storing a fluid such as liquid or gas. The inner space 103 is in communication with the outside through the opening 121 formed by the opening forming unit 120 formed at both ends of the axial direction of the pressure vessel body 110.

The opening forming unit 120 is typically formed of an aluminum material which is light in weight and has excellent non-rigidity and processability in order to minimize the weight of the pressure vessel body 110.

3 is a cross-sectional view of the sealing unit added to the cross-sectional view taken along the line III-III of FIG. 2.

Referring to FIG. 3, the outer shell 111 of the pressure vessel body 110 may be formed of carbon fiber / epoxy material, etc., and the inner shell 112 may be finished with a general rubber or the like.

Two openings 121 located at both ends of the pressure vessel body 110 are connected to each other through an integrated metal shaft (not shown) in the manufacturing process of the pressure vessel body 110. The metal shaft has a greater hardness than the hole forming unit 120 made of aluminum as a material such as steel. To maintain the straightness between the openings 121, the tolerance between the metal shaft and the openings 121 should be minimized. Accordingly, a lubricant is needed to reduce the frictional resistance between the aperture forming unit 120 and the metal shaft.

In addition, even after fabricating the pressure vessel body 110, in order to check its structural performance, the opening 121 is sealed with a sealed unit 130 and filled with water in the internal space 113 to increase the pressure by water pressure. Done. For the sealing, an o-ring 132 may be disposed in the groove 131 formed on the outer circumference of the sealing unit 130. The sealing unit 130 is formed of a steel material or the like, and has a greater hardness than the opening forming unit 120.

Bolts (not shown) are inserted into the bolt grooves 133 and 132 formed corresponding to the sealing unit 130 and the opening forming unit 120 to firmly seal the sealing unit 130 to the opening forming unit 120. Can be tightened. At this time, a lubricant for reducing frictional resistance between the opening forming unit 120 and the sealing unit 130 is required.

In both cases, the vulcanized silicone rubber 140 may be used as the lubricant. Referring to FIG. 3, the vulcanized silicone rubber 140 may be applied to the outer circumferential surface of the sealing unit 130 and the O-ring.

As described above, the vulcanized silicone rubber 140 becomes gel-like in its initial viscosity state, so that the metal shaft or the sealing unit 130 is in contact with the opening forming unit 120 and is engaged with the friction therebetween. Reduce.

After a certain time has passed after the bonding, the vulcanized silicone rubber 140 is in a solid state. In the solid state, the silicone rubber 140 has a low modulus of elasticity and thus does not affect the maintenance of airtightness.

After detaching the metal shaft or the sealing unit 130 from the opening forming unit 120, the worker can easily remove the silicon rubber 140 in the solid state from the upper sealing unit 130 or the metal shaft or the opening forming unit 120. It can be removed.

Accordingly, foreign matter remains on the surface by the lubricant remaining in the sealed unit 130 or the like, so that the sealed unit 130 and the like scratch on the surface of the opening forming unit 120 when recombined to the opening forming unit 120. There is an advantage in that it is possible to prevent such a case.

In addition, if the lubricant is a room temperature vulcanized silicone rubber 140 that is cured at room temperature, it will be preferable because no additional temperature control.

As described above, the component joining method according to the present invention allows the lubricant to improve the airtightness in the hardened state and to be easily removed upon removal while mitigating friction upon joining the two parts.

The pressure vessel and its sealing method according to the present invention employs the above-described component joining method, thereby making it possible to more completely seal the pressure vessel while preventing damage due to contact between the components.

In the above described with reference to the accompanying drawings, the method of joining the components, the pressure vessel sealing method using the same and the hermetically sealed pressure vessel with reference to the accompanying drawings, the present invention is not limited to the embodiments and drawings disclosed herein. Various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention.

Claims (10)

Preparing a first part in which an O-ring for sealing is disposed and a second part in which the first part is inserted and coupled; Applying vulcanizable silicone rubber to the portions where the first component and the o-ring will contact the second component upon insertion; And Inserting the first component into the second component while the applied vulcanizable silicone rubber lubricates the contacting portions, thereby joining the vulcanizable silicone rubber to cure to a solid state after the insertion. A component joining method characterized by the above-mentioned. The method of claim 1, And said first and second components have different hardnesses. The method of claim 2, Wherein said one of said first and second components is formed of a steel material and the other is formed of an aluminum material. The method of claim 1, The vulcanization type silicone rubber is a component bonding method, characterized in that the room temperature vulcanization type silicone rubber cured at room temperature. Preparing a sealing unit in which an O-ring for sealing is disposed and at least a part of the sealing unit is inserted into and coupled to the opening forming unit to seal the opening and the pressure vessel body having the opening forming unit for forming the opening; Applying vulcanizable silicone rubber to the surfaces at which the closure unit and the o-ring contact the aperture forming unit; And And inserting the closure unit into the aperture forming unit while the applied vulcanizable silicone rubber lubricates the contacting portions, thereby joining the vulcanizable silicone rubber to harden to a solid state after the insertion. Sealing method. The method of claim 5, And said opening forming unit is formed of an aluminum material and said sealing unit is formed of a steel material. The method of claim 5, The vulcanization type silicone rubber is a pressure vessel sealing method, characterized in that the room temperature vulcanization type silicone rubber cured at room temperature. A pressure vessel body having an interior space in which the fluid is stored; An opening-forming unit mounted to the body, the opening-forming unit forming at least one opening for communicating the interior space with the outside;  An o-ring for sealing, at least a part of which is inserted into and contacted with the opening forming unit and coupled to the opening forming unit to seal the opening; And And a vulcanized silicone rubber applied to the closure unit and the O-rings in contact with the opening forming unit to lubricate the contacting portions upon insertion and to cure to a solid state after insertion. The method of claim 8, The opening forming unit is formed of an aluminum material, and the sealing unit is formed of a steel material.  The method of claim 8, The vulcanization type silicone rubber is a pressure vessel, characterized in that the room temperature vulcanization type silicone rubber cured at room temperature.

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