KR101718732B1 - Pressure Chamber - Google Patents

Abstract

The present invention relates to a pressure chamber, which comprises a housing (100) having a pressurized space formed therein, a door (300) for selectively shielding one side of the housing (100) A pressure regulating port 500 provided at one side of the housing 100 for connecting the temperature regulating device and the pressurizing space, And an air circulation part provided at one side of the housing 100 to maintain the temperature of the pressurizing space. Each corner of the housing 100 is formed as a rounded round part 105, 2 housings are welded to each other to constitute a single housing 100, and welding of the first housing and the second housing is performed in a straight portion formed between the round portions 105. According to the present invention, since the housing 100 constituting the pressure chamber is composed of two bodies, the welding portion P is reduced to two portions, thereby reducing the total number of components of the pressure chamber and the number of manufacturing operations.

Description

Pressure Chamber

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure chamber, and more particularly, to a pressure chamber having a housing in which corners are formed in a round shape and two bodies are welded to each other.

A pressure chamber refers to a container that receives constant fluid (liquid / gas) pressure from the inside and the outside of the vessel without changing the volume. These pressure chambers are used for various purposes such as heat exchangers, reactors, storage tanks, etc. In the case of reactors capable of withstanding high temperature and high pressure, additional devices such as stirring devices and impellers are installed and used together.

In addition, the pressure chamber is used for experiment or research purpose to confirm the chemical reaction or the pressure resistance of the object under a large pressure, and recently, it is used for various purposes due to the development of the electronic industry part , For example, a touch panel, a small LCD, or the like. The film junction of the touch panel and the small LCD is subjected to a process of contacting several films, and a thermostatic chamber is used to improve the bonding property.

The pressure chambers for these various purposes are commonly made of a metal material having high heat resistance and high pressure resistance so as to withstand high pressure and high temperature. To this end, the housing of the pressurizing chamber is generally made of a metal material having a large thickness. Such a metal material having a large thickness has a problem of increasing the overall manufacturing cost and decreasing the composition.

Particularly, in the case of a housing of a pressurizing chamber having a rectangular cross section, each corner portion of a quadrangular shape is joined by welding, thereby increasing the number of assembling steps and manufacturing time. As a result, the manufacturing is not easy.

(Patent Document 1) KR1020140026807 A

It is an object of the present invention to provide a pressure chamber which is relatively simple in structure and reduced in thickness while maintaining the same durability.

According to an aspect of the present invention for achieving the above-mentioned object, the present invention provides an air conditioner comprising: a housing having a pressurized space formed therein; a door selectively shielding one side of the housing; A temperature regulating port provided at one side of the housing for connecting the temperature regulating device and the pressurizing space, and a temperature adjusting port provided at one side of the housing and maintaining the temperature of the pressurizing space, Wherein the first housing and the second housing are welded to each other to constitute a housing, and the welding of the first housing and the second housing is performed by welding the first housing and the second housing, And a straight portion formed between the round portions.

The welded portion to which the first housing and the second housing are welded is formed to have a narrower width from the outer surface toward the lower end toward the pressurized space.

The housing includes an upper plate and a lower plate respectively forming an upper portion and a lower portion of the housing, a left plate and a right plate respectively forming a left side surface and a right side surface of the housing, and a round portion constituting an edge of the housing And the upper plate and the lower plate are formed longer than the left plate and the right plate.

The welds are formed on the left plate and the right plate, respectively.

The outer surface of the housing is provided with a plurality of reinforcing flanges around the outer surface of the housing.

Wherein the reinforcing flange includes a first flange coupled to an outer circumferential surface of the housing and spaced apart from the first flange by a predetermined distance, and a second flange coupled to the outer surface of the housing in a direction crossing the plurality of first flanges, And a second flange connecting the first flange and the second flange.

The following effects can be expected in the pressure chamber according to the present invention as described above.

In the present invention, since the housings constituting the pressure chambers are composed of two bodies symmetrical to each other, the welding portion is reduced to two portions, thereby reducing the total number of parts of the pressure chambers and the number of manufacturing operations.

In addition, in the present invention, the pressure chambers are formed with rounded corners so that they can have an allowable stress higher than a certain level while maintaining the entire volume. Particularly, compared with the conventional rectangular housing, the welded portion is reduced to half, Therefore, the thickness of the housing can be reduced, and the manufacturing cost can be expected to be reduced.

1 is a perspective view showing a configuration of a preferred embodiment of a pressure chamber according to the present invention;
2 is a sectional view showing a configuration of an embodiment of the present invention.
3 is a perspective view showing a configuration of a housing constituting an embodiment of the present invention.
4 is an enlarged view showing a welded portion of a housing constituting an embodiment of the present invention.

Hereinafter, a specific embodiment of the pressure chamber according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a pressure chamber according to a preferred embodiment of the present invention, and FIG. 2 is a cross-sectional view of an embodiment of the present invention.

As described above, the pressure chamber according to the present invention is intended to apply pressure to the interior of the pressure chamber in a state in which an object to be compressed is housed therein, or to make the interior of the pressure chamber into a vacuum state. .

The housing 100 is formed in a three-dimensional shape so that a pressing space is formed therein, and is made of a metal material having high strength. In this embodiment, the housing 100 has a substantially hexahedral pressing space, as shown in FIGS. 1 and 2, and each corner is formed in a round shape and made of stainless steel. Of course, the housing 100 may be made of other metal such as steel in addition to stainless steel.

As best shown in Fig. 3, the housing 100 is open to both sides and is formed to have a substantially rectangular cross-section. More precisely, the housing 100 includes an upper plate 103 and a lower plate 104 respectively forming an upper portion and a lower portion of the housing 100, and a lower plate And includes a left plate 101 and a right plate 102.

The round section 105 includes the upper plate 103 and the upper plate 103, the left plate 101 and the right plate 105. The round section 105 is formed in the upper part of the housing 100, (102).

In this way, it is preferable that the portion of the housing 100 excluding the round portion 105 is formed in a planar shape so that the pressing space can be maximized. Both open sides of the housing 100 are shielded by the door 300, which will be described below again.

As shown in FIG. 3, the housing 100 is composed of a first housing and a second housing, and the first housing and the second housing are welded to each other. More precisely, the first housing and the second housing are formed in a shape symmetrical to each other, and the joint parts are welded to each other to form one housing 100.

The welding of the first housing and the second housing is performed at a straight portion formed between the round portions 105. More precisely, the upper plate 103 and the lower plate 104 are welded to the left plate 101 and / And the welded portion P is formed on the relatively short left plate 101 and the right plate 102. As shown in Fig.

The welding portion P is formed by chamfering a chamfer 110 at a portion where the first and second housings are coupled to each other. As shown in FIG. 4, the welding portion P includes a first housing and a second housing And the width is narrowed from the outer surface toward the lower end toward the pressurizing space. The chamfer 110 is filled by the weld 130.

The welded portion P may be formed in a continuous plane or protruding from the first and second housings 120. Reference numeral 140 denotes a back bead.

The housing 100 is completed through the two welds and the left and right plates 101 and 102 of the housing 100 are welded to each other by welding .

As shown in FIG. 1, a plurality of reinforcing flanges 200 are provided on the outer surface of the housing 100 to surround the outer surface of the housing 100. The reinforcing flange 200 is for reinforcing the strength of the housing 100, and is surrounded by the housing 100 and can be made of a metal plate.

The reinforcing flange 200 includes a first flange 220 coupled to an outer circumferential surface of the housing 100 and spaced apart from the first flange 220 by a predetermined distance and a plurality of first flanges 220 And a second flange 240 coupled in a direction transverse to the first flanges 220 to connect the plurality of first flanges 220.

A door 300 is provided at one side of the housing 100. The door 300 selectively opens and closes the pressurized space, and can be opened and closed through the door guide 350.

A pressure port 250 is provided on one side of the housing 100. The pressure port 250 connects an external pressure regulating device (not shown) and the pressurizing space. As shown in the figure, A plurality of holes may be formed on the outer surface of the housing 100 at regular intervals to form a uniform pressure in the pressing space.

A temperature control port 500 is provided on one side of the housing 100. The temperature control port 500 connects an external temperature control device (not shown) and the pressurizing space to adjust the temperature of the pressurizing space. . In this embodiment, the temperature control ports 500 are provided in pairs at symmetrical positions.

An air circulating part 400 is provided at one side of the housing 100 to maintain the temperature of the pressurizing space more uniformly.

In this embodiment, the housing 100 has a uniform thickness of 10 mm to 40 mm.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

100: housing 200: reinforcing flange
300: Door 400: Air circulation part

Claims (6)

A housing having a pressurizing space formed therein,
A door selectively shielding one side of the housing,
A pressure port provided at one side of the housing for connecting the pressure regulating device and the pressurizing space,
A temperature regulating port provided at one side of the housing for connecting the temperature regulating device and the pressurizing space,
And an air circulation unit provided at one side of the housing to maintain the temperature of the pressurization space,
Wherein each corner of the housing is formed as a rounded round portion,
The first housing and the second housing are welded to each other to constitute one housing,
Wherein welding of the first housing and the second housing is performed at a straight portion formed between the round portions,
Wherein a plurality of reinforcing flanges are provided on the outer surface of the housing to surround the outer surface of the housing,
The welded portion, in which the first housing and the second housing are welded,
And a chamfered space formed between the welded portions is filled by welding to form a front bead protruding above the welding surface and a back bead formed on the side of the pressurized space,
The housing includes:
An upper plate and a lower plate respectively forming an upper portion and a lower portion of the housing,
A left plate and a right plate respectively forming a left side surface and a right side surface of the housing,
And a round portion constituting an edge of the housing,
Wherein the upper plate and the lower plate are formed longer than the left plate and the right plate,
The welding portion
Wherein the pressure plate is formed on the left plate and the right plate, respectively.
The method according to claim 1,
The reinforcing flange
A first flange coupled to the outer circumferential surface of the housing and spaced apart from the first flange,
And a second flange coupled to the outer surface of the housing in a direction transverse to the plurality of first flanges to connect the plurality of first flanges. delete delete delete delete

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