KR100593281B1 - The structure of nozzle for chemistry fluid tank made of high quality - Google Patents

Abstract

In the present invention, the base portion of the cylindrical lining sleeve in the nozzle in forming a corrosion resistant sleeve of the same or alloy material of the main body on the inner surface of the nozzle to supply and flow fluid into the tank and the tank body and The end of the lining sleeve is welded to the inner lining to be welded and seated on the flange of the opening of the nozzle, and the fluid flowing into the nozzle is leaked by the complete sealing of the flange of the nozzle and the inlet of the lining sleeve. It relates to the structure of the nozzle for the tank composite tank which can be prevented, the cladding material 110 is formed in the mother body 100 of the main body of the tank tank, the flow of the nozzle 200 in the tank 10 In forming the lining sleeve 210 in the mother, the base portion of the lining sleeve 210 and the inner lining 220 welded to the clad material 110 of the parent of the main body and The weld W1 is sealed, and the upper end of the lining sleeve 210 is welded to the seat ring 230 mounted on the flange portion 250 of the nozzle 200 to be welded (W2) to seal the sheet. The ring 230 has a welding groove 232 formed on the inner surface thereof, and is welded to the end of the lining sleeve 210.

Description

The structure of nozzle for chemistry fluid tank made of high quality}

Figure 1a, b is an embodiment of a chemical tank tank, a schematic diagram of a pressure vessel, a reactor and a heat exchanger equipped with a nozzle,

2 is a longitudinal sectional view of a state before forming a sleeve in the nozzle for the tank complex of the present invention,

Figure 3 is a schematic longitudinal cross-sectional view of a state in which the nozzle tank and the nozzle of the present invention separated;

Figure 4a, b is an enlarged cross-sectional view and enlarged cross-sectional view of the structure of the nozzle for the tank mixture tank of the present invention.

Explanation of symbols on the main parts of the drawings

10 tank 100: body of the body

110: cladding material 200: nozzle

201: Inside diameter 210: Lining sleeve

220: inner lining 230: sheeting

231: circumferential surface 232: welding groove

W1, W2: welding

The present invention relates to a nozzle for flowing fluid into and out of a tank, such as a tank storing a fire-coating medium or a heat exchanger for recovering waste heat from waste water. In forming a corrosion resistant sleeve of the same or alloy material, the base of the cylindrical lining sleeve in the nozzle is welded with the inner lining welded to the tank body, and the seat is mounted on the flange portion of the opening of the nozzle. An end of the lining sleeve is welded to the ring, and the nozzle and the structure of the nozzle for tanks tanks can be prevented from leaking the fluid flowing into the nozzle by the complete sealing of the flange of the nozzle and the inlet of the lining sleeve.

In general, a heat exchanger, a reactor, and a pressure base body for recovering waste heat from a tank or a waste water storage wastewater are formed of a carbon steel material, and an inner surface of a corrosion-resistant clad material such as titanium and zirconium. It is press-molded to prevent corrosion by fluid flowing in and out of the tank.

It is possible to form a single corrosion resistant member without double the structure of the tank as described above, but the main body of the titanium and zirconium, such as the price is not only expensive, but also difficult to machine processing and the processing cost is high Is made of carbon steel and corrosion-resistant member is used as clad material.

In addition, nozzles for supplying and flowing fluid to and from heat exchangers, reactors, and pressure primitives for recovering waste heat from the tanks or wastewater storing the fibridant are usually made separately from the mother of the main body, and welded to the main body. It is integrally bonded to the parent.

In the nozzle, a lining sleeve material is formed of the same or the same alloy material as the clad material in the same manner as the clad material is formed in the matrix of the main body.

Since the main body of the main body forms a cylindrical body by drying a disk of a certain thickness into a cylindrical shape, the area where the nozzles are joined is formed into a curved surface with a deviation, and the curved surface and the inner surface of the nozzle also have a curved surface and the inner surface of the nozzle flows in and out of the fluid. In order to minimize the interference of the fluid in the lining, the inner surface lining for sealing the curved portion of the base of the nozzle and the opening of the mother body of the main body is formed, and the cylindrical lining sleeve mounted on the inner surface of the nozzle The upper end of each of the lining sleeves is sealed with a gasket and a welding treatment on the flange of the nozzle, and the base of the lining sleeve is sealed with a welding treatment with the upper end of the inner lining. The end of is to be sealed by the cladding material and welding treatment of the mother body of the main body.

Since the nozzle is a fluid flow part, when the leakage occurs at the welded part of the carbon steel part of the nozzle and the upper end of the lining sleeve, which is a joining part of the lining sleeve, and the gasket on the flange part of the nozzle, the highly corrosive fluid is lining. It enters the sleeve and results in corrosive oxidation of the carbon steel of the nozzle.

In particular, since the upper end of the lining sleeve and the gasket on the flange of the nozzle are welded together, they are welded to the extent that the lining sleeve is connected to the gasket, and the welding part is fatigued by fastening bolts and nuts to the flange of the nozzle. The stiffness of the lining sleeve is required, and if the welding treatment is somewhat poor, it can cause leakage immediately.

The present invention is to solve the above problems, the base portion of the cylindrical lining sleeve to be mounted in the nozzle to seal the upper end of the inner lining welded with the cladding material of the mother body of the main body by the welding treatment, the lining sleeve Sealing by welding treatment on the inside of the seat ring attached to the flange of the nozzle, which is the same type and homogeneous material as the lining sleeve material, and the same as the lining sleeve material at the end of the lining sleeve in the joining to the flange portion of the nozzle at the upper end of the nozzle. In order to ensure the sealing of the opening of the nozzle by welding the lining sleeve and the seat ring, it is to provide a structure of a nozzle for the tank tank tank that can prevent the fluid from flowing into the carbon steel of the nozzle by water leakage. .

According to the present invention, a clad material is formed in a mother body of a main body tank, and in forming a lining sleeve in a mother body of a nozzle for circulating fluid in the tank, the base of the lining sleeve is welded with the clad material of the mother body of the main body. The inner lining is welded and sealed, and the upper end of the lining sleeve is welded and sealed with the seat ring mounted on the flange of the nozzle.

The seating ring of the present invention is welded to the inner surface is welded to the end of the lining sleeve to be able to block the flow of fluid to the mother of the body of the tank.

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

As shown in FIG. 1, a heat exchanger, a reactor, and a pressure base (hereinafter, referred to as a tank 10) for recovering waste heat from a tank storing a fire-coating medium or waste water (hereinafter, referred to as a tank 10) may be formed of a carbon matrix 100 of the main body. It is formed of a steel material, the inner surface is to be formed by crimping the corrosion-resistant clad material 110, such as titanium and zirconium to prevent corrosion by fluid flowing in and out of the tank (10).

In addition, the chemical tank 10 has manholes and nozzles 200 formed therein to allow the fluid to flow in and out of the tank. As described above, the cladding material 110 may be formed within the mother 100 of the main body of the tank 10. The highly corrosive fluid blocks the inflow into the mother body 100 by compression molding to prevent corrosion and oxidation, and the mother body 100 of the body even in the mother body of the nozzle 200 which distributes the fluid in the tank 10. Similarly, the lining sleeve 210 of corrosion resistant materials such as titanium and zirconium is formed.

As shown in FIG. 3, the mother body 100 of the main body forms a cylindrical body by drying a disk of a certain thickness into a cylinder, so that the nozzle 200 is formed into a curved surface having a deviation in the portion to which the nozzle 200 is joined. ) Is made of carbon steel material and the curved surface and the inner surface of the nozzle also have a deviation as shown in FIG. 2 so as to minimize the interference of the fluid to the inflow and outflow of the fluid by the surface treatment, so that the nozzle 200 is welded to the mother body of the main body. It is fixed.

And, as shown in Figure 4, the nozzle 200 is provided with a cladding material, such as the lining sleeve 210, the inner lining 220 and the seat ring 230, the material of which is titanium and zirconium or alloys thereof Corrosion resistant material.

First, as shown in Fig. 2, the nozzle 200 is processed by turning the inner diameter 201 with a carbon steel material, and the flange portion 250 is processed flat, and the bolt hole is processed. In particular, in the present invention, the welding groove 232 is formed in the inner surface of the seat ring 230 in the formation of the seat ring 230 to be welded to the flange portion 250 to form a lining sleeve 210 to be described later Machining, such as turning, is performed to weld with the upper end of the

As a result, a cladding material such as a lining sleeve 210, an inner lining 220, and a seat ring 230 may be formed in the inner diameter 201, the flange portion 250, and the welding groove 232 of the nozzle 200. It becomes possible.

The lining sleeve 210 is a diameter of the dimension that can be inserted into the inner diameter of the nozzle 200, the cross section is located on the inner surface of the nozzle 200 to the length of the straight portion, the base of the lining sleeve 210 The part is welded (W1) with the inner surface lining 220 is formed with a deviated curved surface formed in the base portion of the nozzle (200).

When the capacity of the tank 10 is large and the nozzle 200 is large, the welding W1 of the lining sleeve 210 and the inner lining 220 is to be welded in a state of being bonded to the nozzle 200. Preferably, in the case of being generally small, the inner lining 220 is first welded to the bottom of the lining sleeve 210, and then the sleeve of the lining sleeve 210 and the inner lining 220 is integrally formed. You may make it assemble to the inner surface of 200). In addition, the lining sleeve 210 and the inner surface lining 220 may be molded into a single body to be mounted on the inner surface of the nozzle 200.

When the lining sleeve 210 and the inner lining 220 are integrated as described above, the circumferential surface of the inner lining 220 is welded with the cladding member 110 of the mother body 100 of the main body, thereby forming the mother body 100 of the main body 100. The cladding material 110 and the inner lining 220 of the nozzle 200 can be sealed.

In particular, the present invention is shown in Figure 4a, b in the airtight bonding of the upper end of the lining sleeve 210 of titanium and zirconium or their alloy material to the carbon steel of the flange portion 250 that is the opening of the nozzle 200 As shown, the base of the lining sleeve 210 is to seal the inner lining 220 and the weld (W1) welded to the clad material 110 of the mother body of the main body, the upper end of the lining sleeve 210 Is welded to the seat ring 230 mounted on the flange portion 250 of the nozzle 200 (W2) to seal.

That is, the seat ring 230 has a welding groove 232 formed on the inner surface thereof to prevent leakage of the opening of the nozzle 200 by the end of the lining sleeve 210 and the welding (W2).

Since the welded portion of the clad material is kept airtight by the clad material as described above, it is possible to prevent the fluid from flowing into the carbon steel of the nozzle due to leakage.

The lining sleeve 210 and the seat ring 230 is a corrosion resistant material of the same kind or alloys thereof, such as titanium or zirconium.

In addition, as shown in FIG. 4, the circumferential surface 231 of the seat ring 230 of the present invention and the flange portion 250 of the nozzle 200 are welded and fixed with silver or silver alloy to fix carbon steel of the nozzle 200. The air tightness of the overlining sleeve can be secured to prevent the inflow of highly corrosive and oxidizing fluids flowing through the nozzle.

As described above, the present invention allows the base portion of the cylindrical lining sleeve mounted in the nozzle to be sealed by welding treatment with the upper end of the inner lining welded to the clad material of the mother body of the main body, and at the same time, the nozzle of the upper end of the lining sleeve. The lining by sealing the end of the lining sleeve at the end of the lining sleeve with a welding treatment inside the seat ring mounted on the flange portion of the nozzle and of the same and homogeneous material as the lining sleeve material. The welding of the sleeve and the seat ring ensures the sealing of the opening of the nozzle to prevent the fluid from flowing into the carbon steel of the nozzle due to leakage.

Claims (2)

In the cladding material 110 is formed in the mother body 100 of the main body of the fuel carrier tank, and in forming the lining sleeve 210 in the mother body of the nozzle 200 for circulating fluid in the tank 10, The base portion of the lining sleeve 210 is sealed with the inner lining 220 and the weld (W1) welded to the clad material 110 of the parent of the main body, the upper end of the lining sleeve 210 is nozzle 200 The structure of the nozzle for the tank mixture tank, characterized in that the sealing is welded (W2) and the seat ring 230 mounted on the flange portion 250 of the). The structure of claim 1, wherein the seat ring 230 is welded to the inner surface of the seat ring 230, and welded to the end of the lining sleeve 210.

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