KR19980059330U - Hurenji ball valve with insulation layer - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs.

The present invention relates to a ball valve formed by coating an insulating layer, especially in the flange-type ball valve used for opening and closing the gas.

I. The technical problem the invention is trying to solve.

Conventionally, there is a disadvantage in that the insulator is easily broken by inserting a separate insulator between the valve body and the coupling part, and the insulator is easily broken, and in the case of 2700V, the 3 mm gap is jumped, so that the effect of the insulation cannot be expected at all.

All. The gist of the solution of the invention.

Teflon, a fluorine resin with excellent rust resistance, heat insulation, and electrical properties, is used to coat the outer surface of the coupling portion that is tightly coupled to the valve body to form an insulation layer, which maximizes the effect of insulation. I would have to.

la. Important uses of the devise

Insulated ball valve.

Description

Hurenji ball valve with insulation layer formed.

The present invention is to solve the problem of gas leakage due to the decrease in the adhesion force in the flange type ball valve used for opening and closing the gas, especially when the insulator that is inserted between the main body and the connecting body of the ball valve after the excitation occurs It is to prevent the current flowing through the investment tube as well as aftershocks by forming an insulating layer by coating Teflon, a fluorine resin with excellent rust resistance, heat insulation, and electrical properties, on the connection body screwed with the ball valve body. It is to provide a ball valve which is not easily twisted.

In general, a method of transporting and supplying gas is to bury a pipe in the ground and to control a gas flow in the pipe by installing a ball valve for opening and closing the gas at a predetermined place.

However, current generated by lightning, aftershocks, or the difference in electrical characteristics between the pipes and valves may cause corrosion of various equipments and may cause safety accidents.

Therefore, in recent years, as shown in FIG. 3, the outer periphery of the protrusion 104 is formed at the outer periphery of the coupling body 104 coupled to the valve body 102 to which the ball valve is coupled in order to cut off the current. As a plurality of protrusions 106 are formed at equal intervals for coupling in a Hurenji form, a curved portion 107 extending from the other side is formed, the inclined surface having the same inclination angle as the inclination of the valve on the outer periphery of the curved portion 107 By forming an insulator having 109, an insulator is provided which enables insulation.

However, the above-mentioned insulator has the disadvantage that the plastic insulator is easily broken when it is tightened tightly for the coupling of the gas pipe, and the part where the insulator is pressurized, that is, the part which is tightened with the bolt and the nut and the other part have different pressure, so that perfect airtightness In addition, the conventional insulator is composed of an insulator having a thickness of about 2 mm and is used for insulation and packing, so the gap of 3 mm is jumped at 2700V, so the effect of insulation cannot be expected at all. Is there.

At this time, the thickness of the insulator can be maximized, but the effect of insulation can be maximized. However, if the thickness of the insulator is thick, the adhesion of the insulator will be reduced, so the effect of packing cannot be expected. Therefore, it is difficult to maintain airtightness when the ball valve is closed.

In addition, since the insulator must be manufactured separately according to the size and shape of the ball valve when the insulator is formed, there is a problem in that the manufacturing cost increases and thus the product price increases.

In addition, since the ball valve is made of stainless steel or brass, the plastic material, which is the material of the insulator, has a different coefficient of thermal expansion, so it is difficult to maintain the airtightness due to the shrinkage and relaxation of the insulator according to the temperature change. When the state is twisted, the torsion is severely generated by the insulator, which makes it difficult to maintain airtightness, which may cause safety accidents due to gas leakage.

Therefore, if the valve body and the connecting body are coated with an insulating material to be coupled to the joint, it can solve the problems of the insulation and the function of insulation, such as lightning and aftershocks, but when screwing for screwing Bonding is not combined at once, but because the loosening and tightening is combined repeatedly, there is a disadvantage that the portion coated with the insulating material is easily removed.

The present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is the fluorine resin having excellent corrosion resistance, thermal insulation, electrical properties by charging the fine particles by electrostatic induction action on the surface of the base material by its suction force It is possible to maximize the effect of insulation by forming an insulating layer by coating the outer surface of the coupling part tightly coupled to the valve body with the electrostatic coating to be adsorbed, and also to ensure that the insulating layer is not easily peeled off so that it can be used stably during repeated coupling. .

Another object of the present invention is to form an insulator by spray-coating Teflon, a fluorine resin having excellent heat resistance, weather resistance, and electrical properties, without applying any deformation to the valve, thereby forming an insulator. It can be extended to maximize the effect of the insulation can block the current flowing through the buried pipe to provide a ball valve that can prevent the user from accidental electric shock by flowing the current.

Still another object of the present invention is to provide a ball valve that does not twist easily when an excitation occurs because the insulator is configured by covering and coupling the coupling part without imposing a separate insulator on the valve.

In order to achieve the above object, the present invention encapsulates the coupling portion extending to the flange portion coupled to the valve body provided with the ball valve, thereby charging Teflon, which is a fluorine resin having excellent heat resistance, weather resistance, and electrical characteristics, by electrostatic induction. The insulating layer is formed by coating with an electrostatic coating that adsorbs the surface of the base material by suction force.

1 is a cross-sectional view according to an embodiment of the present invention.

Figure 2 is a cross-sectional view of the separated state of the present invention.

3 is a cross-sectional view of a conventional insulating valve.

Explanation of symbols on the main parts of the drawing

2: valve body 4: assembly

6: coupling part 8: insulating layer

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention. First, in describing each of the drawings, the same components have the same reference numerals as much as possible even though they are shown in different drawings.

As shown in FIGS. 1 to 2, the constitution of the present invention includes a protruding annulus 108 formed at an outer circumferential edge of the assembly 104 coupled to the valve body 102 to which the ball valve is coupled. Inwardly, a plurality of protrusions 106 are formed at equal intervals for coupling in a flange form, and curved portions 107 extending from the other side are formed, and the outer circumference of the curved portions 107 has the same inclination angle as that of the valve. In the well-known insulated ball valve having the inclined surface 109 having, the coupling portion 6 integrally extended to the flange-type coupling body 4 coupled to one side of the valve body 2 has heat resistance, weather resistance, and electrical characteristics. The insulating layer 8 is formed by spray coating Teflon, which is an excellent fluorine resin.

In order to apply the insulating layer 8 as described above, the surface of the application, that is, oil or water on the surface of the coupling part 6 is removed to clean the surface, and then polishing, undercoat, heating and coating are performed. To form an insulating layer.

At this time, as a method for removing oil or impurities, the base material is mounted in a drying furnace and heated to about 400 ° C. to remove oil and impurities on the surface, and the air temperature is maintained for a predetermined time. In order to increase the adhesive strength, after polishing, air and solvent are used to remove impurities from the surface, and the protrusions are removed with sandpaper 400-600, cleaned and undercoat.

Undercoat (UNDER COATS) is coated using a spray gun so that the thickness of the coating layer is uniform, and is left to stand at room temperature by heating to 270 ℃ in an electric furnace after coating. At this time, the heating time is determined according to the thickness of the base material between 60-120 minutes.

Undercoat is maintained at room temperature, after a predetermined time, the undercoat is heated and the base material is checked for contamination during heating, oil and impurities are removed using air and solvent, and the spray is applied with a mid coat (MID-COAT). After conducting the primary heating for 20 minutes in an electric furnace at a heating temperature of 100 ℃, the secondary heating is performed again.

Secondary heating is heated for 60-120 minutes at 427 ° C according to the weight of the base material, and heated for a sudden increase in temperature upon heating, then cooled at room temperature and then subjected to a top coat (TOP COATS).

The top coat is carried out using an electrostatic coating machine (ELECTRO-STATIC M / C), which is a device that ejects paint from the sprayer and charges the fine particles in the mist state by electrostatic induction, so as to adsorb to the surface of the base material by its suction force.

At this time, the thickness of the coating layer is maintained to maintain uniformity, and if bubbles are generated, the uniform product can be obtained.

After the undercoat, heat the oven for about 90-150 minutes at 350-400 ℃.

At this time, the undercoat is repeated according to the film thickness (0.07-0.1 mm / TIME), and the finished surface is obtained by performing detailed inspection on coat surface roughness and pinhole test.

The present invention coats Teflon, a fluorine resin having excellent heat resistance, weather resistance, and electrical properties, by electrostatically inducing the charged particles while enclosing the coupling portion without applying any deformation to the valve, thereby adsorbing onto the surface of the base material by its suction force. Since the insulator constitutes a thin coating layer, the axial length is elongated to maximize the effect of the insulation.

In addition, since Teflon, which has excellent electrical properties, is charged by electrostatic induction, it absorbs Teflon on the surface of the base material by its suction force, thereby forming an insulating layer. Therefore, the insulating layer is not easily peeled off even after repeated use for bonding. It is more convenient to use, and since the insulating material is directly coated on the surface of the coupling part, there is almost no separation between the valve body and the coupling part, so that the torsion due to the excitation rarely occurs.

As described above, according to the present invention, by coating an outer surface of the coupling part tightly coupled to the valve body to form an insulating layer, the electric current flows to the valve through a gas pipe buried underground to block the current flowing through the buried tube. In addition to preventing accidental electric shock accident, it is possible to provide a ball valve that does not cause twisting of the coupling portion by the aftershock.

Claims (1)

Protruding annulus 108 is formed on the outer periphery of the coupling 104 coupled to the valve body 102 to which the ball valve is coupled, and protruding rods 106 for engaging in a flange form are formed at equal intervals. In the well-known insulated ball valve which is formed in multiple numbers, and the curved part 107 extended from the other side is formed, and the inclined surface 109 which has the same inclination angle as the inclination of a valve is formed in the outer periphery of the curved part 107, the said valve body The insulating layer 8 was formed by coating Teflon, which is a fluorine resin having excellent heat resistance, weather resistance, and electrical properties, with the coupling portion 6 extending integrally with the Hurenji type binder 4 bonded to one side of (2). A flanged ball valve having an insulating layer formed thereon.