KR200226235Y1 - Coated Steel Pipe with Enamel Core - Google Patents

Abstract

The present invention relates to a coated steel pipe, and more particularly to a coated steel pipe with an enamel core inserted to insert the enamel core at both ends to prevent damage to the coating portion during welding, so that the tube can be used permanently after pipe joint work. In the coated steel pipe 10, the inner and outer surfaces of the coating layer (10a, 10b) is formed, the groove 21 is inserted into the inner diameter of both ends of the coated steel pipe 10, the heat-resistant packing 30 is formed It is composed of a heat-resistant enamel core 20, so that the inner diameter of the coated steel pipe 10 and the enamel core 20 is closely held by the heat-resistant packing 30, damaged inside the coated steel pipe generated during welding It is designed to protect the surface without contaminating the fluid flowing through the steel pipe and to prevent secondary corrosion of the damaged surface of the fluid so that the steel pipe can be used semi-permanently. .

Description

Coated Steel Pipe with Enamel Core

The present invention relates to a coated steel pipe, and more particularly, to a coated steel pipe in which the enamel core is inserted so that the coating part is not damaged during welding by inserting the enamel core at both ends so that the tube can be used semi-permanently after the pipe joint work. .

In general, a steel pipe with a diameter of 15 to 1000 mm is supplied with a coating layer on the inner and outer surfaces of the steel pipe to prevent corrosion. In the conventional domestically produced coated steel pipe, a liquid epoxy coated steel pipe and polyethylene are used. Coated steel pipes.

1 is a cross-sectional view showing the details of the end of the conventional coated steel pipe, showing a state in which the coating layers (1a, 1b) of liquid epoxy or polyethylene are formed inside and outside the pipe (1).

FIG. 2 is a cross-sectional view showing a state in which a conventional coated steel pipe is connected, and welded portions 1c are formed on two tubes 1 and 1 ', and heat is applied to the coated portions 1a and 1a' on the outer surface by welding heat. Although it does not affect, it shows that the damaged part 1d has generate | occur | produced in the coating part 1b, 1b 'of the inner surface.

Therefore, when welding and connecting the coated steel pipe, the life of the pipe is reduced by damage of the welded portion and the coated portion of the inner surface of the tube by the heat of welding, and the inside of the damaged tube is corroded to contaminate the fluid passing through the pipe. Will occur.

In addition, in the Utility Model Registration Application No. 95-35833 by the applicant, when connecting the coated steel pipes to the joint members such as sockets, elbows, tee and ear sockets, as shown in Figure 3, the inner and outer surfaces The enamel core 5 is inserted into and fixed to the inner diameter of the portion where the flange 4 of the joint member connecting to the coated steel pipe 1 having the coating layers 1a and 1b formed thereon is welded, and by the heat-resistant packing 6 By keeping the enamel core 5 in close contact with the inner diameter of the flange 4 of the joint member, an anti-corrosion enamel core is designed to prevent leakage of fluid and to protect the damage of the welded portion 1c. There is a bar.

However, when connecting the steel pipe and the steel pipe, not when connecting the joint member and the steel pipe, in particular, when connecting the steel plates with a narrow inner diameter (less than 600 mm) and long (standard: 6 m) to each other, it is impossible to access the inside of the connection part. Therefore, there was a problem that the above method cannot be used.

The present invention is intended to solve the above-mentioned drawbacks, and to protect the inner coating of steel pipes when connecting steel pipes with narrow inner diameters (less than 600 mm) and long (6 m) lengths, to reduce the life of steel pipes after connection. To provide a coated steel tube with enamel cores inserted therein that does not contaminate the fluid by corrosion of the tube.

This invention is achieved by inserting a high heat treatment enamel core at both ends of the coated steel pipe.

1 is a cross-sectional view showing the details of the ends of the conventional coated steel pipe.

2 is a cross-sectional view showing a state in which a conventional coated steel pipe is connected.

3 is a cross-sectional view showing a state in which a corrosion preventing core of a fitting is installed in another conventional coated steel pipe.

Figure 4 is a cross-sectional view showing a coated steel pipe inserted enamel core of the present invention.

Figure 5 is a cross-sectional view showing the details of the end of the coated steel pipe is inserted enamel core of the present invention.

6 is a cross-sectional view showing a state in which the coated steel pipe is inserted into the enamel core of the present invention.

7 is a cross-sectional view showing another embodiment of the coated steel pipe is inserted enamel core of the present invention.

Figure 8 is a cross-sectional view showing another embodiment of the coated steel pipe is inserted enamel core of the present invention.

* Explanation of symbols for main parts of the drawings

10: coated steel pipe 10a, 10b: coated surface

20: Enamel Core 21: Home

30: heat resistant packing 40: heat resistant adhesive

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a cross-sectional view showing a coated steel pipe inserted enamel core of the present invention, Figure 5 is a cross-sectional view showing the details of the end of the coated steel pipe inserted enamel core of the present invention, the coating surface 10a, 10b The enamel core 20 is inserted into both ends of the coated steel pipe 10 in which the enamel core is formed, and the enamel core 20 has a groove 21 formed therein, and the heat-resistant packing 30 is mounted thereon.

The enamel core 20 is a heat-resistant material that can withstand 900 ° C heat and can withstand the heat of welding at the time of welding, the heat-resistant packing 30 is also formed of a heat-resistant and oil-resistant material, fluorocarbon rubber It is preferable to use heat-resistant packing of materials, but other heat-resistant packings used for corrosion resistance of rockets or chemical plants may be used.

Referring to the operation and effects of the coated steel pipe is inserted into the present invention enamel core by the above configuration as follows.

6 is a cross-sectional view showing a state in which a welded coated steel pipe into which the enamel core of the present invention is welded, wherein the enamel core 20 is inserted into both ends of the present invention, and two coating layers 10a and 10b are formed on the inner and outer surfaces thereof. The welding site A is formed by contacting and welding both ends of the coated steel pipes 10 and 10 '.

As described above, since the enamel core 20 can be held closely by the heat-resistant packing 30 in the inner diameter of the coated steel pipe, the weld parts damaged by the welding are protected only by the enamel core 20. Rather, since both parts of the enamel core 20 are held by heat and oil resistant heat-resistant packings 30, it is possible to prevent the ingress of fluid to prevent secondary corrosion.

7 is a cross-sectional view showing another embodiment of the coated steel pipe inserted enamel core of the present invention, after applying the heat-resistant adhesive 40 to the outer peripheral surface of the enamel core, inserted into the inner surface of the steel pipe 10, the external welding during welding When the heat-resistant adhesive 40 is melted by heat, it can be seen that the adhesive is coated again. At this time, when the heat resistant adhesive 40 is applied to the enamel core 20 and inserted into the steel pipe 10, the adhesive is prevented from being driven or flowing to one side, and when the heat resistant adhesive 40 is melted by welding heat. An annular pleat 22 of the enamel core 20 is formed to prevent the adhesive from flowing out, and a groove 21 into which the heat-resistant packing 30 is inserted is formed at an end thereof, and thus the heat-resistant packing ( 30) to isolate the coating surface from the fluid.

The heat resistant adhesive 40 is used in an automobile muffler, a heater pipe, a boiler pipe, and the like, and a commercial temperature is about 800 ° C. to about −30 ° C., and an excellent flame resistance adhesive may be used, but other adhesives having excellent heat resistance may be used. .

In addition, Figure 8 is a cross-sectional view showing another embodiment of the coated steel pipe inserted enamel core of the present invention, by applying a heat-resistant adhesive 40 to the outer peripheral surface of the enamel core 20 by processing the enamel core 20 in a screw type After inserting the inside of the steel pipe (10) while turning with a screw will be able to protect the coating on the inner surface from heat. In this case, since the thread 23 is formed in the enamel core 20, the adhesive is spread evenly through the thread 23 without being pushed to one side or flowing down upon insertion, and heat-resistant to the groove 21 at the end. The packing 30 is installed to block the coating surface from the fluid.

It can be used according to the welding method and installation environment among the above embodiments.

The present invention as described above is fixed by inserting the enamel core at both ends of the coated steel pipe and at the same time to maintain the inner diameter of the steel pipe and the enamel core closely by heat-resistant packing, to protect the damaged surface inside the steel pipe generated during welding By contaminating the fluid flowing through the steel pipe, and also prevent the secondary corrosion of the damaged surface of the fluid is to devise an effect that can use the steel pipe semi-permanently.

Claims (3)

In the inner and outer coated steel pipe, it is composed of a heat-resistant enamel core having a groove for inserting the heat-resistant packing, which is inserted into the inner peripheral surface of both ends of the coated steel pipe, the inner diameter of the coated steel pipe and the enamel core core heat-resistant packing The coated steel pipe is inserted into the enamel core, characterized in that it is maintained closely by. In a steel pipe coated with an inner surface and an outer surface, the enamel core is formed of a heat-resistant enamel core having an annular pleat formed into an inner circumferential surface of both ends of the coated steel pipe, and having a groove into which a heat-resistant packing is inserted at one end thereof. A coated steel pipe with an enamel core inserted therein, wherein the coated steel pipe is adhered to the coating part on the inner circumferential surface of the steel pipe by a heat resistant adhesive, so that the inner diameter of the coated steel pipe and the enamel core are tightly maintained by heat-resistant packing. A steel pipe coated with an inner surface and an outer surface, wherein the enamel core is formed of a heat-resistant enamel core having a thread formed therein and inserted into an inner circumferential surface of both ends of the coated steel pipe, and having a groove into which a heat-resistant packing is inserted. The coated steel pipe is inserted in contact with the coating portion of the inner circumferential surface of the steel pipe, so that the inner diameter of the coated steel pipe and the enamel core are closely maintained by the heat-resistant packing.