KR100829162B1 - Apparatus coating inside of pipe and method using the same - Google Patents

Abstract

An apparatus and a method for coating an inner peripheral surface of a pipe are provided to coat the inner peripheral surface of a hollow object such as the pipes equally by moving the pipe or a nozzle forward and backward. An apparatus(1) for coating an inner peripheral surface of a pipe(100) is composed of a nozzle(10) inserted into the pipe and equipped with a tip disposed at the front end and provided with a jetting hole for spraying a coating agent, and a moving unit for moving the nozzle or the pipe forward and backward. A tapered part is formed on the outer peripheral surface of the tip. The jetting hole is formed on the tapered part. The tip is detachably combined with the front end of the nozzle.

Description

Apparatus coating inside of pipe and method using the same}

1 is a plan view showing a coating apparatus according to the present invention.

2a to 5 show each component of the coating apparatus of FIG.

6 and 7 is a state diagram used in the coating apparatus according to the present invention.

** Description of the symbols for the main parts of the drawings **

1: coating device 10: nozzle

11: air supply part 12: raw material supply part

20: vehicle 21: guide bar

22: drive unit 23: guide rail

30: center guide portion 31: clamp

32: support bar 33: bolt

40: pedestal 50: passage guide portion

60: conveyor

The present invention relates to a coating apparatus and method for coating an inner circumferential surface of a tube, and more particularly, to a coating apparatus and method capable of uniformly coating the inside of a tube while advancing and retracting the tube or nozzle.

In general, pipe is a material widely used in daily life or industrial sites, such as cast iron pipes, steel pipes and concrete pipes used as water supply pipes or sewer pipes. These tubes are coated with various coating materials to prevent internal corrosion and to maintain a smooth flow of the fluid flowing inside the tubes.

For example, registered utility model No. 20-0265341 registered after the domestic application is coated with resin mortar inside the pipe to increase the flow rate than conventional concrete pipe, as well as to increase the acid resistance, alkali resistance, sea water resistance and corrosion resistance Disclosed is a concrete pipe that can ultimately extend the life of the concrete pipe.

In addition, the Utility Model Registration No. 20-0189659 discloses a method for manufacturing cast iron pipes and steel pipes to prevent corrosion by coating a synthetic resin film on the inner circumferential surface of cast iron pipes or steel pipes used as water supply pipes or sewer pipes, and the anti-corrosion cast iron pipes and steel pipes produced thereby. Related contents are disclosed.

By coating a specific material on the inner circumferential surface of the tube as described above, a functional improvement can be obtained, and a lot of researches have been made on coating agents.

However, the apparatus and method for coating the coating on the inner circumferential surface of the tube still depends on the manual work.

Accordingly, it is not easy to apply uniform coating, and there are disadvantageous problems in terms of coating time and cost.

The present invention has been made to solve the above problems, an object of the present invention is to provide a fully automatic coating apparatus and method capable of uniformly coating the inside of the tube while moving forward and backward the tube or nozzle.

In order to solve the above technical problem, the apparatus for coating the inner circumferential surface of the pipe (pipe) according to the present invention is inserted into the interior of the pipe nozzle for spraying a coating agent; And moving means for moving the nozzle or the tube forward and backward. In particular, the nozzle has a tapered portion formed on an outer circumferential surface of the tip, and a plurality of injection holes are formed in the tapered portion.

Alternatively, a tip may be detachably coupled to the nozzle, and the tip may be provided with a taper having a plurality of injection holes.

The spray angle of the nozzle is preferably -45 ° to + 80 ° based on the vertical line in the cross-sectional state.

In addition, the moving means includes a guide bar coupled to be perpendicular to the nozzle or pipe; A guide rail disposed in parallel with the nozzle or tube; And a driving unit providing a driving force so that the guide bar moves forward and backward along the guide rail.

In addition, the nozzle is further provided with a center guide portion for moving forward and backward along the inner center of the tube, the center guide portion is a clamp detachable to the outer periphery of the nozzle; And a plurality of support bars protruding from the clamp and inscribed in the tube, wherein the plurality of support bars have the same angle between neighboring support bars.

In addition, the end of the support bar may be further provided with a ball roller that can make a cloud contact with the inner peripheral surface of the tube.

In addition, the front end portion of the nozzle is preferably further provided so that the pedestal can be inserted into the inside of the tube.

In addition, one side passes while the nozzle is guided, the other side is the tube is in close contact, both sides is preferably provided with a pass guide portion formed in a conical shape.

The method for coating the inner circumferential surface of the tube by the present invention comprises the steps of 1) loading the tube; 2) advancing the nozzle or tube to enter the nozzle into the tube; 3) coating the inner circumferential surface of the tube by spraying a coating while reversing the nozzle or the tube; And 4) unloading the tube where the coating process is completed.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the coating apparatus according to the present invention.

Referring to Figure 1, the coating apparatus 1 according to the present invention comprises a nozzle 10 and a moving means.

The nozzle 10 has an air supply part 11 and a raw material supply part 12 formed at one end thereof, and an injection hole for injecting the nozzle 10 is formed at the other end thereof.

In addition, the moving means includes a guide bar 21 which is orthogonally coupled to the nozzle 10, a guide rail 23, and a driving part 22 which moves the guide bar 21 forward and backward along the guide rail 23. It includes the servo motor which is).

2A and 2B, at least one or more center guide portions 30 are detachably coupled to the outer circumference of the nozzle 10. In the present embodiment, the center guide part 30 includes a clamp 31 detachably attached to the outer periphery of the nozzle 10 by bolts 33, and three support bars protruding from the outer periphery of the clamp 31. 32).

By making the angle between the neighboring support bars 32 equal to 120 °, the nozzle can be accurately positioned at the inner center of the tube 100. In addition, the support bar 32 is detachably coupled to the clamp 31 by screwing or the like so as to replace the support bar 32 according to the inner diameter of the pipe 100.

In addition, the end of the support bar 32 should be moved forward or backward along the inner circumference of the tube 100, the ball roller is attached to reduce the friction.

3A and 3B, the tip of the nozzle 10 has a closed center portion 13 formed therein, and a tip having a tapered surface 14 formed therein instead. The tapered surface 14 is formed with a plurality of injection holes 15 for injecting a coating agent. The coating agent is sprayed so as to form a predetermined angle (−β ° to + α °) to the left and the right side with respect to the vertical line in the cross-sectional state of the tip of the nozzle 10, more preferably -45 ° to + 80 ° from the vertical line. To be.

In addition, the tip may be attached to or detached from the tip of the nozzle 10 to adjust the spray angle. As described above, the tip has a closed central portion, a tapered surface is formed at the periphery, and a plurality of injection holes are formed at the tapered surface. By replacing these tips, the spray angle can be easily adjusted.

Referring to FIG. 4, a pedestal 40 is provided in front of the tube 100 to guide the nozzle 10 to enter the inside of the tube 100. However, since the pedestal 40 can also interfere with the center guide portion 30, the pedestal 40 is configured to be elevated and driven. That is, after guiding until the tip of the nozzle 10 enters the inner tip of the tube 100, the pedestal 40 must be lowered so as not to disturb the center guide part 30.

Referring to Figure 5, the coating apparatus according to the present invention is provided with a passage guide (50). The passage guide 50 is formed on both sides of a conical shape, one side is guided through the nozzle 10 while being guided to enter the inner center of the tube 100, the other side is in close contact with the tube 100.

Referring to Figure 6 describes the operation and coating method of the coating apparatus according to the present invention configured as described above.

As shown, when the tube 100 is located on the coating stage while transported on the conveyor 600, the tube 100 is raised to position the front of the nozzle 10. The raised tube 100 is held by a holder (not shown) to prevent flow.

Next, the center guide part 30 is advanced to the right side in the drawing so as to be close to the tip of the tube 100.

Next, the front end of the nozzle 10 is gradually moved (moved to the right side in the drawing) until the front end of the nozzle 40 enters the inner center of the pipe 100 along the pedestal 40 and the passage guide 50.

As such, when the tip of the nozzle 10 enters the inside of the tube 100, the pedestal 40 is lowered so as not to disturb the center guide part 30, and the tip of the nozzle 10 is lowered. Advance until the inner end of the tube 100 is reached.

Next, the inside of the tube 100 is sprayed with a coating while the nozzle 10 is reversed to the left in the drawing to coat the inner peripheral surface (see Fig. 7). At this time, since each support bar 32 of the center guide portion 30 is inverted while being inscribed in the tube 100, the nozzle 10 is moved backward along the center exactly inside the tube 100. do.

When the nozzle 10 is completely separated from the inside of the pipe 100, the pedestal 40 is raised again to support the tip of the nozzle 10.

When the inner coating of the tube 100 is completed in the same manner as above, the passage guide 50 is returned to its original position (left side in the drawing).

Finally, the holder holding the tube 100 is removed, the tube 100 is lowered and seated on the conveyor 60, and then the conveyor 60 is driven to transfer the tube 100.

In the above description, the tube is fixed by the holder while the nozzle is coated while moving forward and backward. On the contrary, the nozzle is fixed and the tube may be coated while moving forward and backward by the moving means. It may also be coated while rotating the tip or tip of the nozzle, or may be coated while rotating the tube.

According to the present invention, there is an effect that can quickly coat the inner peripheral surface of the hollow to-be-processed object.

In particular, since the inside of the pipe or the nozzle while the forward and backward coating, there is an effect that can be uniformly coated.

Claims (20)

In a device for coating the inner circumferential surface of a pipe, A nozzle which is inserted into the inside of the pipe and has a tip formed at an end thereof with an injection hole for injecting a coating agent; And And moving means for moving the nozzle or the pipe forward and backward. The tapered portion is formed on the outer circumferential surface of the tip, and the coating hole is formed in the tapered portion. delete The method of claim 1, And the tip is detachably coupled to the tip of the nozzle. The method of claim 3, wherein The coating angle of the nozzle is characterized in that the coating apparatus -45 ° ~ + 80 ° based on the vertical line in the cross-sectional state. The method of claim 1, The means for moving, A guide bar coupled orthogonally to the nozzle or tube; A guide rail disposed in parallel with the nozzle or tube; And And a driving unit providing a driving force so that the guide bar moves forward and backward along the guide rail. The method of claim 5, wherein Coating device, characterized in that the drive unit is a cylinder or a motor. The method of claim 1, The moving device is a coating device, characterized in that comprises a LM guide. The method of claim 1, Coating device, characterized in that further provided with a center guide portion for allowing the nozzle to move forward, backward along the inner center of the tube. The method of claim 8, The center guide portion, A clamp detachable to an outer circumference of the nozzle; And And a plurality of support bars protruding from the clamp to be inscribed in the tube. The method of claim 9, The plurality of support bar is coating device, characterized in that the same angle between the support bar is provided with the same. The method of claim 9, Coating device, characterized in that the support bar is three or four. The method of claim 9, Coating device, characterized in that the end of the support bar is further provided with a ball roller that can be in contact with the inner circumferential surface of the tube. The method of claim 1, Coating device, characterized in that the support is further provided so that the tip can be inserted into the interior of the tube. The method of claim 13, Coating device, characterized in that the pedestal can be elevated. The method of claim 1, One side passes while the nozzle is guided, the other side is the pipe is in close contact, both sides is a coating device, characterized in that further provided with a passage guide portion formed in a conical shape. The method of claim 15, The passing guide portion is coated, characterized in that the reverse. delete delete delete delete

Images