KR200319739Y1 - Device for coating inside of a special connection pipe with synthetic resin powder - Google Patents

Abstract

The present invention relates to an inner surface synthetic resin coating apparatus for a release tube, and provides a inner surface synthetic resin coating apparatus for a release tube configured to rotate the release tube by gripping the longitudinal center of gravity of the release tube to spray the synthetic resin powder on the inner surface of the heated metal tube. Synthetic resin powder is introduced into the tube to be completely filled without spraying through and then the tube is rotated to deposit the synthetic resin powder on the inner surface of the heated tube. It is possible to easily coat with.

Description

DEVICE FOR COATING INSIDE OF A SPECIAL CONNECTION PIPE WITH SYNTHETIC RESIN POWDER}

The present invention relates to an inner surface synthetic resin coating apparatus for a release tube, and more particularly, to a coating apparatus that enables to easily coat a synthetic resin with a uniform thickness on the inner surface of the tube.

Metal pipes used for seawater piping of ships are coated with synthetic resins such as polyethylene on their inner surfaces to prevent their inner surfaces from being corroded by seawater.

In general, in order to coat the synthetic resin on the inner surface of the metal tube, the metal tube is heated to a predetermined temperature (for example, 250 ° C. to 300 ° C.), and then the metal tube is rotated about its axis while being fixed on the inner surface thereof. The synthetic means in a powder state is sprayed by the spray means. Therefore, the spun synthetic resin powder is deposited on the inner surface of the hot metal tube, thereby coating the inner surface of the synthetic resin powder.

Conventional tube inner surface synthetic resin coating apparatus, as shown in Figure 3, the tube rotating means (not shown) for rotating the heated tube (1) about its horizontal center axis, and the inner surface of the tube (1) It consists of a spray means 2 for spraying the synthetic resin powder.

The injection means 2 has a lance 3, which is inserted horizontally in the central axis portion of the tube 1 and supplies synthetic resin powder to a nozzle to be described later, and two lances attached to the tip of the lance 3. It consists of the nozzle 4 provided with the injection hole 5.

In the conventional tube inner surface synthetic resin coating apparatus described above, the injection means 2 is horizontally inserted into the heated tube 1, and the tube 1 is rotated about the horizontal center axis by the tube rotating means. . Then, the lance 3 is pulled out of the tube 1 while the synthetic resin powder is pumped by air in the lance 3.

Thereby, the synthetic resin powder in the lance 3 is sprayed on the inner surface of the pipe 1 at the head office hole 5 of the nozzle 4. The synthetic resin powder sprayed on the inner surface of the tube 1 is cured by the heat retained by the tube 1 to form a coating film 6 on the inner surface of the tube 1.

However, in such conventional inner tube synthetic resin coating apparatus, since the synthetic resin powder in the lance 3 is pushed to the nozzle 4 by air, increasing the amount of the synthetic resin powder to increase the thickness of the coating film increases the synthetic resin powder supply rate. The pulsation is generated, the coating film formed on the inner surface of the tube is a concave-convex shape or a spiral shape, the smoothness is damaged, there is a problem difficult to form a uniform coating film.

In particular, this problem becomes more remarkable if the size of the tube becomes large and the supply amount of the synthetic resin powder increases.

In addition, the conventional pipe inner synthetic resin coating apparatus has a problem that it is difficult to insert the injection means in the curved portion when the shape of the pipe is a release pipe such as elbow, T-shaped, Y-shaped, cross-shaped.

The present invention is to solve the above problems, it is an object of the present invention to provide a pipe inner surface synthetic resin coating device configured to rotate the release tube by holding the longitudinal center of gravity of the release tube.

1 is a front view of the inner surface synthetic resin coating device for a release tube of the present invention,

Figure 2 is a side view of the inner surface synthetic resin coating device for a release tube of the present invention, and

3 shows a coating apparatus of the prior art.

The inner surface synthetic resin coating apparatus for a release tube for achieving the above object has a lower portion fixed to the ground and an intermediate portion installed vertically upward from one side of the upper surface of the lower portion and an upper portion disposed on the intermediate portion. A frame, a hollow cylinder having a through hole formed therein, fixed to an upper surface of an upper portion of the frame, a rotating shaft rotatably installed through a bearing in the through hole of the support, and a circular plate having a hole formed in the center thereof. A circular rotary table having a center fixed to one end of the rotary shaft, a large-diameter circular gear fixed integrally to a rear surface of the rotary table, a second small-diameter drive gear engaged with the large-diameter circular gear, A drive shaft is integrally connected to the second drive gear of small diameter and fixed to an upper portion of the support; It characterized in that it comprises a pipe holding means installed on the front of the rotary table.

Hereinafter, with reference to the drawings will be described with respect to the inner surface synthetic resin coating apparatus and method for a release tube. In this embodiment, the tube 1 is illustrated as an elbow type tube.

As shown in Figure 1 and 2, the inner surface synthetic resin coating apparatus for a release tube of the present invention, the frame 10, the support 20, the rotary shaft 30, the rotary table 40, the motor 50 and the pipe | gripping tool 60 are comprised.

The frame 10 includes a lower portion 11 fixed to the ground, an intermediate portion 13 installed vertically upward from one side of the upper surface of the lower portion 11 and an upper portion 15 installed on the intermediate portion 13. Consists of.

The support 20 is fixed to the upper surface of the upper portion 15 of the frame 10 by bolts or the like. The support 20 is a hollow cylinder having a through hole 21 formed therein.

The rotating shaft 30 is inserted into the through hole 21 of the support 20, and is rotatably installed in the through hole 21 via a bearing 31 between the through holes 21.

The center of the circular rotary table 40 is fixed to one end of the rotary shaft (30). The circular rotary table 40 has a hole 41 formed at the center thereof, and the hole 41 is tightly fitted to the outer circumferential surface of the rotary shaft 30, and then fixed to the key groove formed in the rotary shaft 30. Since the key groove and the key are known technologies, detailed descriptions and illustrations will be omitted.

A large diameter circular gear 43 is integrally fixed to the rear surface of the circular rotary table 40 by a bolt or the like. The small diameter second drive gear 45 meshes with the large diameter circular gear 43, and the small diameter second drive gear 45 is integrally connected to the drive shaft 51 of the motor 50. The motor 50 is fixed to the upper portion of the support 20 by a bolt or the like, but not shown therein is provided with an electromagnetic brake to maintain the stopped state when the motor is stopped. Since the motor is a known technology, detailed descriptions and illustrations will be omitted.

The tube holding means 60 is provided in the front surface of the circular rotating table 40. The tube holding means 60 is a vice configured to adjust the gripping diameter according to the diameter of the tube to be gripped. The vise is a horizontal pedestal 61 extending forwardly under the front lower portion of the circular rotary table 40, a vertical pedestal 63 installed upward near the distal end of the horizontal pedestal 61, and a circular rotary table 40. V-shaped first clamp 65 is fixedly installed on the front of the (), and the V-shaped second clamp 67 is provided to be movable to the front and rear vertically (63). The first clamp 65 may be replaced with a different degree of projecting forward, as shown by the virtual line in FIG. In addition, the second clamp 67 is moved back and forth by the hydraulic cylinder 69.

Therefore, as shown by the imaginary line, after holding the tube 1 by adjusting the position of the first and second clamps 65 and 67 according to the diameter of the tube 1, the motor 50 is rotated. The small diameter second drive gear 51 rotates in the normal and reverse direction, and when the small diameter second drive gear 51 rotates, the large diameter circular gear 43 rotates. Therefore, since the rotary table 40 in which the large-diameter circular gear 43 is integrally rotated also rotates, the tube 1 also rotates. Here, since the motor 50 is a motor capable of forward and reverse rotation, the pipe 1 can also be forward and reverse rotation.

Hereinafter, a method of coating the inner surface of the tube for release tube with the synthetic resin powder by the coating apparatus of the present invention as described above will be described.

In the present invention, instead of spraying the synthetic resin powder on the inner surface of the heated metal tube (1) through the injection means, the synthetic resin powder is completely introduced into the tube (1), and then the synthetic resin powder is heated by rotating the tube (1). After remaining on the inner surface of (1), the remaining synthetic resin powder is allowed to flow out of the tube (1).

To this end, first, the center of gravity of the heated tube 1 is gripped by the tube gripping means 60.

Next, the rotary table 40 is manually rotated so that one end of the tube 1 is faced down and the other end of the tube 1 is faced up, and the bottom end is sealed with a flange stopper.

Next, after the powder is introduced through the other end of the tube (1) and the other end is sealed with a flange cap.

Next, the tube 1 is rotated by rotating the rotation table 40 by rotating the motor 50.

Next, after a predetermined time has elapsed for the synthetic resin powder to be deposited on the inner surface of the heated tube 1, the rotation of the motor 50 is stopped and the flange caps are removed from both ends of the tube 1 to The remaining synthetic resin powder is allowed to flow through the end of the tube 1 without being deposited on the inner surface. It takes about 1 to 2 minutes for the synthetic resin powder to be deposited on the inner surface of the tube 1 heated to 200 to 300 ° C.

Next, the tube 1 is rotated by rotating the motor 50 to rotate the rotary table 40. The tube 50 is rotated until the fluidity of the synthetic resin film deposited on the inner surface of the tube 1 disappears.

Next, when the fluidity of the synthetic resin film deposited on the inner surface of the tube 1 is lost, the rotation of the motor 50 is stopped and the tube 1 is separated from the coating apparatus.

According to the above-described inner surface synthetic resin coating apparatus for a release tube of the present invention, the synthetic resin powder is completely filled into the tube without spraying the synthetic resin powder on the inner surface of the heated metal tube through a spraying means, and then the tube is rotated to heat the synthetic resin powder. Since the remaining synthetic resin powder is allowed to flow out of the tube after being deposited on the inner surface of the tube, it is possible to easily coat the synthetic resin with a uniform thickness on the inner surface of the tube.

Claims (2)

Frame 10 having a lower portion 11 fixed to the ground, an intermediate portion 13 installed vertically upward from one side of the upper surface of the lower portion 11 and an upper portion 15 provided on the intermediate portion 13. )and, A support cylinder 20 having a through-hole 21 formed therein and fixed to an upper surface of the upper portion 15 of the frame 10; A rotating shaft 30 rotatably installed in the through hole 21 of the support 20 via a bearing 31; A circular rotary table 40 having a center fixed to one end of the rotary shaft 30 as a circular plate having a hole 41 formed in the center thereof; Large-diameter circular gear 43 is fixed integrally to the rear of the rotary table 40, A small diameter second drive gear 45 engaged with the large diameter circular gear 43; A drive shaft 51 is integrally connected to the small diameter second drive gear 45 and fixed to the upper portion of the support 20; Pipe inner surface synthetic resin coating device for a release pipe, characterized in that it comprises a pipe holding means (60) installed on the front of the rotary table (40). According to claim 1, The pipe holding means 60 is a vise configured to adjust the gripping diameter according to the diameter of the pipe to be gripped, The vise includes a horizontal pedestal 61 extending forwardly under the front lower portion of the circular rotary table 40, a vertical pedestal 63 installed upward near the distal end of the horizontal pedestal 61, and a circular rotary table 40. And a V-shaped first clamp 65 fixedly installed at the front of the c), and a V-shaped second clamp 67 movably installed forward and backward on the vertical pedestal 63. The first clamp 65 is replaced with a different degree of protruding forward, The second clamp (67) is a synthetic resin coating device for the inner surface of the pipe for the release pipe, characterized in that moved by the hydraulic cylinder (69) back and forth.