KR200463942Y1 - Painting pretreatment device for a small pipe - Google Patents

Abstract

The present invention relates to a small pipe inner surface pre-treatment apparatus for treating the inner surface of small pipes, such as cast steel pipe steel pipe with roughness suitable for painting.
The present invention is equipped with a mill cut (1) for cutting the roughness work by cutting the inner surface of the small pipe (P) on the drive shaft 22 of the air motor (21) connected to the air compressor, the air motor equipped with the mill cut ( 21 is a mill cut (1) installed at the tip of the boom 41 in the inside of the small pipe (4) which is installed at the tip of the boom (41) of the trolley (4) and rotates from above on the rolling device (5). There is a gist of the present invention in that the inner surface of the wire) can be cut and roughened.

Description

Small pipe inner pretreatment device {PAINTING PRETREATMENT DEVICE FOR A SMALL PIPE}

The present invention relates to a small pipe inner surface pre-treatment apparatus, and more particularly to a small pipe inner surface pre-treatment apparatus for processing the inner surface of small pipes, such as cast iron pipe steel pipe to the roughness suitable for painting.

In general, cast iron and steel pipes, including water and sewage pipes, prevent water from rusting and damage, such as coating the surface to prevent rust of steel and maintaining long-term life. Cement mortar is applied to the surface and dried for 28 days to cover with asphalt-based cortar.

The method of applying the cement mortar does not solve the weak adhesion and deterioration with time, and there are disadvantages such as the possibility of harmfulness and short lifespan. And the like are being developed. (See Korean Patent Registration No. 10-0737344)

And for the coating work of the synthetic resin coating layer, the pretreatment for removing the foreign matter on the inner surface of the pipe to which the coating is applied and giving the appropriate roughness to perform the pretreatment work (roughness work) to make the coating stick well beforehand. The methods of work include shot blasts, shot blasts, sand blasts, and sand blasts, which produce small and uniform scratches on the surface. The roughness of such scratches is called surface roughness.

Surface roughness suitable for painting requires a relatively rough surface treatment of 25 to 75 microns. If this roughness does not come out (too smooth and less than 20 microns), the adhesion of the coating is weak and easily falls.

Regarding the surface roughness of steel or tube, it is mentioned in Korean Unexamined Patent Publication No. 10-2004-0012520, Korean Unexamined Patent Publication No. 10-2006-0062129, and the like. See bibliography.

Reference 1 refers to the operation of blasting the inner surface of the cast iron pipe body portion to make it suitable for the roughness of the painted surface, and reference 2 refers to the operation of pre-processing (polishing) the inner surface of the cast iron pipe.

In addition, the Republic of Korea Patent Publication No. 10-2011-0021284 is a lining of the steel pipe and cast iron pipe consisting of a scraper that is unfolded in the outward direction by the centrifugal force by the rotation of the rotating plate and the scraper roller scrapes the scale by contacting the inner diameter of the steel pipe and cast iron pipe. Surface treatment apparatus is disclosed.

In the Republic of Korea Patent Application Publication No. 10-2010-0074133, by inhaling or spraying the fluid through the stroke portion provided in the middle of the flow path, the cavitation is generated to generate bubbles, and near the stroke portion by the impact force generated when the bubbles are pressed and broken. The surface treatment method and the apparatus which act on the to-be-processed surface of this invention are published.

As described above, the pretreatment work using the short shot blast should secure a certain distance from the painted surface (inner surface) of the workpiece (pipe) for shot ball spraying.In the case of small pipes such as cast iron pipes and steel pipes, The work is as good as in the surface treatment work such as steel plate, while the inner surface (hereinafter referred to as the inner surface) is hard to secure the distance necessary for spraying the shortball as described above. Having difficulty

In other words, the method by the shot blasting cannot secure the distance from the nozzle of the impeller that shots the shot balls to the inner surface. It is difficult.

In order to improve the above-mentioned difficulties, the air nozzle method which supplies the shot ball to the air and sprays it into the cone is selected. However, the spraying efficiency of the shot ball by the air nozzle is low, which requires a lot of work time and the surface roughness for painting. It does not satisfy the paint life is shortened.

In addition, problems such as environmental pollution due to internal dust generation and shot ball spraying, as well as the above method also has a problem that is difficult to work since the space for spraying by injecting air nozzles is narrow in a small pipe having an inner diameter of 200 mm or less. .

(Reference 1) Republic of Korea Patent No. 10-0737344 2007.07.09. p8. (Reference 2) Korean Utility Model Publication No. 20-2011-02086 2011.03.04. p3.

In the present invention, a diamond milling cutter (hereinafter referred to as a mill-cut) is mounted on an air-tool to cut the inner surface of the small pipe while moving the inside of the small pipe that rotates with high-speed rotation, so that it is suitable for painting. We want to provide a pretreatment device that can work.

In addition, the present invention is capable of working by driving the mill cut with air as a driving source, and the cutting method by the diamond cutting tip of the mill cut enables fast working speed and excellent economic effect with long life, and relatively low dust generation compared to shot blast. It is intended to provide an advantage in preventing contamination.

In addition, by forming a spiral directional roughness in the direction perpendicular to the longitudinal direction of the tube, it is possible to increase the adhesive strength and strength in the longitudinal direction, the direction in which the fluid in the pipe flows after the completion of the painting work, urethane, urea that is vulnerable to the relative adhesive strength among commercially used paints It is intended to provide an advantage that is suitable for painting and the like.

Means for solving the problem of the present invention;

According to the invention described in [claim 1]; In the small pipe inner surface pre-treatment apparatus for mounting roughness by cutting the inner surface of the small pipe (P) rotated on the rolling device with the mill cut on the drive shaft of the air motor installed on the boom end of the bogie, the small The horizontal retaining device is formed by eccentrically forming a coupling hole to which the boom is coupled to a circular body having a diameter of 3 to 5 mm smaller than the inner diameter of the tube, wherein the coupling hole of the horizontal holding device is formed by the shortest of the circular bodies from the centerline of the coupling hole. The radius (A) is formed to have the same position as the radius (radius) of the mill cut installed on the boom and configured to be coupled to the boom.The mill cut is a helical milling cutter that is implanted with artificial diamond on the cutting tip of the cutter blade and heat treated. It is characterized by the configuration.

The present invention drives the cutter with air as a drive source, and the cutter is a cutting method using diamond cutting tips to provide a device capable of pre-treatment for painting the inside of small pipes. Compared with blast, there is no input / discharge of shot ball or sand, and only its own cutting chips are discharged, so it is advantageous in preventing environmental pollution because of relatively low dust generation.

By forming the spiral directional roughness in the direction perpendicular to the length of the tube, it is possible to increase the adhesive strength and strength in a specific direction (length direction) after the completion of the painting work, and there is an advantage to enable urethane, urea coating on the inner surface of the small pipe. .

1 is an overall configuration showing an embodiment of the present invention.
Figure 2 is a main part excerpt configuration of the present invention.
Figure 3 is a partial cross-sectional view of the main portion of the present invention.
Figure 4 is a side configuration of the extract excerpts of the present invention.
5 is a perspective view showing a coupling structure of the wheat cut of the present invention.
Figure 6 is a side view of the wheat cut of the present invention.

The present invention is a pre-treatment device that can work with the roughness suitable for painting the inner surface of the small pipe while moving with high-speed rotation by mounting the mill cut in the air tool.

The air tool is composed of an air compressor and an air motor, and a mill cut for cutting the inner surface of the workpiece (small tube) is mounted on the drive shaft of the air motor.

The mill cut is a cylindrical helical milling cutter and heat-treated by implanting artificial diamond in the cutting tip.

And the mill cut and the air tool assembly is provided with a horizontal holding device to maintain a uniform surface during the inner surface processing of the small tube.

Looking at the embodiments of the present invention in detail with the accompanying drawings as follows.

1 is an overall configuration showing an embodiment of the present invention, Figure 2 is an excerpt configuration of the main part of the present invention, Figure 3 is a partial cross-sectional view of the main part excerpt of the present invention, Figure 4 is a partial configuration of the main part excerpt of the present invention to be.

The present invention is equipped with a mill cut (1) to the air tool (2) is configured to pre-treat the device to process the inner surface of the rotating small pipe (P) while rotating at high speed and moving in the longitudinal direction.

The air tool 2 consists of an air compressor and the air motor 21, and the drive shaft 22 of the air motor 21 is equipped with a mill cut 1 for cutting roughness by cutting the inner surface of the small pipe P.

The air tool 2 is configured by connecting an air compressor, which is a general small air pressure supply device, to the air motor 21.

And the mill cut (1) is mounted on the drive shaft (22) of the air motor (21).

The mill cut 1 is a helical milling cutter as shown in Figs. 5 and 6 to implant a heat treatment by implanting artificial diamond in the cutting tip 12 of the cutter blade 11 to form a cutter blade 11 and the cutter blade 11 Should have a typical 30 ° tilt.

{Cutter blade 11 is to be selected differently in accordance with the machining (rotation) speed, to uniform the machining surface and evenly distribute the power to prevent vibration and bring a continuous machining surface.}

Although the mill cut 1 is briefly illustrated in the drawings, for example, it can be implemented in various forms in which artificial diamond is implanted and heat-treated to the cutting tip 12 of a cylindrical helical milling cutter having an outer diameter of 60 mm and a length of 45 mm.

In addition, the air tool (2) is configured to rotate the mill cut (1) mounted on the air motor 21 at 15000 ~ 2000rpm per minute to provide air as a drive source by using the air compressor used for painting work at an additional cost It is possible to increase the work efficiency and maximize the economic benefits through the reduction of efficiency and equipment compatibility.

The air tool 2 equipped with the mill cut 1 is installed on the boom 41 to be connected to the trolley (transfer device) 4 and the mill cut 1 connected to the trolley 4 by the boom 41 is a rolling device. (5) The inner surface is cut by inserting into the small pipe P rotating above.

That is, the air motor 21 of the air tool 2 is installed in combination with the tip of the boom 41 installed in the trolley 4 and mill-cut to the drive shaft 22 of the air motor 21 installed at the tip of the boom 41. (1) to move the trolley (4) in the longitudinal direction of the workpiece (small pipe (P)) while moving the mill cut (1) connected to the trolley (4) with the boom (41) to the mill cut (1) (P) Allow the inner surface to be cut.

As described above, the small pipe (P) is raised on the rolling device (5) and rotates as in the usual painting work, while driving the mill cut (1) while moving the mill cut (1) connected to the trolley (4) inside the roughness Perform the processing.

The mill cut 1 inserted into the rotary pipe (P) is connected to the trolley (4) by the boom (41) is small while moving horizontally in the small pipe (P) in accordance with the movement direction of the trolley (4) Machine the inner surface of the pipe (P).

The inner surface of the small pipe (P) by the mill cut (1) is increased in the longitudinal adhesive strength and strength of the coating material by forming the roughness with the direction in the direction crossing the longitudinal direction of the tube.

In addition, it is possible to solve the problem of adhesion between urethane and urea by holding the screw as if tightening the part of the lack of adhesion of the two-component paint by forming spiral continuous roughness.

On the other hand, processing is performed by cutting inside the pipe, so there is little dust generation, and dust inside the pipe is not leaked to the outside, thereby preventing secondary environmental pollution.

In addition, the mill cut (1) can be expected to be a big economic benefit by the driving power is made by the supply of air, the cutting speed by the artificial diamond, the fast working speed and the long life of the tool.

On the other hand, the boom stand 41 on which the air tool 2 is installed supports the boom stand 41 in the small pipe P to maintain the assembly of the air tool 2 and the mill cut 1 installed therein in a horizontal manner. Combine the horizontal holding device (3) to make the inner surface processing.

The horizontal holding device (3) is formed as a circular body having a diameter of 3 ~ 5mm smaller than the inner diameter of the small pipe (P) is performed as shown in the example shown in Figure 4, the boom 41 is fitted into the circular body The coupling hole 31 is formed eccentrically. Comprising the horizontal holding device (3) in a circular shape with a diameter smaller than the small diameter of the small pipe (P) is a small pipe that the horizontal holding device (3) is supported by the lower portion of the small pipe (P) to maintain the horizontal and the horizontal movement (P) It is to facilitate the internal entry and not interfere with the rotational movement of the small pipe (P).

The coupling hole 31 of the horizontal holding device 3 to which the boom 41 is coupled has a shortest radius A of the circular body from the center line of the coupling hole 31 to the drive shaft 22 of the air motor 21. It is formed in the same position as the radius (radius) of the mill cut (1) provided so that the mill cut (1) provided on the boom 41 is supported horizontally by the horizontal holding device (3).
That is, in the coupling hole 31 formed in the circular body, as shown in FIG. 4, the shortest radius A of the circular body is installed in the boom 41 from its center line in a state in which the boom 41 is coupled to the coupling hole 31. Coupling hole 31 is formed to be equal to the radius of the mill cut (1).

The horizontal holding device (3) is the lower surface (bottom side) of the inner surface of the small pipe (P) that rotates on the rolling device (5) with the shortest radius (A) of the circular body from the center line of the coupling hole 31 to the bottom Supported to maintain the horizontal and in such a state to drive the mill cut (1) is to process the roughness by cutting the inner surface of the small pipe (P).

In addition, the horizontal holding device (3) supports the air motor 21 and the mill cut (1) horizontally installed in the boom 41 as described above, and prevents the sag and vibration of the boom 41 to induce a stable operation Since the horizontal holding device 3 generates friction with the inner surface of the small pipe P that rotates, the horizontal holding device 3 is preferably made of a synthetic resin series having excellent heat resistance and wear resistance.

In order to explain the embodiments of the present invention in detail, the reference numerals used in the accompanying drawings will be briefly described for each reference.
1: Milling Cutter 11: cutter
12: cutting tip
2: Air tool 21: Air motor
22: drive shaft
3: horizontal holding device 31: coupling hole
4: cart 41: boom
5: rolling device
The terminology used in the description of the present invention and the description of the claims, including the description of the above signs, is intended to explain the present invention in the best way, including the entire contents including the purpose and configuration of the invention and the accompanying drawings. It should be understood and interpreted comprehensively and objectively, but it should not be limited to the dictionary meaning only to obscure the meaning and concept of the terms used.

Claims (1)

The mill cut 1 is mounted on the drive shaft 22 of the air motor 21 installed at the tip of the boom 41 of the trolley 4 and rotates on the rolling device 5 by the mill cut 1 at the tip of the boom 41. In the small pipe inner surface pre-treatment apparatus for cutting roughness by processing the inner surface of the small pipe (P),
The horizontal holding device 3 is formed by eccentrically forming a coupling hole 31 to which the boom 41 is coupled to a circular body having a diameter of 3 to 5 mm smaller than the inner diameter of the small pipe P. The coupling hole 31 of (3) is formed such that the shortest radius A of the circular body from the centerline of the coupling hole 31 has the same position as the radius (radius) of the mill cut 1 provided on the boom 41. It is configured to be coupled to the boom 41,
The mill cut (1) is a small tube inner surface pre-treatment device, characterized in that consisting of a helical milling cutter that is implanted and heat-treated artificial diamond in the cutting tip (12) of the cutter blade (11).

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