KR200194745Y1 - Equipment painting of in line manufacturing process for steel pipe - Google Patents

Abstract

The present invention relates to an inline coating device during the manufacturing process of steel pipes.

The present invention is an apparatus for manufacturing a steel pipe for this purpose, is provided in the forming portion, the air blowing unit 10 for washing the inner peripheral surface of the steel pipe; An impeller indirect cooling unit 20 which is provided next to the air blowing unit and cools the high frequency electricity when it generates high heat; A cleaning part 30 provided between the sizing part and the cutting part to wash the outer circumferential surface of the steel pipe; A medium frequency preheating part 40 which is provided next to the cutting part and raises the temperature of the base material to a predetermined level for painting on the steel pipe; A coating and dust collecting part 50 provided next to the medium frequency preheating part, for continuously spraying the required colors according to demands of the demand; It is provided after the painting and dust collecting part, and consists of a drying part 70 by a conveyor which is movable without contamination to the product surface by line contact.

The present invention configured as described above improves the quality and productivity of the product by cleaning the inner and outer surfaces of the steel pipe as well as immediately coating the product surface and transporting it to one side without contamination on the surface by the belt conveyor. I would have to.

Description

In-line coating equipment during steel pipe manufacturing process {EQUIPMENT PAINTING OF IN LINE MANUFACTURING PROCESS FOR STEEL PIPE}

The present invention relates to an in-line coating device during the manufacturing process of steel pipes, and more specifically, to clean the inner and outer surfaces of steel pipes online and immediately paint the surface of the product and transfer them to one side without contamination on the surface by belt conveyor. In order to improve the quality and productivity of the product.

As is well known, the production method of the conventional color steel pipe was produced by the following method.

That is, a general contractor immediately cleans the surface of the product after purchasing a black pipe (washing with acid or shot blasting) and then performing spray painting by hand. After the product was dried to produce a color steel pipe.

However, the prior art as described above, the problem of environmental pollution occurs in the process of washing with acid and the process of shot blasting as well as the problem that the working environment is not good.

In addition, companies that directly produce steel pipes conventionally produce black pipes, remove oil inside and outside the steel pipes, move them to the C-shaped steel process, and then apply the coating or put the steel pipes into the shot blast process line and then paint the surface. It produced steel pipe.

However, the prior art as described above has a problem in that the surface is roughened by the projection by the shot blasting method even when the surface of the steel pipe is coated, and as a result, the quality of the product is deteriorated.

In order to solve the above problems, conventionally, as shown in FIG. 1, an uncoiler unit (UNCOILER) for releasing a hot coil (HOT COIL) sheared from a slitter 100 in a longitudinal direction; One side of the uncoiler unit 110, a hoop cage (HOOP CAGE) 120 for storing the hot coil during welding to continuously operate the equipment; A forming unit 130 installed at one side of the hoop cage 120 to form an initial shape (circle) to be welded; One side of the forming unit 130, the welding portion for welding high frequency (140) to the same level as the base material (WELDING) 140; A sizing unit 150 installed at one side of the welding unit 140 to determine dimensions according to the final shape of the steel pipe; One side of the sizing unit 150 is configured to be provided with a cutting unit (CUTING) 160 for cutting to a suitable length according to the length of the pipe, the company that produces steel pipe and C-shaped steel directly produces a black pipe and then After removing the oil inside and outside, move to the C-shaped steel process, and put the steel pipe to the front coating work, pass through the drying furnace, and then after the back coating and dried to produce a color steel pipe.

However, the conventional technical configuration as described above has a big problem that the double input of manpower and productivity is reduced because the painting work must be performed in a state in which the C-shaped steel production line is structurally stopped when moving to the C-shaped steel coating process.

Furthermore, there has been a problem that there is no conventional system for drying in seconds within 10 seconds.

The present invention has been made in order to solve all the problems of the prior art as described above, the first object is to clean the inner and outer surfaces of the steel pipe on-line, the second object is produced after the cleaning process It is to be able to paint on the surface of the product immediately without interruption of the line, and the third purpose is to transfer the product to one side without contamination on the surface of the steel pipe by the belt conveyor by line contact. The fifth purpose is to provide an in-line coating device during the manufacturing process of steel pipe, which can greatly improve the quality and productivity of the product.

The present invention to achieve this purpose uncoiler for releasing the hot coil sheared in the slitter in the longitudinal direction; A hoop cage for storing hot coils during welding to continuously operate the equipment; Forming part to make the initial shape to be welded; Welding part for high frequency welding at the same level as the base material; A sizing portion for determining dimensions according to the final shape of the steel pipe; An apparatus for manufacturing a steel pipe by a cutting unit for cutting along a length of a pipe, the apparatus comprising: an air blowing unit provided at a place of the forming unit and cleaning the inner circumferential surface of the steel pipe by ejecting air through a nozzle; An impeller indirect cooling unit which is provided at one side of the air blowing unit and cools the high frequency electricity by inducing high frequency electricity to the steel pipe which runs along the outer periphery of the impeller core; Cleaning is provided between the sizing portion and the cutting portion, the discharge pipe is connected to one side end of the entry pipe is formed in the ejection hole in place, the outer circumferential surface of the entry pipe is provided with a housing connected to the hose through the cleaning to clean the outer circumferential surface of the steel pipe part; Is provided on one side of the cutting portion, the medium frequency preheating unit for raising the temperature of the base material to a certain level for painting on the steel pipe; A coating and dust collecting process provided at one side of the medium frequency preheating process and painting the necessary colors in a continuous spray type according to demands of demand; It is provided on one side of the painting and dust collecting process, the drive shaft and the driven shaft is provided in both places of the support, the belt is connected to the outer peripheral surface of the drive shaft and the driven shaft, the drive pulley is connected to the motor at one end of the drive shaft It is configured so that both places of the belt is provided with brackets at regular intervals, and a support shaft is provided between both brackets, and a rotation roller is provided on the outer circumferential surface of the support shaft to move the product surface without contamination by line contact. It provides an in-line coating device during the manufacturing process of the steel pipe, characterized in that the drying unit by a conveyor.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this purpose are as follows.

Figure 1 (a) is a plan view of a schematic configuration showing a state of manufacturing a conventional steel pipe,

(b) is a block diagram which shows the procedure of the state which manufactures a steel pipe conventionally.

Figure 2 (a) is a plan view of a schematic configuration of the in-line coating device during the manufacturing process of the steel pipe applied to the present invention,

(b) is a principal part front view with respect to FIG.

Figure 3 is a block diagram showing the procedure of the in-line coating method of the steel pipe manufacturing process applied to the present invention.

Figure 4 (a) (b) is applied to the present invention is a front view and a side view showing a technical configuration for washing the inner surface of the steel pipe.

Figure 5 is a cross-sectional view showing the main components of the impeller indirect cooling process applied to the present invention.

6 (a) is a front view showing a technical configuration for washing the outer surface of the steel pipe is applied to the present invention,

(b) shows sectional drawing of the principal part operating state of the technical structure shown to Fig.6 (a).

7 is a front view showing a medium frequency preheating device and a painting chamber and a dust collecting device applied to the present invention.

Figure 8 (a) is a plan view showing a dry conveyor applied to the present invention,

(b) is a front view showing a dry conveyor applied to the present invention,

(c) is a side view showing a dry conveyor applied to the present invention,

(d) is an enlarged cross section showing the main part of the dry conveyor applied to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: AIR BLOWING part 20: IMPEDER indirect cooling part

30: CLEANING part 40: Medium frequency preheating part

50: coating and dust collecting part 70: drying part by a conveyor (CONVEYOR)

100: slitter part 110: uncoiler part

120: HOOP CAGE part 130: FORMING part

140: welding part 150: sizing part

160: cutting part 170: packing part

In-line coating device during the manufacturing process of the steel pipe applied to the present invention is configured as shown in Figures 2 to 8, wherein reference numeral 100 is a slitter (SLITTER) which is a kind of shearing machine.

Reference numeral 110 is an uncoiler (UNCOILER) portion for releasing the hot coil (HOT COIL) sheared in the slitter 100 in the longitudinal direction. And one side of the uncoiler 110 is provided with a hoop cage (HOOP CAGE) 120 for storing the hot coil during welding to continuously operate the equipment.

In addition, the reference numeral 130 is a forming unit 130 is formed on one side of the hoop cage 120 to create an initial shape (circle) to be welded, the one side of the forming unit 130 and the base material A welding part 140 for high frequency welding at the same level is provided.

Reference numeral 150 denotes a sizing unit, and the sizing unit 150 is installed at one side of the welding unit 140 to determine dimensions according to the final shape of the steel pipe.

And one side of the sizing unit 150 is provided with a cutting unit (CUTING) 160 for cutting to a suitable length according to the length of the tube.

In the present invention, in particular, the nozzle 11 is installed in place of the forming unit 130 so that water does not accumulate on the inner circumferential surface of the aero steel pipe supplied by the apparatus not shown in the drawing, and at the same time, air blowing the inner circumferential surface of the steel pipe to remove cutting oil. The technical configuration of the (AIR BLOWING) section 10 is included.

In addition, the forming unit 130 has a technical configuration of the impeller (IMPEDER) indirect cooling unit 20 to cool the high frequency electricity generated by inducing high-frequency electricity in the process of moving the steel pipe to the outer periphery of the impeller core 21 This will be included.

Numeral 30 is a technical configuration of the outer peripheral surface cleaning (CLEANING) of the steel pipe to clean the outer circumferential surface of the steel pipe, the discharge pipe 36 is connected to one side end of the entry pipe 34 in which the ejection hole 35 is inclined to one side, The outer circumferential surface of the entry pipe 34 is provided with a housing 31 in which a hose 33 is connected to the through hole 32.

In addition, the present invention is provided with a medium frequency preheating unit 40 to raise the temperature of the base material to a certain level for painting on the steel pipe after the cutting unit 160 as well as the demand of the next after the medium frequency preheating unit 40 The coating and dust collecting part 50 which paints the required color by continuous spray type according to a request is provided, This coating is coating a steel pipe by a general spray method, and dust collection is provided with the technical structure of the general absorption system.

One end of the painting and dust collecting part 50 is provided with a drying part 70 by a conveyor which is movable without contamination on the surface of the product by line contact, and the driving shaft 74 and the driven shaft in the right places of the support 71. A 74a is provided, and a belt 75 is connected to the outer circumferential surfaces of the drive shaft 74 and the driven shaft 74a, and a drive pulley 73 is connected to the motor 72 at one end of the drive shaft 74. Configured to be driven. In addition, the brackets 76 are provided at both positions of the belt 75 at predetermined intervals, and the support shafts 78 are provided between the two brackets 76, and the outer roller has a rotation roller. 77 is provided, and the uneven part 77a is provided in the outer peripheral surface of this rotating roller 77 by a fixed space | interval.

In addition, reference numeral 60 denotes a chamfering part, which is provided at one end of the drying unit 70 by the conveyor, and when the cooling of the steel pipe is completed, the both ends of the pipe are trimmed so that the appearance may be beautiful.

In addition, one end of the chamfer 60 is provided with a packing portion 80 to keep the product in a certain place.

The operation of the inline coating device during the manufacturing process of the steel pipe of the present invention configured as described above is as follows.

First, the hot coil sheared by the slitter part 100 is released in the longitudinal direction from the uncoiler part 110.

Subsequently, the hoop cage 120 provided at one side of the uncoiler 110 stores the hot coil during welding to continuously operate the facility.

In the state as described above, the one side forming unit 130 of the hoop cage 120 is to make an initial shape (circle) to be welded. At this time, the forming part 130 is to use the water-soluble cutting oil instead of the solid oil of the milk fat as in the prior art to improve the adhesion when mixing with the paint.

In addition, the forming unit 130 is an inner circumferential surface air blowing unit 10 of the inner surface cutting oil removal steel pipe as shown in Figure 4 is performed, the air is ejected through the nozzle 11 in the hot coil entry direction in the crude oil It is to prevent water from accumulating.

Subsequently, after the air blowing unit 10, as shown in FIG. 5, the impeller indirect cooling unit 20 is performed, and the high frequency electric is induced in the process of moving the steel pipe around the outer periphery of the impeller core 21. This is to cool it when high heat is generated. Therefore, induction welding current of hot coil flows efficiently during high frequency welding in the electric welding steel pipe manufacturing process, and there is no problem even when painting on the in-line by indirect cooling method. It is to avoid.

After the impeller indirect cooling unit 20 as described above, a welding unit 140 that performs high frequency welding at the same level as the base material is performed. Next, the welding unit 140 is shaped and dimensioned according to the final shape of the steel pipe. Sizing unit 150 to determine the is performed sequentially.

Then, after the sizing unit 150, as shown in FIG. 6, the outer circumferential surface cleaning unit 30 of the steel pipe is performed, and after the suction of air in the air by the apparatus not shown in the drawing, the entry pipe 34 The outer circumferential surface of the steel pipe proceeds to the hose 33 and the through hole 32 of the housing 31 and the blowing hole 35 of the entry pipe 34 to remove the cutting oil on the exterior of the steel pipe to paint the steel pipe This is to clean the surface of the conductor at the beginning of the process.

Subsequently, after the outer circumferential surface cleaning unit 30 of the steel pipe, a cutting unit 160 for cutting the steel pipe to a predetermined length is performed, and after the cutting unit 160, the medium frequency preheating unit 40 is performed.

That is, as shown in FIG. 7, the medium frequency preheating unit 40 raises the temperature of the base material to a level of about 80 ° C. for painting and moves at a speed of 100 m / min within about 1 m. The steam method is applied.

In addition, one side of the medium frequency preheating unit 40 is provided with a coating and a dust collecting unit 50, according to the demand of the demand to paint the color required on the surface of the steel pipe in a continuous spray method and at the same time to collect dust and discharge to the outside It will be possible.

As described above, after the painting and the dust collecting unit 50 are carried out, the drying unit 70 is performed by a conveyor, so that the surface of the product can be moved without contamination after painting.

That is, as shown in FIG. 8, when the driving pulley 73 is rotated by the driving of the motor 72, the driving shaft 74 connected thereto rotates, and the driven shaft 74a and the driven shaft 74 are rotated by the rotation of the driving shaft 74. The belt 75 covered on the outer circumferential surface is rotated. In addition, by moving the belt 75, a plurality of brackets 76 fixed to the belt 75 at fixed intervals are moved, and the rotary roller 77 installed on the outer circumferential surface of the support shaft 78 has one side of the steel pipe. It is to be transported without contamination on the surface of the product while transferring to.

In more detail, after the coating on the surface of the steel pipe, it takes about 10 seconds to dry, but the line is in line contact with the steel pipe due to the uneven portion 77a formed at a predetermined interval on the outer circumferential surface of the rotary roller 77. As a result, the paint is not peeled off, the steel pipe is transferred to one side without contamination, and the painted surface is beautiful.

After performing the drying unit 70 by the conveyor as described above, a general chamfer 60 for trimming both end surfaces of the cooled steel pipe is performed, and after the chamfer 60 is performed to the packing unit 80 By packaging the product, such a process is a feature of the inline coating device during the manufacturing process of the steel pipe of the present invention.

As described above, the present invention is designed to clean the inner and outer surfaces of steel pipes online, and to be able to immediately paint the surface of the product without interruption of the production line after the cleaning process, and by a belt conveyor by line contact. The steel pipe can be transported to one side without contamination. In addition, it is a very useful design that allows the product to be dried at a high speed, thereby significantly improving the quality and productivity of the product.

Claims (3)

An uncoiler part for releasing the hot coil sheared from the slitter in the longitudinal direction; A hoop cage for storing hot coils during welding to continuously operate the equipment; Forming part to make the initial shape to be welded; Welding part for high frequency welding at the same level as the base material; A sizing portion for determining dimensions according to the final shape of the steel pipe; In the steel pipe manufacturing apparatus for manufacturing a steel pipe by a cutting unit for cutting along the length of the pipe, An air blowing unit provided at an appropriate location of the forming unit and cleaning the inner circumferential surface of the steel pipe by ejecting air through a nozzle; An impeller indirect cooling unit which is provided at one side of the air blowing unit and cools the high frequency electricity by inducing high frequency electricity to the steel pipe which runs along the outer periphery of the impeller core; Cleaning is provided between the sizing portion and the cutting portion, the discharge pipe is connected to one side end of the entry pipe is formed in the ejection hole in place, the outer circumferential surface of the entry pipe is provided with a housing connected to the hose through the cleaning to clean the outer circumferential surface of the steel pipe part; Is provided on one side of the cutting portion, the medium frequency preheating unit for raising the temperature of the base material to a certain level for painting on the steel pipe; A coating and dust collecting process provided at one side of the medium frequency preheating process and painting the necessary colors in a continuous spray type according to demands of demand; It is provided on one side of the painting and dust collecting process, the drive shaft and the driven shaft is provided in both places of the support, the belt is connected to the outer peripheral surface of the drive shaft and the driven shaft, the drive pulley is connected to the motor at one end of the drive shaft It is configured so that both places of the belt is provided with brackets at regular intervals, and a support shaft is provided between both brackets, and a rotation roller is provided on the outer circumferential surface of the support shaft to move the product surface without contamination by line contact. In-line coating device during the manufacturing process of the steel pipe, characterized in that consisting of a drying unit by a conveyor. The method according to claim 1, The spray hole is an in-line coating device during the manufacturing process of the steel pipe, characterized in that formed inclined to one side so as to be ejected from the front of the steel pipe proceeds. The method according to claim 1, The outer peripheral surface of the rotary roller in-line coating device during the manufacturing process of the steel pipe, characterized in that the irregularities are provided at regular intervals to be movable without contamination on the product surface by the line contact.