KR101050366B1 - Tube surface treatment device to secure the ease of welding in fin tube manufacturing - Google Patents

Abstract

The present invention relates to a tube surface treatment apparatus for securing the ease of welding in the production of fin tubes, in the fin tube manufacturing apparatus for manufacturing a fin tube by coupling the strip-shaped pin in the spiral direction to the outside of the tube, It is characterized in that it provides a surface roughness to form a rough surface to stably weld the pin to the tube on the outer surface.

The surface roughness part 5 is a pair of support rollers which are arranged in the plural number along the longitudinal direction of the frame 1 and are positioned below the tube T to be rotated and support the tube T. 510 and 520, a pair of primary grinding wheels 530 provided along the longitudinal direction from the upper side of the tube T and grinding the surface of the tube T, and the tube T A pair of secondary sandpaper 540 provided along the longitudinal direction from the upper side to grind the surface of the tube T, and the primary grinding wheel 530 and the secondary sandpaper 540 through a motor driving force Rotating means 560 for rotating, and the rotation angle adjusting means 570 for adjusting the rotation angle so that the primary grinding wheel 530 and the secondary sand paper 540 can be separated from the tube (T) It is composed.

Fin Tube, Fin Tube Automatic Manufacturing Equipment, Tube Surface Treatment Equipment

Description

A tube surface treatment for a fin tube auto manufacturing device

The present invention relates to a fin tube constituting a heat exchanger, and more particularly, when the band-shaped fin spirally welded to the outer side of the tube to be continuously transported, grinding the outer surface of the tube to the rough surface, so that the fin is fast on the surface of the tube. The present invention relates to a tube surface treatment apparatus for securing welding ease in manufacturing a fin tube to be stably welded.

In general, a heat recovery steam generator (Heat Recovery Steam Generator) is applied to improve heat efficiency in cogeneration plants and the like, which is referred to as "HRSG".

In general, when power is produced through a gas turbine in a power plant or the like, the temperature of the exhaust gas generates a high heat of about 200 to 550 degrees, which may be said to have a considerable amount of energy. When such exhaust gas is discharged to the outside as it is, there is a problem that a considerable amount of energy is lost. Waste heat recovery boiler systems are applied in power plants and the like in order to recover energy from exhaust gas recently discharged and use it for other purposes.

The waste heat recovery boiler system generates steam by using exhaust gas to be discharged into the atmosphere, and the steam generated by the waste heat recovery boiler is used to generate electric power by driving a steam turbine.

The waste heat recovery boiler is provided with a plurality of heat exchangers to obtain steam through heat exchange from the exhaust gas of the gas turbine, and in this case, a fin tube having a zigzag shape is used.

The fin tube has a hollow tube and a plurality of fins coupled to the outside of the tube. Here, the coupling of the fin to the tube is intended to increase the heat contact surface to increase the heat exchange efficiency.

The typical fin tube has a spiral finned tube method for improving productivity, and a fin is formed by a heat exchanger in which a band-shaped fin is formed on the outer circumferential surface of the spiral fin tube to spirally form a fin. The advantage is that the process can be maintained continuously without disconnection.

However, there is a problem that wrinkles occur in manufacturing on the fins of the conventional spiral fin tube, and the wrinkles have a disadvantage of rapidly increasing the flow resistance of the air side passing through the heat exchanger.

In addition, in order to reduce the contact resistance between the pin and the tube, or the pin welding, or the spiral surface treatment in the position where the pin is attached, there was a problem that the productivity is lower than expected.

Accordingly, the productivity is greatly improved, the heat transfer area can be sufficiently secured, and a new type of heat exchanger that is advantageous in terms of flow resistance is required, and its production method and apparatus are urgently required.

In addition, the finned tube (Finned Tube) is a spirally wound pin is welded to the outside of the tube during manufacture, the tube is rotated slowly, and the belt-shaped pin drawn out from the uncoiler perpendicular to the tube in the tangential direction In the connected state, the electrode tip is brought close to the tube and the fin, and then a high frequency arc is generated at the contact portion of the tube and the fin to perform the welding operation through the generated arc heat.

In welding the fins to the tube as described above, stable welding is achieved only by vertically erecting the belt-shaped pins that are continuously transported and maintaining a predetermined gap from the tubes. Conventionally, there is no dedicated device for vertically standing the fins. Due to the temporary use of a device made in Korea, there has been a problem that the work is delayed and many welding defects occur.

In addition, since the outer peripheral surface of the tube is smoothly treated when the pin is coupled to the outside of the tube, there is a problem in that welding is not easy during welding.

Accordingly, the present invention was devised to solve the above problems, and an object of the present invention is to enable continuous welding coupling in the spiral direction of the fin in the tube.

That is, the outer surface of the tube is ground to an irregular surface having a small surface roughness value, so that the pins are welded through the grinding surface to ensure ease of welding and stability.

In order to achieve the above object, the present invention, in the fin tube manufacturing apparatus for manufacturing a fin tube by spirally coupling the strip-shaped fins on the outer side of the tube, the welding of the pin to the tube on the outer surface of the tube to be supplied stably It is characterized in that to provide a surface roughness to form a rough surface to be made.

The surface roughness portion,

A pair of support rollers are arranged in a plurality of the longitudinal direction of the frame and is positioned below the tube to be rotated and supported to support the tube. A pair of primary grinding wheel to be provided, along the longitudinal direction from the upper side of the tube and a pair of secondary sandpaper to grind the surface of the tube, the primary grinding wheel and secondary sandpaper through a motor driving force It is preferable to include a rotating means for rotating, and a rotating angle adjusting means for adjusting the rotating angle so that the primary grinding wheel and the secondary sandpaper can be separated from the tube.

The rotating means includes a rotating shaft for rotating the primary grinding wheel and the secondary sandpaper, a driving shaft connected to the rotating shaft and simultaneously rotating them, and a motor driving unit connected to the intermediate portion of the driving shaft to rotate the rotating shaft. It is desirable to make it.

The rotating angle adjusting means includes a connecting member provided with a fixture to be fixed to each of the rotating shafts at one end thereof, and a rotating member coupled to the driving shaft at the other end thereof, and a rotating bar provided to protrude from the rotating spheres; It is preferable to be made of a rotating cylinder for rotating the rotating bar while being connected to each of the rotating bar to move forward and backward through the rod.

Here, the primary grinding wheel and the secondary sandpaper will be able to be provided in pairs, respectively.

Therefore, the present invention is to grind the outer surface of the tube by the first grinding wheel and the second sandpaper to the surface where the relatively fine gap is evenly formed, not the smooth surface, and to allow the pins to be welded through the grinding surface so that the gap is caused by grinding. Through the welding has the effect that can be made quickly and simply.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the tube surface treatment apparatus for ensuring the ease of welding in the production of the fin tube according to the present invention will be described in detail and known techniques related to the present invention are the gist of the present invention. If it is determined that can blur the detailed description thereof will be omitted.

The present invention relates to an apparatus for manufacturing a fin tube (FT) in which one end of a fin (F) having a band shape in a screw direction is wound continuously on the outer side of a hollow tube (T) as shown in FIGS. 1 to 6. In order to ensure the ease of welding of the fin (F) welded to the surface of the tube (T), the surface roughness for securing the ease of welding in fin tube manufacturing to perform the surface roughening operation on the tube (T) (6) It is to provide a tube surface treatment apparatus having a).

In other words, the present invention is a fin tube manufacturing apparatus for manufacturing a fin tube (FT) by coupling the strip-shaped fin (F) in the spiral direction to the outside of the tube (T), the loading on one front side of the frame (1) A tube supply unit 2 for feeding and feeding the fed tube T along the longitudinal direction of the frame 1 one by one, and a tube pushing provided on one side of the frame 1 to continuously guide the tube T. The tube (3), the uncoiler (4) to be continuously released in the state in which the fin (F) is wound, and the tube for ensuring the ease of welding of the fin (F) welded to the surface of the tube (T) A surface roughness portion 5 for performing a surface roughness operation on (T), a fin tube welding portion 6 for coupling a fin F to a surface of the tube T to form a fin tube FT, and the Sludge treatment unit 7 for filtering the treated water of the cooling water supplied when the welding of the fin (F) to the tube (T), and of the frame (1) A fin tube feeder (8) provided on one side and having a fastener for reciprocating forward and backward in a longitudinal direction along a rail provided to the frame (1) and fixing one end of the fin tube (FT), and the pin It is applied to the tube (FT) is provided with a rust preventive liquid coating portion 9 to prevent rust of the fin tube (FT), and a plurality of provided along the longitudinal direction at the rear side of the frame (1), Fin tube guide 10 having a pair of left and right idle rollers to slide the pin tube (FT) raised without interference due to the transfer of the pin tube feeder according to the lifting operation of the lifting cylinder provided; A plurality of pin tubes are provided along the longitudinal direction at the rear side of the frame 1 to slide and support the upper side of the fin tube FT supported by the fin tube guide 10. Fin tube to prevent FT) flow It is hayeoseo comprises a stopper section (11), the fin tube fin tube cutting unit 12 for cutting the (FT) in an appropriate length.

The frame 1 is formed through a plurality of angular pipes to guide the tube T continuously and at the same time continuously the fin tube FT in which the fin F is coupled to the outside of the tube F. It is for conveying.

The frame 1 includes a front body 110a for guiding the tube T and a rear body 110b for guiding the fin tube FT.

The front body 110a is for guiding the tube T, and the tube supply part 2, the tube pushing part 3, and the surface roughness part 5 are located as known in the art.
The tube supply part 2 transfers the tubes T loaded on the front outside of the frame 1 so as to be supplied along the longitudinal direction of the frame 1 one by one.
The tube pushing portion 3 is provided on one side of the frame 1 to continuously guide the tube T through the roller.
The tube uncoiler 4 is introduced while the fin F is unwound in a continuous rolled state.

The rear body (110b) is for guiding the fin tube (FT) anti-rust liquid coating unit 9, fin tube feeder (8), fin tube guide unit 10, fin tube flow prevention unit ( 11), the pin tube cut portion 12 is located.

That is, the frame 1 is formed by separating the front body 110a and the rear body 110b around the fin tube weld 6.

The surface roughness portion 5 is a core technical means of the present invention, and is arranged below the tube T, which is arranged in a plurality in the longitudinal direction of the frame 1 and is rotated and conveyed, the tube T. A pair of support rollers 510 and 520 for supporting the pair and a pair of primary grinding wheels 530 provided along the longitudinal direction from the upper side of the tube T and grinding the surface of the tube T ), A pair of secondary sandpaper 540 provided along the longitudinal direction from the upper side of the tube T and grinding the surface of the tube T, and the primary grinding wheel 530 through a motor driving force. Rotating means 560 for rotating the secondary sand paper 540 and the rotational angle to adjust the rotation angle so that the primary grinding wheel 530 and the secondary sand paper 540 can be separated from the tube (T). Each adjusting means 570 is configured.

The primary grinding wheel 530 has the same outer shape as a known grinding wheel and is formed by forming a relatively rough surface on the outer surface. And it consists of a pair along the longitudinal direction of the tube (T) is coupled to both ends of the rotating shaft 532 to rotate.

The secondary sandpaper 540 has the same shape as the known sandpaper and is formed by forming a sand surface whose outer surface has a small surface roughness value. And it is made of a pair arranged along the longitudinal direction of the tube (T) is coupled to both ends of the rotary shaft is located separately on the coaxial line with the rotary shaft 532 of the primary grinding wheel 530 to rotate.

The rotating means 560, the rotating shaft 532, 542 for rotating the primary grinding wheel 530 and the secondary sand paper 540, and the rotating shaft 532, 542 and the chain 534, respectively A drive shaft 562 connected to rotate them simultaneously and a motor driver 564 connected to an intermediate portion of the drive shaft 562 and a chain 563 to rotate them.

Accordingly, when the motor driving unit 564 is operated, the drive shaft 562 is rotated, and at the same time, the rotary shaft 532 and the secondary sandpaper 540 of the primary grinding wheel 530 connected to the chain 534, 544. Rotating the rotating shaft to rotate the primary grinding wheel 530 and the secondary sand paper 540 is rotated to form a uniform and stable rough surface on the outside of the tube (T) that is rotated and rotated continuously.

The rotation angle adjusting means 570, the fixing member is provided to be fixed to the rotary shafts 532, 542 at one end, respectively, the connecting member is coupled to the rotary sphere rotatably coupled to the drive shaft 562 at the other end ( 582 and 583, pivot bars 584 and 585 provided to protrude from the rotary ball, and pivot bars 584 connected to the pivot bars 584 and 585, respectively, while being advanced back and forth through a rod. Rotation cylinders 586 and 587 for rotating 585.

Accordingly, when the rotation cylinders 586 and 587 are operated at the same time or simultaneously, the rods of the selected rotation cylinders are pulled, and thus the selected rotation bars 584 and 585 are pulled to connect the connection members 582 and 583 to each other. The driving shaft 562 is lifted about the center. Therefore, the selected primary grinding wheel 530 or secondary sandpaper 540 is lifted and separated from the tube T.

Reference numerals 590 and 591 in the drawing denote tension adjusting rollers, which are used to adjust the tension of the chains 534, 544 and 563.

It can be applied as a heat exchanger of a cogeneration plant.

1 is an overall configuration diagram of an automatic fin tube manufacturing apparatus according to the present invention,

2 is a plan view showing the surface roughness in FIG.

3 is a side view of FIG.

4 is an enlarged view of FIG. 3;

5 is a side cutaway view of the state covered with the case in FIG.

Figure 6 is an enlarged view of the main operation state in Figures 2-5.

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

F: Pin T: Tube

FT: fin tube

1: frame 5: surface roughness

510,520: support roller

530: 1st grinding wheel 540: 2nd sandpaper

532,542: axis of rotation 534,544: chain

560: rotation means

562: drive shaft 563: chain

564: motor drive unit

580: rotation angle adjusting means

582,583: connecting member 584,585: rotating bar

586,587: Rotary cylinder 590.591: Tension control roller

Claims (5)

In manufacturing the fin tube FT by helically coupling the strip-shaped fin F to the outer side of the tube T, the tube T loaded from the front outer side of the frame 1 is one by one. A tube supply part 2 for feeding and feeding along the longitudinal direction of the tube, a tube pushing part 3 provided on one side of the frame 1 to continuously guide the tube T, and a fin F In order to ensure the ease of welding of the tube uncoiler (4) and the fin (F) welded to the surface of the tube (T) to be continuously released in the wound state to perform a surface roughening operation on the tube (T) Surface roughness 5, the fin tube welded portion 6 to form the fin tube FT by coupling the fin (F) to the surface of the tube (T), and the fin (F) of the tube (T) Sludge treatment unit 7 for filtering the treated water of the cooling water supplied at the welding coupling, and provided to the rear side of the frame 1 to the frame (1) It is reciprocated forward and backward in the longitudinal direction along the rail provided in the pin tube feeder (8) having a fastener for fixing one end of the fin tube (FT) and the pin tube (FT) is applied to the pin The anti-rust liquid coating part 9 for preventing the rust of the tube FT, and a plurality of provided along the longitudinal direction from the rear side of the frame 1, the lifting cylinder of the lifting cylinder provided on the lower side And a pin tube guide portion 10 having a pair of left and right idle rollers to slide the pin tube FT raised without interference due to the transfer of the pin tube conveyor, and the rear side of the frame 1. A plurality of fin tubes provided along the longitudinal direction in the slide tube to support the upper side of the fin tube (FT) supported by the fin tube guide 10 to prevent the flow of the fin tube (FT) Flow prevention part 11 and the fin tube (FT) In the fin tube production apparatus comprising a fin tube-cutting unit 12 for cutting to an appropriate length, It further comprises a surface roughening portion (5) for performing a surface roughening operation on the tube (T) to ensure the ease of welding of the fin (F) welded to the surface of the tube (T); The surface roughness portion 5, A pair of support rollers 510 and 520 which are arranged in a plurality in the longitudinal direction of the frame 1 and are positioned below the tube T to be rotated to support the tube T, and the tube A pair of primary grinding wheels 530 provided along the longitudinal direction at the upper side of the T and grinding the surface of the tube T, and provided along the longitudinal direction at the upper side of the tube T; A pair of secondary sandpaper 540 for grinding the surface of the tube T, rotation means 560 for rotating the primary grinding wheel 530 and the secondary sandpaper 540 through a motor driving force, Rotating angle adjusting means (580) for adjusting the rotating angle so that the primary grinding wheel (530) and the secondary sand paper (540) can be separated from the tube (T); The rotating means 560, The primary grinding wheel rotated by the rotary shaft and the secondary sandpaper rotated by the rotary shaft, the drive shaft chained to each of the rotary shaft and rotated at the same time, and the motor drive unit chained to and rotated by the middle portion of the drive shaft Wherein the primary grinding wheel and the secondary sandpaper is to be provided in pairs on the same rotary shaft, respectively; The rotation angle adjusting means 580, A fastener is provided at each end to be fixed to the rotary shaft, and at the other end, connecting members 582 and 583 which are rotatably coupled to the drive shaft 562 are coupled to each other, and a pivot provided to protrude from the rotary ball. Bars 584 and 585 and rotation bars 584 and 585 are connected to the rotation bars 584 and 585, respectively, and are made up of rotation cylinders 586 and 587 to rotate the rotation bars 584 and 585 while being rotated forward and backward through the rod. Fin tube manufacturing apparatus comprising a tube surface treatment for ensuring the ease of welding in the fin tube manufacturing. delete delete delete delete

Images