KR101887963B1 - Heat treatment apparatus of steel pipe - Google Patents

Abstract

The present invention relates to a heat treatment apparatus of a steel pipe. In order to transfer a steel pipe passing through a heat treatment unit, a transferring apparatus provided with a plurality of wheel members is able to adjust a gap and an angle of separated wheel members in a transferring direction of the steel pipe so as to be proper to a rotation speed and a moving speed of the steel pipe and an exterior size change of the steel pipe. In addition, a structure of the heat treatment apparatus is improved so as to be able to quickly adjust a heat treatment condition of the steel pipe.

Description

HEAT TREATMENT APPARATUS OF STEEL PIPE BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a steel pipe pipe heat treatment apparatus, and more particularly to a steel pipe pipe heat pipe pipe pipe which is provided with a plurality of wheel members for transferring a steel pipe pipe passing through a heat treatment unit, To a heat treatment apparatus for a steel pipe pipe which is capable of adjusting the outer diameter of a steel pipe and adjusting the rotation speed and the conveying speed of the steel pipe and improving the heat treatment conditions of the steel pipe .

Generally, in a large annealing furnace capable of accommodating the pipe for heat treatment of a medium and large-sized pipe, the steel is annealed at a relatively low temperature in a furnace after being heated at a certain temperature, and annealed at a high temperature to austenitize And then subjected to a normalizing heat treatment in which air was cooled again

However, the above-mentioned medium-to-large-sized pipe annealing furnace is large in scale, but the cost of using a gas or oil burner is too large to heat the annealing furnace, and the medium and large pipes can not receive heat uniformly in the annealing furnace, There has been a problem of bringing about.

As a prior art for improving this, as disclosed in Korean Patent Registration No. 10-0822252 entitled " Medium and Large Pipe Heat Treatment & Processing Apparatus "(Registered on Apr. 4, 2008), a frame-shaped body portion, A plurality of conveying members which are spaced apart from each other and are inclined in one direction in a planar manner and are connected to a plurality of axes in the form of a paper of a cylinder and whose narrowly- A first sprocket which is separated from the first sprocket and is positioned on the shaft and is separated from the geared bearing and is coupled with the chain and transmits power; A conveying member composed of a secondary sprocket which is coupled with the chain and transmits power; An induction heating body positioned at the center of the body and applying heat of induction heating; A decelerating motor unit positioned at one side of the conveying member located at both ends of the body portion and transmitting power to the conveying member; A nozzle unit for cooling the heat of the conveyance member and a drainage unit for supplying the fluid to the pipe unit, the pipe unit being installed at the outer periphery of the body part, A cooling unit configured; And a control unit which is located apart from the cooling unit and controls the induction heating unit and the cooling unit.

As another prior art related to the conventional steel pipe pipe heat treatment apparatus, as disclosed in Korean Patent Registration No. 10-0670158 entitled " Horizontal transfer type high frequency heat treatment apparatus "(registered on January 10, 2007) A drive unit for supplying a driving force to the first and second transfer units, and a heat treatment unit for heat-treating the workpiece conveyed by the first and second transfer units, Wherein the first and second transfer units comprise a pair of drive shafts arranged along the longitudinal direction on the horizontal table and rotated by the drive unit, a plurality of drive gears provided on each of the drive shafts and rotated together, A feed gear which is meshed with the drive gear and arranged so as to have an inclined axis with respect to the rotation axis of the drive gear, The outer peripheral surface of the conveying roller is inclined by a certain angle so that the material can be continuously conveyed regardless of the shape of the outer peripheral surface of the material.

However, since the conventional middle- and large-sized steel pipe pipes are being transported to the heat treatment unit, a plurality of the feeder pipes are spaced apart from each other along the conveying direction of the steel pipe pipe, There is a disadvantage in that it is not possible to quickly adjust the inclination angle and the width of the conveying device in accordance with the change of the conveying speed of the steel pipe pipe and the variable speed condition of the steel pipe.

Korean Patent Registration No. 10-0822252 entitled " Medium to Large Pipe Heat Treatment & Processing Apparatus "(Registered on Apr. 4, 2008) Korean Patent Registration No. 10-0670158 entitled " Horizontal transfer type high frequency heat treatment apparatus "(registered on January 10, 2007)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a transfer device having a plurality of wheel members for transferring a steel pipe passing through a heat treatment unit, So that the gap and the inclination angle of the wheel member of the steel pipe pipe can be adjusted to suit the change of the outer size of the steel pipe and the rotation speed and the conveying speed of the steel pipe, And to provide a pipe heat treating apparatus.

To achieve the above object, according to the present invention, there is provided a method of manufacturing a steel pipe, comprising the steps of: A kicker capable of lifting and lowering the steel pipe to support the steel pipe passed from the vertical transferring part; A part of which is rotationally driven by a power transmitting part including a driving motor and the other part is idling so as to vertically transfer the steel pipe pipe supported by the kicker to the heat treatment unit side and is arranged in an oblique direction with respect to the conveying direction of the steel pipe pipe, Conveying means having wheel members disposed on both left and right sides of the conveying direction; A left and right adjustment plate rotatably coupled to the support frame and the bottom plate, the support frame supporting the wheel members, the left and right adjustment plates being disposed at left and right sides of the stationary frame in the transport direction of the steel pipe; And an angle adjusting means for adjusting an angle of the wheel member with respect to a conveying direction of the steel pipe for changing a rotation speed and a conveying speed of the steel pipe, wherein the power transmitting portion is provided for the left and right wheel members And are arranged alternately in diagonal directions with respect to one another.

And a gap adjustment means for adjusting the gap between the left and right adjustment plates, wherein the gap adjustment means is arranged to be fixed to the fixed frame and is rotationally driven in forward and reverse directions as external power is applied, A regulating speed reducer connected to the motor shaft of the regulating motor to transmit the rotational force of the regulating motor to the gear box side through the regulating shaft, and a control unit that transmits the rotational force of the regulating gear transmitted through the regulating shaft to the left, right, And a screw portion formed in a screw direction which is engaged with the first and second fixing blocks fixed to the left and right adjusting plates and which are opposed to each other, and the width of the left and right adjusting plates And has left and right sides and a bar that adjust the interval.

The power transmission unit includes a driving motor supported by the bottom plate, and a driving speed reducer transmitting the rotational force of the driving motor to the wheel member.

The kicker includes an upper support having an intermediate portion where a steel pipe is seated, the height of which is lower than the height of the opposite ends, a support provided on a lower portion of the upper support and rotatably connected to the lower support, And an elevating cylinder for elevating and lowering the other side of the upper support.

The angle adjusting means includes left and right link bars connecting the respective bottom plates with connection pins, a fixing bolt formed in the respective bottom plates and coupled to the left and right adjusting plates so as to penetrate therethrough, And the end portions are connected to the left and right link bars so that the end portions pull or push the left and right link bars. The front and back sides are provided with an easel.

The front and rear moving parts are connected to the left and right adjusting plates by a rotating pin and are connected to the connecting brackets provided on the left and right link bars, And a rod member which is moved forward and backward by the fluid pressure supplied into the cylinder body.

Wherein the front and rear moving parts have a first screw bar whose one end is rotatably connected to the left and right adjusting plates by a rotary pin and the first screw part formed at the other end is fastened to the nut body, And a second threaded portion formed on the nut body and having a second thread portion and the other end connected to a connection bracket provided on the left and right link bars by a floating pin, And a nut body for rotating the first and second screw bars in opposite directions.

Wherein the heat treatment unit comprises a heating unit for high frequency induction heating of a steel pipe pipe conveyed by the conveying unit and a cooling unit for cooling a steel pipe pipe passing through the heating unit, The cooling water is supplied to the steel pipe pipe side to pass through, or air and cooling water are supplied to the steel pipe side to control the cooling rate of the steel pipe pipe.

The present invention is characterized in that a wheel member arranged so as to have an angle in an oblique direction with respect to a conveying direction of a steel pipe pipe is disposed on the left and right regulating plates and the conveying means for conveying the middle- It is possible to transfer the steel pipe while rotating the steel pipe, and also to easily control the feed speed of the steel pipe by adjusting the angle of the wheel member using the angle adjusting means.

Further, the present invention has an advantage that the impact on the seat of the steel pipe pipe can be mitigated as the wheel member located on the front side of the heat treatment unit is constituted by the tire.

The present invention can easily adjust the widths of the left and right adjusting plates using the gap adjusting means so that the gap between the left and right wheel members facing each other can be adjusted to simplify the outer diameter of the steel pipe, The steel pipe can be supported.

Since the power transmission portion of the present invention is arranged alternately diagonally with respect to the wheel members disposed on the left and right sides, it is possible to provide a stable rotational transfer force to the wheel member without providing a power transmission portion on the entire wheel member, The steel pipe pipe can be smoothly transported while reducing the cost.

The angle adjusting means includes left and right link bars connecting the respective bottom plates to the connecting pins, a fixing bolt formed in the respective bottom plates and coupled to the left and right adjusting plates so as to penetrate therethrough, And the ends of which are connected to the left and right link bars, respectively, so that the end portions are connected to the left and right link bars to pull or push the left and right link bars, respectively. The left and right link bars can be pulled or pushed according to the operation of the forward and backward moving parts composed of the cylinder device and the turnbuckle member and the movement of the left and right link bars The supporting frame is rotated together with the rotation of the bottom plate rotated in accordance with the rotation of the bottom plate, So as to have a spaced clearance is added to the suspended power transmission to the shaft rotation of the support frame as it is possible to easily adjust the angle of the wheel member to the transfer direction of the steel pipe pipe.

Further, the angle adjusting means of the present invention can precisely control the feeding speed of the steel pipe by adjusting the angle of the wheel member, thereby adjusting the time during which the steel pipe is staying through the heating unit and the cooling unit of the heat treatment unit, The temperature and the cooling temperature can be precisely controlled.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view schematically showing a structure of a heat pipe apparatus for a steel pipe according to the present invention; FIG.
2 is a perspective view showing a state in which a steel pipe is passed through a heat treatment unit by the conveying means of the present invention.
3 is a perspective view showing a state in which a power transmitting portion is disposed in the wheel member, the bottom plate, and the support frame of the present invention.
4 is a plan view showing the conveying means, the angle adjusting means and the gap adjusting means of the present invention.
Fig. 5 is a view showing another modification of the moving portion before and after the present invention. Fig.
6A and 6B are explanatory views showing a state in which the left and right adjusting plates are moved away from each other and approach each other by the gap adjusting means of the present invention.

1 to 5, the apparatus for heat-treating a steel pipe according to the present invention includes: a vertical transfer unit 100 for supporting a steel pipe 10 to be transferred in a direction of a kicker 200; A kicker 200 capable of moving up and down to support the steel pipe 10 delivered from the vertical transfer unit 100; A part of the steel pipe pipe 10 supported by the kicker 200 is rotationally driven by the power transmitting part 350 including the driving motor 352 and the other is idling so as to transfer the steel pipe pipe 10 to the heat treatment unit 400 side Conveying means (300) having wheel members (310, 310a) arranged in oblique directions with respect to the conveying direction of the steel pipe (10) and disposed on both left and right sides in the conveying direction of the steel pipe (10); The supporting frame 320 and the bottom plate 330 which are disposed on both left and right sides of the fixed frame 50 in the direction of conveyance of the pipe pipe 10 and support the wheel members 310 and 310a, Coupled left and right regulating plates 510 and 520; And angle adjusting means 600 for adjusting the angle of the wheel members 310 and 310a with respect to the conveying direction of the steel pipe to change the rotational speed and the conveying speed of the steel pipe 10.

1, the vertical transferring part 100 is provided to supply the steel pipe 10 to the kicker 200 or to guide the heat-treated steel pipe 10 to a subsequent process, And a conveying support member disposed in a direction orthogonal to the conveying path.

The heat treatment unit 400 includes a heating unit 410 for inducing high frequency induction heating of the steel pipe 10 fed by the conveying means 300 and a cooling unit for cooling the steel pipe 10 passing through the heating unit 410 Unit 420 as shown in FIG.

The cooling unit 420 may provide air or cooling water to the steel pipe 10 side passing through the cooling unit 420 or may provide air and cooling water to the steel pipe 10 side to adjust the cooling rate.

The transfer means 300 is provided in a plurality of separate units so as not to interfere with the heat treatment unit 400.

The kicker 200 includes an upper support having an intermediate portion at which a steel pipe 10 is mounted is lower than both ends of the upper portion of the upper support, a support rod rotatably connected to the lower portion of the upper support, And an elevating cylinder provided on the lower portion of the other side for elevating and lowering the other side of the upper support by hydraulic pressure.

That is, the lifting cylinder of the kicker 200 is lifted up when the steel pipe 10 is transferred from the longitudinal transferring part 100, and the steel pipe 10 is placed on the wheel members 310 and 310a So as to be lowered.

2, the power transmitting unit 350 includes a driving motor 352 supported by the bottom plate 330 and a plurality of wheel members 310 and 310a that are rotated by the rotational force of the driving motor 352 And a driving decelerator 354 for transmitting the driving force.

The power transmitting portion 350 is disposed alternately in the diagonal direction with respect to the wheel members 310 and 310a disposed on the left and right sides.

That is, the power transmitting portion 350 is not disposed on the opposite side of the wheel members 310 and 310a on which the power transmitting portion 350 is disposed, and the wheel members 310 and 310a are idly rotated.

Accordingly, the power transmission parts 350 are disposed alternately in the diagonal direction, so that the stable rotation transmission force can be transmitted to the wheel members 310 and 310a without providing the power transmission part 350 on the entire wheel members 310 and 310a. And the like.

The conveying means 300 includes a support frame 320 for rotatably supporting the wheel members 310 and 310a on both sides of the wheel members 310 and 310a, And a bottom plate 330 rotatably coupled to the left and right control plates 510 and 520.

The support frame 320 has a structure in which the wheel members 310 and 310a are rotatably supported on the shaft 312 by being spaced upward from the bottom plate 330.

3, the power transmission unit 350 is mounted on the left and right adjustment plates 510 and 520 so as to be rotated together with the rotation of the bottom plate 330 rotated in accordance with the movement of the left and right link bars 610, And has a state of being suspended from the shaft 312 of the support frame 320 so as to have an upwardly spaced clearance t.

4, it is preferable to further include a gap adjusting means 700 for adjusting the width of the left and right adjusting plates 510 and 520. The gap adjusting means 700 may be arranged to be fixed to the fixing frame 50 A control motor 710 rotatably driven in forward and reverse directions as external power is applied to the motor 710 and a motor shaft 710 connected to the motor shaft of the control motor 710 to control rotation of the control motor 710 in a decelerated state A gear box 720 for transmitting rotation force of the adjustment reduction gear transmitted through the adjustment shaft 720 to the left and right sides of the gear box 742 and 744, 730 and a first and a second fixing block 750 fixed to the left and right adjusting plates 510 and 520 and has threaded portions formed in opposite directions to each other, The left and right regulating plates Left for adjusting the width of the gap byte (510 520), it is provided with a right screw rod (742 744).

The gear box 730 has a structure in which a plurality of gears are engaged with each other so as to transmit the rotational driving force of the adjustment speed reducer to the left and right sides and the bosses 742 and 744.

The screw portions of the left and right nose bars 742 and 744 are formed in the screw directions (left and right hand screw directions) opposite to each other and are fastened to the first and second fixing blocks 750, as shown in FIGS. 6A and 6B, The left and right adjustment plates 510 and 520 supported to be seated on the fixed frame 50 as the rotational driving force of the adjustment motor 710 is transmitted to the left and right sides or the bosses 742 and 744 through the gear box 730, Or to adjust the width interval to approach each other.

The angle adjusting means 600 includes left and right link bars 610 connecting the respective bottom plates 330 with connection pins and a pair of left and right link bars 610 formed in the left and right adjusting plates A rotation hole 335 formed in an arc shape so as to penetrate the fixing bolt 340 coupled to the fixing bolt 340 and the fixing bolt 340 coupled to the fixing bolt 340 and the fixing bolt 340 and to prevent the fixing bolt 340 from interfering with rotation of the bottom plate 330, And a forward and backward moving portion fixed to the plates 510 and 520 and having ends connected to the left and right link bars 610 so as to perform an operation of pulling or pushing the left and right link bars 610 do.

The rotation hole 335 is formed in an arc shape corresponding to the rotation path of the left and right link bars 610 when the bottom plate 330 rotates to connect the bottom plate 330 to the left and right control plates And the fixing bolts 340 fixed to the fixing bolts 510 and 520 can be eliminated.

As shown in FIG. 4, one of the forward and backward moving parts is rotatably connected to the left and right adjusting plates 510 and 520 by a rotation pin 630, and the first screw part formed at the other end is coupled to the nut body 625, And a second threaded portion formed at one end in a threading direction different from the first threaded portion and fastened to the nut body 625. The other end of the threaded portion is coupled to the left and right link bars 610, And the first and second sheaths 622 and 624 are connected to the connection bracket 615 provided on the connecting bracket 615 by the flow pin 640. When the first and second sheaths 622 and 624 are rotated, And a nut body 625 for rotating the nut body 622 in opposite directions.

5, the front and rear moving parts are connected to the left and right adjusting plates 510 and 520 by a rotation pin 630, and a cylinder body (not shown) And a rod member 652 connected to the connection bracket 615 provided on the left and right link bars 610 by a flow pin 640 and moved forward and backward by a fluid pressure supplied into the cylinder body 652, 654 may be employed.

The cylinder body 652 is fixed to the left and right regulating plates 510 and 520 so as to correspond to the movement of the left and right link bars 610 when the rod member 654 is moved forward and backward, 640).

The rod member 654 is connected to the connection bracket 615 provided on the left and right link bars 610 so as to correspond to the movement of the left and right link bars 610 And has a connected structure.

This is not limited to the turnbuckle member 620 or the cylinder device 650 described above, and various modifications may be applied.

In the present invention having such a configuration, after the steel pipe pipe 10 is supplied from the longitudinal transferring portion 100 to the upper side of the upper support of the kicker 200, the lower side of the steel pipe pipe 10, And is supported by the members 310 and 310a.

Thereafter, as the rotational force of the driving motor 352 of the power transmitting portion 350 is transmitted to the wheel members 310 and 310a through the driving decelerator 354 and the shaft 312, the wheel members 310 and 310a are moved to the supporting frame 320, so that the steel pipe 10 is transported in the longitudinal direction.

Since the wheel members 310 and 310a are disposed in an inclined oblique direction with respect to the conveying direction of the steel pipe 10, the steel pipe 10 can be easily transferred during rotation.

At this time, the wheel members 310 and 310a, in which the power transmitting portion 350 is disposed alternately in the diagonal direction, are rotated by the rotational force of the driving motor 352 of the power transmitting portion 350 and the power transmitting portion 350 is disposed The wheel members 310 and 310a on the opposite sides are idly rotated in the direction opposite to the rotation direction of the wheel members 310 and 310a on which the power transmission unit 350 is disposed to support the transportation of the steel pipe 10.

As the angles of the wheel members 310 and 310a with respect to the conveying direction of the steel pipe 10 are closer to a right angle, the conveying speed of the steel pipe 10 decreases. On the other hand, The angles of the projections 310 and 310a become farther away from the right angle, and the conveying speed becomes faster as the obtuse angle increases.

It is necessary to adjust the conveying speed so that the steel pipe pipe 10 is heated to a suitable temperature in accordance with the type and outer size of the steel pipe 10, 10, the heating temperature can be quickly adjusted by controlling the feeding speed of the steel pipe 10.

The rotational speed of the steel pipe 10 may be adjusted by adjusting the rotational speed of the wheel members 310 and 310a according to the rotational speed of the driving motor 352 of the power transmitting unit 350 .

The spacing adjusting means 700 is formed in the screw direction of the left and right screws 742 and 744 in the screw direction (left hand and right hand screw direction) opposite to each other and is fastened to the first and second fixing blocks 750, The right and left adjusting plates 510 and 520 supported on the fixed frame 50 as the rotational driving force of the adjusting motor 710 is transmitted to the left and right sides or the bosses 742 and 744 through the gear box 730, So that the mutual widths of the left and right regulating plates 510 and 520 can be adjusted according to the size change of the outer size of the steel pipe 10 by adjusting the widths of the left and right regulating plates 510 and 520, It is possible to adjust the distance between the left and right wheel members 310 and 310a provided on the upper sides of the steel pipe pipes 510 and 520 so that the steel pipe pipe 10 can be easily supported Advantages .

The steel pipe 10 after the heat treatment is completed is transferred to the right end of FIG. 1 and then transferred to the longitudinal transfer unit 100 by the kicker 200 to be transferred to a subsequent process.

Therefore, the present invention is characterized in that the conveying means 300 for conveying the middle- or large-sized steel pipe 10 to the heat treatment unit 400 side is connected to the wheel members 310, 310a arranged so as to be inclined in the oblique direction with respect to the conveying direction of the steel pipe pipe 10, The steel pipe 10 can be rotated while the wheel members 310 and 310a are driven to rotate and the wheel member 310 and 310a can be moved while the wheel members 310 and 310a are rotated. The conveying speed of the steel pipe 10 can be easily adjusted by adjusting the angles of the pipes 310 and 310a.

The wheel members 310 and 310a of the present invention are arranged such that a wheel member 310 composed of a tire is arranged on the front side before the wheel members 310 and 310a pass through the heat treatment unit 400, A wheel member 310a made of a metal material is disposed so as to support the steel pipe 10.

In the case of the wheel member 310 which is located on the front side of the heat treatment unit 400 and is composed of a tire, it has an advantage that the impact upon seating of the steel pipe 10 can be mitigated.

In the present invention, the gap between the left and right control plates 510 and 520 is easily adjusted by using the gap adjusting means 700 to adjust the gap between the left and right wheel members 310 and 310a facing each other The steel pipe 10 can be easily supported even if the outer diameter of the steel pipe 10 is changed.

The power transmitting portion 350 of the present invention is arranged in a diagonal direction with respect to the left and right wheel members 310 and 310a so that the power transmitting portion 350 is provided on the entire wheel members 310 and 310a It is possible to smoothly transfer the steel pipe pipe 10 while reducing the manufacturing cost by providing a stable rotational feed force to the wheel members 310 and 310a.

The angle adjusting means 600 of the present invention includes left and right link bars 610 connecting the respective bottom plates 330 with connecting pins, A rotation hole 335 formed in an arc shape so as to penetrate the fixing bolts 340 coupled to the plates 510 and 520 and to prevent the fixing bolts 340 from interfering with rotation of the bottom plate 330, Backward movement of the left and right link bars 610 and 610 is fixed to the right control plates 510 and 520 and the ends thereof are connected to the left and right link bars 610, respectively, The left and right link bars 610 can be pulled or pushed according to the operation of the forward and backward moving parts composed of the cylinder device 650 and the turnbuckle member 620. The left and right link bars 610 In accordance with the rotation of the bottom plate 330, The frame 320 is rotated together and the power transmitting portion 350 suspended on the shaft 312 of the support frame 320 is rotated in the same direction as the rotation transmitting portion 350 so as to have a clearance t spaced upward from the left and right control plates 510, So that the angles of the wheel members 310 and 310a with respect to the conveying direction of the steel pipe 10 can be easily adjusted.

The angle adjusting means 600 of the present invention can precisely control the feeding speed of the steel pipe 10 by adjusting the angles of the wheel members 310 and 310a so that the steel pipe 10 is connected to the heat- It is possible to precisely control the heat treatment heating temperature and the cooling temperature by adjusting the staying time while passing through the heating unit 410 and the cooling unit 420. [

Although the present invention has been described in detail with reference to specific embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the appended claims, as well as the appended claims.

That is, the present invention described above is not limited to the above-described specific preferred embodiments, and any person skilled in the art will be allowed to use the present invention without departing from the gist of the present invention. It will be understood that various modifications can be made without departing from the spirit and scope of the invention as defined in the appended claims.

10: steel pipe 50: stationary frame
100: longitudinal conveyance part 200: kicker
300: transfer means 310, 310a: wheel member
312: Axis 320: Support frame
330: bottom plate 335:
340: Fixing bolt 350: Power transmission part
352: Driving motor 354: Driving decelerator
400: heat treatment unit 410: heating unit
420: cooling unit 510, 520: left and right regulating plates
600: angle adjusting means 610: left and right link bars
615: connection bracket 620: turnbuckle member
622: 1st rope 624: 2nd rope
625: nut body 630: rotating pin
640: floating pin 650: cylinder device
652: cylinder body 654: rod member
700: interval adjusting means 710: adjusting motor
720: regulating shaft 730: gear box
742,744: Left and right side bosses 750: Fixed block

Claims (8)

A vertical transfer unit 100 for supporting the steel pipe 10 in the direction of the kicker 200 to be transferred;
A kicker 200 capable of moving up and down to support the steel pipe 10 delivered from the vertical transfer unit 100;
A part of the steel pipe pipe 10 supported by the kicker 200 is rotationally driven by the power transmitting part 350 including the driving motor 352 and the other is idling so as to transfer the steel pipe pipe 10 to the heat treatment unit 400 side Conveying means (300) having wheel members (310, 310a) arranged in oblique directions with respect to the conveying direction of the steel pipe (10) and disposed on both left and right sides in the conveying direction of the steel pipe (10);
The supporting frame 320 and the bottom plate 330 which are disposed on both left and right sides of the fixed frame 50 in the direction of conveyance of the pipe pipe 10 and support the wheel members 310 and 310a, Coupled left and right regulating plates 510 and 520;
And an angle adjusting means (600) for adjusting the angle of the wheel member (310, 310a) with respect to the conveying direction of the steel pipe for changing the rotational speed and the conveying speed of the steel pipe (10)
Wherein the power transmission part (350) is arranged alternately in a diagonal direction with respect to the wheel members (310, 310a) arranged on the left and right sides. The method according to claim 1,
And a gap adjusting means (700) for adjusting the distance between the left and right adjusting plates (510, 520)
The gap adjusting means 700 includes an adjusting motor 710 fixed to the stationary frame 50 and driven to rotate in the forward and reverse directions as external power is applied,
An adjusting speed reducer connected to the motor shaft of the adjusting motor 710 to transmit the rotational force of the adjusting motor 710 to the gear box 730 side through the adjusting shaft 720,
A gear box 730 for transmitting rotational force of the adjustment reduction gear transmitted through the adjustment shaft 720 to the left and right sides of the adjustment rods 742 and 744,
The first and second fixing blocks 750 and 750 fastened to the left and right adjusting plates 510 and 520 have threaded portions which are screwed in opposite directions to each other. And the left and right nipples (742, 744) for adjusting the width of the adjustment plates (510, 520). The method according to claim 1,
The power transmission unit 350 includes a driving motor 352 supported by the bottom plate 330,
And a driving speed reducer (354) for transmitting the rotational force of the driving motor (352) to the wheel members (310, 310a). The method according to claim 1,
The kicker 200 includes an upper support having an intermediate portion at which a steel pipe 10 is mounted is lower than both ends of the upper portion of the upper support, a support rod rotatably connected to the lower portion of the upper support, And an elevating cylinder provided at the lower portion of the other side for elevating and lowering the other side of the upper support by hydraulic pressure. The method according to claim 1,
The angle adjusting means 600 includes left and right link bars 610 connecting the respective bottom plates 330 with connecting pins,
The fixing bolts 340 are inserted into the respective bottom plates 330 so that the fixing bolts 340 coupled to the left and right adjusting plates 510 and 520 can penetrate therethrough. When the bottom plate 330 rotates, A rotation hole 335 formed in an arcuate shape so as not to be connected,
The link bar 610 is fixed to the left and right control plates 510 and 520 and has an end connected to the left and right link bars 610, And a backward movement moving part. The method of claim 5,
The forward and backward moving parts are connected to the left and right regulating plates 510 and 520 by a rotation pin 630 so as to be rotatable with respect to the cylinder body 652, A cylinder device 650 having a rod member 654 which is connected to a connection bracket 615 provided in the cylinder body 610 and is moved back and forth by fluid pressure supplied to the cylinder body 652, And the heat treatment apparatus is a heat treatment apparatus for a steel pipe. The method of claim 5,
One end of the forward and backward moving parts is connected to the left and right adjusting plates 510 and 520 by a rotation pin 630 in a rotatable manner and the first screw part formed at the other end is coupled to the nut body 625, And a second threaded portion formed at one end thereof in a screw direction different from that of the first threaded portion and fastened to the nut body 625. The other end of the threaded portion is connected to a connection bracket 615 provided on the left and right link bars 610 A second nut 624 connected to the floating pin 640 and a nut 622 for connecting the first and second screws 622 and 624 and rotating the first and second screws 622 and 624 in opposite directions during a rotating operation, And a turnbuckle member (620) composed of a body (625). The method according to claim 1,
The heat treatment unit 400 includes a heating unit 410 for high frequency induction heating the steel pipe 10 fed by the feeding means 300 and a cooling pipe 410 for cooling the steel pipe 10 passing through the heating unit 410. [ And a cooling unit 420,
The cooling unit 420 may supply air or cooling water to the steel pipe 10 side which passes through the cooling unit 420 or air or cooling water to the steel pipe 10 side, And the cooling rate of the steel pipe is adjusted.

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