KR102414747B1 - Machine for manufacturing seamless steel pipes - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing a wood-free steel pipe, wherein a space is formed therein to accommodate a steel pipe, an inlet through which a steel pipe flows is formed at one end, and an outlet through which a heated steel pipe is discharged is formed at the other end; Steel pipe transport consisting of a heating body having a plurality of heating nozzles formed therein, a transport belt horizontally installed inside the heating body and made of a metal chain, a sprocket coupled to both ends of the transport belt to exert rotational force, and a driving source connected to the sprocket a heating element having means; It is a rectangular parallelepiped enclosure with an open upper portion and a coolant stored therein, and an inlet portion formed to have a smaller cross-sectional area than the outlet portion is formed on one side of a rectangular tube body to which the outlet portion of the heating unit is connected, and the inlet portion is the side wall of the cooling water tank a cooling unit having a cooling water tank formed at the upper portion to be positioned above the water level at which the cooling water is stored and storing cold water for cooling the heated steel pipe; A guide part having one end connected to the outlet of the heating unit, the other end connected to the inlet of the cooling water tank, and a guide part having a sectional area gradually reduced from the opening of the outlet toward the inlet. After the wooden steel pipe is withdrawn from the outlet, it passes through the inner circumferential surface of the guide and is guided to the inlet so that it can flow into the cooling water tank.

Description

Machine for manufacturing seamless steel pipes

The present invention relates to an apparatus for manufacturing a timber-free steel pipe capable of automatically producing a log-free steel pipe through a series of continuous processes.

In general, a steel pipe is a generic term for steel products that have an empty space inside and have a rod shape.

The steel pipe is divided into a normal steel pipe (carbon steel) and a special steel pipe according to the material, and is divided into a seamless pipe and a welded pipe, respectively, according to the presence or absence of a joint.

In the conventional manufacturing process of a non-grained steel pipe, a plurality of non-grained steel pipes heated by a heating unit are introduced into a cooling water tank and passed through a process in which they are cooled.

The outlet of the heating unit and the inlet of the cooling unit have different cross-sectional areas. That is, a plate is attached to the outlet of the heating unit and sealed, and a rectangular through hole to which the inlet is coupled is formed in the lower portion of the plate,

The inlet portion is formed to be connected to the rectangular through-hole of the plate material.

Therefore, a step is made in the upper part of the square through hole in the plate.

However, thermal deformation occurred during the heating process in the heating unit and the end of the steel pipe was bent, so the tip of the bent steel pipe could not be inserted into the rectangular through hole, and a closed end caught on the step of the plate was generated.

In order to solve this problem, it is necessary to stop the entire process, separate the connection part of the outlet of the heating unit and the inlet of the cooling unit, and remove the jammed steel pipe. there was

Korean Patent Application No. 10-2012-0001456

The present invention has been devised to solve the problems of the prior art, and by improving the structure of the connection part of the heating part and the cooling part to form a guide part connecting the connection part of the large-diameter heating part and the small-diameter part, the steel pipe deformed due to thermal expansion is moved An object of the present invention is to provide an apparatus for manufacturing wood-free steel pipe that is guided by the guide part in the process and can move through the narrow inlet part, thereby preventing the shearing of the steel pipe from being caught in the conventional narrow part.

The object of the present invention is to have a space formed therein so that a steel pipe can be accommodated, an inlet through which the steel pipe flows is formed at one end, and an outlet through which the heated steel pipe is discharged is formed at the other end, and a heating nozzle is formed therein. The heating having a plurality of heating bodies, a conveying belt installed horizontally inside the heating body and made of a metal chain, a sprocket coupled to both ends of the conveying belt to exert rotational force, and a steel pipe conveying means composed of a driving source connected to the sprocket. wealth; It is a rectangular parallelepiped enclosure with an open upper portion and a coolant stored therein, and an inlet portion formed to have a smaller cross-sectional area than the outlet portion is formed on one side of a rectangular tube body to which the outlet portion of the heating unit is connected, and the inlet portion is the side wall of the cooling water tank a cooling unit having a cooling water tank formed at the upper portion to be positioned above the water level at which the cooling water is stored and storing cold water for cooling the heated steel pipe; A guide part having one end connected to the outlet of the heating unit, the other end connected to the inlet of the cooling water tank, and a guide part having a sectional area gradually reduced from the opening of the outlet toward the inlet; After the wooden steel pipe is withdrawn from the outlet, it passes through the inner circumferential surface of the guide and is guided to the inlet to be introduced into the cooling water tank.

According to the present invention, the guide part guides the bent steel pipe deformed due to thermal expansion by the guide part connecting the large-diameter heating part and the small-diameter connection part, so that the tube can smoothly pass through the narrow inlet part, thereby preventing the jamming phenomenon. There is an effect that stable work efficiency can be guaranteed by preventing disruptions such as stoppage of operation.

1 is a front view showing an apparatus for manufacturing a steel pipe without a log according to the present invention;
Figure 2 is an enlarged view showing an apparatus for manufacturing a steel pipe without a log according to the present invention;
3 is an enlarged perspective view of FIG. 2;
Figure 4 is a cross-sectional view of Figure 2,
5 is a side cross-sectional view provided with a lifting unit in the cooling unit in the apparatus for manufacturing a steel pipe without gage according to the present invention;
6 is a perspective view showing the 'lifting unit' of FIG. 5;
7 is a front cross-sectional view showing the operation of the 'lifting unit' of FIG. 6;
8 is a view showing a workpiece transfer unit according to another embodiment of the present invention.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, since various changes may be made to the embodiments, the scope of the patent application is not limited or limited by these embodiments. It should be understood that all modifications, equivalents and substitutes for the embodiments are included in the scope of the rights.

Specific structural or functional descriptions of the embodiments are disclosed for purposes of illustration only, and may be changed and implemented in various forms. Accordingly, the embodiments are not limited to the specific disclosure form, and the scope of the present specification includes changes, equivalents, or substitutes included in the technical spirit.

Although terms such as first or second may be used to describe various elements, these terms should be interpreted only for the purpose of distinguishing one element from another. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component.

When a component is referred to as being “connected to” another component, it may be directly connected or connected to the other component, but it should be understood that another component may exist in between.

The terms used in the examples are used for the purpose of description only, and should not be construed as limiting. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as "comprise" or "have" are intended to designate that a feature, number, step, operation, component, part, or a combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the embodiment belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

In addition, in the description with reference to the accompanying drawings, the same components are given the same reference numerals regardless of the reference numerals, and the overlapping description thereof will be omitted. In describing the embodiment, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the embodiment, the detailed description thereof will be omitted.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention belongs It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims.

In the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. have meaning Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in an embodiment of the present invention, an ideal or excessively formal meaning is not interpreted as

The shapes, sizes, proportions, angles, numbers, etc. disclosed in the drawings for explaining the embodiments of the present invention are illustrative and the present invention is not limited to the illustrated matters. In addition, in describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. When 'include', 'have', 'consist', etc. mentioned in this specification are used, other parts may be added unless 'only' is used. When a component is expressed in the singular, cases including the plural are included unless otherwise explicitly stated.

In interpreting the components, it is construed as including an error range even if there is no separate explicit description.

In the case of a description of the positional relationship, for example, when the positional relationship of two parts is described as 'on', 'on', 'on', 'beside', etc., 'right' Alternatively, one or more other parts may be positioned between two parts unless 'directly' is used.

Reference to an element or layer “on” another element or layer includes any intervening layer or other element directly on or in the middle of another element. Like reference numerals refer to like elements throughout.

The size and thickness of each component shown in the drawings are illustrated for convenience of description, and the present invention is not necessarily limited to the size and thickness of the illustrated component.

Each feature of the various embodiments of the present invention may be partially or wholly combined or combined with each other, and as those skilled in the art will fully understand, technically various interlocking and driving are possible, and each embodiment may be implemented independently of each other, It may be possible to implement together in a related relationship.

Among the accompanying drawings, FIG. 1 is a front view showing an apparatus for manufacturing a no-grass steel pipe according to the present invention, FIG. 2 is an enlarged view showing an apparatus for manufacturing a non-grained steel pipe according to the present invention, and FIG. 3 is an enlarged perspective view of FIG. 4 is a cross-sectional view of FIG. 2 , FIG. 5 is a front view showing an example in which a 'lifting unit' is applied to the apparatus for manufacturing a steel pipe without a tree according to the present invention, and FIG. 6 is a perspective view showing the 'lifting unit' of FIG. 5 .

As shown in FIGS. 1 to 6 , the apparatus for manufacturing a wood-free steel pipe according to the present invention includes a heating unit 100 that heats a plurality of steel pipes P in a heating furnace and heat-treats them, and cools the heated steel pipe P. It includes a cooling unit 200 having a cooling water tank 220 in which cold water is stored.

The heating unit 100 has a space formed therein so that the steel pipe P can be accommodated, an inlet 111 through which the steel pipe P is introduced is formed at one end, and the heated steel pipe P is formed at the other end. The outlet part 112 to be discharged is formed, and the heating body 110 in which a plurality of heating nozzles (N) are formed; A transfer belt 132 installed horizontally inside the heating body 110 and made of a metal chain, a sprocket 134 coupled to both ends of the transfer belt 132 to exert rotational force, and a driving source connected to the sprocket 134 It is configured to include; a steel pipe transport means 130 configured (not shown).

The cooling water tank 220 is a rectangular parallelepiped enclosure with an open top and cooling water stored therein,

On one side, the inlet part 221 formed to have a smaller cross-sectional area than the outlet part 112 of the heating part 100 is formed as a rectangular tube body to which the outlet part 112 of the heating part 100 is connected, The inlet 221 is formed on the side wall of the cooling water tank 220 so as to be located above the water level at which the cooling water is stored.

Meanwhile, in the heating unit 100 , a preheating unit 160 may be further connected to the inlet part.

The preheating unit 160 includes a preheating body 162 having an inlet portion formed on one side and an outlet portion formed on the other side, and having a plurality of heating nozzles (N) formed therein; A transfer belt 132 installed horizontally inside the preheating body 162 and made of a metal chain, a sprocket 134 coupled to both ends of the transfer belt 132 to exert rotational force, and a driving source connected to the sprocket 134 It is configured to include; a steel pipe transport means 130 consisting of.

After the plurality of steel pipes P are accommodated in the preheating body 162 while seated on the transfer belt, they are first heated to about 700 ~ 800° C. by a high-temperature flame generated from the heating nozzle N.

Thereafter, a plurality of steel pipes P preheated by primary heating in the preheating unit 160 are introduced into the heating unit 100 to be secondaryly heated. The heating unit 100 is heated to about 1000 ~ 1050 ℃.

Due to such high-temperature heating, a phenomenon in which the end of the steel pipe P is bent occurs.

The inlet 221 of the cooling water tank 220 having a narrow cross-sectional area is connected to the outlet 112 of the heating unit 100, and the outlet 112 and the inlet 221 have a cross-sectional area difference, If the steel pipe is bent, there is a risk of being caught and unable to enter the narrow inlet of the cooling water tank.

The present invention includes the guide part 300 connecting the outlet part 112 having a wide cross-sectional area and the inlet part 221 having a narrow cross-sectional area to pass therethrough.

One end of the guide unit 300 is connected to pass through the opening of the outlet unit 112 of the heating unit 100 , and the other end is connected to the inlet unit 221 of the cooling water tank 220 .

Preferably, the guide part 300 has a trapezoidal shape so that the cross-sectional area is gradually reduced from the opening of the outlet 112 of the heating part 100 toward the inlet 221 of the cooling water tank 220 .

3 and 4 , an opening at one end of the guide unit 300 is formed with the same cross-sectional area as the outlet unit 112 of the heating unit 100 , and the opening at the other end is at an inlet unit 221 of the cooling water tank 220 . ) with the same cross-sectional area.

Therefore, after the wood-free steel pipe (P) heated by the heating unit 100 is drawn out from the outlet unit 112, it comes into contact with the inclined surface 304 of the guide unit 300 and slides while being guided to the inlet unit 221 to be guided to the cooling unit. (200) can be introduced.

That is, even if the end of the steel pipe P is bent by heating, it is gradually gathered due to the inclined surface 304 of the guide part 300 , so that it can be stably introduced into the inlet part 221 .

Specifically, as shown in the enlarged view of FIG. 4 , the guide part 300 has a plurality of division members 320 and 320 ′ connected to form a trapezoidal cross-section, and one end of the opening has a larger cross-sectional area than the other end of the opening. is formed

In the guide part 300, a plurality of dividing members 320 and 320' are welded while facing each other, and the opening 301 at the other end of the guide part 300 having a relatively small cross-sectional area is the inlet part ( 221), one end of the opening 302 having a large cross-sectional area is connected to the outlet 112 of the heating unit 100 so that a downwardly inclined inclined surface 304 is formed on the upper side of the guide unit 300, and the lower The side is formed with a horizontal plane horizontally.

A plurality of rollers 305 are hinged to an upper inclined surface or a lower horizontal surface of the guide part 300 .

Therefore, the end of the bent steel pipe P is supported by the plurality of rollers 305 of the upper inclined surface 304 and is easy to move, and the heated steel pipe P is moved by the plurality of rollers 305 of the inclined surface 304. It can be gradually pressed to correct the shape to be approximately horizontal.

Meanwhile, according to another embodiment, the dividing member 320 constituting the guide part 300 may have a plurality of irregularities (not shown) including protrusions and recesses in the longitudinal direction on the inner surface.

Since the concave-convex portion is formed on the inner surface in this way, the contact area with the end of the steel pipe P can be minimized, thereby reducing frictional force, so that the steel pipe P can slide smoothly.

On the other hand, referring to FIG. 3 , the flanges formed in the openings on both sides of the guide unit 300 and the flanges 122 formed in the outlet portion 112 of the heating unit 100 are in close contact with each other and then coupled by bolting, the cooling water tank ( After the flange 124 formed on the inlet 221 of 220 is in close contact with each other, it is coupled by bolting.

Therefore, when cleaning or maintenance of the guide part 300 is required, the bolt 126 and the nut are loosened and the flanges 122 and 124 are separated to facilitate the operation.

On the other hand, Figure 5 is a side cross-sectional view having a lifting part in the cooling unit in the apparatus for manufacturing a tree-free steel pipe according to the present invention, Figure 6 is a perspective view showing the 'lifting part' of Figure 5, Figure 7 is the 'lifting part' of Figure 6 is a front sectional view showing the operation.

As shown in Figures 5 to 7,

The lifting part 40 which is formed in the cooling part 200 and supports the steel pipe P being water-cooled may be formed in the apparatus for manufacturing a tree-free steel pipe according to the present invention.

The lifting part 40 includes a shaft part 401 rotatably coupled to both side walls so as to be close to the inlet part 221 in the cooling water tank 220 of the cooling part 200 ;

a roof bar (R) coupled to the shaft portion (401) and rotating in the vertical direction by the shaft portion (401) to support the steel pipe (P); and

It is coupled to the shaft portion 401 and is configured to include a rotation angle adjusting unit 43 configured to limit the rotation of the shaft portion 401 .

The roof bar (R) is coupled to the shaft portion 401, and is rotated in the vertical direction by the shaft portion 401 to elevate the steel pipe (P). It can be pulled out of the water.

The roof bar R includes a first support bar 421 , a second support bar 422 spaced apart from the first support bar 421 and disposed parallel to the first support bar 421 , and a shaft portion 401 . ) and is configured to include a connecting bar 423 configured to connect the first support bar 421 and the second support bar 422 to each other.

The connection bar 423 may be configured to change positions of the first support bar 421 and the second support bar 422 while being rotated by the shaft portion 401 .

The connecting bar 423 is coupled to the shaft portion 401 and is made of a bent portion bent in a 'L' shape, and extends from one end of the bent portion 4231 to support both ends of the first support bar 421 . It includes a first extension portion 4232 to be formed, and a second extension portion 4233 extending from the other end of the bent portion 4231 to support both ends of the second support bar 422 .

The first extension 4232 and the second extension 4233 are formed to form an acute angle.

On the other hand, the rotation angle adjusting unit 43 has a shaft coupled to the shaft portion 401 of the connecting bar 423 and includes a driving unit composed of a motor M mounted on the outside of the cooling water tank 220 of the cooling unit 200 . can do.

As the motor M, a stepper motor that repeats forward and reverse rotation is used.

Therefore, when the motor (M) repeats the forward and reverse rotation, it is connected to the shaft and the roof bar (R) can be driven to rotate up and down.

Therefore, a plurality of steel pipes (P) are submerged in water by rotational driving of the roof bar (R) and then rise and are exposed to the surface of the water, so that the operation of the operator to take out the steel pipe can be made easier.

On the other hand, as shown in FIG. 8 , the workpiece transfer part 2 is coupled to the inlet of the preheating unit 160 , and the steel pipe P' (hereinafter referred to as 'workpiece') supplied from the outside before heat treatment is washed with water. It is configured to be transferred and put into the inlet 221 of the preheating unit 160 .

The workpiece transfer unit 2 may include a lifting box 21 , a lifting unit 22 , a guide frame 23 , and a washing tank 24 .

The elevating box 21 has a workpiece accommodated therein, and can be elevated by the elevating unit 22 .

The elevating box 21 may have a front portion and a rear portion open, and a bottom surface may be disposed to be inclined downwardly from the rear portion toward the front portion.

The elevating unit 22 may be configured to elevate the elevating box 21 .

The elevating unit 22 is coupled to the vertical portion 231 and is rotatably coupled to the guide rail 221 , which is disposed parallel to the vertical portion 231 , and the elevating box 21 , to the outer surface of the guide rail 221 . and may include a guide roller 222 configured to move along the outer surface of the guide rail 221 when the lifting box 21 is raised and lowered.

The elevating unit 22 may include a support bracket 223 coupled to the upper end of the guide rail 221 , and a connection member 224 coupled to the elevating box 21 and disposed inside the elevating box 21 . have.

The lifting unit 22 is installed and supported on the support bracket 223 , one end is coupled to the connecting member 224 , and is expanded and contracted along the longitudinal direction of the guide rail 221 by pressing the connecting member 224 to the elevating box. and a lifting cylinder 225 configured to lift 21 .

The guide frame 23 is coupled to the main body 1 and inclined downwardly on one side of the elevating box 21 along the moving direction of the elevating box 21 to preheat the workpiece discharged from the elevating box 21 . It may include a slope 232 for guiding inward.

Accordingly, when the workpiece P' is supplied to the lifting box 21, the lifting unit 22 lowers the lifting box 21 to immerse the workpiece P' in the washing tank 24, and the lifting box 21 ) is repeatedly raised and lowered, and the workpiece is shaken to wash.

Then, the lifting unit 22 raises the lifting box 21 so that the workpiece P ′ accommodated in the lifting box 21 is discharged to the inclined portion 232 .

The workpiece P' moves on the inclined part 232 and is input into the inlet part 221 of the preheating part 160 .

Although embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and various modifications may be made within the scope without departing from the technical spirit of the present invention. . Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

100: heating part 120: outlet part
160: preheating unit 200: cooling unit
220: cooling water tank 240: inlet part
300: guide part 320: divided member
322: uneven part P: steel pipe
43: rotation angle control unit R: roof bar
421: first support bar 422: second support bar
423: connection bar

Claims (3)

A space is formed therein to accommodate a steel pipe, an inlet into which the steel pipe flows is formed at one end, an outlet through which the heated steel pipe is discharged is formed at the other end, and a heating body having a plurality of heating nozzles formed therein; a heating unit having a conveying belt horizontally installed inside the heating body, a steel pipe conveying means comprising a sprocket coupled to both ends of the conveying belt to exert a rotational force, and a driving source connected to the sprocket;
The upper part is opened and the coolant is stored therein, and the outlet of the heating part is connected to one side, and an inlet part having a smaller cross-sectional area than the outlet part of the heating part is formed on the upper side of the side wall, and the heated steel pipe transferred from the heating part is cooled a cooling unit having a cooling water tank;
a guide portion having one end connected to the outlet of the heating unit, the other end connected to the inlet of the cooling water tank, and a guide portion formed to have a sectional area gradually reduced from the opening of the outlet of the heating unit toward the inlet of the cooling water tank; and
An apparatus for manufacturing a non-grained steel pipe, characterized in that after the steel pipe heated by the heating unit is drawn out from the outlet of the heating unit, it passes through the inner circumferential surface of the guide unit and is guided to the inlet of the cooling water tank so that it can be introduced into the cooling water tank. The method of claim 1,
The guide unit,
A plurality of dividing members are connected to form a trapezoidal cross section, and one end of the opening is formed to have a larger cross-sectional area than the other end of the opening,
An opening at the other end of the guide unit having a relatively small cross-sectional area is connected to the inlet of the cooling water tank, and an opening at one end of the guide unit having a large cross-sectional area is connected to the outlet of the heating unit to form a downwardly inclined surface on the upper side of the guide unit, and the lower side is horizontal. A horizontal plane is formed,
A number of rollers are hinged to the upper inclined surface or the lower horizontal surface of the guide part. The method of claim 1,
and a lifting part mounted on the cooling water tank to support the steel pipe being cooled by water;
The lifting unit,
a shaft portion rotatably coupled to both side walls in the cooling water tank;
It is coupled to the shaft and supports the steel pipe while being rotated in the vertical direction by the shaft, a first support bar, a second support bar spaced apart from the first support bar and disposed parallel to the first support bar, and coupled to the shaft a roof bar composed of a connecting bar configured to connect the first support bar and the second support bar to each other;
and a rotation angle adjusting unit coupled to the shaft and configured to limit the rotation of the shaft.
The rotation angle adjusting unit includes a driving unit having a shaft coupled to the shaft portion of the connection bar, and comprising a motor mounted outside the cooling water tank of the cooling unit,
and a preheating unit connected to the inlet of the heating unit;
The preheating unit
a preheating body having an inlet portion formed on one side and an outlet portion formed on the other side, and having a plurality of heating nozzles formed therein;
a steel pipe transport means comprising a transport belt installed horizontally inside the preheating body and made of a metal chain, a sprocket coupled to both ends of the transport belt to exert rotational force, and a driving source connected to the sprocket;
and a workpiece transfer unit formed at the inlet of the preheating unit to wash the steel pipe before heat treatment with water and then feed it to the inlet of the preheating unit.

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