KR101001283B1 - Apparatus for cutting steel pipe - Google Patents

Abstract

PURPOSE: A steel pipe cutting apparatus is provided to reduce the time of cutting work by employing an automatic hydraulic cutting method. CONSTITUTION: A steel pipe cutting apparatus(100) comprises a rotary unit(110), a guide unit(120), a hydraulic unit(130), and a cutting unit(140). The rotary unit includes a housing(111) and a pair of rollers(112) which are rotated with a motor to rotate a steel pipe. The guide unit has a frame(121) and a hook(122) which is locked on a holding protrusion(115) to fix the frame to the housing. The hydraulic unit comprises a hydraulic cylinder(131), an oil tank for storing oil provided to the hydraulic cylinder, and a push bar(132) which supplies the oil from the oil tank to the hydraulic cylinder by vertical pumping. The cutting unit comprises a base plate(141), a cutter which contacts and cuts a steel pipe when the blade plate descends, and a contact bearing which presses the steel pipe downward by interlocking with the rotated steel pipe.

Description

Steel Pipe Cutting Machine {APPARATUS FOR CUTTING STEEL PIPE}

The present invention relates to a steel pipe cutting device, and more particularly, to a steel pipe cutting device for cutting while rotating the steel pipe fixedly placed in a fixed position.

In general, steel pipes are made of steel, and are widely used for transporting fluids, mechanical structures, and general structures.

Most of these steel pipes are manufactured to the proper length and transported to the construction site, and then connected and constructed by welding in a state of being arranged in a line.

However, if the length of the steel pipe is longer than necessary during the construction process, the steel pipe is cut directly in the field and then connected.

This steel pipe cutting is by a steel pipe cutter, a conventional steel pipe cutter is cutting the steel pipe by a grinding wheel rotated by a motor.

However, the steel pipe cutter of such a structure has a problem that noise is greatly generated when cutting the steel pipe, the cutting surface is obliquely formed, or is not smooth, so that it is not exactly matched when welding with other steel pipes, so that post processing is required.

The present invention is to solve the above problems, to reduce the noise generated when cutting the steel pipe, and to provide a steel pipe cutting device that does not require post-processing after cutting the steel pipe.

Steel pipe cutting device of the present invention, the upper portion is open, the housing having a housing space formed therein and a rotary unit having a pair of rollers that are built in the housing, rotated by a motor, the steel pipe is seated, and the A guide unit having a frame coupled to one side of the housing by a hinge and a hook coupled to the other side of the frame to secure the frame to the housing by hanging on a locking jaw of the housing, and a hydraulic cylinder coupled to an upper portion of the frame; And a oil bar embedded in the housing and coupled to one side of the housing containing the oil tank to be supplied to the hydraulic cylinder, and pumping up and down to supply the oil from the oil tank to the hydraulic cylinder. A base plate coupled to the hydraulic unit and the hydraulic cylinder to move up and down; It is coupled to the base plate and the cutter for cutting the steel pipe to be rotated in contact with the steel pipe when the base plate is lowered and coupled to the lower portion of the base plate, press the steel pipe downward while contacting and rotating in contact with the rotating steel pipe It includes a cutting unit having a contact bearing.

The pair of rollers is a rubber material is combined on a steel material, the portion corresponding to the portion of the cutter is lowered to cut the steel pipe is made of only the steel material, the height is higher than the portion where the rubber material is combined When the steel pipe is seated on the pair of rollers is formed low can be formed between the spaces.

A hydraulic system may be coupled to the hydraulic cylinder to display the hydraulic pressure applied to the hydraulic cylinder to the outside.

A return spring is coupled between the hydraulic cylinder and the base plate so that the return spring is expanded when the base plate is lowered by the supply of hydraulic pressure, and the return spring is elastically restored when the hydraulic supply is released. You can pull upwards.

The base plate is formed in the first plate and the first plate formed with a through hole formed in the central portion and both sides of the upper surface is rotated 90 degrees clockwise "C", the upper portion penetrates the through hole of the central portion It is coupled with the hydraulic cylinder, and has a second plate coupled to the cutter at the bottom.

Both sides of the second plate is coupled to the pressure bar exposed to the upper portion of the first plate through the through holes formed on both sides of the first plate, one side is over the top of the pressure bar, the other side is A pressure spring is provided on the upper surface of the first plate, and the pressure spring is interposed between the lower portion of the hydraulic cylinder and the upper surface of the first plate to assist the pressurization of the steel pipe by the contact bearing when cutting the steel pipe. can do.

Guide bars are formed on both side surfaces of the first plate, and both ends of the guide bar are coupled with limiting bearings respectively contacting both side surfaces of the frame, thereby preventing horizontal movement of the base plate when cutting the steel pipe. .

Each of the side surfaces of the first plate facing each other may be inclined to both sides with respect to the center vertical axis to form a “mountain” shape.

According to the steel pipe cutting device of the present invention, it is possible to reduce the occurrence of noise during cutting of the steel pipe, the steel pipe is automatically cut by the hydraulic pressure is easy to cut the steel pipe, there is an advantage that also saves time.

Since the contact bearing rotates with the rotation of the steel pipe during steel pipe cutting, the steel pipe can be fixed downward by pressing the steel pipe downward.

1 is a perspective view schematically showing a steel pipe cutting device according to an embodiment of the present invention.
Figure 2 is a side view schematically showing a steel pipe cutting device of FIG.
Figure 3a to 3c is an operation diagram showing the steel pipe cutting operation sequentially by the steel pipe cutting device of FIG.

Hereinafter, the steel pipe cutting device of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a steel pipe cutting device according to an embodiment of the present invention, Figure 2 is a side view schematically showing the steel pipe cutting device of Figure 1, Figure 3a to 3c is a steel pipe cutting device of Figure 1 By the steel pipe cutting operation sequentially.

1 to 3C, the steel pipe cutting device 100 of the present invention includes a rotating unit 110, a guide unit 120, a hydraulic unit 130, and a cutting unit 140.

The rotation unit 110 includes a housing 111, a motor (not shown), a roller 112, and a power switch 116.

The housing 111 is open at the top and has a structure in which an accommodation space is formed.

The motor and the roller 112 are embedded in the housing 111, and the roller 112 is exposed to the outside through the open upper portion of the housing 111.

The roller 112 is provided with a pair to be rotated by the motor, and the steel pipe 200 to be cut between the pair of rollers 112 is seated and rotates together when the roller 112 is rotated.

The roller 112 has a cuticle 114 made of a rubber material or the like coupled to the base roller 113 made of steel, etc., and a cuticle 114 made of rubber or the like is formed at the portion where the steel pipe 200 is to be cut. Not coupled to the epidermis 114 has a step with the portion bonded.

That is, the portion where the epidermis 114 is not coupled is formed to have a lower height than the portion where the epidermis 114 is coupled to the steel tube 200 when the steel pipe 200 is seated between the pair of rollers 112. Is in contact with the skin 114 but is not contacted with the base roller 113 exposed to the outside is spaced a predetermined interval.

The power switch 116 is coupled to an outer surface of the housing 111 and rotates the motor by supplying power between an external power source (not shown) and the motor by a power switching 116.

The guide unit 120 includes a frame 121 and a hook 122.

The frame 121 has a form similar to a form in which the letter “C” is rotated 90 degrees clockwise, and the pair is spaced apart from each other.

The frame 121 is hinged to one side of the upper surface formed on the edge portion of the housing 111, the lower side of the frame 121 can be rotated by a predetermined angle with respect to the housing 111, the hook 122 to the other lower portion rotatably Is coupled to the locking jaw 115 formed at the other side of the housing 111 to fix the frame 121 to the housing 111.

The frame 121 is rotatably coupled to the housing 111 to open and close the frame 121 with respect to the housing 111. The steel pipe 200 is seated on the roller 112. When the frame 121 is opened to supply the steel pipe 200 through the space.

On the other hand, the guide unit 120 is detachably coupled to the rotation unit 110, specifically the frame 121 on the housing 111, can be coupled by moving the position on the housing 111 have.

If the steel pipe 200 is not orthogonally disposed between the steel pipe 200 and the frame 121 when the steel pipe 200 is cut, the steel pipe 200 and the cutter 143, which will be described later, do not come in direct contact with each other. This is not done, because it is to form a screw on the surface of the steel pipe 200 is to prevent this.

The hydraulic unit 130 includes a hydraulic cylinder 131, an oil tank (not shown), a push bar 132, and a hydraulic system 133.

The hydraulic cylinder 131 is coupled to the upper portion of the frame 121 to the piston movement downward.

The oil tank is embedded in the housing 111 to supply oil to the hydraulic cylinder 131 so that oil pressure is generated by the hydraulic cylinder 131.

The push bar 132 is coupled to the side of the housing 111 to transfer the oil in the oil tank to the hydraulic cylinder 131 by pumping up and down.

Meanwhile, a release valve (not shown) is provided in the housing 111 to release the hydraulic pressure caught in the hydraulic cylinder 131. When the release valve is opened, oil in the hydraulic cylinder 131 is sent back to the oil tank. Lose.

The hydraulic system 133 may be coupled to the hydraulic cylinder 131 to display the hydraulic pressure applied to the hydraulic cylinder 131 to the outside.

The cutting unit 140 includes base plates 141 and 142, a cutter 143, and a contact bearing 144.

The base plates 141 and 142 include a first plate 141 and a second plate 142.

The first plate 141 has a shape similar to a shape in which the letter “C” is rotated 90 degrees in a clockwise direction, and through holes (not shown) are respectively formed at the center and both sides of the upper surface, that is, the horizontal surface.

Both sides of the first plate 141 facing each other, that is, the lower portion of the vertical surface may be inclined to both sides with respect to the central vertical axis to form a concave “mountain” shape.

This is for cutting the steel pipe 200 having a small diameter, so that the steel pipe 200 is drawn into the mountain-shaped concave portion.

The second plate 142 is inserted into a space between the vertical surfaces of the first plate 141 and is coupled to the hydraulic cylinder 131 through a through hole formed in the center of the first plate 141.

The cutter 143 is disposed below the second plate 142. Specifically, the cutter 143 is formed in the through bar 147 penetrating both vertical surfaces of the first plate 141 and the bottom of the second plate 142. 143 may be coupled through.

Here, the second plate 142 is similar in shape to the "T", a groove (not shown) is formed so that the cutter 143 is disposed below the vertical surface, the through bar 147 is the first The cutter 143 may be coupled to the second plate 142 by penetrating both sides of the first plate 141, both vertical surfaces of the second plate 142, and holes (not shown) formed in the cutter 143. Can be.

Meanwhile, a restoring spring 150 may be coupled between the through bar 147 and the hydraulic cylinder 131.

The restoring spring 150 allows the base plates 141 and 142 which are lowered by the hydraulic pressure supplied from the hydraulic cylinder 131 to be returned to their original positions by the elastic restoring force when the hydraulic pressure is released.

That is, the restoring spring 150 is expanded when the base plates 141 and 142 are lowered by hydraulic pressure, and the restoring spring 150 is contracted when the hydraulic release is opened by opening a release valve to raise the base plates 141 and 142 to their original positions. Let's go.

The contact bearing 144 is coupled to the lower portion of the first plate 141 and presses down the steel pipe 200 which is rotated when the base plates 141 and 142 are lowered to lower the steel pipe 200 when the cutting operation of the steel pipe 200 ( 200) can be fixed in place.

Here, the contact bearing 144 is also rotated in conjunction with the rotation of the steel pipe 200 so as not to interfere with the rotation of the steel pipe 200 when the contact bearing 144 contacts the steel pipe 200.

On the other hand, the pressure bar 149 is coupled to both sides of the second plate 142 in order to assist the force that the contact bearing 144 pressurizes the steel pipe 200, that is, to maintain the pressing force, and to further increase the contact bearing 144. do.

The pressure bar 149 penetrates through holes formed in both sides of the first plate 141 to protrude upward of the first plate 141, and protrudes to an upper portion of the first plate 141. The pressure spring 148 is coupled to 149.

The pressure spring 148 has one side over the upper end of the pressure bar 149, the other side over the upper surface of the first plate 141, the first plate 141 relative to the second plate 142 By pressing the contact bearing 144 may assist in pressing the steel pipe (200).

On the other hand, the guide bar 145 extending to the vertical surface of the frame 121 is coupled to both side surfaces of the first plate 141, the limiting bearing 146 is coupled to both sides of the guide bar 145.

The limiting bearing 146 contacts each of both sides of the frame 121 to prevent the base plates 141 and 142 from slid while sliding on both sides of the frame 121 when the base plates 141 and 142 are elevated.

That is, when cutting the steel pipe 200, the base plates 141 and 142 to which the cutter 143 is coupled by friction with the steel pipe 200 may be displaced from their positions. When contacted to both sides of the frame 121, even if the base plate (141, 142) is to be separated by the external force is blocked, the path to be separated is blocked, it is possible to prevent the base plate (141, 142) to be released in position.

Here, the limit bearing 146 is also rotated on the frame 121 when the base plate (141, 142) is raised and lowered.

The cutting process of the steel pipe 200 by the steel pipe cutting device 100 of the structure as described above first rotates the frame 121 fixed to the housing 111 to open the steel pipe 200 seating path, a pair of rollers After mounting the steel pipe 200 to be cut on the 112, the frame 121 is rotated again to be fixed to the housing 111.

Next, the push bar 132 is pumped to lower the base plates 141 and 142 by the hydraulic cylinder 131 so that the contact bearing 144 and the cutter 143 come into contact with the steel pipe.

Next, when the roller 112 is rotated to rotate the steel pipe 200, the cutter 143 in contact with the steel pipe 200 cuts the steel pipe 200 that is rotated.

Here, the cutting operation is performed while gradually increasing the oil pressure while referring to the oil pressure value displayed on the oil pressure gauge 133 in consideration of the thickness of the steel pipe 200 when the steel pipe 200 is cut by the cutter 143.

This is because not only the surface of the steel pipe 200, but also the inner surface side to be cut completely, so if the hydraulic pressure is provided from the beginning, the cutting surface of the steel pipe 200 may be broken, such as crushed, If you do not gradually increase the degree of hydraulic pressure, only the surface will be cut (scratched) and a complete cut will not be made.

According to the steel pipe cutting device 100 of the structure as described above, it is possible to reduce the generation of noise when cutting the steel pipe 200, the steel pipe 200 is automatically cut by the hydraulic pressure, so easy to cut the steel pipe 200. And it has the advantage of saving time.

In addition, since the contact bearing 144 is rotated in conjunction with the rotation of the steel pipe 200 when the cutting operation of the steel pipe 200 can press the steel pipe 200 downward to fix the position, so that the cutting surface is exactly formed in a date, post-processing This has the advantage of not needing.

100 ... steel pipe cutting unit 110 ... rotary unit
111 ... housing 112 ... roller
113 ... Base Roller 114 ... Cuticle
115 ... Jump 116 ... Power Switch
120 ... guide unit 121 ... frame
122 ... Hook 130 ... Hydraulic Unit
131 ... hydraulic cylinder 132 ... push bar
133 ... Hydraulic 140 ... Cutting Unit
141 ... First plate 142 ... Second plate
143 ... cutter 144 ... contact bearing
145 ... guide bar 146 ... limited bearing
147 ... through bar 148 ... pressurizing spring
150 ... return spring

Claims (8)

A rotating unit having an upper portion, a housing having an accommodating space therein, and a pair of rollers embedded in the housing, rotated by a motor, and rotating a steel pipe seated thereon;
A guide unit having a frame having one side hinged to the housing and a hook coupled to the other side of the frame to be caught by a locking jaw of the housing to fix the frame to the housing;
A hydraulic cylinder coupled to an upper portion of the frame, an oil tank housed in the housing and accommodating oil to be supplied to the hydraulic cylinder, and coupled to one side of the housing, and pumped up and down from the hydraulic cylinder. A hydraulic unit having a push bar for supplying the oil to the furnace; And
A base plate coupled to the hydraulic cylinder and moved up and down, coupled to the base plate, and coupled to a lower portion of the base plate and a cutter to contact the steel pipe when the base plate descends to cut the rotated steel pipe; And a cutting unit having a contact bearing pressurizing the steel pipe downward while contacting and rotating with the steel pipe being rotated.
The pair of rollers is a rubber material is combined on a steel material, the portion corresponding to the portion of the cutter is lowered to cut the steel pipe is made of only the steel material, the height is higher than the portion where the rubber material is combined It is formed low to form an interspace when the steel pipe is seated on the pair of rollers,
The base plate is:
A first plate having a through hole formed at a central portion and both sides of an upper surface of the upper surface of the upper surface; And
And a second plate disposed in the first plate and coupled to the hydraulic cylinder having an upper portion penetrated through the through hole of the central portion, and the cutter coupled to the lower portion.
delete The method according to claim 1,
The hydraulic cylinder is coupled to the hydraulic cylinder is a steel pipe cutting device, characterized in that for displaying the hydraulic value caught on the hydraulic cylinder to the outside.
The method according to claim 1,
A return spring is coupled between the hydraulic cylinder and the base plate so that the return spring is expanded when the base plate is lowered by the supply of hydraulic pressure, and the return spring is elastically restored when the hydraulic supply is released. Steel pipe cutting device characterized in that pulled upwards.
delete The method according to claim 1,
Both sides of the second plate is coupled to the pressure bar exposed to the upper portion of the first plate through the through holes formed on both sides of the first plate, one side is over the top of the pressure bar, the other side is The pressing spring is provided on the upper surface of the first plate,
The pressure spring is also interposed between the lower portion of the hydraulic cylinder and the upper surface of the first plate,
Steel pipe cutting device, characterized in that for assisting the pressing of the steel pipe by the contact bearing when cutting the steel pipe.
The method according to claim 1,
Guide bars are formed on both side surfaces of the first plate, and both ends of the guide bar are coupled with limiting bearings respectively contacting both side surfaces of the frame to prevent horizontal movement of the base plate when the steel pipe is cut. Steel pipe cutting device.
The method according to claim 1,
Each of the side surfaces of the first plate facing each other is inclined to both sides with respect to the center vertical axis to form a "mountain" shape.

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