KR20120076431A - Pipe cutting apparatus - Google Patents

Abstract

PURPOSE: A pipe cutting apparatus is provided to easily adjusting a lateral gap between one side cutting unit and the other side cutting unit according to the length of pipes by arranging one side cutting unit in the one upper part of a frame to be laterally moved. CONSTITUTION: A pipe cutting apparatus comprises a frame(10), fixing parts(20), and cutting parts(30) The fixing parts are arranged in the frame to fix a pipe(5) for cutting. Each cutting part comprises a base plate(310), a supporting part(320), and a cutting member(330). The base plate is shaft-coupled at the top of the frame. The supporting part is vertically formed on the top of the base plate. The cutting member is shaft-coupled to the supporting part to vertically move and laterally rotate. The cutting member cuts the pipe fixed in the fixing parts and comprises one side cutting unit(31) and the other side cutting unit. One side cutting unit is arranged in one upper part of the frame and the other side cutting unit is arranged in the other upper part of the frame.

Description

Pipe Cutting Machine {PIPE CUTTING APPARATUS}

The present invention can automatically cut one side and the other side of a pipe bent in two or three dimensions as well as a normal pipe vertically, and in particular, one side and the other side of the pipe can be automatically inclined more easily at a desired angle. It relates to a pipe cutting device that can be.

Generally, the pipe is bent in two or three dimensions by a rolling bending device, depending on the intended use.

On the other hand, when a user wants to cut a pipe bent in two or three dimensions by a rolling bending device to a certain length, a worker usually cuts a pipe bent in two or three dimensions by using a cutting tool such as a saw blade. .

However, there is a problem in that it is not easy to cut a pipe bent in two or three dimensions with a cutting tool as described above.

In order to solve the above problems, a pipe cutting device for automatically cutting one side and the other side of a pipe bent in two or three dimensions has recently been proposed.

However, the pipe cutting device has a problem in that only one side and the other side of the pipe are cut only vertically, and one side and the other side of the pipe may not be inclined at a desired angle as needed.

The present invention was created in order to solve the above-described problems, it is possible to automatically cut one side and the other side of the pipe bent in two or three dimensions as well as general pipe vertically, in particular, one side and the other side of the pipe It is an object of the present invention to provide a pipe cutting device that can automatically cut to be inclined more easily at a desired angle.

The present invention for achieving the above object is a frame; A fixing part provided on the frame to fix the pipe to be cut; A base plate axially coupled to an upper portion of the frame, a support portion vertically formed on an upper surface of the base plate, and a cutting portion for cutting pipes fixedly coupled to the support portion by being axially coupled to the support portion so as to be movable vertically and horizontally It provides a pipe cutting device comprising a; cutting portion consisting of a member.

Here, the cut portion and the one side cut portion provided on one side of the frame; It is preferable to include; the other side cut-out portion provided on the other side upper portion of the frame.

And a first driving member provided below the frame in an axially coupled state with the base plate; A second driving member provided in the support part in axially coupled state with the lower side of the cutting part; And a control unit for controlling the first driving member and the second driving member according to a preset setting value.

In addition, the one side cutting portion is preferably provided to be movable left and right on one side of the frame.

The present invention is a pipe bent in two or three dimensions as well as general pipes through a cutting member that is axially coupled to the upper and lower sides of the support plate is vertically formed on the upper surface of the base plate axially coupled to the top of the frame The ability to automatically cut one side and the other side vertically, in particular, has the effect of automatically cutting one side and the other side of the pipe to be inclined more easily at a desired angle.

In addition, through the cutting portion comprising one cut portion and the other cut portion, it is possible to automatically cut one side and the other side of the pipe bent in two or three dimensions as well as a general pipe more easily and automatically, in particular, of the pipe One side and the other side has an effect that can be automatically cut inclined more easily at a desired angle.

In addition, the base plate and the base plate can be rotated more easily and forwardly with the cut portion through the first driving member, and the cut portion can also be easily tilted by tilting by tilting the cut portion more easily by the second driving member. There is.

Furthermore, since the one side cut part is provided to be movable left and right on one side of the frame, the left and right gaps between the one side cut part and the other side cut part can be easily adjusted according to the left and right lengths of the pipe.

1 is a front view schematically showing a pipe cutting device according to an embodiment of the present invention,
FIG. 2 is a plan view of FIG. 1;
3 is a cross-sectional view taken along line AA of FIG. 2,
4 is a left side view of FIG. 1;
5 is a partially enlarged front view schematically showing a state in which the cutting member is moved left and right,
6 is a partially enlarged plan view schematically illustrating a state in which the base plate is rotated forward and backward,
7 is a front view schematically showing a state in which a pipe is cut, respectively.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a front view schematically showing a pipe cutting device according to an embodiment of the present invention, Figure 2 is a plan view of FIG.

Pipe cutting device is an embodiment of the present invention as shown in Figure 1, large, comprises a frame 10, a fixing portion 20 and the cutting portion 30.

First, the frame 10 includes one frame 110 as shown in FIG. 2; It may be composed of the other side frame 120 provided on the other side of the one side frame 110.

The one side frame 110 may be composed of a first frame 111 and a second frame 112.

The first frame 111 may be formed to extend a predetermined length in the left and right directions.

The second frame 112 may be located behind the first frame 111 while maintaining a predetermined distance from the first frame 111.

The second frame 112 may extend a predetermined length in left and right directions.

The first frame 111 and the second frame 112 are disposed on one side of the lower surface and the other of the lower surface of the first frame 111, and on the other side of the lower and one lower surface of the second frame 112 from the ground. Leg portions 113 supporting at a predetermined height may be vertically provided in one piece.

A support plate 114 having the cutting part 30 may be horizontally disposed between an upper portion of one side of the first frame 111 of the one side frame 110 and an upper portion of the one side of the second frame 112.

The fixing plate 115 may be horizontally provided at a height lower than that of the supporting plate 114 between the other side of the first frame 111 and the other side of the second frame 112 of the one side frame 10.

A plurality of fixing grooves 116 may be formed in the upper side of the fixing plate 115 at regular intervals from one side of the fixing plate 115 to the other side.

The plurality of fixing grooves 116 may be formed to extend a predetermined length from the front side of the fixing plate 115 in the rearward direction.

3 is a cross-sectional view taken along line AA of FIG. 2.

The plurality of fixing grooves 116 may include a vertical guide space 116a having an upper side opened as shown in FIG. 3; And a horizontal expansion space 116b formed below the guide space 116a so as to communicate with the vertical guide space 116a.

The other frame 120 may be composed of a third frame 121 and a fourth frame 122.

The third frame 121 may be formed to extend a predetermined length in the front-rear direction.

The fourth frame 122 may be positioned in the other direction of the third frame 121 while maintaining a predetermined distance from the third frame 121.

The fourth frame 122 may be formed to extend a predetermined length in the front-rear direction.

The third frame 121 and the fourth frame 122 are disposed on the front side and the bottom side rear surface of the third frame 121 and the front side and the bottom side rear surface of the fourth frame 122 from the ground. Leg portions 123 supporting at a predetermined height may be vertically provided in one piece.

The support plate 124 may be horizontally provided between an upper portion of the third frame 121 of the other frame 120 and an upper portion of the fourth frame 122.

Next, the fixing part 20 is provided on the fixing plate 115 of the frame 10 to fix the position of the pipe 5 to be cut.

The fixing part 20 may be provided in plural at regular intervals from one side of the fixing plate 115 to the other side.

The fixing part 20 may be fixed in a state in which the position is adjusted by moving back and forth by the operator according to the shape of the pipe (5).

As shown in FIGS. 1 to 3, the fixing unit 20 may include a front and rear moving plate 210, a front and rear moving plate fixing member 220, and a pipe fixing member 230.

The front and rear movable plate 210 may be horizontally seated on the upper surface of the fixing plate 115 in a state of being positioned in an upper direction of the vertical guide space 116a of the plurality of fixing grooves 116.

The front and rear movement plate 210 may be moved back and forth along the vertical guide space 116a of the plurality of fixing grooves 116 by the operator.

The front and rear movable plate fixing member 220 may include a fixing bolt 221 and a nut 222.

The lower side of the fixing bolt 221 may be accommodated in the vertical guide space 116a and the horizontal expansion space 116b while vertically penetrating the front and rear sides of the front and rear movable plate 210.

The nut 222 may be horizontally provided in the horizontal expansion space 116b while being screwed with the lower end of the fixing bolt 221.

When the worker rotates the fixing bolt 221 in the forward direction, the nut 222 may rise in the vertical guide space 116a to be in close contact with the inner circumferential surface of the horizontal expansion space 116b.

As a result, the fixing part 20 may be fixed in a state in which the operator moves back and forth.

When the worker rotates the fixing bolt 221 in the reverse direction, the nut 222 is lowered to the lower side of the inner circumferential surface of the horizontal expansion space 116b, whereby the position fixing state of the fixing portion 20 is released It becomes possible.

The pipe fixing member 230 may include a support body 231, a rotating member 232, and a fixing bolt 233.

The support body 232 may be integrally formed vertically at the center of the upper surface of the front and rear movable plate 210.

The upper surface of the support body 232 may be mounted to the pipe (5) to be cut by the operator.

The rotating member 232 may include a rotating shaft 232a and a rotating plate 232b which are rotated forward and backward by an operator.

The rotation shaft 232 may be axially coupled to be capable of forward and reverse rotation perpendicular to the upper front side of the support body 232.

The lower surface of the front end portion of the rotating plate 232b may be integrally connected to the upper surface of the rotating shaft 232a by welding or the like.

The rotating plate 232b may be rotated forward and backward along the rotating shaft 232a.

The fixing bolt 233 may be vertically screwed to the rear end of the rotating plate 232b to be movable.

The worker may reversely rotate the fixing bolt 233 to raise and lower the fixing bolt 233.

Pipe (5) seated on the upper surface of the support body 232 may be located between the rotating shaft 232 and the fixing bolt 233,

In particular, the pipe (5) seated on the upper surface of the support body 232 through the fixing bolt 233 is lowered to the rear end portion of the rotary plate 232b toward the outside of the support body 232 It is possible to more easily prevent the risk of departure.

4 is a left side view of FIG. 1.

Next, the cutting portion 30 is composed of a base plate 310, the support 320 and the cutting member 330 as shown in FIGS.

As shown in FIG. 4, the front end portion of the base plate 310 may be axially coupled to the top of the support plates 114 and 124 of the frame 10 so as to be capable of forward and reverse rotation.

An arc-shaped guide slit (114a and 124a of FIG. 2) may be formed at the center of the support plates 114 and 124.

A guide that rotates along the guide slits 114a and 124a of the support plates 114 and 124 in a state of being accommodated in the guide slits 114a and 124a of the support plates 114 and 124 on the lower surface of the base plate 310. The shaft 310a may be integrally vertically provided.

The support 320 may be integrally formed vertically with the rear upper surface of the base plate 310.

An arc-shaped guide slit 320a of FIG. 1 may be formed at the center of the support 320.

The cutting member 330 is axially coupled to the front side of the support 320 so as to be movable vertically and horizontally to cut the pipe 5 fixed to the fixing part 20.

The cutting member 330 may include a left and right rotational moving plate 331, a shanghai copper plate 332, a body 333, a cutting blade 334, a cylinder 335, and a driving member 336.

The lower end portion of the left and right rotation moving plate 331 may be axially coupled to the lower center of the support part 320 by the shaft (331a of FIG. 1).

A guide shaft 331a that rotates along the guide slit 320a of the support part 320 may be horizontally formed integrally on the rear surface of the left and right rotating plate 331.

Guide rails 331b extending in a predetermined length in the vertical direction may be integrally provided at one front side and the other front side of the left and right rotation moving plate 331, respectively.

A guide body 332a coupled to the guide rail 331b of the left and right moving plate 331 in a movable manner may be integrally provided at one side of the rear side and the other side of the rear side of the shandong copper plate 332.

The body 333 is integrally provided on the front surface of the shanghai copper plate 332 and may be shanghai along the shanghai copper plate 332.

The cutting blade 334 may be axially coupled to the lower portion of the body 333 to be exposed to the outside of the body 333.

The cutting blade 334 may be moved along the body 333 to cut the pipe (5).

The cylinder 335 may be vertically fixed to an upper end of the left and right rotational moving plate 331.

The lower end of the cylinder 335 may be connected to the upper end of the shanghai copper plate 332.

As the vertical length of the cylinder 335 is extended, the shanghai copper plate 332 may be shanghai along the guide rails 331b of the left and right rotating plate 331.

The drive member 336 may be composed of a drive motor 336a and a rotational force transmission member (336b of FIG. 1).

The drive motor 336a may be mounted on the upper surface of the body 333 in a bolted state.

5 is a partially enlarged front view schematically illustrating a state in which the cutting member 330 is moved left and right.

As shown in FIG. 5, the rotation force transmitting member 336b may include a first pulley 336b ₁ , a second pulley 336b ₂ , and a first belt 336b ₃ .

Alternatively, the rotation force transmitting member 336b may be composed of a first sprocket, a second sprocket, and a first chain, although not shown in the drawing.

The first pulley 336b ₁ or the first sprocket may be axially coupled to the drive shaft of the drive motor 336a.

The second pulley 336b ₂ or the second sprocket may be coupled to an end portion of the shaft 334a of the cutting blade 334.

The first belt (336b ₃₎ and wherein the said of the first chain, the first belt (336b ₃₎ can be wound on the outer periphery of the first pulley (336b ₁₎ outer periphery and a second pulley (336b ₂₎ of The first chain may be wound around the outer circumference of the first sprocket and the second sprocket.

The cutting blade 334 may receive the reverse rotational power of the driving motor 336a through the rotational force transmission member 336b to reverse the rotation to cut the pipe 5.

Next, as shown in FIG. 1 and FIG. 2, the cutout part 30 includes one side cutout part 31 including the base plate 310, the support part 320, and the cutting member 330; And the other side cutting part 33 including the base plate 310, the support part 320, and the cutting member 330.

The one side cutting part 31 is provided on the support plate 114 provided between an upper portion of one side of the first frame 111 of the one frame 110 of the frame 10 and an upper portion of one side of the second frame 112. Can be.

The other cut part 33 may be provided on the support plate 124 provided between the upper part of the third frame 121 and the upper part of the fourth frame 122 of the other frame 120 of the frame 10. have.

Automatically vertically the one side and the other side of the pipe (5) bent in two or three dimensions as well as the general pipe (5) through the cut portion 30 comprising the one side cut portion 31 and the other side cut portion 33 It is possible to cut more easily (see FIG. 7 a.), And in particular, one side and the other side of the pipe 5 may be more easily inclined at a desired angle (see α of b). The advantage is that it can be cut automatically.

6 is a partially enlarged plan view schematically illustrating a state in which the base plate 310 is rotated forward and backward.

Next, the first driving member 40, the second driving member 50 and a control unit (not shown) may be further provided.

The first driving member 40 may be provided below the support plates 114 and 124 of the frame 10 in a state in which the first driving member 40 is axially coupled to the front end of the base plate 310.

The second driving member 50 may be provided on the support part 320 in a state in which the second driving member 50 is axially coupled to the lower side of the left and right rotational moving plate 331 of the cutting part 30.

The controller (not shown) may control the first driving member 40 and the second driving member 50 according to preset values set in the controller (not shown).

As shown in FIG. 4, the first driving member 40 may include a driving motor 410, a driving gear 420, and a driven gear 430.

The driving motor 410 may be bolted vertically to the lower side of the support plate (114, 124), respectively.

The drive gear 420 may be provided inside the support plates 114 and 124 in a state in which the drive gear 420 is axially coupled to the drive shaft of the drive motor 410.

The driven gear 430 is axially coupled to the lower end of the shaft 431 for axially coupling the front end of the base plate 310 and the support plates 114 and 124 to the inside of the support plates 114 and 124. It may be provided.

The driven gear 430 may be engaged with the drive gear 420.

As shown in FIGS. 2 and 4, the second driving member 50 may include a driving motor 510, a driving gear 520, and a driven gear 530.

The driving motors 510 may be bolted horizontally to the rear center of the support part 320, respectively.

The drive gear 520 may be axially coupled to the drive shaft of the drive motor 510.

The driven gear 530 may be axially coupled to the shaft 331a which axially couples the lower end of the left and right moving plate 331 to the lower center of the support part 320.

The driven gear 530 may be located under the drive gear 520 in a state of being engaged with the drive gear 520.

The preset value set in the controller (not shown) may include the forward and reverse speed values of the drive shaft of the drive motor 410 of the first drive member 40; The reverse rotation speed value of the drive shaft of the drive motor 510 of the second drive member 50;

Based on the preset value set in the controller (not shown) according to the degree of bending of one side and the other side of the pipe 5, that is, based on the forward and reverse rotation speed of the drive shaft of the drive motor 410 of the first driving member 40. As shown in 6, the rear end portion of the base plate 310 together with the cutting portion 30 may be rotated forward and backward in place.

In addition, the cutting unit 30 as shown in FIG. 5 based on a preset value set in the control unit (not shown), that is, the forward and reverse rotation speed value of the drive shaft of the drive motor 510 of the second driving member 50. The left and right sides of the pipe 5 may be lowered in the direction in which the pipe 5 is moved in the left and right directions, and the one side and the other side of the pipe 5 may be inclined.

The cutting angles (see α in FIG. 7 b) of one side and the other side of the pipe 5 may be determined according to the degree of left and right rotation of the cutting part 30.

Not only can the base plate 310 be rotated forward and backward more easily together with the cutting portion 30 through the first driving member 40 but also the cutting portion 30 through the second driving member 50. In addition, there is an advantage that can be tilted inclined by moving the left and right more easily.

Next, the one side cutting part 31 may be provided to move left and right on one side of the one side frame 110 of the frame 10.

To this end, as shown in FIG. 2, the support plate 114 horizontally provided between an upper portion of one side of the first frame 111 of one frame 110 of the frame 10 and an upper portion of one side of the second frame 112. Left and right moving members 60 to move left and right) may be provided.

As shown in FIG. 1, a guide rail 117 is formed on the upper surface of the first frame 111 of the one side frame 110 and the upper surface of the second frame 112. Each may be provided.

In addition, as shown in Figure 1, the front lower surface and the rear lower surface of the support plate 114 may be provided with a guide body 118 which is coupled to the guide rail 117 to be movable left and right, respectively.

As illustrated in FIG. 2, the left and right moving members 60 may include a driving motor 610, a lead screw 620, and a left and right moving body 630.

The driving motor 610 may be horizontally fixed to the rear of the second frame 112.

The lead screw 620 may be horizontally mounted to the rear of the second frame 112 in a state in which the lead screw 620 is axially coupled with the drive shaft of the drive motor 610.

The left and right moving body 630 may be integrally formed at the rear center of the support plate 114.

The left and right moving body 630 may be screwed with the lead screw 620.

As the driving motor 610 reversely rotates the lead screw 620 under the control of the controller (not shown), the left and right moving bodies 630, the support plate 114, and the one side cutting part 31 are The position can be adjusted by moving left and right.

Since the one side cutout part 31 is provided to be movable left and right on one side of the frame 10, the left and right gaps between the one side cutout part 31 and the other side cutout part 33 are changed according to the left and right lengths of the pipe 5. There is an advantage that can be adjusted more easily.

Next, the other cut portion 33 may be provided to be moved back and forth on the upper portion of the other frame 120 of the frame 10.

To this end, as shown in FIG. 2, the support plate 124 horizontally provided between the upper part of the third frame 121 and the upper part of the fourth frame 122 of the other frame 120 of the frame 10 is disposed. The front and rear movement member 70 may be provided to move back and forth.

As shown in FIG. 1, the guide rail 125 extending in a front and rear direction is formed on the upper surface of the third frame 121 and the upper surface of the fourth frame 122 of the other frame 120. Each may be provided.

In addition, as shown in Figure 2, one side lower surface and the other lower surface of the support plate 124 may be provided with a guide body 126 is coupled to the guide rail 125 to be moved back and forth.

The front and rear movement member 70 may be composed of a drive motor 710, a lead screw 720 and the front and rear movement body 730 as shown in FIG.

The driving motor 710 may be horizontally fixed in the other direction of the fourth frame 122.

The lead screw 720 may be horizontally provided in the other direction of the fourth frame 122 in a state in which the lead screw 720 is axially coupled with the axial shaft of the drive motor 710.

The front and rear movable body 730 may be integrally formed at the center of the other side of the support plate 124.

The front and rear movable body 730 may be screwed with the lead screw 720.

As the driving motor 710 reversely rotates the lead screw 720 under the control of the controller (not shown), the front and rear moving body 730, the support plate 124, and the other side cutting part 33 are Position can be adjusted to move back and forth.

7 is a front view schematically showing a state in which the pipe 5 is cut, respectively.

The present invention configured as described above is axially coupled to the support part 320 which is vertically formed on the upper surface of the base plate 310 axially coupled to the upper portion of the frame 10 is axially coupled to the left and right rotational movement The cutting member 330 can automatically cut one side and the other side of the pipe 5 bent in two or three dimensions as well as the normal pipe 5 as shown in FIG. 7 a). As shown in b) of FIG. 7, one side and the other side of the pipe 5 may be automatically inclined more easily at a desired angle α.

10; Frame, 20; Fixture,
30; Cuts.

Claims (4)

A frame 10;
A fixing part 20 provided on the frame 10 to fix the pipe 5 to be cut;
The base plate 310 is axially coupled to the upper portion of the frame 10, the support portion 320 is formed perpendicular to the upper surface of the base plate 310, and can be moved vertically and horizontally in the support portion 320 And a cutting member (330) configured to be axially coupled to cut the pipe (5) fixed to the fixed portion (20).
The method of claim 1,
The cut portion 30 is one side cut portion 31 provided on the upper side of the one side of the frame 10;
And the other side cutting part (33) provided at the upper side of the other side of the frame (10).
The method of claim 1,
A first driving member 40 provided below the frame 10 in a state in which the base plate 310 is axially coupled;
A second driving member 50 provided on the support part 320 in a state in which the cutting part 30 is axially coupled to the lower side;
And a control unit for controlling the first driving member 40 and the second driving member 50 according to a preset setting value.
The method of claim 2,
The one side cutting part (31) is a pipe cutting device, characterized in that provided on the upper side of the one side of the frame (10) to be movable.

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