KR102146699B1 - Cutting apparatus of coil tube - Google Patents

Abstract

The present invention relates to a coil tube cutting device capable of forming a cut line in the coil tube. The disclosed coil tube cutting device includes a base member, a through-tube support member, a tube cutting rotation unit, and a rotation power supply member. The coil tube cutting device can automatically form the continuous cut line in the coil tube.

Description

Coil tube cutting apparatus TECHNICAL FIELD

The present invention relates to a coil tube cutting device.

In general, many devices in industrial facilities have a large number of wires and thin pipes installed.If such a large number of wires and thin pipes are left exposed, such wires and thin pipes will be disturbed and thus aesthetically good. Since there is a risk of safety accidents as well as failure, such a large number of electric wires, thin pipes, etc. have to be arranged, and coil tubes are used for such arrangement.

These coil tubes are made of flexible materials such as PVC, and are flexible tubes that can be easily bent by external force, and are designed to prevent such wires and thin pipes from being disturbed while wires and thin pipes penetrate inside. will be.

What can be presented as an example of such a coil tube is that of the patent document presented below.

These coil tubes are often flexibly bent and applied due to the characteristics of being installed in complex mechanical devices in industrial facilities. The coil tube itself can be bent to a certain degree, but there are frequently cases where it must be bent more than the bending allowable value of the coil tube itself. , The degree of bending of the coil tube can be raised to the required level.

However, in the related art, there is no device for forming an incision line in a certain pattern on the coil tube in order to bend the coil tube, so that an operator had to form such an incision line directly on the coil tube using a knife. Therefore, it takes a lot of time to form such an incision line, as well as inconvenient because it is performed using a knife, and it is difficult to form an accurate incision line because it is manually performed by an operator.

Public Utility Model No. 20-2008-0003519, Publication Date: 2008.08.26, Designation: Cable protection tube

An object of the present invention is to provide a coil tube cutting device capable of forming a cut line in the coil tube.

A coil tube cutting device according to an aspect of the present invention includes a base member; A tube penetrating support member connected to the base member and through which a coil tube to be cut is passed; A tube cut-out rotation unit disposed on the front side of the through-tube support member and rotates based on the forward direction of the coil tube, and forming a cut line required for the coil tube passing through the through-tube support member; And a rotation power providing member that provides power to rotate the tube cutting rotation unit so that the cutting line may be formed in the coil tube.
The tube cut-out rotation unit includes a tube cut-out rotation body member rotated by the power provided from the rotation power supply member, and is inserted into the tube cut-out rotation body member and rotates together with the tube cut-out rotation body member to the coil tube. A blade member for forming an incision line, and a blade support member coupled to the tube cutting rotation body member and supporting the blade member,
The tube cut-out rotating main body member is formed in a shape of a rotating main body, a main protrusion protruding from the rotating main body, and penetrating through the main protrusion, the tube through hole through which the coil tube passes, and the main protrusion. Doedoe formed through, is formed to communicate with the tube through hole, and includes a width adjustment hole formed perpendicular to a direction in which the coil tube passes through the tube through hole,
The blade member is in contact with the blade support body inserted into the width adjustment hole and the coil tube penetrating the tube through hole while being fixed to the lower end of the blade support body to form the cut line in the coil tube. And the blade support body protrudes from the blade support body to allow the blade support body to rotate within a certain angle range within the width adjustment hole so that the angle at which the blade support body is inserted into the width adjustment hole can be varied. Includes a rotating shaft for adjusting the width,
The width adjustment hole is formed to communicate with the shaft through hole through which a portion of the blade support body to which the width adjustment rotation shaft is connected, and the shaft through hole at one side of the shaft through hole, and the shaft through hole toward the end thereof The first wide hole is formed in a form that is relatively gradually widened compared to the first wide hole, and is formed to communicate with the shaft through hole on the other side of the shaft through hole, but is relatively gradually wider than the shaft through hole toward its end. It includes a second wide hole formed in a paper shape,
The first wide hole and the second wide hole are formed in a shape symmetrical to each other with respect to the rotation axis for width adjustment, and when the rotation axis for width adjustment is rotated, the cutting blade fixed to the blade support body and the blade support body As the first wide hole and the second wide hole are approached toward inner surfaces symmetrical to each other with respect to the rotation axis for width adjustment, the angle of the cut line to be formed in the coil tube is varied, so that between the adjacent cut lines It is characterized in that the incision width, which is the width of, can be variable.

According to the coil tube cutting device according to an aspect of the present invention, since the coil tube cutting device includes a base member, a tube penetrating support member, a tube cutting rotation unit, and a rotation power providing member, the coil tube is cut continuously. There is an effect that the improvement can be formed automatically.

1 is a perspective view showing a coil tube cutting device according to an embodiment of the present invention.
2 is a perspective view showing the internal configuration of a coil tube cutting device according to an embodiment of the present invention.
3 is a view looking down from above of a state in which the tube cutting rotation unit is coupled in the coil tube cutting apparatus according to an embodiment of the present invention.
4 is a perspective view showing an exploded view of the tube cutting rotation unit in the coil tube cutting device according to an embodiment of the present invention.
5 is an enlarged view of part A shown in FIG. 4.
6 is a cross-sectional view of a tube cutting rotation unit in the coil tube cutting apparatus according to an embodiment of the present invention.
7 is a cross-sectional view showing a vibration detection sensing member constituting the coil tube cutting device according to an embodiment of the present invention.

Hereinafter, a coil tube cutting apparatus according to embodiments of the present invention will be described with reference to the drawings.

1 is a perspective view showing a coil tube cutting device according to an embodiment of the present invention, Figure 2 is a perspective view showing the internal configuration of a coil tube cutting device according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention In the coil tube cutting device according to the embodiment, a view from above is a view of a tube cutting and rotating unit coupled thereto, and FIG. 4 is a view showing a disassembled view of the tube cutting and rotating unit in the coil tube cutting apparatus according to an embodiment of the present invention. Fig. 5 is a perspective view, and Fig. 5 is an enlarged view of part A shown in Fig. 4, Fig. 6 is a cross-sectional view of a tube cutting rotation unit in a coil tube cutting apparatus according to an embodiment of the present invention, and Fig. 7 is A cross-sectional view showing a vibration sensing sensing member constituting a coil tube cutting device according to an embodiment.

1 to 7 together, the coil tube cutting device 100 according to the present embodiment includes a base member 120, a tube through support member 130, a tube cutting rotation unit 150, and a rotational power. It includes a providing member 140.

In addition, the coil tube cutting device 100 may further include a vibration detection sensing member 190.

The base member 120 is placed on an installation surface of the coil tube cutting device 100, for example, an installation table, and provides the through-tube support member 130, the tube cutting rotation unit 150, and the rotation power The member 140 is installed on the upper surface.

Reference numeral 110 denotes a case member coupled to the base member 120, wherein the case member 110 includes the through-tube support member 130 installed on the upper surface of the base member 120, and the tube cut-out rotation unit 150 ) And the rotation power providing member 140.

Reference numeral 105 denotes an operation switch, which is a means for the operator to control the operation of the coil tube cutting device 100 such as turning on and off the rotation power providing member 140.

The through-tube support member 130 is connected to the base member 120 and passes the coil tube 10 to be cut, and includes a through-tube vertical body 132 and a through-tube support 131.

The tube-penetrating vertical body 132 is vertically erected on the base member 120 at a predetermined height.

The through-tube support 131 extends a predetermined length from the through-tube vertical body 132 to the front side based on the forward direction of the coil tube 10, and extends parallel to the base member 120, the A through hole through which the coil tube 10 can pass is formed in the tube through support 131.

The rotation power providing member 140 is installed on the base member 120 to generate power to rotate the tube cutting rotation unit 150 so that the cutting line 11 can be formed in the coil tube 10. As to provide, an electric motor can be given as an example.

Reference numeral 145 denotes a power transmission member that transmits the power formed by the rotation power providing member 140 to the tube cutting rotation unit 150.

In this embodiment, by way of example, the power transmission member 145 is a driving pulley 146 connected to the rotational shaft of the rotational power providing member 140, and a driven pulley connected to the tube cutting rotation unit 150 ( 148), and a belt 147 connecting the driving pulley 146 and the driven pulley 148.

One side of the driven pulley 148 is rotatably connected to the front side of the through-tube vertical body 132 based on the forward direction of the coil tube 10.

The driven pulley 148 and the tube cutting rotation unit 150 rotate together by fixing the tube cutting rotation body member 151 to be described later of the tube cutting rotation unit 150 to the other side of the driven pulley 148 do.

The tube cut-out rotation unit 150 is disposed on the front side of the through-tube support member 130 and rotates, while the cut-out line 11 required for the coil tube 10 passing through the through-tube support member 130 To form, it includes a tube cutting rotation body member 151, a blade member 170, and a blade support member 160.

The tube cut-out rotation body member 151 is rotated by the power provided from the rotation power supply member 140, and the rotation body 154, the body protrusion 152, and the tube through hole 153 It includes a hole for adjusting the width (155).

The rotating body 154 is fixed to the driven pulley 148 and rotates together with the driven pulley 148.

The body protrusion 152 protrudes from the rotation body 154 in a direction toward the rear of the rotation body 154 with a predetermined length.

The tube through hole 153 is formed to pass through the main body protrusion 152 so that the coil tube 10 passes. The tube through hole 153 passes through the main body protrusion 152 so as to be parallel to the base member 120.

The width adjustment hole 155 is formed vertically through the main body protrusion 152, and is formed to communicate with the tube through hole 153, and the coil tube 10 forms the tube through hole 153 It is formed perpendicular to the passing direction.

The blade member 170 is inserted into the tube cutting rotating body member 151 and rotating together with the tube cutting rotating body member 151 to form the cutting line 11 in the coil tube 10 , And a blade support body 171, an incision blade 173, and a width adjustment rotation shaft 172.

Reference numeral 174 is a shaft fixing cover that constitutes the blade member 170 but is coupled to an upper portion of the width adjustment rotation shaft 172. In a state in which the width adjustment rotation shaft 172 passes through the rotation shaft through hole 162 to be described later, the shaft fixing cover 174 is coupled to the upper portion of the width adjustment rotation shaft 172.

The blade support body 171 is inserted into the width adjustment hole 155 and has a length corresponding to the length of the cutting blade 173 so that the cutting blade 173 can be connected to its bottom surface.

The cutting blade 173 is in contact with the coil tube 10 penetrating the tube through hole 153 while being fixed to the lower end of the blade support body 171, and the cut in the coil tube 10 It is to form an improvement (11).

The width adjustment rotary shaft 172 protrudes upward from the blade support body 171, so that the angle of the blade support body 171 inserted into the width adjustment hole 155 can be variable. 171 is to be rotated within a certain angle range within the width adjustment hole 155.

The width adjustment rotary shaft 172 protrudes vertically upward from the central portion of the blade support body 171.

The blade support member 160 is coupled to the upper portion of the tube cutting rotation body member 151 and supports the blade member 170, and includes a support cover body 161 and a rotation shaft through hole 162 do.

The support cover body 161 covers the upper air of the width adjustment hole 155 and the blade support body 171, and both ends thereof are coupled to the main body protrusion 152.

The rotation shaft through hole 162 is formed through the support cover body 161 so that the upper portion of the rotation shaft 172 for width adjustment is rotatably penetrated.

In this embodiment, the width adjustment hole 155 includes a shaft through hole 157, a first wide hole 156 and a second wide hole 158.

The shaft through hole 157 is a hole through which a portion of the blade support body 171 to which the width adjustment rotation shaft 172 is connected passes, and is formed in the center of the width adjustment hole 155.

The first wide hole 156 is formed to be in communication with the shaft through hole 157 on one side of the shaft through hole 157, and is relatively gradually compared to the shaft through hole 157 toward its end. It is formed in a widening shape.

The second wide hole 158 is formed to be in communication with the shaft through hole 157 on the other side of the shaft through hole 157, and is relatively gradually compared to the shaft through hole 157 toward its end. It is formed in a widening shape.

The first wide hole 156 and the second wide hole 158 are formed to be symmetrical to each other with respect to the rotation shaft 172 for width adjustment.

When configured as described above, in a state in which the blade support body 171 is inserted into the width adjustment hole 155, and the width adjustment rotation shaft 172 penetrates the rotation shaft through hole 162, it is applied by an operator. When the width adjustment rotation shaft 172 is rotated by an external force to lose, the blade support body 171 and the cutting blade 173 fixed to the blade support body 171 are the first wide hole 156 and As the second wide hole 158 approaches the inner surface symmetrical to each other with respect to the rotation axis 172 for width adjustment, the angle of the incision line 11 to be formed in the coil tube 10 is varied, so that The incision width, which is the width between the incision lines 11, can be varied.

In detail, when the width adjustment rotary shaft 172 is rotated to one side, one side of the cutting blade 173 approaches one of the two inner surfaces of the first wide hole 156, and the cutting blade 173 The other side is close to one of the two inner surfaces of the second wide hole 158 that is symmetrical with one of the two inner surfaces of the first wide hole 156 with respect to the width adjustment rotation shaft 172.

On the other hand, when the width adjustment rotary shaft 172 is rotated to the other side, one side of the cutting blade 173 approaches the other of the two inner surfaces of the first wide hole 156, and the cutting blade 173 The other side of the second wide hole 158 is close to one of the two inner sides of the second wide hole 158 that is symmetrical with the other of the two inner sides of the first wide hole 156 with respect to the width adjustment rotation shaft 172.

Meanwhile, the coil tube cutting device 100 includes a shaking motion detection sensing member 190 disposed on the base member 120 to sense a verticality of the base member 120.

In detail, the shaking motion detection sensing member 190 is installed on the base member 120 and at the upper end of the shaking motion detection sensing member case 191 formed in an empty shape, and the shaking motion detection sensing member case 191 A rotating connection ring 192 protruding in a hemispherical shape, a rotating body 193 that is rotatably hooked to the rotating connection ring 192 and can be rotated to face the direction of gravity and is formed to be elongated to a predetermined length, and the rotating body ( 193) is connected by a hinge 197 so that it can be rotated with respect to the pivoting body 193, but the pivoting extension 198 extending in a predetermined length toward the direction of gravity, and the pivoting extension 198 The rotational magnet 194 disposed at the distal end and the rotational magnet 194 disposed on the bottom surface of the inside of the shaking motion sensing member case 191 to detect the change in magnetic force of the rotational magnet 194 that is rotated by hanging from the rotational extension 198 It includes a sensing Hall sensor 196.

The rotational extension 198 and the rotational magnet 194 are always directed in the direction of gravity due to their own weight, and the rotational body 193 is until the hinge 197 reaches the swing detection contact sensor 195 described below. It is directed in the direction of gravity.

In order to enhance the detection effect, the shaking motion detection hall sensor 196 is installed in three or more so as to be spaced apart from the center of the inner bottom surface of the shaking motion detection sensing member case 191 at a predetermined interval on both sides thereof.

The shaking motion detection sensing member 190 is disposed at a height corresponding to the hinge 197 in the shaking motion detection sensing member case 191, and a vibration detection contact sensor 195 capable of detecting a contact of the hinge 197 ), and the shaking motion detection contact sensor 195 protrudes from the inside of the shaking motion detection sensing member case 191.

When the base member 120 is in a normal posture, the rotating body 193, the rotating extension 198 and the rotating magnet 194 are in a state of being stretched in the direction of gravity, and the rotating magnet 194 is the swinging It maintains the state sensed by the central one of the detection Hall sensor 196.

Then, when the base member 120 starts to be inclined arbitrarily, the rotational body 193 and the rotational extension 198 are rotated in the direction of gravity by an inclined degree of the base member 120, and the rotational magnet 194 As the position of) changes, the magnetic force sensed by the shaking motion detection hall sensor 196 is changed, so that the vibration of the base member 120 caused by tilting the base member 120 can be detected.

Then, when the base member 120 is inclined to the maximum value, the hinge 197 comes into contact with the swing detection contact sensor 195, and the hinge 197 contacts the swing detection contact sensor 195 As the rotational body 198 is relatively more rotated compared to the rotational body 193, the detection range of the magnetic force change of the rotational magnet 194 by the swing detection Hall sensor 196 is adjusted. The magnet 194 is deviated, and accordingly, the hinge 197 and the swing detection contact sensor 195 detect contact and the rotation detection hall sensor 196 deviates from the detection range of the magnetic force change of the rotating magnet 194 By sensing, the maximum inclination of the base member 120 can be detected.

Here, the magnetic force change detection range deviation detection of the rotating magnet 194 by the swing detection Hall sensor 196 means that the magnetic force change of the rotating magnet 194 is detected by the swing detection Hall sensor 196 In the meantime, it refers to a state in which magnetic force is no longer detected by the swing detection Hall sensor 196 beyond the magnetic force change detection range of the rotation magnet 194 by the swing detection Hall sensor 196.

By being configured as described above, the fluctuation of the coil tube cutting device 100 according to the arbitrary inclination of the base member 120 can be quickly detected.

Hereinafter, the operation of the coil tube cutting device 100 according to the present embodiment will be described with reference to the drawings.

First, the width adjustment rotary shaft 172 is rotated by an operator to adjust the cut width.

In this state, when the rotation power providing member 140 is operated, the tube cutting rotation unit 150 rotates relative to the through-tube support member 130.

In this state, when the coil tube 10 is inserted into the tube through support 131, the coil tube 10 is cut by the cutting blade 173, so that the coil tube 10 is in a diagonal direction. While the cutting line 11 is formed, the coil tube 10 incident on the cutting blade 173 in a diagonal direction moves forward due to the rotation of the tube cutting rotation unit 150.

As the coil tube 10 is automatically advanced by the forward and continuous rotation of the tube cutting rotation unit 150, the cut line 11 is attached to the coil tube 10. ) Can be formed continuously.

As described above, the coil tube cutting device 100 includes the base member 120, the tube through support member 130, the tube cutting rotation unit 150, and the rotation power providing member 140. As a result, it is possible to automatically form the continuous incision line 11 in the coil tube 10.

In the above, the present invention has been shown and described with respect to specific embodiments, but those of ordinary skill in the art variously modify the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. And it will be appreciated that it can be changed. However, it is intended to clearly reveal that all of these modifications and variations are included within the scope of the present invention.

According to the coil tube cutting device according to an aspect of the present invention, since the cutting line can be formed in the coil tube, the industrial applicability is high.

100: coil tube cutting device
120: base member
130: tube penetration support member
140: rotation power providing member
150: tube cutting rotation unit

Claims (3)

Base member;
A tube penetrating support member connected to the base member and through which a coil tube to be cut is passed;
A tube cut-out rotation unit disposed on the front side of the through-tube support member and rotates based on the forward direction of the coil tube, and forming a cut line required for the coil tube passing through the through-tube support member; And
Including; a rotation power providing member for providing power to rotate the tube cutting rotation unit so that the cutting line can be formed in the coil tube,
The tube cutting rotation unit
A tube cut-out rotation body member that is rotated by the power provided from the rotation power providing member,
A blade member inserted into the tube cutting rotation body member and rotating together with the tube cutting rotation body member to form the cut line in the coil tube,
It is coupled to the tube cutting rotation body member, and includes a blade support member for supporting the blade member,
The tube cut rotation body member
A rotating body,
A body protrusion protruding from the rotating body,
A tube through hole formed to pass through the main body protrusion, through which the coil tube passes,
Doedoe formed through the main body protrusion, formed to communicate with the tube through hole, and a width adjustment hole formed perpendicular to the direction in which the coil tube passes through the tube through hole,
The blade member
A blade support body inserted into the width adjustment hole,
A cutting blade fixed to the lower end of the blade support body and in contact with the coil tube passing through the tube through hole to form the cutting line in the coil tube,
Protruding from the blade support body, the blade support body includes a rotation shaft for width adjustment to rotate within a certain angle range within the width adjustment hole so that the angle of the blade support body inserted into the width adjustment hole is variable and,
The width adjustment hole
A shaft through hole through which a portion of the blade support body to which the width adjustment rotation shaft is connected is passed,
A first wide hole formed at one side of the shaft through hole to communicate with the shaft through hole, and is formed in a form that is gradually widened relative to the shaft through hole toward an end thereof,
A second wide hole formed on the other side of the shaft through hole so as to communicate with the shaft through hole, and the second wide hole is formed in a form that is gradually widened relative to the shaft through hole toward an end thereof,
The first wide hole and the second wide hole are formed in a shape symmetrical to each other with respect to the rotation axis for adjusting the width,
When the rotation axis for width adjustment is rotated, the blade support body and the cutting blade fixed to the blade support body are approached from the first wide hole and the second wide hole toward an inner surface symmetrical to each other with respect to the rotation axis for width adjustment The coil tube cutting device, characterized in that by varying the angle of the cut line to be formed in the coil tube, the cut width, which is a width between the adjacent cut lines, can be varied. delete The method of claim 1,
The coil tube cutting device
Including; is disposed on the base member, the vibration detection sensing member for sensing the verticality of the base member,
The vibration detection sensing member
A vibration detection sensing member case installed on the base member and formed in an empty shape,
A rotation connection ring protruding in a hemispherical shape from an upper end of the inner case of the shaking motion sensing member case,
A rotating body that is rotatably hooked to the rotating connection ring and rotates to face the direction of gravity and is formed to be long in a predetermined length,
A pivoting extension connected to the end of the pivoting body by a hinge so that it can be rotated with respect to the pivoting member, and extending a predetermined length toward the direction of gravity;
A rotating magnet disposed at the distal end of the rotating extension;
A shaking motion detection hall sensor disposed on a bottom surface of the inside of the shaking motion detection sensing member case and detecting a change in magnetic force of the pivoting magnet that is rotated while hanging from the pivoting extension;
A vibration detection contact sensor disposed at a height corresponding to the hinge in the vibration detection sensing member case and capable of detecting a contact of the hinge,
The shaking motion detection contact sensor has a shape protruding from the inside of the shaking motion detection sensing member case,
The rotational extension member and the rotational magnet are directed in the direction of gravity by their own weight, and the rotational member is directed in the direction of gravity until the hinge contacts the swing detection contact sensor,
The coil tube cutting device, characterized in that three or more of the shaking motion detection Hall sensors are installed to be spaced apart from the center of the inner bottom surface of the shaking motion detection sensing member case at a predetermined interval.

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