KR102077809B1 - Device for correcting pipe shape - Google Patents

Abstract

The present invention provides a device for correcting the shape of a pipe, allowing a user to rapidly and simply correct the shape of a pipe while carrying the device. According to an embodiment of the present invention, the device for correcting the shape of a pipe includes: a main body having a pipe insertion port at one end and a body penetration port at the other end, wherein the main body has a moving member coupling screw unit on the inner side; a pipe clamp unit connected to the main body to fix the pipe by a pipe clamping unit pressed to the outer surface of the pipe entering the inside of the main body through the pipe insertion port; a moving member including a moving member screw unit corresponding to the moving member coupling screw unit and connected to the main body to perform a screw motion; a handle unit having a handle and a spindle; and a punch entering the inside of the pipe entering the inside of the main body and linearly moving by being connected to the moving member to press the end of the pipe from the inside to the outer side. In the handle unit, the handle is installed on the other end of the main body for user control to rotate, and the spindle is extended from the handle to be inserted into the body penetration port and is coupled with the moving member to relatively linearly move while a relative rotating motion is restricted.

Description

Shape correcting device for pipes {DEVICE FOR CORRECTING PIPE SHAPE}

The present invention relates to a pipe shape correction device, and more particularly to a pipe shape correction device that can correct the end of the deformed pipe with the original improvement.

Currently, pipes are used in a wide variety of fields.

For example, pipes are used to form various pipes such as water supply lines and oil supply lines. Pipes constituting the pipe are continuously connected through pipe connections. Various valves may be provided between the pipes and the pipes to control the flow of the fluid. In the actual plumbing site, pipes of a certain length are connected by a pipe connecting device to construct a pipe.

The pipes are manufactured to a length suitable for storage and transportation, and the pipes carried to the work site are cut or connected to the required lengths. Pipes having a circular cross section may be damaged by external impacts during transport from the production site to the work site, and may be deformed by various causes even during storage. In addition, in the process of cutting the pipe to the required length, the cross-sectional shape of the pipe may be deformed from its original shape.

In general, in order to connect pipes together, the two pipes to be connected need to be exactly matched. That is, in order to connect two pipes, it is necessary to make the shape of each pipe end the same. In addition, when the pipe is connected to other piping parts such as valves, it is advantageous in many ways that the pipe end shape has an original shape.

Currently, various apparatuses have been proposed for correcting the shape of pipes in which deformation has occurred. For example, Patent No. 1686212 discloses a calibration apparatus for straightening the shape of a pipe by using a hydraulic jack.

However, such a conventional calibration device has a disadvantage in that the structure is large, the size is large, and the working time is long, and it is not suitable for use in correcting the shape of a relatively small pipe.

Registered Patent No. 1686212 (2016. 12. 07.)

The present invention has been made in view of the above-described point, and an object of the present invention is to provide a pipe shape correction apparatus that can quickly and easily correct a pipe shape while being carried by an operator.

The object of the present invention is not limited to the above, other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the object as described above, the pipe shape correction apparatus according to the present invention, the pipe insertion port is provided at one end, the main body through-hole is provided at the other end and the movable member fastening screw portion is provided on the inside; A pipe clamp unit coupled to the main body so as to fix the pipe by a pipe fastener pressed against an outer surface of the pipe entering the main body through the pipe insertion port; A movable member having a movable member threaded portion corresponding to the movable member fastening threaded portion, the movable member coupled to the main body to be screwable; A handle rotatably disposed on the other end side of the main body for user operation and a spindle extending from the handle to be inserted into the main body through-hole and coupled with the movable member to allow relative linear movement but to constrain relative rotational movement; Handle unit having; And a punch that is connected to the movable member so as to enter the inside of the pipe entering the inside of the main body and press the end of the pipe from the inner surface to the outer surface.

The pipe clamp unit may include a first fastening member having a first fastening part which may be in close contact with one side of the pipe and a first extension part extending from the first fastening part and exposed to the outside of the main body, and the other of the pipe. A second fastening portion which is in close contact with one side and hinged to the first fastening portion so as to form the pipe fastening portion together with the first fastening portion and extends from the second fastening portion so as to face the first extension portion. And a second fastening member having a second extension part exposed to the outside of the main body, and hinged to an outer side of the main body, the first extension part being in contact with the first extension part and capable of pressing the first extension part toward the second extension part side. A lever having a second pressure rod facing the first pressure rod to contact the first pressure rod and the second extension part so as to press the second extension part toward the first extension part side; It may include.

At the end of the first extension portion is provided with a first taper that gradually decreases in width as it moves away from the first tightening portion, and the end of the second extension portion gradually decreases in width as it moves away from the second tightening portion. The second taper may be provided.

The movable member may include a punch fastening screw part, and the punch may be screwed with the movable member by having a punch screw part corresponding to the punch fastening screw part.

The punch may include a punch body having an outer width corresponding to an inner width of the pipe, and a punch taper portion provided at the end of the punch body in a form in which the width gradually decreases away from the movable member. .

The spindle includes a movable member engaging portion having a non-circular cross-sectional shape so that the movable member is slidably coupled, and the movable member corresponds to a non-circular shape corresponding to the movable member engaging portion so that the movable member engaging portion can be inserted. It may include a movable member groove.

The main body includes a base having a cap fastening screw portion at one end and the main body through-hole formed at the other end thereof, and a cap screw portion having the pipe insertion hole and corresponding to the cap fastening screw portion, the cap being screwed to the base. It may include.

The pipe clamp unit and the punch may be replaced with the cap separated from the base.

One side of the main body may be provided with a window penetrating the main body so as to expose the moving region in which the movable member or the punch moves to the outside in the main body.

The pipe shape correcting apparatus according to the present invention as described above has a simple structure and a portable size. Therefore, it is possible to easily and conveniently correct the shape of the pipe whose shape is deformed while being carried by the user.

In addition, the shape correction apparatus of the pipe according to the present invention is easy to manufacture because most parts are made of prefabricated parts, it is convenient to replace or repair the parts. In particular, it is possible to replace the clamp for fixing the pipe or the punch to press the pipe into the pipe, so that only the clamp or the punch can be replaced according to the size or shape of the pipe that needs correction. Can be.

The effects of the present invention are not limited to those described above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 and 2 are perspective views showing the shape correction apparatus of the pipe according to an embodiment of the present invention.
3 is a cross-sectional view showing a shape correction apparatus for a pipe according to an embodiment of the present invention.
4 and 5 are exploded perspective views showing the shape correction apparatus of the pipe according to an embodiment of the present invention.
Figure 6 shows the movable member and the punch of the pipe shape correction apparatus according to an embodiment of the present invention.
7 is for explaining the operation of the pipe clamp unit provided in the shape correction apparatus of the pipe according to an embodiment of the present invention.
8 and 9 are for explaining the operation of the shape correction apparatus of the pipe according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In describing the present invention, the size or shape of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of description.

In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. These terms should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention based on the contents throughout the specification.

In order to clearly describe the present invention, descriptions of parts not related to the technical spirit of the present invention are omitted, and the same reference numerals are attached to the same or similar elements throughout the specification.

In addition, in the various embodiments, components having the same configuration will be described only in the exemplary embodiment using the same reference numerals, and in other embodiments, only the components different from the exemplary embodiment will be described.

When a part in the specification is said to be "connected" to another part, it includes not only "directly connected", but also "indirectly connected" with another member therebetween. In addition, when a part is said to "include" a certain component, it may mean that other components are not included, except to specifically include other components, unless otherwise stated.

1 and 2 are a perspective view showing a shape correction apparatus for a pipe according to an embodiment of the present invention, Figure 3 is a cross-sectional view showing a shape correction apparatus for a pipe according to an embodiment of the present invention, Figures 4 and 5 Is an exploded perspective view showing a shape correction apparatus for a pipe according to an embodiment of the present invention.

As shown in the drawing, the pipe shape correcting apparatus 100 according to the embodiment of the present invention includes a main body 110 into which the end of the pipe can be inserted, and a pipe 10 entering the inside of the main body 110. Pipe clamp unit 130 is coupled to the main body 110 to be fixed, the movable member 160 is disposed to be movable inside the main body 110, the handle coupled to the main body 110 for the user operation The unit 170 and a punch 180 connected to the movable member 160 to press the pipe 10 entered into the main body 110 from the inner surface to the outer surface side.

The shape correction device 100 of the pipe is manually operated by a user, and when the user operates the handle unit 170, the punch 180 is inserted into the pipe 10 into which the body 110 enters the inside of the main body 110. By pressing the pipe 10 from the inner surface to the outer surface side, the shape of the pipe 10 can be corrected. In the present embodiment, the shape correction apparatus 100 of the pipe is described as an example that is used to correct the shape of the circular pipe 10 as shown.

The main body 110 includes a base 111 and a cap 125 detachably coupled to the base 111, and the base 111 is movable with a cap fastening portion 112 to which the cap 125 is coupled. The member 160 includes a movable member fastening portion 118 to which it is coupled.

The cap fastening portion 112 has a cylindrical shape with one end open and a portion of the edge cut off. The cap fastening screw 113 for screwing the cap 125 is provided inside the cap fastening portion 112. One side of the edge of the cap fastening portion 112 is provided with a base opening 114 that is open to the outside. In addition, the outer side of the base 111 is provided with a lever engaging portion 115 and a plurality of anti-slip projections (116). The lever coupling part 115 protrudes to the outside of the base 111 and is a part to which the lever 150 to be described later is rotatably coupled. The plurality of non-slip protrusions 116 are spaced apart along the outer circumference of the base 111 to prevent the user's hand from slipping on the base 111 when the user holds the base 111 by hand.

The movable member fastening portion 118 protrudes from an end of the cap fastening portion 112 so as to be coaxially disposed with the cap fastening portion 112. The inner side of the movable member fastening portion 118 is provided with a movable member fastening screw 119 for screwing the movable member 160. In addition, the movable member fastening portion 118 is provided with a body through-hole 120. The body through hole 120 is formed to penetrate the movable member fastening part 118 in a direction parallel to the moving direction of the movable member 160. The spindle 173 of the handle unit 170 is inserted into the body through hole 120. One side of the movable member fastening portion 118 is provided with a window 122. The window 122 moves the movable member fastening portion 118 to expose the moving region in which the movable member 160 or the punch 180 moves inside the movable member fastening portion 118, that is, the main body 110. It is formed through. During the shape correction operation of the pipe 10 using the shape correction device 100 of the pipe, the user operates the handle unit 170 while checking the position of the movable member 160 or the punch 180 through the window 122. The movable member 160 or the punch 180 can be moved as necessary.

The cap 125 is detachably coupled to one end of the base 111 to cover the open end of the base 111. The cap 125 may be screwed to the base 111 by having a cap screw portion 126 corresponding to the cap fastening screw 113 of the base 111. When the cap 125 is separated from the base 111, the inside of the base 111 is exposed to the outside. In this state, the pipe clamp unit 130, the movable member 160, and the spindle unit 173 of the handle unit 170 are exposed. ) And the punch 180 may be assembled to, separated from, or replaced on the base 111. In the center of the cap 125, a pipe insertion hole 127 through which the pipe 10 can pass is formed through the cap 125 in a direction parallel to the moving direction of the movable member 160. The pipe insertion hole 127 and the main body through hole 120 of the base 111 are disposed coaxially.

The main body 110 may be changed to various other structures in addition to the structure in which the cap 125 is detachably coupled to one end of the base 111 as shown. In addition, the base 111 may be changed to various structures other than the structure in which the movable member fastening portion 118 having a smaller width than the cap fastening portion 112 protrudes at the end of the cap fastening portion 112. In addition, the base and the cap may have a structure that can be assembled in other ways than screwing.

The pipe clamp unit 130 is coupled to the main body 110 to fix the pipe 10 entering into the main body 110. Pipe clamp unit 130 is pressed to the outer surface of the pipe 10, the clamp 131 that can be fixed to the pipe 10, and to clamp the clamp 131 in the compressed state on the outer surface of the pipe 10 Lever 150.

The clamp 131 hinges the first fastening member 132 and the second fastening member 138 and the first fastening member 132 and the second fastening member 138 which may be in close contact with the outer surface of the pipe 10. Hinge pins 145 to engage. The first fastening member 132 and the second fastening member 138 may be opened or pinched with each other by relatively rotating about the hinge pin 145.

The first fastening member 132 is a first fastening portion 133 that can be in close contact with one side of the outer surface of the pipe 10 and a first extending from the first fastening portion 133 is exposed to the outside of the main body 110 It has an extension 135. One end of the first fastener 133 is hinged to the second fastener 139 by the hinge pin 145. Inside the first fastening part 133, a first pipe crimping surface 134 bent in a shape corresponding to the outer surface shape of the pipe 10 is provided. In this embodiment, the first pipe pressing surface 134 has an arc shape corresponding to the outer surface shape of the circular pipe 10. A compression pad may be disposed on the first pipe compression surface 134 to be in close contact with the pipe 10 without a slip. The first extension part 135 extends from the other end of the first tightening part 133 to the base opening 114 side of the base 111. At the end of the first extension part 135, a first taper part 136 having a width gradually decreases as the distance from the first tightening part 133 is provided. The first taper portion 136 is exposed to the outside of the body 110 through the base opening 114. The first taper 136 may be located in the base opening 114 or protrude from an outer surface of the base 111.

The second fastening member 138 extends from the second fastening part 139 and the second fastening part 139, which may be in close contact with the other side of the outer surface of the pipe 10, and is exposed to the outside of the main body 110. Has two extensions 141. One end of the second fastening part 139 is hinged to the first fastening part 133 by the hinge pin 145, and the pipe fastening part for fastening and fixing the pipe 10 together with the first fastening part 133 ( 147). Inside the second fastening part 139, a second pipe pressing surface 140 having a shape bent in a shape corresponding to the outer surface shape of the pipe 10 is provided. The second pipe pressing surface 140 has an arc shape corresponding to the outer surface shape of the circular pipe 10. The second pipe crimping surface 140 may be provided with a crimping pad that may be in close contact with the outer surface of the pipe 10 without slip occurrence. The second extension part 141 extends toward the base opening 114 of the base 111 at the other end of the second tightening part 139 to face the first extension part 135. At the end of the second extension part 141 is provided a second taper part 142 whose width gradually decreases away from the second tightening part 139. The second tapered portion 142 is exposed to the outside of the main body 110 through the base opening 114. The second taper 142 may be located in the base opening 114 or protrude from an outer surface of the base 111.

The lever 150 is hinged to the lever coupling portion 115 of the base 111. A lever pin 155 may be connected to the lever coupling unit 115, and the lever 150 may rotate with the lever pin 155 as the rotation center axis. The lever 150 has a first pressing rod 151 and a second pressing rod 152 disposed to face each other, and a connecting portion 153 connecting the first pressing rod 151 and the second pressing rod 152 to each other. Include. The first pressure rod 151 contacts the first extension part 135 of the first tightening member 132 to press the first extension part 135 toward the second extension part 141, and the second pressure rod 152. ) May press the second extension portion 141 toward the first extension portion 135 in contact with the second extension portion 141 of the second fastening member 138. The lever 150 serves to fix the first tightening member 132 and the second tightening member 138 in a closed state. That is, when the user rotates the lever 150 in a direction closer to the clamp 131, the first pressure rod 151 contacts the first taper portion 136 of the first clamping portion 133 and the first clamping portion ( While pressing the 133 to the second tightening part 139, the second pressure rod 152 contacts the second taper part 142 of the second tightening part 139 to remove the second tightening part 139. 1 is pressed to the tightening part 133 side. At this time, the first fastening member 132 and the second fastening member 138 are mutually retracted, and the first taper 136 and the second taper 142 are the first pressure rod 151 and the second pressure rod. By entering between 152, it can be firmly fixed in the closed state.

Specific action of the pipe clamp unit 130 is as follows. As shown in FIG. 7A, when the pipe 10 enters the main body 110, the first fastening member 132 and the second fastening member 138 are in a mutually open state. May smoothly enter the end of the pipe 10 into the base 111.

After the pipe 10 enters the inside of the main body 110, when the user rotates the lever 150 in a direction closer to the clamp 131, as shown in FIG. 7B, the first fastening part ( The first tapered portion 136 of 133 is pressed by the first pressing rod 151 of the lever 150 and the second tapered portion 142 of the second fastening portion 139 is the second of the lever 150. As the pressure is applied by the pressure rod 152, the first fastening member 132 and the second fastening member 138 are rotated in a direction in which they are mutually retracted. As the user rotates the lever 150 further, the end of the first tightening member 132 and the end of the second tightening member 138 enter between the first pressing rod 151 and the second pressing rod 152. do. At this time, the first pressing rod 151 of the lever 150 moves to the middle portion of the first extension part 135 via the first tapered part 136 to further press the first tightening member 132, The second pressing rod 152 moves to the middle portion of the second extension part 141 via the second taper part 142 to further press the second fastening member 138. Accordingly, the first fastening member 132 and the second fastening member 138 may be firmly compressed to the outer surface of the pipe 10, thereby stably fixing the pipe 10.

The pipe clamp unit 130 is installed on the main body 110 so as to be compressed to the pipe 10 in addition to the structure including the clamp 131 and the lever 150 of the structure shown in the figure to fix the pipe 10 It can be modified in various other ways that can be done. In addition, the structure of each of the clamp 131 or the lever 150 is not limited to the illustrated structure and may be variously changed.

The movable member 160 is coupled to the movable member fastening portion 118 of the main body 110 so as to be capable of screwing and rotating and linearly moving inside the main body 110. The movable member 160 includes a head portion 161 and a neck portion 165 protruding from one end of the head portion 161 to be coaxially disposed with the head portion 161. The head 161 has a movable member threaded portion 162 corresponding to the movable member fastening screw 119 of the main body 110 and a movable member groove 163 into which the spindle 173 of the handle unit 170 can be inserted. Is provided. The movable member threaded portion 162 is screwed with the movable member fastening threaded portion 119. The movable member groove 163 is formed non-circularly in the center of the head portion 161. The neck portion 165 is provided with a punch fastening screw portion 166. In addition, an extension groove 167 connected to the movable member groove 163 is provided at the center of the neck 165.

The movable member 160 may move relative to the handle unit 170 but may be coupled with the handle unit 170 by being coupled to restrain relative rotational movement. Therefore, when the handle unit 170 is rotated by the user, the movable member 160 is screwed by the action of the movable member screw portion 162 and the movable member fastening screw portion 119, thereby causing the movable member 160 to be inserted into the pipe insertion hole 127. May be advanced to the side or retracted from the pipe insert 127.

The structure of the movable member 160 is not limited to that shown. That is, the movable member 160 is connected to the handle unit 170 and coupled to the inside of the main body 110 so that the screw movement, it can be changed to various other structures that can be moved linearly by the rotation of the handle unit 170. have.

The handle unit 170 includes a handle 171 rotatably disposed at the other end side of the main body 110 for user manipulation, and a spindle 173 extending from the handle 171 to be inserted into the main body through-hole 120. Has The spindle 173 has a handle engaging portion 174 fixed to the handle 171 and a movable member engaging portion 175 disposed inside the main body 110 to be coaxially disposed with the pipe insertion hole 127 of the main body 110. It includes. The movable member coupling part 175 is coupled with the movable member 160. The movable member coupling portion 175 has a non-circular shape whose cross-sectional shape corresponds to the movable member groove 163 of the movable member 160. The movable member 160 may be coupled to the spindle 173 in a manner in which the movable member coupling part 175 is inserted into the movable member groove 163 so that the relative rotational movement is constrained. Accordingly, when the user rotates the handle 171, the rotational force of the handle 171 is transmitted to the movable member 160 through the spindle 173, and the movable member 160 moves linearly along the spindle 173 by screwing. Can be.

The punch 180 is connected to the movable member 160 to linearly move together with the movable member 160. The punch 180 has a punch body 181 having an outer width corresponding to the inner width of the pipe 10, and a width gradually decreases away from the movable member 160 at one end of the punch body 181. It includes a punch taper portion 185 is provided. The other end of the punch body 181 is provided with a punch groove 182 into which the neck portion 165 of the movable member 160 can be inserted, and in the punch groove 182 to the punch fastening screw portion 166 of the neck portion 165. A corresponding punch thread 183 is provided. The punch 180 may be screwed to the movable member 160 by the punch screw portion 183 and the punch fastening screw portion 166.

The punch 180 may move linearly with the movable member 160, and may enter the inside of the main body 110 when the movable member 160 is advanced toward the pipe 10. The punch 180 may enter the inside of the pipe 10 and press the pipe 10 from the inner surface to the outer surface side while the punch body 181 is pressed against the inner surface of the pipe 10. Therefore, the shape of the end of the pipe 10 can be corrected to a circle or a circle. Since the punch 180 enters the inside of the pipe 10 from the punch taper 185, the punch 180 may pressurize the pipe 10 while gradually increasing the pressing force on the pipe 10.

Hereinafter, a pipe shape correction method using the pipe shape correction apparatus 100 according to an embodiment of the present invention will be described.

First, as shown in FIG. 8, the end of the pipe 10 requiring shape correction in the state in which the lever 150 is separated from the clamp 131 is connected to the main body 110 through the pipe insertion hole 127 of the main body 110. Enter inside of. In this case, the pipe 10 is coaxially disposed with the punch 180 and the portion entering the main body 110 is positioned between the first fastening member 132 and the second fastening member 138 of the clamp 131. .

Thereafter, as shown in FIG. 9, when the lever 150 is rotated toward the clamp 131, the lever 150 closes the first and second fastening members 132 and 138 as described above. By tightening, the pipe 10 is held firmly by the clamp 131. When the handle 171 is rotated while the pipe 10 is firmly fixed, the movable member 160 is screwed to press the punch 180. At this time, the punch 180 enters the inside of the pipe 10 from the punch taper 185 and the punch body 181 presses the inner surface of the pipe 10 toward the outer surface to form a circle or a circle. You can calibrate close to.

After the calibration work for the pipe 10 is completed, the user can release the clamp 150 of the clamp 131 by returning the lever 150 to the original position can be removed from the body 110.

As described above, the pipe shape correction apparatus 100 according to an embodiment of the present invention has a simple structure and a portable size. Therefore, the shape of the pipe 10 whose shape is deformed while being carried by the user can be easily and conveniently corrected.

In addition, the shape correction apparatus 100 of the pipe according to an embodiment of the present invention is easy to manufacture because most of the parts are made of prefabricated parts, it is convenient to replace or repair the parts. In particular, since the clamp 131 or the punch 180 may be replaced, the clamp 131 or the punch 180 may be replaced, and thus, the clamp 131 or the punch 180 may be replaced by only the clamp or the punch.

As mentioned above, although the preferable example was demonstrated about this invention, the scope of the present invention is not limited to the form demonstrated and shown before.

For example, although the clamp 131 and the punch 180 are shown to have a structure suitable for correcting the shape of the pipe 10 having a circular cross-sectional shape, the clamp or the punch is formed in the shape of the pipe to be corrected. It can be changed in various ways. For example, the clamp may have a pipe clamp that may be in close contact with the square pipe or various other shaped pipe outer surfaces in addition to the circular pipe. In addition to the circular pipe, the punch may be changed into another structure that may be in close contact with the inner surface of the square pipe or various other shapes of the pipe to press the pipe from the inner surface to the outer surface.

In addition, although the movable member coupling portion 175 of the spindle 173 is formed in a substantially rectangular bar shape and the movable member groove 163 of the movable member 160 has a corresponding shape, the spindle is Other prismatic shapes, elliptical columnar shapes, or other various movable structures can be taken that can be coupled to the movable member so that they can be coupled so that relative rotational motion is constrained. And the movable member groove of the movable member may take various shapes according to the shape of the spindle.

Further, although the movable member 160 has a male screw structure and the punch 180 has a female screw structure, the movable member 160 and the punch 180 are screwed together, but the movable member has a female screw structure and punches. The external thread structure can be taken. In addition, the movable member and the punch may take a variety of other engagement structures other than the screw engagement structure.

In addition, the movable member 160 and the punch 180 may be made in one piece, in addition to the prefabricated structure as shown.

In addition, the pipe clamp unit 130 is fixed to a pair of tightening members 132, 138 and the pair of fastening members 132, 138 that can tighten the pipe 10 in a closed state. Although shown as including a hinge 150 hinged to the main body 110, the pipe clamp unit may be changed to other structures that can secure the pipe in a variety of different ways.

In addition, the drawing shows that the lever pin 155 for hinge coupling the lever 150 to the main body 110 is assembled to the main body 110 in a prefabricated manner, but the lever pin is a structure that is made integral with the main body, It can be changed to a structure made integral with the lever.

While the invention has been shown and described in connection with the preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as such and illustrated, and the appended claims Those skilled in the art will appreciate that many changes and modifications can be made to the present invention without departing from the spirit and scope thereof.

100: shape correction device for the pipe 110: the main body
111: base 112: cap fastening portion
113: cap fastening thread portion 114: base opening
115: lever coupling portion 118: movable member fastening portion
119: movable member fastening screw 120: body through hole
122: Windows 125: Cap
129 cap screw portion 127 pipe insertion hole
130: pipe clamp unit 131: clamp
132: first tightening member 133: first tightening member
135: first extension part 136: first taper part
138: second tightening member 139: second tightening member
141: 2nd extension part 142: 2nd taper part
145: hinge pin 147: pipe fastener
150: lever 151: first pressurizing rod
152: second pressure rod 153: connecting portion
155: lever pin 160: movable member
161: head portion 165: neck portion
170: handle unit 171: handle
173: spindle 175: movable member coupling portion
180: punch 181: punch body
185: punch taper

Claims (9)

A main body having a pipe insertion hole at one end thereof and a main body through hole at the other end thereof, and a movable member fastening screw unit provided at an inner side thereof;
A pipe clamp unit coupled to the main body so as to fix the pipe by a pipe tightening part compressed to an outer surface of the pipe entering the main body through the pipe insertion port;
A movable member having a movable member threaded portion corresponding to the movable member fastening threaded portion, the movable member coupled to the main body so as to be screwable;
A handle rotatably disposed on the other end side of the main body for user operation and a spindle extending from the handle to be inserted into the main body through-hole and coupled with the movable member to allow relative linear movement but to constrain relative rotational movement; Handle unit having; And
A punch which is connected to the movable member so as to enter the inside of the pipe entering the inside of the main body and press the end of the pipe from the inner surface to the outer surface to move linearly; Device.
The method of claim 1,
The pipe clamp unit,
A first fastening member having a first fastening part which may be in close contact with one side of the pipe and a first extension part extending from the first fastening part and exposed to the outside of the main body;
The second fastening part which is in close contact with the other side of the pipe and hinged to the first fastening part so as to form the pipe fastening part together with the first fastening part, and the second extension part so as to face the first extension part. A second tightening member having a second extension extending from the tightening portion and exposed to the outside of the main body;
A first pressing rod hinged to an outer side of the main body and capable of pressing the first extension part toward the second extension part in contact with the first extension part and the second extension part in contact with the second extension part; And a lever having a second pressing rod facing the first pressing rod so as to pressurize toward the first extension portion.
The method of claim 2,
At the end of the first extension portion is provided with a first taper portion whose width gradually decreases away from the first tightening portion,
And a second taper portion at the end of the second extension portion, the width of which gradually decreases as the distance from the second tightening portion is provided.
The method of claim 1,
The movable member has a punch fastening screw portion,
The punch is a shape correction apparatus for the pipe, characterized in that the screw threaded with the movable member having a punch threaded portion corresponding to the punching fastening screw.
The method of claim 1,
The punch is
A punch body having an outer width corresponding to the inner width of the pipe;
And a punch taper portion provided at the end of the punch body in such a manner that the width thereof gradually decreases away from the movable member.
The method of claim 1,
The spindle includes a movable member engaging portion having a non-circular cross-sectional shape so that the movable member is slidably coupled,
And the movable member includes a non-circular movable member groove corresponding to the movable member coupling portion so that the movable member coupling portion can be inserted therein.
The method of claim 1,
The main body,
A base having a cap fastening screw portion at one end and the main body through-hole formed at the other end thereof;
And a cap provided with the pipe insertion port and having a cap screw portion corresponding to the cap fastening screw portion, the cap being screwed to the base.
The method of claim 7, wherein
And the pipe clamp unit and the punch are replaceable in a state where the cap is separated from the base.
The method of claim 1,
One side of the main body is a shape correction apparatus for the pipe, characterized in that provided with a window passing through the main body to expose the moving area in which the movable member or the punch moves to the outside.

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