KR200402229Y1 - A Pipe Clamper for Pipe Welding Machine - Google Patents

Abstract

The present invention relates to a clamping device for a synthetic resin pipe fusion machine, and more particularly, to a clamping device for a synthetic resin pipe fusion machine for fixing two double wall synthetic resin pipes to be welded without movement when the double wall synthetic resin pipe is fused. .

To this end, the present invention provides a plurality of first clamps consisting of a lower clamp and an upper clamp clamping one double wall synthetic resin pipe, a plurality of second clamps consisting of a lower clamp and an upper clamp clamping another double wall synthetic resin pipe, and the first clamp. A clamping device for a synthetic resin pipe fusion machine comprising a guide rod for guiding a first clamp and a second clamp, and a cylinder for moving the first clamp with respect to the second clamp, wherein the double wall synthetic resin pipe is clamped during clamping. In order to prevent the double wall synthetic resin pipe from moving, the frictional coefficient of the first contact surface formed on the inner surface of the lower clamp is characterized in that it is formed larger than the friction coefficient of the second contact surface formed on the inner surface of the upper clamp.

Description

Clamping Device for Plastic Pipe Welding Machine {A Pipe Clamper for Pipe Welding Machine}

The present invention relates to a clamping device for a synthetic resin pipe fusion machine, and more particularly, to a clamping device for a synthetic resin pipe fusion machine for fixing two double wall synthetic resin pipes to be welded without movement when the double wall synthetic resin pipe is fused. .

Synthetic resin pipe fusion machine is a device for interconnecting two synthetic resin pipes, a clamping device for clamping two synthetic resin pipes to closely contact the ends of the two synthetic resin pipes, and heating means (not shown) for fusing both ends of the synthetic resin pipes. It includes.

1 is a perspective view of a clamping device of a conventional synthetic resin pipe fusion machine, Figure 2 is an exploded perspective view showing an extract of one clamp in the conventional clamping device of a synthetic resin pipe fusion machine, Figure 3 is a cross-sectional view of a conventional synthetic resin pipe 4 is a perspective view showing a cross section of a double wall synthetic resin pipe.

As shown, the conventional clamping device of the synthetic resin pipe fusion machine, a plurality of first clamp 10 consisting of the lower clamp 11 and the upper clamp 12, the lower clamp 21 and the upper clamp 22 A plurality of second clamps 20, guide rods 30 for guiding through the first clamps 10 and the second clamps 20, and the first clamps 10 to the second clamps 20. And a cylinder 40 to move relative to. Here, the cylinder 40 is composed of a cylinder body 41 fixed to both sides of the second clamp, and a cylinder rod 42 connected to both sides of the first clamp 10 and emerged from the cylinder body 41. do.

Referring to one of the first and second clamps, as illustrated in FIG. 2, the first fastening nut is connected to the first shaft bar 13a pivoting the guide rod 30 at one end of the lower clamp 11. 13b is provided, and the other end of the lower clamp 11 has a structure in which the second fastening nut 14b is installed on the second shaft bar 14a pivoting around the guide rod 30. In addition, first and second jaw portions 15b and 16b on which the first fastening nut 13b and the second fastening nut 14b hang are formed at both ends of the upper clamp 12, and the first and second jaw portions are formed. First and second jaw grooves 15a and 16a in which the first and second shaft rods 13a and 14a are fitted are formed in the 15b and 16b.

According to the above structure, the synthetic resin pipe seated on the lower clamp 12 is covered with the upper clamp 11, and then the first and second shaft rods 13a and 14a are each of the first and second jaw grooves 15a and 16a. ), And then rotate the first and second fastening nuts 13b and 14b. Then, the first and second fastening nuts 13b and 14b press the first and second jaw portions 15b and 16b of the upper clamp 12 toward the lower clamp 11 so that the synthetic resin tube is firmly formed. Clamped.

However, the synthetic resin tube clamped by the clamping device is limited to the synthetic resin tube 50 having a single wall structure, as shown in FIG. If the synthetic resin pipe is composed of the inner wall 61 and the outer wall 62, as shown in Figure 4, the dual structure consisting of a plurality of intermediate walls (63) connecting between the inner wall (61) and the outer wall (62) In the case of a double wall synthetic resin tube 60, it is practically impossible to fuse the ends of two double wall synthetic resin tubes.

This is because each of the two double-walled synthetic resin pipes 60, 60 'is seated on the lower clamps 11, 21 of the first and second clamps 10, 20, and then the upper clamps 12, 22, respectively. ) Is coupled to the lower clamps (11) and (21), the two double-walled synthetic resin pipes 60, 60 'move relatively slightly, thus different from the middle walls (63) of one double-walled synthetic resin pipe As the middle walls 63 'of the double-walled synthetic resin pipe are displaced, a problem in that fusion is not properly generated occurs.

The present invention was created to solve the above problems, and can clamp two double-walled synthetic resin tubes composed of an inner wall, an outer wall, and a plurality of intermediate walls connecting between the inner wall and the outer wall, so that each of the synthetic resin tubes An object of the present invention is to provide a clamping device for a synthetic resin pipe fusion machine which can prevent the position of the intermediate wall from being distorted.

In order to achieve the above object, the clamping apparatus of the synthetic resin pipe fusion machine according to the present invention includes a plurality of first clamps consisting of a lower clamp and an upper clamp clamping one double wall synthetic resin tube, and a lower portion clamping another double wall synthetic resin tube. A plurality of second clamps comprising a clamp and an upper clamp, a guide rod for guiding through the first clamp and the second clamp, and a cylinder for moving the first clamp with respect to the second clamp. In the clamping device of claim 1, wherein the friction coefficient of the first contact surface formed on the inner surface of the lower clamp to prevent the double-walled synthetic resin pipe from moving during the clamping of the double-walled synthetic resin pipe is formed on the inner surface of the upper clamp It is characterized by being larger than the friction coefficient of the contact surface.

In the present invention, in order to make the friction coefficient of the first adhesion surface larger than the friction coefficient of the second adhesion surface, the area of the first adhesion surface in contact with the outer circumferential surface of the double-walled synthetic resin tube is larger than the area of the second adhesion surface. Characterized in that formed. That is, by forming a plurality of grooves in the circumferential direction on the inner surface of the lower clamp and the upper clamp, by adjusting the area of the grooves the area of the first contact surface in contact with the outer peripheral surface of the double-wall synthetic resin pipe is formed wider than the area of the second contact surface Be sure to

In addition, in order to make the friction coefficient of the first contact surface larger than the friction coefficient of the second contact surface, the first contact surface is characterized in that a plurality of protrusion pins are formed in point contact with the outer circumferential surface of the double-walled synthetic resin tube do.

In addition, in order to make the friction coefficient of the first contact surface larger than the friction coefficient of the second contact surface, the upper clamp has a relatively short length compared to the fixing part to move along the inner side of the fixing part and the fixing part. It may be configured to include a moving part coupled by a fixed part and a bearing.

In addition, the present invention is equipped with a first liner having an outer diameter equal to the inner diameter of the lower clamp is mounted on the inner surface of the lower clamp, in order to effectively clamp the small diameter double wall synthetic resin tube, the inner surface of the upper clamp is the same as the inner diameter of the upper clamp A second liner having an outer diameter is mounted, and the friction coefficient of the third contact surface formed on the inner surface of the first liner is greater than the friction coefficient of the fourth contact surface formed on the inner surface of the second liner. At this time, in order to make the friction coefficient of the third contact surface larger than the friction coefficient of the fourth contact surface, the area of the third contact surface in contact with the outer circumferential surface of the double-walled synthetic resin pipe is formed to be wider than the area of the fourth contact surface or Preferably, the third contact surface is configured such that a plurality of protrusion pins are formed in point contact with the outer circumferential surface of the double wall synthetic resin pipe.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 5 is a perspective view of the clamping device of the synthetic resin pipe fusion machine according to an embodiment of the present invention, Figure 6 and Figure 7 is an exploded perspective view showing an extract of one clamp in the clamping device of the synthetic resin pipe fusion machine according to an embodiment of the present invention 8 and 9 are views illustrating a state in which a liner is coupled in a clamping device of a synthetic resin pipe welding machine according to an embodiment of the present invention.

As shown, the clamping device of the synthetic resin pipe fusion machine according to an embodiment of the present invention is composed of a plurality of lower clamp 111 and the upper clamp 112 for clamping one double wall synthetic resin tube 60 shown in FIG. A plurality of second clamps 120 including a first clamp 110, a lower clamp 121 and an upper clamp 122 clamping the other double wall synthetic resin pipe 60 ′, and the first clamp 110 and the first clamp 110. A guide rod 130 guides through the second clamp 120, and a cylinder 140 for moving the first clamp 110 with respect to the second clamp 120. Here, the cylinder 140 is a cylinder body 141 is fixed to both sides of the second clamp 120, the cylinder rod 142 connected to both sides of the first clamp 110 and emerged from the cylinder body 141 It consists of

6 and 7, one end of the lower clamp 111 is formed on the first shaft rod 113a which is rotated about the guide rod 130 by the shaft. The first fastening nut 113b is installed, and the other end of the lower clamp 111 has a structure in which the second fastening nut 114b is installed on the second shaft bar 114a pivoting around the guide rod 130. In addition, first and second jaw portions 115b and 116b to which the first fastening nut 113b and the second fastening nut 114b are engaged are formed at both ends of the upper clamp 112, respectively. First and second jaw grooves 115a and 116a into which the first and second shaft rods 113a and 114a are fitted are formed in the 115b and 116b.

In order to prevent the double wall synthetic resin pipes 60 and 60 'from moving during the clamping of the double wall synthetic resin pipes 60 and 60', the lower clamp 111 to which the double wall synthetic resin pipes 60 and 60 'are in close contact with each other. The friction coefficient of the first contact surface 117 formed on the inner surface is formed to be larger than the friction coefficient of the second contact surface 118 formed on the inner surface of the upper clamp 112.

In order to make the coefficient of friction of the first contact surface 117 larger than the coefficient of friction of the second contact surface 118, the area of the first contact surface 117 in contact with the outer circumferential surface of the double-walled synthetic resin tube is the second contact surface 118. It is configured to be wider than the area of). That is, a plurality of grooves are formed in the inner surfaces of the lower clamp 111 and the upper clamp 112 in the circumferential direction, and the area of the first contact surface 117 in contact with the outer circumferential surface of the double wall synthetic resin pipe is adjusted by adjusting the area of the groove. 2 to be formed wider than the area of the contact surface 118.

In addition, in order to make the friction coefficient of the first contact surface 117 larger than the friction coefficient of the second contact surface 118, the first contact surface 117 has a plurality of protrusion pins which are in point contact with the outer circumferential surface of the double-walled synthetic resin tube. This can be formed. In the present embodiment, the projection pin is shown in gear shape for ease of explanation, but any other shape is possible as long as it can make point contact with the outer circumferential surface of the double-wall synthetic resin tube.

In addition, in order to make the friction coefficient of the first contact surface 117 larger than the friction coefficient of the second contact surface 118, the upper clamp is moved along the inner surface of the fixing part 119 'and the fixing part 119'. The length is relatively short compared to the fixing part 119 ', and may be configured to include the moving part 119 coupled by the fixing part 119' and the bearing 119a. That is, since the second contact surface 118 is formed on the moving part 119 moved by the bearing 119a, the friction coefficient of the first contact surface 117 as a result is the friction coefficient of the second contact surface 118 It is getting bigger.

By the above structure, the double wall synthetic resin tube 60 is seated on the first contact surface 117 of the lower clamp 111 and the upper clamp 112 is covered, and then the first and second shaft rods 113a and 114a are closed. After inserting into the first and second jaw grooves 115a and 116a, the first and second fastening nuts 113b and 114b are rotated. Then, the first and second fastening nuts 113b and 114b press the first and second jaw portions 115b and 116b of the upper clamp 112 toward the lower clamp 111, resulting in the double wall synthetic resin pipe 60. ) Is firmly clamped. At this time, the contact area of the first contact surface 117 is relatively wider than the second contact surface 118 or a projection pin or fixing portion 119 ′ formed on the first contact surface 117 and the moving part 119. Due to the structure of the upper clamp, the friction coefficient of the first contact surface 117 is greater than the friction coefficient of the second contact surface 118, so that the double wall synthetic resin tube 60 does not move or rotate during the clamping process. Therefore, the intermediate walls 63 of the double wall synthetic resin pipe and the intermediate wall 63 'of the other double wall synthetic resin pipe are fitted so as not to be displaced so that fusion can be performed perfectly.

In addition, the present invention in order to effectively clamp the double-walled synthetic resin pipe having a small diameter, the inner surface of the lower clamp 111 is equipped with a first liner 150 having the same outer diameter as the inner diameter of the lower clamp 111, the upper On the inner surface of the clamp 112 is mounted a second liner 160 having the same outer diameter as the inner diameter of the upper clamp 112. The third and fourth contact surfaces 151 and 161 are formed on the inner surfaces of the first and second liners 150 and 160, and the first liner 150 is disposed so that the double wall synthetic resin tube to be clamped does not move. The friction coefficient of the third contact surface 151 formed on the second contact surface 151 should be greater than the friction coefficient of the fourth contact surface 161 formed on the second liner 160. To this end, the area of the third contact surface 151 in contact with the outer circumferential surface of the double wall synthetic resin pipe is configured to be wider than the area of the fourth contact surface 161. That is, by forming a plurality of grooves in the circumferential direction on the inner surfaces of the first liner 150 and the second liner 160 and adjusting the area of the grooves, the area of the third contact surface 151 in contact with the outer circumferential surface of the double-walled synthetic resin tube It is to be formed wider than the area of the fourth contact surface 161. In addition, the third contact surface 151 may be configured to form a plurality of protrusion pins in point contact with the outer circumferential surface of the double-walled synthetic resin tube. In the present embodiment, the projection pin is shown in gear shape for ease of explanation, but any other shape is possible as long as the outer circumferential surface of the double wall synthetic resin pipe can be brought into point contact.

Although the present invention has been described with reference to the above-described preferred embodiment and the accompanying drawings, it is also possible to constitute different embodiments within the concept and scope of the present invention. Therefore, the scope of the present invention is defined by the appended claims, and should be construed as not limited by the specific embodiments described herein.

According to the present invention, the clamping device of the synthetic resin pipe fusion machine as described above, by making the friction coefficient of the first contact surface formed on the inner surface of the lower clamp larger than the friction coefficient of the second contact surface formed on the inner surface of the upper clamp, It is possible to prevent the double walled plastic pipe from moving while clamping the plastic pipe. Therefore, the middle walls of one double wall synthetic resin pipe and the middle wall of the other double wall synthetic resin pipe can be exactly matched, and perfect fusion can be performed.

1 is a perspective view of a clamping apparatus of a conventional synthetic resin pipe fusion machine.

Figure 2 is an exploded perspective view showing an extract of one clamp in the clamping device of a conventional synthetic resin pipe fusion machine.

3 is a perspective view showing a cross section of a general synthetic resin tube.

4 is a perspective view showing a cross-section of a double wall synthetic resin tube.

5 is a perspective view of a clamping device of a synthetic resin pipe welding machine according to an embodiment of the present invention.

6 and 7 is an exploded perspective view showing an extract of one clamp in the clapping device of the synthetic resin pipe fusion machine according to an embodiment of the present invention.

8 and 9 are views showing a state in which a liner is coupled in the clamping device of the synthetic resin pipe fusion machine according to an embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

60, 60 '... double walled synthetic resin pipe 61, 61' ... inner wall

62, 62 '... outer wall 63, 63' ... middle wall

110 ... first clamp 111 ... lower clamp

112 ... upper clamp 113a, 114a ... first and second shaft

113b, 114b ... 1, 2 fastening nut 115a, 116a ... 1, 2 jaw groove

115b, 116b ... first and second jaws 117 ... first contact surface

118 ... second contact surface 119 ... moving part

119 '... Fixture 119a ... Bearing

120 ... 2nd clamp 130 ... Guide rod

140 ... Cylinder 141 ... Cylinder Body

142 ... cylinder rod 150 ... first liner

151 ... third contact surface 160 ... second liner

161 ... fourth contact surface

Claims (7)

A plurality of first clamps consisting of a lower clamp and an upper clamp clamping one double wall synthetic resin tube, a plurality of second clamps consisting of a lower clamp and an upper clamp clamping another double wall synthetic resin tube, the first clamp and the second clamp In the clamping device of the synthetic resin pipe fusion machine comprising a guide rod for guiding through the clamp and a cylinder for moving the first clamp with respect to the second clamp, In order to prevent the double wall synthetic resin pipe from moving while clamping the double wall synthetic resin pipe, the coefficient of friction of the first contact surface formed on the inner surface of the lower clamp is formed on the inner surface of the upper clamp. Clamping device of a synthetic resin pipe fusion machine characterized in that the larger. The method of claim 1, In order to make the coefficient of friction of the first contact surface larger than the coefficient of friction of the second contact surface, the area of the first contact surface in contact with the outer circumferential surface of the double-walled synthetic resin pipe is larger than the area of the second contact surface. Clamping device of synthetic resin pipe welding machine. The method of claim 1, In order to make the friction coefficient of the first contact surface larger than the friction coefficient of the second contact surface, the first contact surface is formed with a plurality of protrusion pins are in contact with the outer peripheral surface of the double-walled synthetic resin pipe Clamping device for pipe welding machine. The method of claim 1, In order to make the coefficient of friction of the first contact surface larger than the coefficient of friction of the second contact surface, the upper clamp has a relatively short length compared to the fixing part so as to move along the inner side of the fixing part and the fixing part, Clamping apparatus of a synthetic resin pipe fusion machine characterized in that it comprises a fixed part and a moving part coupled by a bearing. The method according to any one of claims 1 to 4, In order to clamp the small diameter double wall synthetic resin pipe, a first liner having an outer diameter equal to the inner diameter of the lower clamp is mounted on an inner surface of the lower clamp, and a second outer diameter equal to an inner diameter of the upper clamp on the inner surface of the upper clamp. Liner is mounted, And a coefficient of friction of the third contact surface formed on the inner surface of the first liner is greater than a coefficient of friction of the fourth contact surface formed on the inner surface of the second liner. The method of claim 5, In order to make the friction coefficient of the third contact surface larger than the friction coefficient of the fourth contact surface, the area of the third contact surface in contact with the outer circumferential surface of the double-walled synthetic resin tube is larger than the area of the fourth contact surface. Clamping device of synthetic resin pipe welding machine. The method of claim 5, In order to make the friction coefficient of the third contact surface larger than the friction coefficient of the fourth contact surface, the third contact surface is formed with a plurality of protrusion pins in point contact with the outer circumferential surface of the double wall synthetic resin tube. Clamping device for pipe welding machine.