KR100484651B1 - Bonding gun for jointing of polyethylene gas pipe - Google Patents

Abstract

The present invention relates to a bonding gun for polyethylene gas pipe joints, comprising: a transfer unit (10) for mounting and transporting a bonding material (P) to a main body (11), and a heater (H1) supplied with a bonding material (P) to be transported. In the bonding gun 100 including a melting portion 20 for melting through a heating temperature of the nozzle and a nozzle 30 extending from the melting portion 20 to discharge the molten bonding material P in a molten state. The support 40 is connected to the side of the main body 11 at which the nozzle 30 of the bonding gun 100 is located, and the support 40 is detachably installed on the support 40 so that the gas pipe G and the gas pipe socket S are installed. In order to melt the gap between the molten piece 50 with the heater (H2) built-in, and connected to the current supply wire of the heater (H1) side of the melter 20, the bonding gun 100 The connector 60 exposed to the outside of the main body 11 and the heater H of the molten piece 50 and the connector 60 of the main body 11 side are mutually connected. Adjusting the degree of entry of the nozzle 30 and the molten piece 50 of the bonding gun 100 from the junction surface of the gas pipe (G) and the gas terminal (G), which is electrically connected to the terminal (70). It characterized in that it comprises a control member 80 for the bar, in bonding the gaps and damaged parts of the joints of the gas pipe, the gap between the first entry to be joined to the gas pipe in advance to the molten piece separately installed in the bonding gun At the same time, it melts and melts the resin of PE material as the same material through the nozzle, so that the basic joint can be carried out quickly, which is advantageous for recovery and installation, and safer operation is possible. There is an effect that can prevent the bursting of the gas pipe.

Description

Bonding gun for jointing of polyethylene gas pipe}

The present invention relates to a bonding gun for polyethylene gas pipe fittings, and more particularly, a PE material bonding material is attached to a bonding gun, and thus, in a gas pipe facility made of PE (polyethylene) material, a recovery operation due to damage of a gas pipe, and the like, The melting and bonding of the in-socket area is safely performed, and the pipe joints can be securely connected.

In general, PE or HDPE material is a yellow-colored pipe for LPG and LNG. First of all, it is relatively inexpensive, light in weight, and has high chemical resistance and chemical resistance due to heat fusion. It is widely used as a gas pipe because it has durability from 0 to 60 degrees.

The gas pipe is typically buried in the ground, and the joint of the gas pipe is made of the same material, and as shown in FIG. 1, a heating wire h having a predetermined width is provided in both inner diameters of the connection hole 1 of the socket S. The connection terminal part 2 is provided on the outside of the socket from the built-in heating wire h, and generates a voltage through the connecting terminal 2, and melts the built-in heating wire h to form the inside of the connection hole 1 and the A construction is used to allow the outer periphery of the gas pipe G to be connected to the socket to be melted and bonded to each other.

In addition, Figure 2 is attached to show the gas pipe and the T-shaped socket (S1) for connecting and installing another pipe in a T-shaped branch from the embedded gas pipe (G) of the T-shaped joint surface connected to the circular A heating wire (not shown in the drawing) having a predetermined width is built in, so that the gas pipe can be branched by a post operation by the voltage method as described above.

However, in the joint of the gas pipe using the socket (S) as described above, when the heating wire (h) shown in Figure 1 is integrally embedded in the socket (S), the straight socket (S) and the T-shaped socket ( S1) has a margin of 1 to 1.5 cm from the edge of the connecting hole or circular joining surface is bound to be formed. This is because it is difficult to overcome in manufacturing in manufacturing the gas pipe (G) of the PE material, the edge position of the hot wire, except the surface that is fused and interconnected, especially the gap (C) occurs when the joint of the gas pipe with a large tolerance do.

If it is constructed as mentioned above, it will have considerably disadvantageous conditions at the time of installation and repair of a gas pipe.

For example, such a gap may be seriously caused by earth pressure or tectonic movements generated from the ground while being filled with the soil flowing therebetween and the soil. This can lead to an unforeseen accident of a gas explosion after the case where the gap is gradually worsened by the above conditions. Due to the gap generation, particularly in the part where the socket, which is a joint part of the gas pipe, needs to be bent at least once at right angles according to the terrain conditions in the form of a T-shape or elbow, there is a case where the gap is more seriously generated.

For reference, the construction and repair work of the gas pipe disclosed in the present invention is mainly based on the city gas in which the gas is maintained in a pressure state in the gas pipe, and even during construction, the work is performed without blocking the pressure gas in the gas pipe. Therefore, safety work and quick recovery work are required.

Since the work is performed under the above conditions, it is one of the reasons why the heat fusion method using the socket is performed in consideration of the safety of the worker and the surrounding area.

As described above, in consideration of damage to the joints due to earth pressure on the joint joints of the pipes, most workers close the gap between the joints of the gas pipe sockets and the gas pipes connected to the same to easily fill the gaps generated at the joints. Preheat by heating with torch.

The preheating of the gap is intended to remove the smooth coating film on the surface during the manufacturing of the gas pipe, and to facilitate the fusion and bonding as the preheated surface temperature of the gas pipe as the heating body.

The fusion finishing of the joints by the use of the torch is not specified in the gas pipe jointing and recovery work regulations, and it can comply with safety in gas pipe work because it can cause large accidents that cannot be told by the operator. Are regulated.

On the other hand, the gap between the gap can be bonded by melting the bonding material of PE material to bond the gap, but the gap portion to be bonded is very different from the molten bonding material and the temperature of the bonded material is even Because there is a closed end that is expected to rupture gas pipes that can be generated later, the joint is not working properly or not in use.

The present invention has been made to solve the problems of the prior art, by improving the bonding gun to bond the joint and the damaged part of the gas pipe using a bonding material of PE material and at the same time the bonded portion is melted with the bonding material SUMMARY OF THE INVENTION An object of the present invention is to provide a bonding gun for gas pipe fittings, which is capable of maintaining good weldability and firmly retaining joints of gas pipes and sockets.

According to the present invention for achieving the above object, a transfer part for mounting and transporting the bonding material to the main body, a melting part for melting through the heating temperature of the heater provided by receiving the conveyed bonding material, and is provided extending from the melting part A bonding gun including a nozzle for discharging molten bonding material in a molten state, comprising: a support connected to a main body side at which the nozzle of the bonding gun is located, and a clearance between the gas pipe and the gas pipe socket, which is detachably installed on the support. In order to melt the molten metal and the heater is built in the inner side, the connector is connected to the current supply wire of the heater of the melting side, the connector is exposed to the outside of the main body of the bonding gun, and the heater and the connector on the body side of the molten piece A cable gun connected to the cable and a bonding gun installed at an upper portion of the main body from a bonding surface of the gas pipe There is provided a bonding gun for polyethylene gas pipe fittings comprising a nozzle and an adjusting member for adjusting the degree of entry of the molten piece.

Hereinafter, the present invention will be described in detail with reference to FIGS. 3 to 7.

3 is a perspective view showing a bonding gun of the present invention, FIG. 4 is a side view showing an internal configuration of the bonding gun of the present invention, FIG. 5 is a side view of a bonding gun according to the present invention, and FIG. FIG. 7 is a side view illustrating the use state of the bonding gun, and FIG. 7 is a plan view illustrating the use state of the bonding gun according to the present invention.

Bonding gun 100 of the present invention is a heating unit 10 for mounting and transporting the bonding material (P) to the main body 11 and the heating temperature of the heater (H1) provided by receiving the bonding material (P) to be transferred A bonding gun (100) comprising a melting part (20) to be melted through, and a nozzle (30) installed to extend from the melting part (20) to discharge molten bonding material (P) in a molten state. The support 40 is connected to the side of the main body 11 in which the nozzle 30 of the 100 is positioned, and the support 40 is detachably mounted to the support 40 so that the gas pipe G and the gas pipe G socket S In order to melt the gap (C) therebetween is connected to the molten piece 50 with the heater (H2) built-in, and connected to the current supply wire of the heater (H) on the melting part 20, bonding gun 100 7 and a cable terminal 7 which electrically connects the connector 60 installed to be exposed to the outside of the main body 11 and the heater H of the molten piece 50 and the connector 60 on the main body 11 side. 0) and an adjusting member 80 installed above the main body 11 to adjust the degree of entry of the nozzle 30 and the molten piece 50 of the bonding gun 100 from the joint surface of the gas pipe G. It is configured to include.

The transfer unit 10 supports the bonding material P from the mounting hole 12 provided at the rear of the main body 11 to support the guide material 13 and to the main body 11 to enter the bonding material P in one direction. A rotatably installed, the trigger 14 for advancing the guide base 13 in the direction in which the bonding material P enters, and one end connected to the guide base and the other end of the boss 11a provided in the main body 11. It is composed of a tension spring (15) that is connected to and installed elastically supporting the guide base (13). The trigger is for advancing the guide stand 13 by pressing from the outside of the main body 11 within the rotation range around the boss 11b provided on the main body 11, the transfer portion 10 is typically It has the same structure as that of the bonding gun used.

In the nozzle 30 installed at the front end side of the main body 11, the discharge port 31 for discharging the bonding material P is inclined.

The tip of the molten piece 50 is installed to protrude further to the front of the bonding gun 100 than the one end of the nozzle 30, the molten piece 50 is installed at a predetermined angle in the circumference with respect to the nozzle 30 do.

Wherein the molten piece 50 has a cross-sectional area where one end is narrow to enter the gap (C) of the gas pipe (G) and the socket (S), the longitudinal direction has a circular arc shape, the coupling hole on one side 52 is formed and the heater H2 is built in inward.

The support 40 for installing the molten piece 50 is attached to one side from the main body 11, the fastening screw 41a is installed on one side, the guide groove (top) in the position where the fastening screw 41a is installed In the direction in which the long hole 42b is formed on one side so that the front and rear lengths of the connecting piece 41 and the fastening screw 41a of the connecting piece 41 are adjusted through the nut 42a. A handle 42c is provided on the horizontal line and extends from the bottom of the handle 42c and includes an adjusting frame 42 provided with a fastening part 42d and a nut 42e for fixing the molten piece 50. do.

On the other hand, the adjustment member 80 is formed with a guide hole (81a) in the longitudinal direction on the upper body 11, the housing 81 is formed with a female screw hole (81b) at the tip portion of the guide hole, and the female screw hole ( A push rod for fastening the fixing nut 82 fastened to 81b) and the guide hole 81a, one end of which is located near the joint surface of the gas pipe G to hold the nozzle 30 in position. 83 and a compression spring 84 inserted into the guide hole 81a to elastically support the pressing bar 83.

Preferably, the pressing rod 83 is printed with a display line 83a for identifying the degree of elasticity according to pressing, for example, a scale, a color display, or the like.

Referring to the operation and effects of the use of the bonding gun for polyethylene gas pipe joints of the present invention configured as described above are as follows.

First, as shown in FIG. 1 and FIG. 2, the gas pipe G is guided to the gas pipe socket S to which the gas pipe G and the gas pipe G are to be jointly bonded, and the gas pipe G is branched. ) Will be described in the state of use of the bonding gun 100 of the present invention in the state to be located at the point to branch.

The stick bar of PE material, which is a bonding material P, may be manufactured and used in a rectangular shape with a cross-sectional area, and the stick bar is inserted into the mounting hole 12 provided at the rear of the bonding gun 100 of the present invention. Here, the stick bar is inserted in one direction by the conveying part 10 installed in the main body 11, in this case by pressing the trigger (14) provided in the state passed through the guide base 13 inside the main body (11) Push the base 13 to enter the tip of the stick bar into the molten portion 20. On the contrary, when the trigger is released, only the guide stand 13 through which the stick bar has been passed by the restoring force of the tension spring 15 elastically supporting the guide stand 13 is returned to the initial state.

As described above, the bonding material P entering the melting part 20 is melted according to the heating temperature of the heater H1 of the melting part 20 due to the electric supply, and is melted by the pressing action of the trigger 14. The bonding material P may be discharged through the nozzle 30 installed at the tip of the bonding gun 100 to perform a desired bonding operation.

The use of the bonding gun 100 is to fill the gap (C) of the joint portion of the gas pipe (G) and the socket (S) primarily with the PE material of the same material, the support 40 of the bonding gun 100 Melt between the gaps (C) using the molten piece 50 through.

More specifically, the front and rear adjustment of the adjusting frame 42 with respect to the connecting piece 41 of the support 40 to adjust the tip of the molten piece 50 installed in the adjusting frame 42 longer than the tip of the nozzle 30 to the gap Position it so that it can be inserted into (C). The adjustment of the adjustment frame 42 is to adjust the front and rear holes 42b formed in the adjustment frame 42 through the fastening screw 41a installed on the connecting piece 41, and the front and rear longitudinal adjustment is the adjustment frame 42 ) It is controlled in a straight line along the guide groove (41b) of the connecting piece 41 through the handle 42c protruding to one side, the tightening screw (41a) passed through the long hole (42b) by tightening the nut adjusting frame (42) can be fixed.

Nut 42a for fixing the control frame 42 is preferably used a butterfly nut provided with a handle (42c) integrally.

In the state set as described above, since the gap C, which is a joint part of the gas pipe G, has a predetermined diameter, the molten piece 50 corresponding to the diameter is selected and mounted.

A tip portion of the molten piece 50 spaced apart from the nozzle 30 according to the diameter of the gas pipe G of the molten piece 50 is of the same angle as the inner diameter of the corresponding gas pipe G and the socket S. FIG. It has an arc shape, and the connector 60 branched from the power supply line for heating the melter heater H1 of the bonding gun 100 and the heater H2 provided inside the molten piece 50 are provided. It is connected to the cable terminal 70 to form a heating temperature in the molten piece 50.

When the tip portion of the molten piece 50 is inserted into the gap C while the molten piece 50 is raised by the heating temperature, the nozzle 30 of the bonding gun 100 naturally has a gas pipe G and a socket ( It is located on the inner diameter clearance line of S).

Such a shape is as shown in Figure 6, the use of the bonding gun 100, the operator grasps the bonding gun with one hand, the position of the tip of the molten piece 50 can enter between the gap (C) position When turned on, the inclined portion of the tip side of the neighboring nozzle 30 is also in a state of being installed close to the gap.

On the other hand, when the gap between the molten piece 50 starts to melt due to the heating of the molten piece 50 in the state entered into the gap, the gap while moving in the circumferential direction of the gas pipe (G) provided with the molten piece 50 It melts, it is possible to fill between the gap (C) while discharging the bonding material (P) of the PE material melted in the molten portion 20 through the nozzle 30 that follows.

At the same time as the melting operation of the molten piece 50 as described above, the bonding operation is carried out through the nozzle 30 in the position close to it can be securely and firmly bonded to the gap between the gas pipe (G) joint.

Melt bonding material P discharged from the nozzle 30 at a predetermined flow rate is bonded because it is bonded while filling the gap. This is the same PE material as the gas pipe G, and together with the melting of the gap C between the gas pipe G and the socket S, the bonding work is performed at the above temperature as the same material and is hardened. It can improve the robustness.

In the step of melting the gap between the gas pipe (G) and the socket (S) connecting it as described above and finishing the bonding work, the nut (42a) to the fastening screw (41a) of the connecting piece 41 of the support 40 side Adjusting frame 42 is fixed to the loosening the nut (42a) and pull the adjusting frame 42 in the direction of the arrow in Figure 6, the adjusting frame 42 guides the fastening screw (41a) and the connecting piece (41) It is pushed back along the groove 41b.

The state in which the control frame 42 is pushed out soon releases the molten piece 50 from the gap, and the nozzle 30 that follows the circumferential gap in succession is a bonding material between the molten gaps to the finishing point. The gap can be closed to fill the gap between the joints.

As the melting operation of the molten piece 50 as described above is performed without fire, first, the safety against gas explosion can be ensured, and the gas pipe G is melted to enable an ideal bonding operation.

In addition, in working the bonding gun 100 as described above at a predetermined inclination angle, the adjustment member 80 installed on the upper portion of the nozzle 30 may perform the following role to uniformly bond. Make sure

More specifically, the tip of the molten piece 50 enters the gap, and the nozzle 30 is located at the beginning of the gap, so that one end of the push rod 83 is circumferential one end of the gas pipe socket S close to the gap. The pressing portion 83 is pressed to a predetermined surface, and the pressing rod 83 is pushed into the housing 81 through the fixing nut 82 of the through type to press the compression spring 84. At this time, the display bar (83a) is printed on the pressing rod 83, the state in which the bonding gun is placed at the beginning of the gap in the inclined state, the operator through the display line (83a) to detect the bonding gun 100 in the state Evenly moving in the circumferential direction in an inclined state, the nozzle 30 does not enter between the gaps, and discharges the molten resin, which is the bonding material P, from the gap entry to eventually fill the gaps uniformly.

The push bar 83 is installed longer than the tip of the original nozzle 30 to maintain the nozzle 30 in a position close to the gap, and serves as a helper to obtain a uniformity of the bonding.

That is, the display line 83a printed on the push bar 83 serves to hold the nozzle 30 as close as possible to the proximal position when the position of the nozzle 30 positioned at the gap entry depends on the size of the gas pipe G. .

Bonding operation as described above has the advantage that the gap is not poorly developed by maintaining the airtightness even in the thermal melting method of the gas pipe (G) connected to the gas pipe (G) socket (S), the gap is poorly developed, There is an advantage that can prevent the secondary gas accident, such as rupture of the joint even by the earth pressure action that can be generated by filling.

As described above, the present invention bonds the gaps and damaged portions of the joints of the gas pipes, and melts the gaps of the first entry to be joined to the gas pipes in advance by melting the pieces separately installed in the bonding gun, and through the nozzles. By filling the molten resin of PE material with the same material between the gaps, it is possible to carry out basic joints quickly, which is advantageous in the case of repair work and installation, safer operation is possible, and the rupture of the gas pipe by the earth pressure action can be prevented. It has an effect.

1 and 2 are cross-sectional views for explaining the joint state of the gas pipe for using the present invention bonding gun,

3 is a perspective view showing the present inventor bonding gun,

Figure 4 is a side view showing the internal configuration of the present inventor bonding gun,

5 is a side view of the bonding gun according to the present invention;

6 is a side view showing a state of use of the bonding gun according to the invention,

7 is a plan view showing a state of use of the bonding gun according to the present invention.

◎ Explanation of symbols for main part of drawing

10: conveying part 20: melting part

30: nozzle 40: support

41: connecting piece 42: adjusting frame

50: molten piece 60: connector

70: cable terminal 80: adjusting member

Claims (7)

Transfer unit 10 for mounting and transporting the bonding material (P) to the main body 11, Melting unit 20 for melting through the heating temperature of the heater (H1) provided by receiving the transporting bonding material (P) and In the bonding gun 100 including a nozzle 30 extending from the melting unit 20 to discharge the molten bonding material P in a molten state, And the support 40 is connected to the side of the main body 11, the nozzle 30 of the bonding gun 100 is located, A molten piece 50 detachably installed on the support 40 and having a heater H2 embedded therein to melt a gap between the gas pipe G and the gas pipe socket S; A connector 60 connected to the current supply wire of the heater H1 on the melting part 20 and exposed to the outside of the main body 11 of the bonding gun 100; A cable terminal 70 for electrically connecting the heater H of the molten piece 50 and the connector 60 on the main body 11 side to each other; It is installed on the main body 11 is configured to include an adjustment member 80 for adjusting the degree of entry of the nozzle 30 and the molten piece 50 of the bonding gun 100 from the bonding surface of the gas pipe (G) , The nozzle 30 is a polyethylene gas pipe joint bonding gun, characterized in that the outlet 31 for discharging the bonding material (P) is inclined. According to claim 1, wherein the front end of the molten piece 50 than the one end of the nozzle 30 is installed so as to protrude further in front of the bonding gun 100, the molten piece 50 to the nozzle 30 is a circle Bonding gun for polyethylene gas pipe joints, characterized in that installed in a column at a predetermined angle. According to claim 1, The support 40 is one side is attached to the installation from the main body 11, the fastening screw 41a is installed on one side, the guide groove 41b is provided on the upper surface of the position where the fastening screw 41a is installed The connection piece 41 formed, A long hole 42b is formed at one side to adjust the front and rear lengths from the fastening screw 41a of the connecting piece 41 through the nut 42a, and the handle 42c is provided on the horizontal line in the direction in which the long hole 42b is formed. Bonding gun for polyethylene gas pipe joints, characterized in that the control frame 42 is provided with a fastening portion 42d and a nut 42e for securing the molten piece 50 extending from the bottom of the handle 42c . According to claim 1, wherein the adjustment member 80 is a housing 81 formed with a guide hole in the longitudinal direction on the upper body 11, the female threaded hole (81b) is formed at the tip of the guide hole (81a), A through nut fixed nut 82 fastened to the female thread hole 81b; A push rod 83 for guiding the guide hole and having one end detect a position near the junction surface of the gas pipe G to hold the nozzle 30; Bonding gun for a polyethylene gas pipe joint, characterized in that the compression spring 84 is inserted into the guide hole and configured to elastically support the pressing bar (83). The bonding gun for a polyethylene gas pipe joint according to claim 4, wherein the pressing rod (83) is printed with a marking line (83a) for identifying the degree of elasticity according to the pressing. According to claim 1, wherein the molten piece 50 has a cross-sectional area where one end is narrow in order to enter the gap between the gas pipe (G) and the socket (S), the longitudinal direction has a circular arc shape, on one side Bonding gun for polyethylene gas pipe joints characterized in that the coupling hole 52 is formed. delete