CN113334778B

CN113334778B - Fastening device for thermoplastic plastic pipe fitting and antioxidant heating method

Info

Publication number: CN113334778B
Application number: CN202110674651.9A
Authority: CN
Inventors: 石奇
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2022-01-04
Anticipated expiration: 2041-06-18
Also published as: CN113334778A

Abstract

The invention relates to a fastening device of a thermoplastic plastic pipe fitting and an antioxidant heating method, and the fastening device comprises an automatic adjusting mechanism (4) and a motor (54), wherein the automatic adjusting mechanism (4) comprises a movable sealing plate (41), a first clamping piece (1) and a second clamping piece (2), the movable sealing plate (41) realizes the sealing of a pipe orifice of the thermoplastic plastic pipe fitting (6) through a first transmission mechanism, and the first clamping piece (1) and the second clamping piece (2) realize the clamping of the pipe wall of the thermoplastic plastic pipe fitting (6) through a second transmission mechanism; after the pipe orifice is sealed and the pipe wall is clamped synchronously, inert gas is injected into the thermoplastic pipe fitting (6) to ensure that the electromagnetic heating device (8) does not cause the brittleness of the joint caused by the high-temperature oxidation of the thermoplastic material in the pipe when the thermoplastic pipe fitting (6) is in hot melt connection with the connector.

Description

Fastening device for thermoplastic plastic pipe fitting and antioxidant heating method

Technical Field

The invention relates to a fastening device of a thermoplastic plastic pipe fitting and an antioxidant heating method.

Background

The thermoplastic plastic pipe fitting is a chemical building material formed by high-tech compounding, and the chemical building material is a fourth major novel building material which is newly developed after steel, wood and cement. The chemical building materials are developed rapidly and greatly in China, and particularly, the novel environment-friendly plastic pipes are widely used, so that a revolution of replacing the traditional building materials is raised. The plastic pipe has the advantages of small water flow loss, energy conservation, material saving, ecological protection, convenient completion and the like, is widely applied to the fields of building water supply and drainage, town water supply and drainage, gas pipes and the like, and becomes the main force of a new century urban pipe network.

The existing connection method between thermoplastic plastic pipe fittings is to perform electromagnetic heating after connecting the pipe fittings, and then wait for cooling and solidifying.

The existing connection mode has the following technical defects: when the existing pipe is heated, the external heating curing quality of the pipe can be checked by naked eyes, but the inner wall structure of the pipe cannot be seen by naked eyes, the internal heating deformation is uncontrollably caused, the connection quality is also difficult to control, and in addition, the pipe is easily influenced by air oxidation when being heated to heat and mould the pipe, so that the internal connection quality is further deteriorated, and the service life of the pipe is directly influenced.

Disclosure of Invention

The invention designs a fastening device and an antioxidant heating method for a thermoplastic plastic pipe, and solves the technical problems that when the existing pipe is heated, the external heating and curing quality of the pipe can be checked by naked eyes, but the inner wall structure of the pipe cannot be seen by naked eyes, and the internal heating deformation is uncontrollable, so that the connection quality is also difficult to control.

In order to solve the technical problems, the invention adopts the following scheme:

a fastening device for thermoplastic pipe fittings, characterized in that: the automatic adjusting mechanism comprises a movable sealing plate, a first clamping piece and a second clamping piece, wherein the movable sealing plate seals a pipe orifice of the thermoplastic plastic pipe fitting through a first transmission mechanism, and the first clamping piece and the second clamping piece clamp the pipe wall of the thermoplastic plastic pipe fitting through a second transmission mechanism; after the pipe orifice is sealed and the pipe wall is clamped synchronously, inert gas is injected into the thermoplastic pipe fitting to ensure that the electromagnetic heating device does not cause the brittleness of the joint caused by the high-temperature oxidation of the thermoplastic material in the pipe when the thermoplastic pipe fitting and the connector are in hot melt connection.

Preferably, the first transmission mechanism comprises a hollow screw pipe, the end part of the hollow screw pipe is positioned in the thermoplastic pipe fitting, an air outlet hole at the end part of the hollow screw pipe can output inert gas, the motor drives the hollow screw pipe to rotate, the movable sealing plate is in threaded connection with the hollow screw pipe, and the movable sealing plate can move axially along the hollow screw pipe so as to press or leave the pipe orifice of the thermoplastic pipe fitting.

Preferably, the second transmission mechanism comprises a first moving rack, a second moving rack and a gear, two moving guide grooves are formed in the moving sealing plate, the first connecting driving rod penetrates through one moving guide groove, one end of the first connecting driving rod is fixedly connected with the first clamping piece, and the other end of the first connecting driving rod is connected with the first moving rack; the second connecting driving rod penetrates through the other moving guide groove, one end of the second connecting driving rod is fixedly connected with the second clamping piece, the other end of the second connecting driving rod is connected with the second moving rack, the first moving rack and the second moving rack are arranged in parallel and are meshed through a gear, and the gear is fixed on the hollow solenoid and cannot displace.

Preferably, the first and second jaws are semi-arcuate and are conformable to the thermoplastic pipe.

Preferably, the clamping device further comprises a connecting part, wherein a first movable rod, a first supporting rod and a first rotating body are sequentially arranged between one end of the connecting part and the first clamping piece, and a second movable rod, a second supporting rod and a second rotating body are sequentially arranged between the other end of the connecting part and the second clamping piece; the connecting part is provided with an air inlet, and the connecting part is communicated with the automatic adjusting mechanism.

Preferably, the input end of the air inlet is connected with an inert gas storage device outside, and the inert gas output by the output end of the air inlet sequentially passes through the first air inlet pipe, the second air inlet pipe and the hollow spiral pipe and finally enters the thermoplastic pipe fitting from the air outlet at the end part of the hollow spiral pipe.

Preferably, the connector is a three-way connector, two connectors of the three-way connector are respectively connected with one end of the thermoplastic pipe fitting, the joint is simultaneously heated by using an electromagnetic heating device, the other end of the thermoplastic pipe fitting is respectively connected with a fastening device of the thermoplastic pipe fitting, after the fastening device of the thermoplastic pipe fitting synchronously seals the pipe orifice and clamps the pipe wall, inert gas is injected into the thermoplastic pipe fitting, and the inert gas is output from a third port of the three-way connector.

Preferably, the heating device further comprises a temperature sensor, the temperature sensor monitors the heating temperature of the electromagnetic heating device, and when the heating temperature reaches a limit value C, the control unit controls the motor to rotate reversely, so that the pressure between the movable sealing plate, the first clamping piece and the thermoplastic pipe fitting is reduced, and the phenomenon that the thermoplastic pipe fitting is excessively deformed due to the fact that the movable sealing plate generates axial pressure is avoided.

An oxidation resistant heating method for thermoplastic pipe fittings comprises the following steps:

step 1, two joints of a three-way connector are respectively connected with one end of a thermoplastic pipe fitting;

step 2, the other ends of the two thermoplastic plastic pipe fittings are respectively connected with a fastening device of the thermoplastic plastic pipe fitting;

step 3, starting a motor, and releasing inert gas after synchronously sealing the pipe orifice and clamping the pipe wall of the fastening device of the thermoplastic pipe fitting, wherein the inert gas is output from a third joint of the three-way connector;

step 4, starting two electromagnetic heating devices to respectively heat two joints of the three-way connector and two thermoplastic plastic pipe fittings simultaneously;

and 5, heating for t time, and naturally cooling.

Preferably, the temperature sensor monitors the heating temperature of the electromagnetic heating device, and when the heating temperature reaches a limit value C, the control unit controls the motor to rotate reversely, so that the pressure between the movable sealing plate, the first clamping piece and the second clamping piece and the thermoplastic pipe fitting is reduced, and the phenomenon that the movable sealing plate generates axial pressure to cause the hot-melt part of the thermoplastic pipe fitting to deform excessively is avoided.

The fastening device and the antioxidant heating method for the thermoplastic plastic pipe fitting have the following beneficial effects:

(1) the fastening device not only can fix the thermoplastic plastic pipe fitting, but also can seal the pipe orifice to ensure that inert gas enters and flows out according to a designed route, so that the invisible area in the pipe cannot be influenced by oxygen when the pipe is heated, and the quality of heating and fixing is ensured.

(2) When the electromagnetic heating device is used on the three-way joint, two electromagnetic heating devices can be used for heating simultaneously, so that the problem that the prior heating device needs to be sequentially heated, and the later heating device can generate deformation influence on the first heating part to influence the quality of heating connection is solved.

(3) The invention uses the temperature sensor to monitor the heating temperature, thereby adjusting the state of the fastening device and avoiding the excessive deformation of the heating part caused by the pressure generated by the axial direction of the fastening device.

Drawings

FIG. 1: external schematic view of the fastening device of the thermoplastic pipe of the invention;

FIG. 2: a perspective view of the fastening device of the thermoplastic pipe fitting of the present invention;

FIG. 3: the invention discloses a structural schematic diagram of an automatic adjusting mechanism;

FIG. 4: the invention is used for connecting a thermoplastic plastic pipe fitting and a three-way connecting piece.

Description of reference numerals:

1-a first clip; 11-a first movable bar; 12 — a first support bar; 13 — a first rotor; 2-a second clip; 21-a second movable bar; 22 — a second support bar; 23-a second rotor; 3-a connecting part; 31-an inlet port; 4-automatic adjusting mechanism; 41-moving the sealing plate; 411 — moving guide groove; 42 — a first intake pipe; 5, a hollow spiral pipe; 51-a gear; 52 — a first moving rack; 53-second moving rack; 54-a motor; 55-a second inlet pipe; 56-first connecting driving rod; 57 — a second connecting drive rod; 58-air outlet holes; 6-thermoplastic pipe fittings; 7-three-way connection; 71-third joint; 8-an electromagnetic heating device; a-the fastening device of the thermoplastic pipe fitting.

Detailed Description

The invention is further illustrated below with reference to fig. 1 to 4:

as shown in fig. 1, a fastening device for thermoplastic pipe fittings comprises an automatic adjusting mechanism 4 and a motor 54, wherein the automatic adjusting mechanism 4 comprises a movable sealing plate 41, a first clamping piece 1 and a second clamping piece 2, the movable sealing plate 41 realizes sealing of a pipe orifice of a thermoplastic pipe fitting 6 through a first transmission mechanism, and the first clamping piece 1 and the second clamping piece 2 realize clamping of a pipe wall of the thermoplastic pipe fitting 6 through a second transmission mechanism; after the pipe orifice is sealed and the pipe wall is clamped synchronously, inert gas is injected into the thermoplastic pipe fitting 6 to ensure that the electromagnetic heating device 8 does not cause the brittleness of the joint caused by the high-temperature oxidation of the thermoplastic material in the pipe when the thermoplastic pipe fitting 6 and the connector are in hot melt connection.

The first clip 1 and the second clip 2 are shaped in a semi-arc shape to be able to fit with the thermoplastic pipe 6.

As shown in fig. 2, the clamping device further comprises a connecting portion 3, wherein a first movable rod 11, a first support rod 12 and a first rotating body 13 are sequentially arranged between one end of the connecting portion 3 and the first clamping piece 1, and a second movable rod 21, a second support rod 22 and a second rotating body 23 are sequentially arranged between the other end of the connecting portion 3 and the second clamping piece 2; the connecting part 3 is provided with an air inlet 31, and the connecting part 3 is communicated with the automatic adjusting mechanism 4.

As shown in fig. 3, the first transmission mechanism includes a hollow coil 5, the end of the hollow coil 5 is located in the thermoplastic pipe member 6 and the gas outlet 58 at the end of the hollow coil 5 can output inert gas, the motor 54 drives the hollow coil 5 to rotate, the movable sealing plate 41 is screwed with the hollow coil 5, and the movable sealing plate 41 can move axially along the hollow coil 5 to press or separate from the nozzle of the thermoplastic pipe member 6.

The second transmission mechanism comprises a first moving rack 52, a second moving rack 53 and a gear 51, two moving guide slots 411 are formed on the moving sealing plate 41, one end of a first connecting driving rod 56 penetrates through one moving guide slot 411 and is fixedly connected with the first clamping piece 1, and the other end of the first connecting driving rod is connected with the first moving rack 52; the second connecting driving rod 57 passes through the other moving guide slot 411, and then one end of the second connecting driving rod is fixedly connected with the second jaw 2, and the other end of the second connecting driving rod is connected with the second moving rack 53, the first moving rack 52 and the second moving rack 53 are arranged in parallel and are engaged through a gear 51, and the gear 51 is fixed on the hollow solenoid 5, and the two can not be displaced.

The input end of the air inlet hole 31 is connected with an external inert gas storage device, and the inert gas output from the output end of the air inlet hole 31 sequentially passes through the first air inlet pipe 42, the second air inlet pipe 55 and the hollow spiral pipe 5 and finally enters the thermoplastic plastic pipe fitting 6 from the air outlet hole 58 at the end part of the hollow spiral pipe 5.

As shown in fig. 4, the connector is a three-way connector 7, two connectors of the three-way connector 7 are respectively connected with one end of a thermoplastic pipe fitting 6, the joints are respectively heated by an electromagnetic heating device 8, the other ends of the two thermoplastic pipe fittings 6 are respectively connected with a fastening device a of the thermoplastic pipe fitting, after the fastening device a of the thermoplastic pipe fitting synchronously seals the pipe orifice and clamps the pipe wall, inert gas is injected into the thermoplastic pipe fitting 6, and the inert gas is output from a third port of the three-way connector 7.

The heating device further comprises a temperature sensor, the temperature sensor monitors the heating temperature of the electromagnetic heating device 8, when the heating temperature reaches a limit value C, the control unit controls the motor to rotate reversely, so that the pressure between the movable sealing plate 41, the first clamping piece 1, the second clamping piece 2 and the thermoplastic plastic pipe fitting 6 is reduced, and the phenomenon that the movable sealing plate 41 generates axial pressure to enable the hot-melting part of the thermoplastic plastic pipe fitting 6 to deform excessively is avoided.

step 1, two joints of a three-way connector 7 are respectively connected with one end of a thermoplastic pipe fitting 6;

step 2, the other ends of the two thermoplastic plastic pipe fittings 6 are respectively connected with a fastening device A of the thermoplastic plastic pipe fitting;

step 3, starting a motor, synchronously sealing the pipe orifice and clamping the pipe wall by the fastening device A of the thermoplastic pipe fitting, releasing inert gas, and outputting the inert gas from the third joint 71 of the three-way connector 7;

step 4, opening two electromagnetic heating devices 8 to respectively heat two joints of the three-way connector 7 and two thermoplastic plastic pipe fittings 6 simultaneously;

and 5, heating for t time, and naturally cooling.

The temperature sensor monitors the heating temperature of the electromagnetic heating device 8, when the heating temperature reaches a limit value C, the control unit controls the motor to rotate reversely, so that the pressure between the movable sealing plate 41, the first clamping piece 1, the second clamping piece 2 and the thermoplastic plastic pipe fitting 6 is reduced, and the phenomenon that the movable sealing plate 41 generates axial pressure to cause the hot-melting part of the thermoplastic plastic pipe fitting 6 to deform excessively is avoided.

The invention is described above with reference to the accompanying drawings, it is obvious that the implementation of the invention is not limited in the above manner, and it is within the scope of the invention to adopt various modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. A fastening device for thermoplastic pipe fittings, characterized in that: the automatic pipe fitting sealing device comprises an automatic adjusting mechanism (4) and a motor (54), wherein the automatic adjusting mechanism (4) comprises a movable sealing plate (41), a first clamping piece (1) and a second clamping piece (2), the movable sealing plate (41) realizes pipe orifice sealing of a thermoplastic plastic pipe fitting (6) through a first transmission mechanism, and the first clamping piece (1) and the second clamping piece (2) realize clamping of the pipe wall of the thermoplastic plastic pipe fitting (6) through a second transmission mechanism; after the pipe orifice is sealed and the pipe wall is clamped synchronously, inert gas is injected into the thermoplastic pipe fitting (6) to ensure that the electromagnetic heating device (8) does not cause the brittleness of the joint caused by the high-temperature oxidation of the thermoplastic material in the pipe when the thermoplastic pipe fitting (6) is in hot melt connection with the connector;

the first transmission mechanism comprises a hollow screw pipe (5), the end part of the hollow screw pipe (5) is positioned in the thermoplastic pipe (6) and an air outlet hole (58) at the end part of the hollow screw pipe (5) can output inert gas, the motor (54) drives the hollow screw pipe (5) to rotate, the movable sealing plate (41) is in threaded connection with the hollow screw pipe (5), and the movable sealing plate (41) can move axially along the hollow screw pipe (5) so as to press or leave the pipe orifice of the thermoplastic pipe (6);

the second transmission mechanism comprises a first moving rack (52), a second moving rack (53) and a gear (51), two moving guide grooves (411) are formed in the moving sealing plate (41), one end of a first connecting driving rod (56) penetrates through one moving guide groove (411) to be fixedly connected with the first clamping piece (1), and the other end of the first connecting driving rod is connected with the first moving rack (52); a second connecting and driving rod (57) penetrates through the other moving guide groove (411), one end of the second connecting and driving rod is fixedly connected with the second clamping piece (2), the other end of the second connecting and driving rod is connected with a second moving rack (53), a first moving rack (52) and the second moving rack (53) are arranged in parallel and are meshed through a gear (51), and the gear (51) is fixed on the hollow solenoid (5) and cannot be displaced;

the first clamping piece (1) and the second clamping piece (2) are semi-arc-shaped and can be attached to the thermoplastic plastic pipe fitting (6).

2. The fastening device for thermoplastic pipes according to claim 1, characterized in that: the clamping device is characterized by further comprising a connecting part (3), wherein a first movable rod (11), a first supporting rod (12) and a first rotating body (13) are sequentially arranged between one end of the connecting part (3) and the first clamping piece (1), and a second movable rod (21), a second supporting rod (22) and a second rotating body (23) are sequentially arranged between the other end of the connecting part (3) and the second clamping piece (2); an air inlet hole (31) is formed in the connecting portion (3), and the connecting portion (3) is communicated with the automatic adjusting mechanism (4).

3. A fastening device for thermoplastic pipes according to claim 2, characterized in that: the input end of the air inlet hole (31) is connected with an inert gas storage device outside, and inert gas output by the output end of the air inlet hole (31) sequentially passes through the first air inlet pipe (42), the second air inlet pipe (55) and the hollow solenoid (5) and finally enters the thermoplastic pipe fitting (6) from the air outlet hole (58) at the end part of the hollow solenoid (5).

4. A fastening device for thermoplastic pipes according to claim 3, characterized in that: the connector is three way connection head (7), two joints of three way connection head (7) are respectively with one thermoplastic pipe fitting (6) one end is connected to the junction uses an electromagnetic heating device (8) to heat simultaneously respectively, two the thermoplastic pipe fitting (6) other end is respectively with one the fastener of thermoplastic pipe fitting is connected, the fastener of thermoplastic pipe fitting carries out the mouth of pipe simultaneously and seals and the pipe wall presss from both sides tightly the back, to thermoplastic pipe fitting (6) pour into inert gas into, inert gas follows three port output of three way connection head (7).

5. The fastening device for thermoplastic pipes according to claim 4, characterized in that: the heating device is characterized by further comprising a temperature sensor, the temperature sensor monitors the heating temperature of the electromagnetic heating device (8), when the heating temperature reaches a limit value C, the control unit controls the motor to rotate reversely, so that the pressure between the movable sealing plate (41), the first clamping piece (1), the second clamping piece (2) and the thermoplastic plastic pipe fitting (6) is reduced, and the phenomenon that the movable sealing plate (41) generates axial pressure to enable the hot melting part of the thermoplastic plastic pipe fitting (6) to deform excessively is avoided.

6. A method of oxidation-resistant heating of a thermoplastic pipe using the thermoplastic pipe fastening device of claim 5, comprising the steps of:

step 1, two joints of a three-way connector (7) are respectively connected with one end of a thermoplastic pipe fitting (6);

step 2, the other ends of the two thermoplastic plastic pipe fittings (6) are respectively connected with a fastening device of the thermoplastic plastic pipe fitting;

step 3, starting a motor, and after synchronously sealing the pipe orifice and clamping the pipe wall of the fastening device of the thermoplastic pipe fitting, releasing inert gas, wherein the inert gas is output from a third joint (71) of the three-way connector (7);

step 4, opening two electromagnetic heating devices (8) to respectively heat the two joints of the three-way connector (7) and the two thermoplastic plastic pipe fittings (6) simultaneously;

and 5, heating for t time, and naturally cooling.