RU79063U1 - DEVICE FOR THERMAL TREATMENT OF WELDED PIPES, CONNECTING PARTS FOR PIPELINES AND OTHER HOLLOW ELECTRIC CONDUCTING BODIES - Google Patents

Abstract

The utility model relates to the field of welding technology and is intended for heat treatment of pipeline parts, in particular, welded joints of pipes, shells, bends, tees, transitions, flanges, plugs and other pipeline fittings. The problem to be solved by the claimed utility model is to increase the productivity of welding. The technical result that can be obtained by implementing the claimed utility model consists in reducing the duration of the technological process by reducing the number of technological operations. A device for heat treatment of welded joints of pipes, connecting parts of pipelines and other hollow electrically conductive bodies, contains an inductor made with the possibility of movement and connected through a regulating body with an external power source; a hollow body temperature sensor connected to an input of the processor, the output of which is connected to a regulator; a drive mechanism connected to the output of the processor and providing movement of the inductor. The inductor is made in the form of a solenoid wound on a core and placed inside the hollow body to be processed. In some cases, the solenoid core can be made of ferromagnets. In other cases, the solenoid core can be made of materials other than ferromagnets. It is preferable that the device is made with the possibility of changing the geometric parameters of the transverse and / or longitudinal section of the inductor. In some cases, the implementation of the utility model may contain mechanical, and

Description

The utility model relates to the field of welding equipment and technology. The inventive utility model can be used for heat treatment of pipeline parts, in particular, welded pipe joints, shells, bends, tees, transitions, flanges, plugs and other pipe fittings, as well as for heating welded joints of hollow bodies of various shapes made from conductive materials.

A known installation for induction heating, comprising inductors, a housing, a movement mechanism and drives, while the housing is made in the form of a hinged-lever system, and the inductors are mounted on the housing with the possibility of their movement. (USSR author's certificate No. 396376 for the invention "Installation for induction heating of the inner surfaces of products", publ. 08/29/1973). The known installation does not allow to control the technological process, which reduces the quality of heat treatment.

A device for heating products containing an inductor connected to a power source and through a contactor and a time relay with a product movement sensor (USSR author's certificate No. 840162 MKPK C21D 11/00, published on 06/23/1981 for the invention "Device for heating products with continuous production "). A disadvantage of the known device is the need to move the pipe through the inductor, as well as the lack of a sensor

temperature of the pipe, which allows to measure the temperature of the pipe during its processing, which ultimately leads to a decrease in the quality of heat treatment.

A device is known for heat treatment of hollow bodies, for example, pipes, which is closest to the claimed technical solution according to the set of essential features and selected as a prototype. The known device includes an inductor made with the possibility of movement and connected through a regulatory body with an external power source; a hollow body temperature sensor connected to the input of the processor, the output of which is connected to the regulatory body; a drive mechanism connected to the output of the processor and providing movement of the inductor. The inductor is mounted on the cart, and the cart moves along the surface of the pipe, or next to it, and the inductor covers the outer surface of the pipe. The device performs heat treatment of the pipe section in accordance with the program embedded in the control unit. If the current temperature of the pipe measured by the sensor does not match the temperature determined by the program, the control unit corrects the power supplied to the inductor by acting on the power source through the regulator (RF patent No. 2037538 for the invention “Device for pipe heat treatment”, IPC C21D 11/00, published on June 19, 1995).

The known device is characterized by higher quality heat treatment of the pipe. However, the presence of an external inductor does not allow the device to be used during heat treatment and welding of pipe joints, shells and other parts of the pipeline simultaneously with an external centralizer and to weld with an installed inductor. The technological regulation requires the presence of such operations as the assembly of pipes and (or) pipe fittings at tacks, their subsequent removal

during root welding, reusable installation of an external inductor in the process of filling the root of the seam.

The task to which the claimed utility model is directed is to increase the productivity of welding work.

The technical result that can be obtained by implementing the inventive utility model is to reduce the duration of the process by reducing the number of technological operations.

The specified technical result is achieved by the fact that the device for heat treatment of welded pipe joints, pipe fittings and other hollow electrically conductive bodies contains an inductor made with the possibility of movement and connected through an regulating body to an external power source; a hollow body temperature sensor connected to the input of the processor, the output of which is connected to the regulatory body; a drive mechanism connected to the output of the processor and providing movement of the inductor. The inductor is made in the form of a solenoid wound around the core and placed inside the treated hollow body.

In some cases, the execution of the core of the solenoid can be made of ferromagnets.

In other cases, the execution of the core of the solenoid may be made of materials other than ferromagnets.

Preferably, the device was configured to change the geometric parameters of the transverse and / or longitudinal section of the inductor.

In some cases, the implementation of the utility model may contain mechanical, and / or pneumatic, and / or hydraulic devices, providing a change in the geometric parameters of the cross and / or longitudinal section of the inductor.

In some cases, the implementation of the utility model may include remote control means for changing the geometric parameters of the cross and / or longitudinal section of the inductor.

In other cases, the claimed utility model may further comprise a source of alternating electromagnetic field combined with the inductor.

In some cases, the implementation of the utility model may include means for measuring the temperature of the inductor and / or the external environment.

In some cases, the execution of the device may further comprise a device for measuring the inductive field.

In some cases, the execution of the device may contain wired communication with the processor.

In other embodiments, the device may comprise wireless communications with the processor.

Preferably, the device further comprises an internal centralizer on which the inductor is mounted.

In some cases, the execution of the internal centralizer may be performed without having an independent drive mechanism.

In other cases, the execution of the internal centralizer may contain an independent drive mechanism that ensures its movement.

A comparative analysis of the claimed utility model with the prototype showed that in all cases it is different from the well-known, closest technical solution:

- the implementation of the inductor in the form of a solenoid wound on the core;

- placement of the inductor inside the treated hollow body.

In some cases, the implementation of the claimed utility model differs from the well-known, closest technical solution:

- the implementation of the core of the solenoid made of ferromagnets;

- the implementation of the core of the solenoid made of materials other than ferromagnets;

- the presence of mechanical and / or pneumatic and / or hydraulic devices, providing a change in the geometric parameters of the transverse and longitudinal sections of the inductor;

- the presence of a source of alternating electromagnetic field, made combined with the inductor;

- the presence of remote control means for changing the geometric parameters of the transverse and / or longitudinal section of the inductor;

- the presence of a means of measuring the temperature of the inductor and / or the external environment;

- the presence of an inductive field measuring device;

- the presence of a wired connection with the processor;

- the presence of wireless communication with the processor;

- the presence of an internal centralizer on which the inductor is mounted;

- the implementation of the internal centralizer, on which an inductor is installed, containing a drive mechanism.

The implementation of the claimed device containing the inductor in the form of a solenoid wound on the core and placing it inside the hollow electrically conductive body allows without dismantling the internal inductor and without pre-assembly using tacks (and, accordingly, without removing them): to assemble the joint on the external centralizer, to heat the welded bodies to the desired temperature pipes and (or) pipe fittings, boil the root of the seam, re-heat the pipes and (or) pipe fittings when filling the seam if it cools down during cleaning operations.

As you can see, in contrast to the known devices, the use of which requires the following operations:

a) pipe assembly on external centralizers;

b) fixation of the joint on tacks;

c) removal of the centralizer;

d) installation of an external inductor, heating to the desired temperature;

e) removal of the external inductor;

f) root welding with simultaneous removal of tacks, hot passage, application of a filling layer, stripping;

g) installation of an external inductor, heating to the desired temperature;

h) removal of the external inductor,

the use of the claimed utility model allows to exclude a number of operations from the technological regulations, such as:

- assembly of pipes and (or) pipe fittings at tacks;

- subsequent removal of tacks in the process of root welding;

- reusable installation of an external inductor in the process of filling the root.

The reduction in the number of operations in the process provides a reduction in the duration of the process, which ultimately increases the productivity of the device.

The proposed utility model is illustrated by the drawing shown in figure 1, which shows a schematic drawing of a device for heat treatment of welded pipe joints, pipe fittings and other hollow electrically conductive bodies.

A device for heat treatment of welded joints of pipes, pipe fittings and other hollow electrically conductive bodies contains an inductor 1 that is movable and connected through a regulating body 2 to an external power source 3. The device also includes a temperature sensor 4 of the hollow body 5 connected to the processor input 6, the output of which is connected to the regulatory body 2. The device contains a drive mechanism 7 connected to the output of the processor 6 and providing movement of the inductor 1. The inductor 1 time placed inside the treated hollow body 5 and contains a solenoid 8 wound on the core 9, which can be made of ferromagnets, or from materials other than ferromagnets. The device can be made with the possibility of changing the geometric parameters of the cross and / or longitudinal section of the inductor and contain mechanical, and / or

pneumatic and / or hydraulic devices, providing a change in the geometric parameters of the transverse and / or longitudinal sections of the inductor (not shown). In some cases, the execution of the device may include remote control means for changing the geometric parameters of the cross and / or longitudinal section of the inductor (not shown). The device may also further comprise a variable electromagnetic field source (not shown) combined with inductor 1, means for measuring the temperature of the inductor and / or the external environment (not shown), and an inductive field measuring device (not shown). The device may include wired or wireless communications with the processor 6. The device may also further comprise an internal centralizer (not shown in the drawing), on which an inductor 1 is installed. The internal centralizer may have an independent drive mechanism (not shown in the drawing), providing its movement.

The device operates as follows.

Before processing, the welded pipe joints (pipe fittings or other hollow electrically conductive bodies) are assembled on the external center, heated using the internal inductor 1 to the desired temperature, the weld root is boiled without dismantling the internal inductor 1, reheating is carried out when filling the welded joint if cooling during cleaning operations The movement of the inductor 1 is carried out using the drive mechanism 7. To maximize the use of magnetic flux in the process of the heating of the pipe, the cross section of the inductor must coincide with the cross-section of the pipe or pipe product, providing a minimum gap between the windings of the solenoid and the inner wall of the pipe, taking into account the ovality of the pipe, for this purpose, the inductor can

be equipped with devices for changing geometric dimensions, sections, shapes. In particular, the surface of the inductor can be divided into sectors configured to change the radius of curvature. The processor 6 introduces a heat treatment program. The heat treatment is carried out when the power source 3 is turned on in accordance with the program embedded in the processor 6. When the current temperature measured by the sensor 4 matches the temperature determined by the program, the processor 6 corrects the power supplied to the inductor 1 by acting through the regulator 2 on the power source 3. The internal arrangement of the inductor 1 allows you to heat the body of the pipe (or other processed hollow bodies) by generating heat directly in the processed body, providing a small concentration of electric energy in a small volume, allowing heating at a faster rate.

Claims (15)

1. Device for heat treatment of welded pipe joints, pipe fittings and other hollow electrically conductive bodies, comprising an inductor made with the possibility of movement and connected through an regulating body to an external power source; a hollow body temperature sensor connected to the input of the processor, the output of which is connected to the regulatory body; a drive mechanism connected to the output of the processor and providing movement of the inductor, characterized in that the inductor is made in the form of a solenoid wound around the core and placed inside the machined hollow body. 2. The device according to claim 1, characterized in that the core of the solenoid is made of ferromagnets. 3. The device according to claim 1, characterized in that the core of the solenoid is made of materials other than ferromagnets. 4. The device according to claim 1, characterized in that it is configured to change the geometric parameters of the transverse and / or longitudinal section of the inductor. 5. The device according to claim 1, characterized in that it contains mechanical, and / or pneumatic, and / or hydraulic devices for changing the geometric parameters of the cross section of the inductor. 6. The device according to claim 1, characterized in that it contains mechanical, and / or pneumatic, and / or hydraulic devices for changing the geometric parameters of the longitudinal section of the inductor. 7. The device according to claim 1, characterized in that it contains means for remote control of changing geometric parameters of the transverse and / or longitudinal section of the inductor. 8. The device according to claim 1, characterized in that it further comprises a source of alternating electromagnetic field combined with an inductor. 9. The device according to claim 1, characterized in that it further comprises means for measuring the temperature of the inductor and / or the external environment. 10. The device according to claim 1, characterized in that it further comprises an inductive field measuring device. 11. The device according to claim 1, characterized in that it contains wired communications with the processor. 12. The device according to claim 1, characterized in that it contains wireless communications with the processor. 13. The device according to claim 1, characterized in that it further comprises an internal centralizer, on which the inductor is mounted. 14. The device according to claim 11, characterized in that the internal centralizer is made not having an independent drive mechanism. 15. The device according to claim 11, characterized in that the internal centralizer has an independent drive mechanism for moving it.