CN117733434A - Welding machine - Google Patents

Abstract

The application relates to a welding machine, and relates to the technical field of welding detection equipment, comprising a support, a fixed assembly, a surface detection assembly, an internal detection assembly and a movable assembly; the welding gun is arranged on the support; the fixing component is arranged on the support and is used for fixing the support and the plate to be detected; the surface detection assembly is arranged on the support and is used for detecting the surface of the welding seam on the plate to be detected; the internal detection assembly is arranged on the support and is used for detecting the internal structure of the welding seam on the plate to be detected; the moving assembly is arranged on the support and is used for enabling the welding gun, the surface detection assembly and the internal detection assembly to move. The welding seam detection and repair welding device can be convenient for detecting and repair welding the welding seam of the large-sized plate type part.

Description

Welding machine

Technical Field

The application relates to the technical field of welding seam detection equipment, in particular to a welding seam machine.

Background

In the construction industry, steel is often secured by welding techniques to form a steel structural support frame. In order to ensure the bearing stability of the steel structure, after the welding is finished, the surface shape and the internal structure of the welding line are usually required to be detected, and then the unqualified welding line is subjected to repair welding through welding line equipment.

Existing weld equipment generally includes a work table, a weld detection assembly, and a welding gun; when the welding machine is used, a part or a welding body to be detected is fixedly arranged on a workbench, then the part or the welding body is detected through welding seam detection equipment, and then the unqualified welding seam is subjected to repair welding through a welding gun.

The welding seam equipment can only detect and repair the smaller movable parts, but is difficult to detect and repair the parts which cannot be moved, such as large containers, plates and the like.

Disclosure of Invention

In order to be convenient for detect and repair welding to the welding seam of large-scale panel class spare part, this application provides a welding seam machine.

The application provides a welding seam machine adopts following technical scheme:

a welding machine comprises a support, a fixed assembly, a surface detection assembly, an internal detection assembly and a moving assembly; the welding gun is arranged on the support; the fixing component is arranged on the support and is used for fixing the support and the plate to be detected; the surface detection assembly is arranged on the support and is used for detecting the surface of a welding line on the plate to be detected; the internal detection assembly is arranged on the support and is used for detecting the internal structure of the welding seam on the plate to be detected; the moving assembly is arranged on the support and is used for enabling the welding gun, the surface detection assembly and the internal detection assembly to move.

Through adopting above-mentioned technical scheme, when detecting and repair welding to the welding seam of large-scale panel class spare part, operating personnel fixes the support on waiting to detect the plate through fixed subassembly, then moves through moving the subassembly to welder, surface detection subassembly and inside detection subassembly's position, proofreads the back, detects the welding seam surface and the inner structure of waiting to detect the plate respectively through surface detection subassembly and inside detection subassembly, if there is unqualified welding seam, then repair welding to corresponding position through welder. The large plate parts do not need to be moved, so that the welding seams of the large plate parts can be conveniently detected and subjected to repair welding.

Optionally, two supports are provided; the fixing component comprises a first magnetic stripe and a second magnetic stripe; the first magnetic stripe and the second magnetic stripe are respectively and fixedly arranged on the two supports, and mutual attractive force exists between the first magnetic stripe and the second magnetic stripe.

Through adopting above-mentioned technical scheme, when using, operating personnel place two supports respectively in the both sides of waiting to detect the plate, utilize the mutual appeal of first magnetic stripe and second magnetic stripe, make two supports fixed with waiting to detect the plate, easy dismounting, and can install the different positions department at the plate of different thickness in a flexible way to be convenient for detect and repair welding to the welding seam of large-scale panel class spare part.

Optionally, the surface detection assembly comprises a telescopic rod, a spring, a displacement sensor and a controller; the telescopic rods are arranged in a one-to-one correspondence with the supports, the telescopic rods are horizontally arranged, and the fixed ends of the telescopic rods are connected with the supports; the movable end of the telescopic rod divides the interior of the fixed end of the telescopic rod into a rod cavity and a rodless cavity, and liquid is arranged in the rodless cavity; the welding gun is fixedly connected with the fixed end of one of the telescopic rods; the springs are arranged in two and correspond to the telescopic rods one by one, the springs are fixedly arranged in the rodless cavity, and the springs are in a compressed state; the displacement sensors are fixedly arranged on the telescopic rods and used for detecting liquid level change information in the rodless cavity, converting the liquid level change information into liquid level change signals and inputting the liquid level change signals into the controller; the controller is arranged on the support and is electrically connected with the two displacement sensors, and the controller is used for receiving liquid level change signals transmitted by the displacement sensors.

Through adopting above-mentioned technical scheme, when the welding seam surface of treating the detection plate detects, because the spring is in compression state, under the effect of spring, the telescopic link is in extension state all the time, when operating personnel utilized the removal subassembly to make the telescopic link position remove, because the welding seam surface is unsmooth, make the expansion end of telescopic link slide along the length direction of telescopic link, make the volume in the rodless chamber increase or reduce, thereby make the liquid level in the rodless chamber rise or descend, displacement sensor record the liquid level change information in the rodless chamber, can confirm the surface change information of the welding seam of treating the detection plate, accomplish the surface detection of treating the detection plate welding seam.

Optionally, the internal detection component comprises an X-ray emitting end and an X-ray receiving end; the X-ray emission end is fixedly connected with the movable end of one of the telescopic rods, and the X-ray emission end is used for emitting X-rays; the X-ray receiving end is fixedly connected with the movable end of the other telescopic rod and is used for receiving X-rays emitted by the X-ray emitting end; the X-ray transmitting end, the X-ray receiving end and the controller are all electrically connected, and the X-ray receiving end inputs the received X-ray information into the controller.

Through adopting above-mentioned technical scheme, in the welding seam surface detection process of treating the detection plate, X ray receiving end and X ray transmitting end all the time with treating the detection plate butt, X ray receiving end receives the X ray that X ray transmitting end transmitted, can confirm the inner structure of the welding seam of treating the detection plate, treat the surface detection of the welding seam of detecting the plate and inner structure detects and go on simultaneously, has simplified the detection flow, has improved detection efficiency to be convenient for detect and repair welding to the welding seam of large-scale panel class spare part.

Optionally, the two supports are provided with sliding grooves; the moving assemblies are provided with two groups and correspond to the sliding grooves one by one, and each moving assembly comprises a sliding block and an electric push rod; the sliding block is arranged in the sliding groove in a sliding way; the fixed end of the electric push rod is fixedly connected with the sliding block, and the movable end of the electric push rod is fixedly connected with the fixed end of the telescopic rod.

Through adopting above-mentioned technical scheme, thereby operating personnel operation electric putter and slider have realized making welder, surface detection subassembly and inside detection subassembly remove.

Optionally, a position detection assembly is arranged on the support, and the position detection assembly comprises a communicating pipe and an electric valve; the two ends of the communicating pipe are respectively communicated with the two rodless cavities, and liquid is preset in the communicating pipe; the electric valve is arranged on the communicating pipe, the electric valve is electrically connected with the controller, and the controller is also used for controlling the working state of the electric valve.

Through adopting above-mentioned technical scheme, operating personnel will two supports with wait to detect after the plate fixed connection, open electric valve, make two rodless chamber intercommunication, under the liquid gravity effect, the liquid level in two rodless chamber can be in same horizontal plane, then utilize moving assembly to reciprocate two telescopic links, until the numerical value that two displacement sensors detected is the same, then two telescopic links are in same horizontal plane, then make two telescopic links remove in the horizontal plane through moving assembly again, until the X-ray receiving terminal can normally receive the X-ray that X-ray emission end launched, then the position of telescopic link proofreading is accomplished, the electric valve is closed to controller control, can begin to wait to detect the welding seam of plate. Utilize surface detection subassembly and inside detection subassembly to proofread the position of telescopic link, guarantee the detection precision of the welding seam of treating the detected plate, need not operating personnel and additionally utilize measuring tool to proofread to be convenient for detect and repair welding the welding seam of large-scale panel class spare part.

Optionally, a vent pipe is arranged on the fixed end of the telescopic rod, and the vent pipe is communicated with the rodless cavity.

Through adopting above-mentioned technical scheme for the air and the external intercommunication of rodless intracavity, avoid because inside atmospheric pressure makes the liquid level in the rodless intracavity can not normally change with the welding seam surface condition of waiting to detect the plate, thereby avoid waiting to detect the detection of the welding seam of plate and cause the influence.

Optionally, the fixed end of telescopic link is fixed and is provided with the pilot lamp, the pilot lamp with the controller electricity is connected, the controller still is used for controlling the operating condition of pilot lamp.

Through adopting above-mentioned technical scheme, when the numerical value that detects at displacement sensor through the pilot lamp is the same, twinkle, the height adjustment of suggestion operating personnel telescopic link finishes to be convenient for carry out the position to the telescopic link and proofread.

In summary, the present application includes at least one of the following beneficial technical effects:

through setting up the fixed subassembly, when detecting and repair welding to the welding seam of large-scale panel class spare part, operating personnel fixes the support on waiting to detect the plate, need not to remove large-scale panel class spare part to be convenient for detect and repair welding to the welding seam of large-scale panel class spare part;

by arranging the internal detection assembly and the surface detection assembly, the surface detection and the internal structure detection of the welding seam of the plate to be detected are simultaneously carried out, so that the detection flow is simplified, the detection efficiency is improved, and the welding seam of the large plate type part is conveniently detected and subjected to repair welding;

through setting up the position detection subassembly, utilize surface detection subassembly and inside detection subassembly to proofread the position of telescopic link, guarantee to treat the detection precision of the welding seam of detecting the plate, need not operating personnel and additionally utilize measuring tool to proofread to be convenient for detect and repair welding to the welding seam of large-scale panel class spare part.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a cross-sectional view of an embodiment of the present application;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a partial enlarged view at B in fig. 1.

Reference numerals illustrate:

1. a support; 11. a welding gun; 12. a chute; 13. an indicator light;

2. a fixing assembly; 21. a first magnetic stripe; 22. a second magnetic stripe;

3. a surface detection assembly; 31. a telescopic rod; 311. a rod cavity is arranged; 312. a rodless cavity; 313. a ventilation pipe; 32. a spring; 33. a displacement sensor; 34. a controller;

4. an internal detection assembly; 41. an X-ray emission end; 42. an X-ray receiving end;

5. a moving assembly; 51. a slide block; 52. an electric push rod;

6. a position detection assembly; 61. a communicating pipe; 62. an electric valve.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a welding machine. A welding machine comprises a support 1, a fixed component 2, a moving component 5, a surface detection component 3, an internal detection component 4 and a position detection component 6.

Referring to fig. 1 and 2, two supports 1 are provided, wherein a welding gun 11 is horizontally arranged on one support 1, and the welding gun 11 is used for repair welding of a plate to be detected. The fixing component 2 is arranged on the support 1 and is used for fixing the support 1 and the plate to be detected. The surface detection assembly 3 is arranged on the support 1 and is used for detecting the surface of the welding line on the plate to be detected. The internal detection assembly 4 is arranged on the support 1 and is used for detecting the internal structure of the welding line on the plate to be detected. The moving assembly 5 is provided on the support 1 and serves to move the welding gun 11, the surface detecting assembly 3, and the internal detecting assembly 4.

When the welding gun is used, an operator respectively fixes the two supports 1 on two sides of a plate to be detected through the fixing assembly 2, adjusts the positions of the welding gun 11, the surface detection assembly 3 and the internal detection assembly 4 through the moving assembly 5, then respectively detects the welding seam surface and the internal structure of the plate to be detected through the surface detection assembly 3 and the internal detection assembly 4, and if an unqualified welding seam exists, repair welding is carried out on the corresponding positions through the welding gun 11.

Referring to fig. 1 and 2, the fixing assembly 2 includes a first magnetic stripe 21 and a second magnetic stripe 22, and the first magnetic stripe 21 is fixedly disposed on the support 1 where the welding gun 11 is located. The second magnetic stripe 22 is fixedly arranged on the other support 1, and a mutual attractive force exists between the second magnetic stripe 22 and the first magnetic stripe 21.

When fixing two support 1, if wait to detect the plate and be magnetic material, first magnetic stripe 21 and second magnetic stripe 22 are fixed respectively in the both sides of waiting to detect the plate under the magnetic force effect, if wait to detect the plate and be non-magnetic material, then under the mutual appeal of first magnetic stripe 21 and second magnetic stripe 22, two support 1 are fixed respectively in the both sides of waiting to detect the plate.

The two supports 1 are provided with sliding grooves 12, and the sliding grooves 12 are horizontally arranged. Through grooves are formed in the two supports 1, the length direction of each through groove is identical to the length direction of the corresponding sliding groove 12, and the through grooves penetrate the supports 1 in the vertical direction. The moving assembly 5 is provided with two groups, and corresponds to the sliding grooves 12 one by one, and the moving assembly 5 comprises a sliding block 51 and an electric push rod 52. The slider 51 is slidably disposed in the chute 12, and the sliding axis is disposed along the length direction of the chute 12. The slider 51 is provided with a mounting groove extending therethrough in the vertical direction. The fixed end of the electric push rod 52 is inserted into the mounting groove and the through groove and is fixedly connected with the sliding block 51.

Referring to fig. 2 and 3, the surface detecting assembly 3 includes a telescopic rod 31, a spring 32, a displacement sensor 33, and a controller 34. The telescopic link 31 is provided with two, and with support 1 one-to-one, two telescopic links 31 all level sets up, and the stiff end of telescopic link 31 and the expansion end fixed connection of electric putter 52, the expansion end of telescopic link 31 is located the stiff end of telescopic link 31 and is close to the one side of waiting to detect the plate. The movable end of the telescopic rod 31 divides the interior of the fixed end of the telescopic rod 31 into a rod cavity 311 and a rod-free cavity 312, the rod cavity 311 is positioned between the rod-free cavity 312 and the plate to be detected, and liquid is arranged in the rod-free cavity 312. The top of the fixed ends of the two telescopic rods 31 are respectively provided with a gas permeation tube 313, and the gas permeation tubes 313 are communicated with the rodless cavity 312.

Referring to fig. 2 and 3, two springs 32 are provided and are in one-to-one correspondence with the telescopic rods 31, the springs 32 are located in the rodless cavity 312, and two ends of the springs are fixedly connected with the fixed ends of the telescopic rods 31 and the movable ends of the telescopic rods 31 respectively, and the springs 32 are always in a compressed state. The displacement sensors 33 are provided with two and are in one-to-one correspondence with the telescopic rods 31, the displacement sensors 33 are arranged in the rodless cavity 312 and are fixedly connected with the top wall of the rodless cavity 312, and the displacement sensors 33 are used for detecting liquid level change information in the rodless cavity 312 and converting the liquid level change information into liquid level change signals to be input into the controller 34. Referring to fig. 1, a controller 34 is fixedly provided on one of the holders 1, the controller 34 is electrically connected to both displacement sensors 33, and the controller 34 is configured to receive a liquid level change signal transmitted from the displacement sensor 33.

Referring to fig. 2, the internal detection assembly 4 includes an X-ray emitting end 41 and an X-ray receiving end 42. The X-ray emission end 41 is fixedly connected with the movable end of the telescopic rod 31 on the same side of the welding gun 11 and is positioned between the telescopic rod 31 and the plate to be detected, and the X-ray emission end 41 is used for emitting X-rays. The X-ray receiving end 42 is fixedly connected with the movable end of the other telescopic rod 31 and is located between the other telescopic rod 31 and the plate to be detected, and the X-ray receiving end 42 is used for receiving the X-rays emitted by the X-ray emitting end 41. The X-ray emitting end 41, the X-ray receiving end 42 and the controller 34 are all electrically connected, and the X-ray receiving end 42 inputs the received X-ray information into the controller 34.

Referring to fig. 1 and 4, position detecting assembly 6 includes communicating pipe 61 and electrically operated valve 62. Referring to fig. 2 and 3, both ends of the communication pipe 61 are respectively communicated with the rodless cavities 312 of the two telescopic rods 31, and the communication place is positioned at the bottom of the telescopic rod 31, and the liquid is also preset in the communication pipe 61. The electric valve 62 is fixedly installed on the re-communicating pipe 61, the electric valve 62 is electrically connected with the controller 34, and the controller 34 is also used for controlling the working state of the electric valve 62. The fixed end of the telescopic rod 31 is provided with an indicator lamp 13, the indicator lamp 13 is electrically connected with a controller 34, and the controller 34 is also used for controlling the working state of the indicator lamp 13.

When the device is used, an operator fixedly connects two supports 1 with a plate to be detected, under the action of a spring 32, the telescopic rods 31 are in an extending state, the X-ray emitting end 41 and the X-ray receiving end 42 are respectively abutted against two opposite side walls of the plate to be detected, then the operator moves and adjusts the heights of the two telescopic rods 31 by using two electric push rods 52, at the moment, the electric valve 62 is in an open state, two rodless cavities 312 are communicated, meanwhile, the displacement sensors 33 are all in a working state, the two displacement sensors 33 respectively detect liquid level change information in the two rodless cavities 312, when measured values of the two displacement sensors 33 are the same, the two telescopic rods 31 are in the same horizontal plane, and at the moment, the controller 34 controls the indicator lamp 13 to flash, so that the operator is reminded of the height position adjustment of the telescopic rods 31. Then, the operator adjusts the positions of the X-ray emitting end 41 and the X-ray receiving end 42 by moving the position of the slider 51, and when the X-ray receiving end 42 can normally receive the X-rays emitted by the X-ray emitting end 41, the two telescopic rods 31 are arranged opposite to each other, and the position calibration of the telescopic rods 31 is completed.

After the position calibration of the telescopic rod 31 is finished, the controller 34 records the liquid level information of the liquid in the rodless cavity 312 at the moment, controls the electric valve 62 to be closed, then moves the two sliding blocks 51 to the position of the welding line of the plate to be detected by the same distance, moves the telescopic rod 31 along the welding line through the sliding blocks 51 and the electric push rod 52, slides the movable end of the telescopic rod 31 along the length direction of the telescopic rod 31 due to the uneven surface of the welding line in the moving process of the telescopic rod 31, so that the volume in the rodless cavity 312 is increased or decreased, and at the moment, the electric valve 62 is closed, the liquid levels in the two rodless cavities 312 are fixed, so that the liquid level in the rodless cavity 312 is increased or decreased, the displacement sensor 33 records the liquid level change information in the rodless cavity 312, and then the surface change information of the welding line of the plate to be detected can be determined, the surface detection of the plate to be detected is completed, and when the surface detection of the welding line of the plate to be detected is unqualified, the corresponding position is subjected to repair welding through the welding gun 11.

By arranging the vent pipe 313, the air in the rodless cavity 312 is communicated with the outside, and the situation that the liquid level in the rodless cavity 312 cannot normally change along with the condition of the weld surface of the plate to be detected due to internal air pressure is avoided.

In the process of detecting the surface of the welding seam of the plate to be detected, the X-ray receiving end 42 and the X-ray transmitting end 41 are in a working state, X-rays transmitted by the X-ray transmitting end 41 penetrate through the welding seam and are received by the X-ray receiving end 42, the internal structure of the welding seam of the plate to be detected can be determined through the received X-ray information, and when the internal structure of the welding seam of the plate to be detected is unqualified, repair welding is carried out on the corresponding position through the welding gun 11.

The implementation principle of the welding machine in the embodiment of the application is as follows:

when in use, an operator firstly places the two supports 1 on two sides of the plate to be detected, and under the mutual attraction force of the first magnetic stripe 21 and the second magnetic stripe 22, the two supports 1 are fixed with the plate to be detected.

The operator then adjusts the height positions of the two telescopic links 31 using the two electric pushers 52, respectively. In this process, the electric valve 62 is in an open state, the two rodless cavities 312 are communicated, the liquid level change information of the liquid in the two rodless cavities 312 is detected by the displacement sensor 33 until the values detected by the displacement sensor 33 are the same, and the indicator lamp 13 blinks to prompt the operator that the height position of the telescopic rod 31 is adjusted.

Then, the operator slides the two sliding blocks 51 to respectively adjust the positions of the two telescopic rods 31 in the horizontal plane, in the process, the X-ray receiving end 42 and the X-ray emitting end 41 are in a working state, and when the X-rays emitted by the X-ray emitting end 41 can be normally received by the X-ray receiving end 42, the position calibration of the telescopic rods 31 is completed.

After the position calibration of the telescopic rod 31 is finished, the controller 34 controls the electric valve 62 to be closed, the two rodless cavities 312 are in an isolated state, an operator moves the telescopic rod 31 to the welding seam of the plate to be detected, the telescopic rod 31 is moved along the welding seam through the sliding block 51 and the electric push rod 52, then the displacement sensor 33 is utilized to detect the liquid level change information in the rodless cavities 312, the surface change information of the welding seam of the plate to be detected can be determined, and the surface detection of the welding seam of the plate to be detected is completed.

When the surface of the welding seam of the plate to be detected is detected, the internal structure of the welding seam of the plate to be detected can be determined through the X-ray information received by the X-ray receiving end 42, and when the internal structure and the surface of the welding seam of the plate to be detected are unqualified, repair welding is carried out on the corresponding position through the welding gun 11.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A welding machine, characterized in that: the device comprises a support (1), a fixing component (2), a surface detection component (3), an internal detection component (4) and a moving component (5); a welding gun (11) is arranged on the support (1); the fixing component (2) is arranged on the support (1) and is used for fixing the support (1) and the plate to be detected; the surface detection assembly (3) is arranged on the support (1) and is used for detecting the surface of a welding line on a plate to be detected; the inner detection assembly (4) is arranged on the support (1) and is used for detecting the inner structure of the welding seam on the plate to be detected; the moving assembly (5) is arranged on the support (1) and is used for moving the welding gun (11), the surface detecting assembly (3) and the internal detecting assembly (4).

2. A welding machine as defined in claim 1, wherein: the support (1) is provided with two supports; the fixing component (2) comprises a first magnetic strip (21) and a second magnetic strip (22); the first magnetic strip (21) and the second magnetic strip (22) are respectively and fixedly arranged on the two supports (1), and attractive force exists between the first magnetic strip (21) and the second magnetic strip (22).

3. A welding machine as defined in claim 1, wherein: the surface detection assembly (3) comprises a telescopic rod (31), a spring (32), a displacement sensor (33) and a controller (34); the two telescopic rods (31) are arranged and correspond to the supports (1) one by one, the telescopic rods (31) are horizontally arranged, and the fixed ends of the telescopic rods (31) are connected with the supports (1); the movable end of the telescopic rod (31) divides the interior of the fixed end of the telescopic rod (31) into a rod cavity (311) and a rodless cavity (312), and liquid is arranged in the rodless cavity (312); the welding gun (11) is fixedly connected with the fixed end of one telescopic rod (31); the springs (32) are arranged in two and correspond to the telescopic rods (31) one by one, the springs (32) are fixedly arranged in the rodless cavity (312), and the springs (32) are in a compressed state; the two displacement sensors (33) are arranged, the displacement sensors (33) are fixedly arranged on the telescopic rod (31) and are used for detecting liquid level change information in the rodless cavity (312) and converting the liquid level change information into liquid level change signals to be input into the controller (34); the controller (34) is arranged on the support (1) and is electrically connected with the two displacement sensors (33), and the controller (34) is used for receiving liquid level change signals transmitted by the displacement sensors (33).

4. A machine for welding according to claim 3, wherein: the internal detection assembly (4) comprises an X-ray emission end (41) and an X-ray receiving end (42); the X-ray emission end (41) is fixedly connected with the movable end of one telescopic rod (31), and the X-ray emission end (41) is used for emitting X-rays; the X-ray receiving end (42) is fixedly connected with the movable end of the other telescopic rod (31), and the X-ray receiving end (42) is used for receiving X-rays emitted by the X-ray emitting end (41); the X-ray emitting end (41), the X-ray receiving end (42) and the controller (34) are all electrically connected, and the X-ray receiving end (42) inputs the received X-ray information into the controller (34).

5. A machine for welding according to claim 3, wherein: a chute (12) is formed in each of the two supports (1); the moving assemblies (5) are provided with two groups, are in one-to-one correspondence with the sliding grooves (12), and the moving assemblies (5) comprise sliding blocks (51) and electric push rods (52); the sliding block (51) is arranged in the sliding groove (12) in a sliding way; the fixed end of the electric push rod (52) is fixedly connected with the sliding block (51), and the movable end of the electric push rod (52) is fixedly connected with the fixed end of the telescopic rod (31).

6. A machine for welding according to claim 3, wherein: a position detection assembly (6) is arranged on the support (1), and the position detection assembly (6) comprises a communicating pipe (61) and an electric valve (62); two ends of the communicating pipe (61) are respectively communicated with the two rodless cavities (312), and liquid is also preset in the communicating pipe (61); the electric valve (62) is installed on the communicating pipe (61), the electric valve (62) is electrically connected with the controller (34), and the controller (34) is also used for controlling the working state of the electric valve (62).

7. The welding machine of claim 6, wherein: and a vent pipe (313) is arranged at the fixed end of the telescopic rod (31), and the vent pipe (313) is communicated with the rodless cavity (312).

8. The welding machine of claim 6, wherein: an indicator lamp (13) is fixedly arranged on the fixed end of the telescopic rod (31), the indicator lamp (13) is electrically connected with the controller (34), and the controller (34) is also used for controlling the working state of the indicator lamp (13).