CN116511781B

CN116511781B - Temperature sensor welding device with rotary position adjusting function

Info

Publication number: CN116511781B
Application number: CN202310807336.8A
Authority: CN
Inventors: 王雷; 段向会; 禹新静
Original assignee: Suzhou Bannaite Electronic Co ltd
Current assignee: Suzhou Bannaite Electronic Co ltd
Priority date: 2023-07-04
Filing date: 2023-07-04
Publication date: 2023-09-26
Anticipated expiration: 2043-07-04
Also published as: CN116511781A

Abstract

The invention relates to the technical field of welding, in particular to a temperature sensor welding device capable of adjusting positions in a rotating mode. The automatic welding machine comprises a workbench, wherein a side supporting frame is arranged at the edge of the top of the workbench, a welding fixing adjusting mechanism is arranged between the two side supporting frames, the welding fixing adjusting mechanism at least comprises a rotating cylinder rotating between the two side supporting frames, a plurality of welding grooves are formed in the outer wall of the rotating cylinder, power cavities are formed in the two ends of the rotating cylinder, grooves enabling the welding grooves to be communicated with the power cavities are formed between the welding grooves and the power cavities, clamping fixing assemblies are arranged in the welding grooves in a sliding mode, and opening and closing control assemblies are arranged in the power cavities. According to the invention, the opening and closing control assembly is used for controlling the clamping assemblies to be in the opening state and the closing state, so that the welding machine is beneficial to more convenient and faster in welding a plurality of cables, and the clamping positions of the cables are far away from the welding machine body, so that the welding machine body is prevented from being touched and worn, and the service life is prolonged.

Description

Temperature sensor welding device with rotary position adjusting function

Technical Field

The invention relates to the technical field of welding, in particular to a temperature sensor welding device capable of adjusting positions in a rotating mode.

Background

The temperature sensor is a sensor which converts temperature variables into transmissible standardized output signals, when the temperature sensor is used for wire combination, wires of a thermocouple and a thermometer are required to be welded and connected by means of an electric welding machine, in the prior art, the wires of the thermocouple and the wires of the thermometer are placed under the electric welding machine, the two wires are welded together by the electric welding machine, however, when the temperature sensor is used for welding operation, clamping and fixing the wires are required, the current clamping and fixing structure is required to be matched with a worker to be opened and closed when the temperature sensor is used, the current clamping and fixing structure is convenient to be closed and clamped and fixed after the temperature sensor is placed in the clamping and fixing structure, the temperature sensor is opened when the temperature sensor is taken down, the clamping and fixing structure is close to the electric welding machine, contact with the electric welding machine is easily caused when the wires are placed in or taken down, the service life is influenced, and the welding head is worn for a long time.

Disclosure of Invention

The invention aims to provide a temperature sensor welding device with a rotary position adjusting function, which solves the problems in the prior art.

In order to achieve the above object, the invention provides a temperature sensor welding device capable of rotationally adjusting positions, comprising a workbench, wherein two symmetrical side support frames are arranged at the top edge of the workbench, lifting plates are slidably arranged at the tops of the two side support frames, a welding machine body for welding a temperature sensor cable is arranged at the center of the bottom of the lifting plates, a welding and fixing adjusting mechanism is arranged between the two side support frames, the welding and fixing adjusting mechanism at least comprises a rotating cylinder rotating between the two side support frames, a plurality of welding grooves are formed in the outer wall of the rotating cylinder, power cavities are formed at the two ends of the rotating cylinder, grooves for communicating the welding grooves with the power cavities are formed between the welding grooves, and a clamping and fixing assembly is slidably arranged in the welding grooves, wherein:

the power cavity is internally provided with an opening and closing control assembly, the opening and closing control assembly is used for propping against the clamping fixing assembly to extend out of the current welding groove to be in an opening state when one of the welding grooves is located on two sides, and resetting the clamping fixing assembly to the inside of the current welding groove to be in a closing state when the clamping fixing assembly is separated from the clamping fixing assembly through rotation, and meanwhile driving the rotating cylinder to drive the current welding groove to rotate to the position right below the welding machine body until the other welding groove is located on two sides.

As a further improvement of the technical scheme, the clamping and fixing assembly at least comprises a regulating and controlling frame sliding inside the welding groove, two groups of clamping structures are arranged inside the regulating and controlling frame in a sliding mode, the clamping structures are composed of two symmetrical clamping plates, the inner wall of the regulating and controlling frame is provided with a sliding groove, the protrusions at the edges of the clamping plates slide inside the sliding groove, driving elastic pieces are fixedly connected between the edges of the clamping plates and the middle of the sliding groove, and the driving elastic pieces are used for driving the two clamping plates to open by the aid of reset elastic force when the regulating and controlling frame stretches out of the welding groove.

As a further improvement of the technical scheme, extension plates are arranged on two sides of the regulating and controlling frame, the extension plates slide inside the welding groove, and a reset elastic piece is fixedly connected between the surface of the extension plates and the end part of the inner cavity of the welding groove.

As a further improvement of the technical scheme, the clamping plates are of arc structures gathered at the center of the regulating and controlling frame, and a cavity for the welding machine body to extend into for welding is arranged between the two groups of clamping plates.

As a further improvement of the technical scheme, a groove for inserting the lifting plate into the groove for sliding is formed in the surface of the side supporting frame, an air cylinder is arranged at the bottom of an inner cavity of the groove, and the end part of a piston rod of the air cylinder is fixedly connected with the end part of the lifting plate.

As a further improvement of the technical scheme, the opening and closing control assembly at least comprises two symmetrical eccentric supporting plates rotating inside the power cavity, the end part of the regulating and controlling frame is provided with a fitting convex plate used for sliding between the power cavity and the welding groove, and the eccentric supporting plates are used for being abutted against the surfaces of the fitting convex plates positioned on two sides when the convex edges of the eccentric supporting plates rotate the inner wall of the power cavity.

As a further improvement of the technical scheme, two rotating rods are fixedly connected to the shaft center of the eccentric supporting disc, the rotating rods rotate between the inside of the power cavity and the side supporting frames, and a power assembly for driving the two rotating rods to rotate simultaneously is arranged between the two rotating rods.

As a further improvement of the technical scheme, the inner wall of the rotary cylinder is fixedly connected with a linkage rod, the end part of the linkage rod rotates on the surface of the side supporting frame, a rotary linkage assembly is arranged between the linkage rod and one of the rotating rods, and the rotary linkage assembly is used for driving the rotary cylinder to rotate to a welding groove from the transverse direction to the vertical direction after the convex edge of the eccentric supporting plate is separated from the attaching convex plate.

As a further improvement of the technical scheme, the rotary linkage assembly at least comprises a gear disc fixed on the outer wall of the linkage rod and an eccentric gear fixed on the outer wall of one of the rotary rods, wherein the eccentric gear is used for being meshed with the outer wall of the gear disc after the convex edge of the eccentric supporting disc is separated from the attaching convex plate, and driving the rotary cylinder to rotate by 90 degrees.

Compared with the prior art, the invention has the beneficial effects that:

1. in this temperature sensor welding set of rotation type adjustment position, through when one of them welding groove is located both sides, open and close control assembly supports the fixed subassembly of centre gripping and stretches out the welding groove and be in the state of opening, realize the cable that will wait to weld passes from the fixed subassembly of centre gripping of front side, along with opening and close control assembly breaks away from the fixed subassembly of centre gripping, make the fixed subassembly of centre gripping slide into the welding inslot portion and carry out the closure and carry out the centre gripping to the cable and fix, and drive the rotation section of thick bamboo and drive the welding groove anticlockwise upwards rotate to welding under the welding machine body, be favorable to automatic to carrying out the centre gripping to fix the cable, realize that reciprocating operation carries out the welding of a plurality of temperature sensors more convenient, and make the position of cable centre gripping keep away from the welding machine body, avoid causing touching wearing and tearing to the welding machine body, improve life.

2. In this temperature sensor welding set of rotation type adjustment position, after temperature sensor's cable is welded in the welding groove, rotate at the rotary drum, drive the cable after the inside welding of welding groove and rotate downwards, when rotating to the lateral wall, open and close the fixed subassembly of centre gripping of control assembly support rear side and open, along with the welding groove continues anticlockwise rotation downwards, drop the cable after the welding from rotary drum outer wall to the workstation on, conveniently take off the cable after the welding, degree of automation is high.

3. In this temperature sensor welding set of rotation type adjustment position, during the welding, two cables have two sets of clamping structure respectively and fix, make the doubling position of cable be located regulation and control frame and be close to center department, namely be located the cavity inside, conveniently when the welding groove is located the welding machine body under, more accurate messenger's welding head of welding machine body inserts the welding place of the doubling department of two cables of cavity internal contact downwards and welds, simultaneously, when the welding head along with the welding machine body contacts the doubling, make regulation and control frame atress drive reset elastic component compression, improve the contact strength of doubling department and welding head under reset elastic component's elasticity, improve the electric welding effect.

Drawings

FIG. 1 is a schematic diagram of the overall structure assembly of the present invention;

FIG. 2 is a schematic view of a workbench according to the present invention;

FIG. 3 is an assembled schematic view of a weld-set adjustment mechanism of the present invention;

FIG. 4 is a cut-away view of a weld-set adjustment mechanism of the present invention;

FIG. 5 is a sectional view of a rotary drum structure of the present invention;

FIG. 6 is a schematic view of the assembly of the rotary drum and clamping fixture assembly of the present invention;

FIG. 7 is a schematic view of a clamping and fixing assembly according to the present invention;

FIG. 8 is a schematic diagram of the opening and closing control assembly of the present invention;

FIG. 9 is a schematic diagram illustrating a welding demonstration performed by clamping the clamping and fixing assembly of the present invention;

fig. 10 is a schematic diagram illustrating the rotation of the rotary drum structure according to the present invention.

The meaning of each reference sign in the figure is:

100. a work table;

110. a side support; 120. a lifting plate; 121. a cylinder; 130. a welder body;

200. welding and fixing an adjusting mechanism;

210. a rotating cylinder; 211. a welding groove; 212. a power cavity; 213. a linkage rod;

220. clamping and fixing the assembly; 221. a regulating and controlling frame; 2210. a chute; 222. attaching a convex plate; 223. a clamping plate; 2230. driving the elastic member; 224. an extension plate; 2240. a return elastic member;

230. an on-off control assembly; 231. a rotating rod; 232. eccentric supporting disc; 233. a power assembly; 234. a rotary linkage assembly; 2341. an eccentric gear; 2342. a gear plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The temperature sensor is a sensor which converts a temperature variable into a transmissible standardized output signal, when the temperature sensor is connected in parallel, cables of a thermocouple and a thermometer are required to be welded and connected by an electric welding machine, the cables of the thermocouple and the cables of the thermometer are placed under the electric welding machine in the prior art, the two cables are welded together by the electric welding machine in contact with the two cables, and when the temperature sensor is welded, the cables are required to be clamped and fixed;

referring to fig. 1-10, the present embodiment provides a temperature sensor welding device with a rotational adjustment position, including a workbench 100, two symmetrical side support frames 110 are provided at the top edge of the workbench 100, a lifting plate 120 is slidably provided at the top of the two side support frames 110, a welder body 130 for welding a temperature sensor cable is provided at the bottom center of the lifting plate 120, a welding and fixing adjustment mechanism 200 is provided between the two side support frames 110, the welding and fixing adjustment mechanism 200 at least includes a rotating cylinder 210 rotating between the two side support frames 110, a plurality of welding slots 211 are provided on the outer wall of the rotating cylinder 210, a power cavity 212 is provided at both ends of the rotating cylinder 210, slots for communicating the welding slots 211 with the power cavity 212 are provided, and a clamping and fixing assembly 220 is slidably provided inside the welding slots 211, wherein:

the power cavity 212 is internally provided with an opening and closing control assembly 230, the opening and closing control assembly 230 is used for propping against the clamping and fixing assembly 220 to extend out of the current welding groove 211 to be in an opening state when one of the welding grooves 211 is positioned at two sides, resetting the clamping and fixing assembly 220 to be in a closing state when the clamping and fixing assembly 220 is separated from the clamping and fixing assembly 220 in a rotating manner, and simultaneously driving the rotating cylinder 210 to drive the current welding groove 211 to rotate under the welding machine body 130 until the other welding groove 211 is positioned at two sides;

the current clamping and fixing structure needs the cooperation of staff to open and close when in use, the clamping and fixing structure is convenient to close and clamp and fix after being put in, the operation is complex and time-consuming and labor-consuming, in addition, when the cable of the temperature sensor is put in the clamping and fixing structure, the clamping and fixing structure is close to the electric welding machine, the cable is easy to touch a welding head of the electric welding machine when being put in or taken down, the wearing and the service life are influenced, therefore, when one welding groove 211 is positioned at two sides, the opening and closing control assembly 230 pushes the clamping and fixing assembly 220 to extend out of the welding groove 211 to be in an opening state, the cable to be welded passes through the inside of the clamping and fixing assembly 220 at the front side, and the opening and closing control assembly 230 breaks away from the clamping and fixing assembly 220, so that the cable is clamped and fixed after the opening and closing control assembly 220 slides into the welding groove 211, and the rotating cylinder 210 is driven to drive the welding groove 211 to rotate anticlockwise to be welded under the welding machine body 130, the welding of the welding groove is favorable for realizing the automatic cable clamping and fixing, the reciprocating operation, the welding of a plurality of temperature sensors is more convenient to realize, and the welding of the cable clamping and fixing positions are kept away from the welding machine body 130, the welding machine 130, the service life is prolonged, and the service life is prevented;

after the welding of the cable of the temperature sensor in the welding groove 211 is finished, the rotating cylinder 210 rotates to drive the cable welded in the welding groove 211 to rotate downwards, when the cable rotates to the side wall, the opening and closing control assembly 230 props against the clamping and fixing assembly 220 at the rear side to open, the welded cable falls off from the outer wall of the rotating cylinder 210 to the workbench 100 along with the continuous anticlockwise downward rotation of the welding groove 211, the welded cable is conveniently taken down, and the automation degree is high.

Firstly, to realize that the clamping and fixing component 220 can be closed and clamped when extending into the welding groove 211, the clamping and fixing component 220 is opened when extending out of the welding groove 211, so that a cable to be welded is conveniently put into and a cable after being taken out of the welding groove 211, the structure of the clamping and fixing component 220 needs to be specifically disclosed, please refer to fig. 7, the clamping and fixing component 220 at least comprises a regulating and controlling frame 221 sliding in the welding groove 211, two groups of clamping structures are slidably arranged in the regulating and controlling frame 221, each clamping structure consists of two symmetrical clamping plates 223, a sliding groove 2210 is formed in the inner wall of the regulating and controlling frame 221, a protrusion on the edge of the clamping plate 223 slides in the sliding groove 2210, a driving elastic piece 2230 is fixedly connected between the protrusion and the middle of the sliding groove 2210, and the driving elastic piece 2230 is used for driving the two clamping plates 223 to open when the regulating and controlling frame 221 extends out of the welding groove 211, so that the cable to be welded can easily penetrate through the two groups of clamping plates 223 along with the opening of the clamping plates 223, otherwise, when the regulating and controlling frame 221 slides into the welding groove 211 again, the inner wall of the clamping plates 223 is attached to the clamping plates 223, and the cable is just fixed in the clamping groove 223.

If the adjusting and controlling frame 221 slides out of the welding groove 211, the adjusting and controlling frame 221 can be reset to the welding groove 211, extension plates 224 are required to be arranged on two sides of the adjusting and controlling frame 221, the extension plates 224 slide in the welding groove 211, reset elastic pieces 2240 are fixedly connected between the surfaces of the extension plates 224 and the end part of the inner cavity of the welding groove 211, the reset elastic pieces 2240 are in a stretching state when the adjusting and controlling frame 221 slides out of the welding groove 211, and the adjusting and controlling frame 221 is driven to slide into the welding groove 211 again under the action of resilience force of resetting the reset elastic pieces 2240 when the opening and closing control assembly 230 is separated from the clamping and fixing assembly 220, so that the cable is clamped and fixed conveniently.

Specifically, in order to facilitate the cable to be inserted between the two clamping plates 223, and to ensure that the cable is fixed when approaching to the center of the regulating frame 221, the clamping plates 223 are in an arc structure converging towards the center of the regulating frame 221, and a cavity for the welding machine body 130 to extend into is arranged between the two groups of clamping plates 223, when welding, the two cables are respectively fixed by the two groups of clamping structures, so that the wire combining position of the cable is located at the position of the regulating frame 221 close to the center, that is, inside the cavity, and when the welding groove 211 is located right below the welding machine body 130, the welding head of the welding machine body 130 is conveniently and accurately inserted into the cavity to contact the wire combining position of the two cables, and meanwhile, when the welding head of the welding machine body 130 contacts the wire combining, the regulating frame 221 is stressed to drive the reset elastic piece 2240 to compress, and the contact strength between the wire combining position and the welding head is improved under the elasticity of the reset elastic piece 2240, so that the effect is improved.

When the cable of the temperature sensor is welded, the lifting plate 120 is ensured to slide up and down in the side support frame 110 more stably, the surface of the side support frame 110 is provided with a groove for inserting the lifting plate 120 for sliding, the bottom of the cavity of the groove is provided with a cylinder 121, the end part of a piston rod of the cylinder 121 is fixedly connected with the end part of the lifting plate 120, the cylinder 121 is powered on to work, the piston rod of the cylinder 121 is enabled to do linear motion to drive the lifting plate 120 to move up and down, and accordingly, the welding machine body 130 is driven to move down to perform welding operation when the welding groove 211 is positioned right below the welding groove.

Then, to meet the requirement that the opening and closing control assembly 230 can abut against and separate from the clamping and fixing assembly 220, so that the clamping and fixing assembly 220 is in an opened state and a closed state, a specific structure of the opening and closing control assembly 230 needs to be further disclosed, as shown in fig. 8, the opening and closing control assembly 230 at least comprises two symmetrical eccentric abutting discs 232 rotating inside the power cavity 212, and the end part of the adjusting and controlling frame 221 is provided with an abutting convex plate 222 for sliding between the power cavity 212 and the welding groove 211, the eccentric abutting discs 232 are used for abutting against the surfaces of the abutting convex plates 222 positioned at two sides when the convex edges of the eccentric abutting discs 232 rotate inside the power cavity 212, when the convex edges of the eccentric abutting discs 232 rotate inside the power cavity 212 and rotate to the outer walls of the eccentric abutting discs 232 to abut against the inner walls of the power cavity 212, the adjusting and controlling frame 221 is driven to move to the outer sides of the welding groove 211, so that the opening of the clamping plate 223 is controlled conveniently, and conversely, when the convex edges of the eccentric abutting discs 232 rotate to be far away from the inner walls of the power cavity 212, the abutting convex edges of the clamping plate 222 are withdrawn, the abutting convex edges 222 are retracted, and the adjusting and controlling frame 221 is driven to clamp the cable 223 to close.

It should be noted that, to ensure that the two eccentric supporting discs 232 rotate reciprocally more stably, the rotating rods 231 are fixedly connected at the axle center of the two eccentric supporting discs 232, the rotating rods 231 rotate between the inside of the power cavity 212 and the side supporting frame 110, a power component 233 for driving the two rotating rods 231 to rotate simultaneously is arranged between the two rotating rods 231, the rotating rods 231 are driven to rotate by the power component 233, so that the eccentric supporting discs 232 are driven to rotate more conveniently and stably, the specific power component 233 can adopt belt discs fixed on the rotating rods 231, belts are meshed between the two belt discs, one end part of one belt disc is connected with a motor output shaft, and the motor drives the two belt discs to rotate by the belt, so that the rotating rods 231 are driven to rotate more conveniently.

And, the cable is located inside the welding groove 211, after being fixed by the clamping and fixing assembly 220, the start-stop control assembly 230 drives the rotary cylinder 210 to drive the current welding groove 211 to rotate to the position right below the welding machine body 130, the linkage rod 213 is fixedly connected to the inner wall of the rotary cylinder 210, the end of the linkage rod 213 rotates on the surface of the side support frame 110, a rotary linkage assembly 234 is arranged between the linkage rod 213 and one of the rotary rods 231, the rotary linkage assembly 234 is used for driving the rotary cylinder 210 to rotate until the welding groove 211 reaches the vertical direction from the transverse direction after the convex edge of the eccentric support disc 232 is separated from the attaching convex plate 222, and the rotary linkage assembly 234 is not connected with the linkage rod 213 and the rotary rod 231 at this time, namely, the rotary cylinder 210 is kept motionless until the convex edge of the eccentric support disc 232 is separated from the attaching convex plate 222, and when the rotary linkage assembly 234 is connected with the linkage rod 213, the rotary rod 213 is meshed with the continuous rotation of the rotary rod 231, so that the rotary cylinder 210 is driven to rotate along with the continuous rotation of the rotary rod 231, and the welding grooves 211 on the left and right sides are conveniently rotated to the vertical state up and down, and the subsequent welding is convenient.

Specifically, the rotating linkage assembly 234 includes at least a gear disc 2342 fixed on the outer wall of the linkage rod 213 and an eccentric gear 2341 fixed on the outer wall of one of the rotating rods 231, the eccentric gear 2341 is used for being engaged with the outer wall of the gear disc 2342 after the convex edge of the eccentric supporting disc 232 is separated from the attaching convex plate 222, and driving the rotating cylinder 210 to rotate 90 °, so that the gear disc 2342 is engaged with the eccentric gear 2341 to rotate after the convex edge of the eccentric supporting disc 232 is separated from the attaching convex plate 222, and the linkage rod 213 is driven to rotate along with the continuous rotation of the rotating rod 231, so that the rotating cylinder 210 rotates 90 °, and the welding groove 211 on the side and the cable fixed inside thereof are just rotated to the position right below the welding machine body 130.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a temperature sensor welding set of rotation type adjustment position, includes workstation (100), workstation (100) top edge is equipped with two symmetrical side support frame (110), two side support frame (110) top slides and is equipped with lifter plate (120), lifter plate (120) bottom center department is equipped with and is used for carrying out welded welding machine body (130) to temperature sensor cable, its characterized in that: be equipped with welded fastening adjustment mechanism (200) between two side support frame (110), welded fastening adjustment mechanism (200) are including rotating a rotary drum (210) between two side support frame (110), a plurality of welded slots (211) have been seted up to rotary drum (210) outer wall, just power chamber (212) have all been seted up at rotary drum (210) both ends department, welded slot (211) with be equipped with the fluting that makes both intercommunication between power chamber (212), the inside slip of welded slot (211) is equipped with centre gripping fixed subassembly (220), wherein:

the clamping and fixing assembly (220) comprises a regulating and controlling frame (221) sliding in the welding groove (211), two groups of clamping structures are arranged in the regulating and controlling frame (221) in a sliding mode, each clamping structure is composed of two symmetrical clamping plates (223), a sliding groove (2210) is formed in the inner wall of the regulating and controlling frame (221), protrusions at the edges of the clamping plates (223) slide in the sliding grooves (2210), driving elastic pieces (2230) are fixedly connected between the protrusions and the sliding grooves (2210), and the driving elastic pieces (2230) are used for driving the two clamping plates (223) to open by reset elastic force when the regulating and controlling frame (221) stretches out of the welding groove (211);

an opening and closing control assembly (230) is arranged in the power cavity (212), the opening and closing control assembly (230) is used for propping against the clamping and fixing assembly (220) to extend out of the current welding groove (211) to be in an opening state when one of the welding grooves (211) is positioned at two sides, and resetting the clamping and fixing assembly (220) to be in a closing state when the clamping and fixing assembly (220) is separated from the clamping and fixing assembly (220) in a rotating mode, and meanwhile, the rotating cylinder (210) is driven to drive the current welding groove (211) to rotate to be under the welding machine body (130) until the other welding groove (211) is positioned at two sides;

the opening and closing control assembly (230) comprises two symmetrical eccentric supporting discs (232) rotating inside the power cavity (212), the end part of the regulating and controlling frame (221) is provided with a fitting convex plate (222) sliding between the power cavity (212) and the welding groove (211), and the eccentric supporting discs (232) are used for fitting and supporting the convex edges of the eccentric supporting discs with the surfaces of the fitting convex plates (222) positioned at two sides when the convex edges of the eccentric supporting discs rotate to the inner wall of the power cavity (212);

the two eccentric supporting discs (232) are fixedly connected with rotating rods (231) at the axle centers, the rotating rods (231) rotate between the inside of the power cavity (212) and the side supporting frames (110), and a power assembly (233) for driving the two rotating rods (231) to rotate simultaneously is arranged between the two rotating rods (231);

the inner wall of the rotary cylinder (210) is fixedly connected with a linkage rod (213), the end part of the linkage rod (213) rotates on the surface of the side support frame (110), a rotary linkage assembly (234) is arranged between the linkage rod (213) and one of the rotating rods (231), and the rotary linkage assembly (234) is used for driving the rotary cylinder (210) to rotate until the welding groove (211) is transversely reached to the vertical direction after the convex edge of the eccentric supporting disc (232) is separated from the attaching convex plate (222);

the rotary linkage assembly (234) comprises a gear disc (2342) fixed on the outer wall of the linkage rod (213) and an eccentric gear (2341) fixed on the outer wall of one of the rotating rods (231), and the eccentric gear (2341) is used for being meshed with the outer wall of the gear disc (2342) and driving the rotating cylinder (210) to rotate by 90 degrees after the convex edge of the eccentric supporting disc (232) is separated from the attaching convex plate (222);

extension plates (224) are arranged on two sides of the regulating and controlling frame (221), the extension plates (224) slide inside the welding groove (211), and reset elastic pieces (2240) are fixedly connected between the surfaces of the extension plates (224) and the end parts of the inner cavities of the welding groove (211).

2. The rotary position adjustment temperature sensor welding apparatus of claim 1, wherein: the clamping plates (223) are of arc structures converging towards the center of the regulating and controlling frame (221), and a cavity for the welding machine body (130) to extend into for welding is arranged between the two groups of clamping plates (223).

3. The rotary position adjustment temperature sensor welding apparatus of claim 1, wherein: the side support frame (110) is provided with a groove for inserting the lifting plate (120) to slide on the surface, the bottom of the inner cavity of the groove is provided with an air cylinder (121), and the end part of a piston rod of the air cylinder (121) is fixedly connected with the end part of the lifting plate (120).