CN113695832B - But multi-angle pivoted welding is with rotating locking structure - Google Patents

Abstract

The invention discloses a rotary locking structure capable of rotating at multiple angles for welding, which relates to the field of welding processing and comprises a supporting mechanism, a primary gear clamping device and a circuit control box, wherein the top surface of one end of the supporting mechanism is fixedly connected with the primary gear clamping device, the top surface of the other end of the supporting mechanism is fixedly connected with a secondary gear clamping device, a rotary locking mechanism B is sleeved in the primary gear clamping device, and the other end of the rotary locking mechanism B is connected with the clamping device.

Description

But multi-angle pivoted welding is with rotating locking structure

Technical Field

The invention relates to the field of welding processing, in particular to a welding rotation locking structure capable of rotating at multiple angles.

Background

Welding, also known as fusion welding, is a process and technique for joining metals or other thermoplastic materials, such as plastics, by means of heat, high temperature or high pressure. The energy sources of modern welding are numerous and include gas flames, electric arcs, lasers, electron beams, friction and ultrasound. In addition to use in factories, welding can also be performed in a variety of environments, such as in the field, underwater, and in space. Wherever welding may present a hazard to the operator, appropriate safeguards must be taken when welding. The possible injuries to the human body caused by welding include burn, electric shock, vision damage, inhalation of toxic gas, excessive ultraviolet irradiation and the like. Welding achieves the purpose of joining by three means: 1. fusion welding-the welding of workpieces to be joined is carried out by heating to form a molten pool by partial melting, joining after cooling and solidifying, if necessary, adding filler, and it is suitable for the welding processing of various metals and alloys without pressure. 2. Pressure welding-the welding process must exert pressure on the weld, belonging to the processing of various metallic materials and parts of metallic materials. 3. Brazing, namely, adopting a metal material with a melting point lower than that of a base metal as a brazing filler metal, wetting the base metal by using the liquid brazing filler metal, filling a joint gap, and mutually diffusing with the base metal to realize a linked weldment. Is suitable for welding various materials and welding different metals or dissimilar materials.

The present welding set is when carrying out the welding, the unable pipeline carries out fine rotation locking, in the in-process of carrying out rotation locking, overall operation is relatively more troublesome, simultaneously can not carry out the regulation of a plurality of angles, also be difficult to accomplish highly regulation, the application of a plurality of angles of pipeline can not be satisfied to such equipment when carrying out the welding, holistic environment between the welding simultaneously probably is comparatively complicated, can not be fine place the pipeline together, then realize the welding operation of pipeline, overall result of use is more singlely, be insufficient for satisfying welding process's demand.

Therefore, a person skilled in the art provides a welding rotation locking structure capable of rotating at multiple angles, so as to solve the problems in the prior art.

Disclosure of Invention

The invention aims to provide a rotating locking structure capable of rotating at multiple angles, which is used for solving the problems that the prior welding device provided in the prior art cannot perform good rotating locking on a pipeline when welding, the whole operation is relatively troublesome in the process of performing rotating locking, meanwhile, the adjustment of multiple angles cannot be performed, the adjustment of the height cannot be performed, the application of multiple angles of the pipeline cannot be met when the welding is performed by the equipment, meanwhile, the whole environment between the welding is relatively complex, the pipelines cannot be placed together well, then the welding operation of the pipeline is realized, the whole using effect is relatively single, and the requirement of welding processing cannot be met.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a but multi-angle pivoted welding is with rotating locking structure, includes supporting mechanism, one-level gear chucking ware and circuit control box, one end top surface fixedly connected with one-level gear chucking ware of supporting mechanism, the other end top surface fixedly connected with secondary gear chucking ware of supporting mechanism, rotation locking mechanism B has been cup jointed to the inside of one-level gear chucking ware, rotation locking mechanism B's the other end and joint, rotation locking mechanism A has been cup jointed to the inside of secondary gear chucking ware, rotation locking mechanism A's the other end and joint, the top surface welding have one-level locking cardboard and secondary locking cardboard, the top surface of one-level locking cardboard has through screw thread connection to lift concave plate A, the top surface of secondary locking cardboard has through screw thread connection to lift concave plate B, the middle top surface of supporting mechanism is equipped with the circuit control box.

As a preferred embodiment of the present invention: the primary gear clamping device and the secondary gear clamping device are identical in structure, the primary gear clamping device and the secondary gear clamping device are symmetrically arranged on two sides of the machine respectively, and the rotary locking mechanism A and the rotary locking mechanism B are identical in structure and are also oppositely arranged on two sides of the machine.

As a preferred embodiment of the present invention: the rotation locking mechanism B comprises a fixed connection plate and a gear block, wherein the fixed connection plate is close to the inside of the primary gear chucking device and is provided with a connection plate sleeve ring, the connection plate sleeve ring is sleeved with the rotation shaft B, the other end of the fixed connection plate is welded with the gear block, and the gear block is made of high-strength wear-resistant materials.

As a preferred embodiment of the present invention: the primary gear clamping device comprises a top baffle and a bottom connecting box, wherein a supporting column body is welded on the bottom surface of the bottom connecting box, a supporting plug board A is welded on the bottom surface of the supporting column body, two groups of fixed connecting rods are welded on the top surface of the bottom connecting box, the fixed connecting rods are fixedly connected with a socket head A, the top surfaces of one group of fixed connecting rods are sleeved with a socket head B, a blocking side board A and a blocking side board B are respectively arranged on two sides of the top baffle, and the blocking side board A and the blocking side board B are arranged in parallel.

As a preferred embodiment of the present invention: the socket A and the socket B are respectively sleeved at two ends of the rotating shaft A and the rotating shaft B, primary clamping gears are uniformly arranged on the outer wall of the rotating shaft A, secondary clamping gears are uniformly arranged on the outer wall of the rotating shaft B, a gear block is positioned between the secondary clamping gears, the rotating shaft A is spliced with the blocking side plate A, and a rotating controller A is arranged at one end, close to the blocking side plate A, of the rotating shaft A.

As a preferred embodiment of the present invention: the supporting mechanism comprises a sliding rod, two ends of the sliding rod are respectively connected with the supporting plugboard A and the supporting plugboard B, a limiting sleeve head A is arranged on the top surface of one end, close to the supporting plugboard A, of the sliding rod, a limiting sleeve head B is arranged on the top surface of one end, close to the supporting plugboard B, of the sliding rod, a primary moving plate and a secondary moving plate are sleeved on the outer wall of the sliding rod, the primary moving plate and the secondary moving plate are located between the supporting plugboard A and the supporting plugboard B, and a circuit control box is fixedly connected to the top surfaces of the primary moving plate and the secondary moving plate.

As a preferred embodiment of the present invention: the top surface of circuit control box is equipped with angle adjustment mechanism and flexible adjustment mechanism, through electric wire electric connection between circuit control box and angle adjustment mechanism and the flexible adjustment mechanism.

As a preferred embodiment of the present invention: the angle adjusting mechanism comprises a rotating sliding block and a moving circular ring, the moving circular ring is sleeved with the rotating sliding block, a driver is arranged on the top surface of the rotating sliding block, one side of the driver is fixedly connected with a telescopic mechanical arm, the other end of the telescopic mechanical arm is fixedly connected with the rotating sleeve ring, and the driver is electrically connected with the telescopic mechanical arm and a circuit control box through wires.

As a preferred embodiment of the present invention: the telescopic adjusting mechanism comprises a rotating disc and a hydraulic telescopic device, wherein the rotating disc is electrically connected with the circuit control box through wires, the hydraulic telescopic device is electrically connected with the circuit control box through wires, the top surface of the rotating disc is rotationally connected with a rotating shaft, the outer wall of the rotating shaft is sleeved with a circular ring fixing frame and a rotating sleeve ring, the hydraulic telescopic device is located on the top surface of the rotating disc, and the top surface of the hydraulic telescopic device is welded with the rotating shaft.

As a preferred embodiment of the present invention: including tertiary joint gear and dwang, tertiary joint gear cup joints with the dwang, and the dwang is equipped with rotary controller B with pegging graft, and the dwang is located outside one end, and the leading flank that is located is equipped with the observation window, and both sides are equipped with box recess hole, tertiary joint gear respectively with locking mechanical system A and rotation locking mechanical system B joint, the outer wall fixedly connected with linking piece of dwang, the top surface welding of linking piece has the lift pole, the lift pole be provided with a plurality of groups, respectively with the bottom surface fixed connection of one-level locking cardboard and second grade locking cardboard.

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

1. the welding rotation locking structure capable of rotating at multiple angles is relatively simple in overall structure, convenient to detach and capable of achieving rapid splicing and assembly when being used integrally, can be suitable for various processing environments, can effectively expand the welding processing environment, is extremely convenient to operate integrally, is convenient to transport, can be taken along with use, and is greatly convenient for operators to use.

2. The welding rotation locking structure capable of rotating at multiple angles can be used for rotating and adjusting multiple angles, meanwhile, the height can be adjusted, welding processing can be realized from multiple angles, lifting and angle rotation can be directly carried out, a traditional welding mode is changed, angle rotation and height lifting can be combined, pipelines can be locked, fixed and fused together, a multipurpose effect can be achieved, rotation locking is more stable in the welding process, and angle and height adjustment is more convenient, so that the overall use effect is relatively good when the welding operation of the pipelines is realized, and the processing requirement can be well met.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic perspective view of a welding rotation lock structure capable of rotating at multiple angles;

FIG. 2 is a schematic perspective view of an isometric view of the entirety of a multi-angle rotatable rotational lock for welding;

FIG. 3 is a schematic view showing a perspective structure of a rotation locking mechanism for welding, which can rotate at multiple angles;

fig. 4 is a schematic view of an isometric view of a rotational lock mechanism in a multi-angle rotatable rotational lock structure for welding.

Fig. 5 is a schematic view showing a structure of a lifting and placing box in a welding rotation locking structure capable of rotating at multiple angles.

Fig. 6 is a schematic view showing a structure of an isometric side view of a lifting box in a multi-angle rotatable welding rotation locking structure.

Fig. 7 is a schematic perspective view of an angle adjusting mechanism in a multi-angle rotatable welding rotation lock structure.

Fig. 8 is a schematic view of an isometric side view of an angle adjustment mechanism in a multi-angle rotatable rotational lock structure for welding.

In the figure: 1. a support mechanism; 101. a limit sleeve head A; 102. supporting the plugboard A; 103. supporting the plugboard B; 104. a limit sleeve head B; 105. a first-stage moving plate; 106. a second-stage moving plate; 107. a slide bar; 2. an angle adjusting mechanism; 201. moving the circular ring; 202. rotating the sliding block; 203. a driver; 204. a telescopic mechanical arm; 205. rotating the sleeve joint ring; 3. a telescopic adjusting mechanism; 301. a rotating disc; 302. a circular ring fixing frame; 303. a hydraulic retractor; 304. a rotating shaft; 4. a circuit control box; 5. a secondary gear chucking device; 6. a rotation locking mechanism A; 7. a primary gear chucking device; 701. blocking the side plate A; 702. a top end baffle; 703. a blocking side plate B; 704. sleeving a joint A; 705. sleeving a joint B; 706. the first-stage clamping gear; 707. a rotating shaft A; 708. the second-stage clamping gear; 709. a rotating shaft B; 710. a support column; 711. a bottom connecting box; 712. a rotation controller A; 713. fixing the connecting rod; 8. a rotation locking mechanism B; 801. fixing the connecting plate; 802. a gear block; 9. lifting the placement box; 901. a rotation controller B; 902. a rotating lever; 903. three-stage clamping gears; 904. a groove hole of the box body; 905. a joint block; 906. a lifting rod; 907. an observation window; 10. a first-stage locking clamping plate; 11. lifting the concave plate A; 12. a second-stage locking clamping plate; 13. lifting the concave B.

Detailed Description

Referring to fig. 1-8, in the embodiment of the invention, a rotatable locking structure for welding capable of rotating at multiple angles comprises a supporting mechanism 1, a primary gear clamping device 7 and a circuit control box 4, wherein the primary gear clamping device 7 is fixedly connected to the top surface of one end of the supporting mechanism 1, the primary gear clamping device 7 can play a role in clamping, the secondary gear clamping device 5 is fixedly connected to the top surface of the other end of the supporting mechanism 1, the supporting mechanism 1 can play a supporting role, the integral support is facilitated, a rotary locking mechanism B8 is sleeved in the primary gear clamping device 7, the rotary locking mechanism B8 can be conveniently and integrally clamped, the other end of the rotary locking mechanism B8 is clamped with a lifting placing box 9, the lifting placing box 9 is used for placing a lifted pipeline, the rotary locking mechanism A6 is sleeved in the secondary gear clamping device 5, the other end of the rotary locking mechanism A6 is clamped with the lifting placing box 9, a primary locking clamping plate 10 and a secondary locking clamping plate 12 are welded on the top surface of the lifting placing box 9, the top surface of the primary clamping plate 10 is conveniently and integrally clamped with the lifting locking mechanism B13 through screws, the top surface of the lifting locking plate is conveniently and the lifting locking mechanism B13 is connected with the lifting groove plate 11, and the top surface of the lifting locking mechanism B is conveniently and is connected with the lifting groove 13 through the lifting groove plate 13.

Referring to fig. 3-4, the primary gear chucking device 7 and the secondary gear chucking device 5 have the same structure, and the primary gear chucking device 7 and the secondary gear chucking device 5 are symmetrically disposed at two sides of the lifting placement box 9, the primary gear chucking device 7 and the secondary gear chucking device 5 perform chucking operation, and the rotary controller a712 is directly adjusted to drive the primary clamping gear 706 to move, and then drive the secondary clamping gear 708 to move, so that the rotary locking mechanism A6 has the same structure as the rotary locking mechanism B8 and is also disposed at two sides of the lifting placement box 9. The rotation locking mechanism B8 comprises a fixed connection plate 801 and a gear block 802, wherein a connection plate sleeve ring is arranged inside the fixed connection plate 801 close to the primary gear chucking device 7 and is sleeved with the rotation shaft B709, the gear block 802 is welded at the other end of the fixed connection plate 801, and the gear block 802 is made of high-strength wear-resistant materials. The fixed connection board 801 on the axis of rotation B709 moves, such motion can make gear piece 802 carry out chucking with tertiary joint gear 903 and loosen the effect, can play the effect of rotation locking, simultaneously through adjusting rotary controller B901, can also drive the regulation of dwang 902, one-level gear chucking ware 7 includes top baffle 702 and bottom connection box 711, the bottom surface welding of bottom connection box 711 has support cylinder 710, the bottom surface of support cylinder 710 welds with support plugboard A102, support plugboard A102 plays the effect of support cylinder 710, the top surface welding of bottom connection box 711 has fixed connection pole 713, fixed connection pole 713 is equipped with two sets of, fixed connection pole 713 mainly plays fixed connection's effect, the top surface and the socket joint A704 fixed connection of a set of fixed connection pole 713, the top surface and the socket joint B705 of another set of fixed connection pole 713 cup joint, socket joint B can be convenient for axis of rotation A707 and axis B709 cup joint, the both sides of top baffle 702 are equipped with respectively and block sideboard A703 and block sideboard B703, and block sideboard B703 parallel arrangement. The socket A704 and the socket B705 are respectively sleeved with two ends of a rotating shaft A707 and a rotating shaft B709, the rotating shaft A707 and the rotating shaft B709 can drive the second-stage clamping gear 708 and the first-stage clamping gear 706 to rotate, the first-stage clamping gear 706 is uniformly arranged on the outer wall of the rotating shaft A707, the second-stage clamping gear 708 is uniformly arranged on the outer wall of the rotating shaft B709, the gear block 802 is positioned between the second-stage clamping gears 708, the rotating shaft A707 is spliced with the blocking side plate A701, a rotating controller A712 is arranged at one end, close to the blocking side plate A701, of the rotating shaft A707, and the rotating controller A712 is used for adjusting.

Referring to fig. 7-8, the supporting mechanism 1 includes a sliding rod 107, two ends of the sliding rod 107 are respectively connected with a supporting plugboard a102 and a supporting plugboard B103, a limiting sleeve a101 is disposed on a top surface of one end of the sliding rod 107, which is close to the supporting plugboard a102, a limiting sleeve B104 is disposed on a top surface of one end of the sliding rod 107, which is close to the supporting plugboard B103, and when in use, rotation adjustment of multiple angles can be performed, meanwhile, height adjustment can be performed, welding processing can be performed from multiple angles, lifting and angle rotation can be directly performed, a traditional welding mode is changed, a first-stage moving plate 105 and a second-stage moving plate 106 are sleeved on an outer wall of the sliding rod 107, the first-stage moving plate 105 and the second-stage moving plate 106 are located between the supporting plugboard a102 and the supporting plugboard B103, the first-stage moving plate 105 and the second-stage moving plate 106 can be convenient for movement of the circuit control box 4, and the top surfaces of the first-stage moving plate 105 and the second-stage moving plate 106 are fixedly connected with the circuit control box 4. The top surface of the circuit control box 4 is provided with an angle adjusting mechanism 2 and a telescopic adjusting mechanism 3, and the circuit control box 4 is electrically connected with the angle adjusting mechanism 2 and the telescopic adjusting mechanism 3 through wires. Can combine together angle rotation and high lift, can lock the fixed integration of pipeline together simultaneously, can play the effect of a tractor serves several purposes, such mode can make the rotation locking more stable in welding process, angle adjustment mechanism 2 including rotating slider 202 and moving ring 201, it cup joints between moving ring 201 and the rotating slider 202, the top surface of rotating slider 202 is equipped with driver 203, can control through the circuit control box 4 of bottom, can drive driver 203, under the effect of flexible arm 204, make rotating slider 202 move on moving ring 201, can carry out circumference rotation, the angular adjustment of whole concave plate A11 and lifting concave plate B13 is more convenient, one side fixedly connected with flexible arm 204 of driver 203, the other end and the rotation of flexible arm 204 cup joint ring 205 fixed connection, pass through electric wire electric connection between driver 203 and flexible arm 204 and the circuit control box 4. The telescopic adjustment mechanism 3 comprises a rotating disc 301 and a hydraulic telescopic device 303, wherein the rotating disc 301 is electrically connected with a circuit control box 4 through wires, the hydraulic telescopic device 303 is electrically connected with the circuit control box 4 through wires, and meanwhile, the angle and the height are adjusted more conveniently, so that when the welding operation of a pipeline is realized, the overall use effect is relatively good, the rotating shaft 304 is connected with the top surface of the rotating disc 301 in a rotating manner, the outer wall of the rotating shaft 304 is sleeved with a circular ring fixing frame 302 and a rotating sleeve ring 205, the hydraulic telescopic device 303 is located on the top surface of the rotating disc 301, and the top surface of the hydraulic telescopic device 303 is welded with a lifting placing box 9.

Referring to fig. 5-6, the lifting and placing box 9 includes a three-stage clamping gear 903 and a rotating rod 902, the three-stage clamping gear 903 is sleeved with the rotating rod 902, the rotating rod 902 is connected with the lifting and placing box 9 in an inserting manner, the gear block 802 and the three-stage clamping gear 903 are clamped and loosened, the rotating rod 902 can play a role of rotating and locking, one end of the lifting and placing box 9 outside is provided with a rotating controller B901, the front side surface of the lifting and placing box 9 is provided with an observation window 907, two sides of the lifting and placing box 9 are provided with box body concave holes 904, the three-stage clamping gear 903 is respectively clamped with a locking mechanism A6 and a rotating locking mechanism B8, meanwhile, the rotating rod 902 can be driven to adjust through adjusting the rotating controller B901, the angle adjustment of the primary locking clamping plate 10 and the secondary locking clamping plate 12 can be effectively achieved, the outer wall of the rotating rod 902 is fixedly connected with a connecting block 905, the lifting rod 906 is welded on the top surface of the connecting block 905, the lifting rod 906 is used for supporting the lifting and is provided with a plurality of groups of lifting rods 906, and the clamping plates 10 are respectively fixedly connected with the primary locking clamping plate 10 and the secondary locking plate 12.

The invention relates to a welding rotation locking structure capable of rotating at multiple angles, which comprises a supporting mechanism 1; 101. a limit sleeve head A; 102. supporting the plugboard A; 103. supporting the plugboard B; 104. a limit sleeve head B; 105. a first-stage moving plate; 106. a second-stage moving plate; 107. a slide bar; 2. an angle adjusting mechanism; 201. moving the circular ring; 202. rotating the sliding block; 203. a driver; 204. a telescopic mechanical arm; 205. rotating the sleeve joint ring; 3. a telescopic adjusting mechanism; 301. a rotating disc; 302. a circular ring fixing frame; 303. a hydraulic retractor; 304. a rotating shaft; 4. a circuit control box; 5. a secondary gear chucking device; 6. a rotation locking mechanism A; 7. a primary gear chucking device; 701. blocking the side plate A; 702. a top end baffle; 703. a blocking side plate B; 704. sleeving a joint A; 705. sleeving a joint B; 706. the first-stage clamping gear; 707. a rotating shaft A; 708. the second-stage clamping gear; 709. a rotating shaft B; 710. a support column; 711. a bottom connecting box; 712. a rotation controller A; 713. fixing the connecting rod; 8. a rotation locking mechanism B; 801. fixing the connecting plate; 802. a gear block; 9. lifting the placement box; 901. a rotation controller B; 902. a rotating lever; 903. three-stage clamping gears; 904. a groove hole of the box body; 905. a joint block; 906. a lifting rod; 907. an observation window; 10. a first-stage locking clamping plate; 11. lifting the concave plate A; 12. a second-stage locking clamping plate; 13. the lifting concave plate B is a general standard component or a component known to a person skilled in the art, and the structure and the principle of the lifting concave plate B are known to the person skilled in the art through technical manuals or through routine experimental methods.

The working principle of the invention is as follows: when the locking mechanism is used, the locking operation can be carried out through the primary gear clamping device 7 and the secondary gear clamping device 5, the rotary controller A712 can be directly regulated, the primary clamping gear 706 can be driven to move, then the secondary clamping gear 708 can be driven to move, the fixed connecting plate 801 on the rotating shaft B709 can be realized to move, the gear block 802 and the tertiary clamping gear 903 can be clamped and loosened through the movement, the locking effect can be achieved, meanwhile, the rotary rod 902 can be driven to be regulated through the rotary controller B901, the angle of the primary locking clamping plate 10 and the secondary locking clamping plate 12 can be effectively regulated, the whole structure is relatively simple, the quick assembly and disassembly can be realized, the locking mechanism can be suitable for various processing environments, the welding processing environment can be effectively enlarged, the whole operation is extremely convenient, the transportation is convenient, and the use by an operator is greatly facilitated. Then can guarantee to lift concave plate A11 and lift concave plate B13's angle modulation, guarantee the chucking operation of pipeline, such angle modulation is a mode, still can control through the circuit control box 4 of bottom, can drive the driver 203, under the effect of flexible arm 204, make the slider 202 of rotating move on moving ring 201, can carry out the circumference and rotate, whole concave plate A11 and lift concave plate B13's angle modulation is more convenient, circuit control box 4 control hydraulic jack 303 can realize the regulation of height, can also carry out the rotation regulation of a plurality of angles during the use, can also carry out the regulation of height simultaneously, can realize welding process from a plurality of angles, can directly go on going up and down and the rotation of angle, change traditional welding mode, can combine together the angle rotation and the high lift, can lock the pipeline simultaneously and fix and fuse together, such mode can make the stability that locks relatively more in the welding process, simultaneously angle and height are adjusted, the welding is better when the operation is realized, the welding is convenient like this, the demand is better is realized.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a but multi-angle pivoted welding is with rotating locking structure, includes supporting mechanism (1), one-level gear chucking ware (7) and circuit control case (4), its characterized in that, one end top surface fixedly connected with one-level gear chucking ware (7) of supporting mechanism (1), the other end top surface fixedly connected with second grade gear chucking ware (5) of supporting mechanism (1), rotation locking mechanism B (8) have been cup jointed to the inside of one-level gear chucking ware (7), rotation locking mechanism A (6) have been cup jointed to the other end of rotation locking mechanism B (8) with lift and place case (9) joint, rotation locking mechanism A (6)'s the other end and lift and place case (9) joint, the top surface welding of lifting and placing case (9) has one-level locking cardboard (10) and second grade locking cardboard (12), the top surface of one-level locking cardboard (10) has through screw thread connection to lift concave plate A (11), the top surface of second grade locking cardboard (12) has through screw thread connection to lift concave plate B (13), the middle top surface of supporting mechanism (1) is equipped with circuit control case (4); the primary gear clamping device (7) and the secondary gear clamping device (5) have the same structure, the primary gear clamping device (7) and the secondary gear clamping device (5) are respectively and symmetrically arranged at two sides of the lifting placing box (9), and the rotating locking mechanism A (6) and the rotating locking mechanism B (8) have the same structure and are also oppositely arranged at two sides of the lifting placing box (9); the rotation locking mechanism B (8) comprises a fixed connecting plate (801) and a gear block (802), wherein a connecting plate sleeve ring is arranged inside the fixed connecting plate (801) close to the primary gear chucking device (7), the connecting plate sleeve ring is sleeved with the rotating shaft B (709), the other end of the fixed connecting plate (801) is welded with the gear block (802), and the gear block (802) is made of high-strength wear-resistant materials; the primary gear clamping device (7) comprises a top baffle (702) and a bottom connecting box (711), wherein a supporting column body (710) is welded on the bottom surface of the bottom connecting box (711), the bottom surface of the supporting column body (710) is welded with a supporting plug board A (102), two groups of fixed connecting rods (713) are welded on the top surface of the bottom connecting box (711), the top surface of one group of fixed connecting rods (713) is fixedly connected with a sleeving joint A (704), the top surface of the other group of fixed connecting rods (713) is sleeved with a sleeving joint B (705), a blocking side board A (701) and a blocking side board B (703) are respectively arranged on two sides of the top baffle (702), and the blocking side board A (701) and the blocking side board B (703) are arranged in parallel; the socket A (704) and the socket B (705) are respectively sleeved with two ends of a rotating shaft A (707) and a rotating shaft B (709), primary clamping gears (706) are uniformly arranged on the outer wall of the rotating shaft A (707), secondary clamping gears (708) are uniformly arranged on the outer wall of the rotating shaft B (709), a gear block (802) is positioned between the secondary clamping gears (708), the rotating shaft A (707) is spliced with a blocking side plate A (701), and a rotating controller A (712) is arranged at one end, close to the blocking side plate A (701), of the rotating shaft A (707); the lifting box (9) comprises a three-stage clamping gear (903) and a rotating rod (902), the three-stage clamping gear (903) is sleeved with the rotating rod (902), the rotating rod (902) is connected with the lifting box (9) in an inserting mode, one end of the rotating rod (902) located outside the lifting box (9) is provided with a rotary controller B (901), the front side face of the lifting box (9) is provided with an observation window (907), two sides of the lifting box (9) are provided with box body concave holes (904), the three-stage clamping gear (903) is respectively connected with a locking mechanism A (6) and a rotating locking mechanism B (8) in a clamping mode, the outer wall of the rotating rod (902) is fixedly connected with a connecting block (905), the top face of the connecting block (905) is welded with a lifting rod (906), and the lifting rod (906) is provided with a plurality of groups which are respectively fixedly connected with the bottom faces of a primary locking clamping plate (10) and a secondary locking clamping plate (12).

2. The welding rotation locking structure capable of rotating at multiple angles according to claim 1, wherein the supporting mechanism (1) comprises a sliding rod (107), two ends of the sliding rod (107) are respectively connected with the supporting plugboard A (102) and the supporting plugboard B (103), a limiting sleeve head A (101) is arranged on the top surface of one end, close to the supporting plugboard A (102), of the sliding rod (107), a limiting sleeve head B (104) is arranged on the top surface, close to the supporting plugboard B (103), of the sliding rod (107), a primary moving plate (105) and a secondary moving plate (106) are sleeved on the outer wall of the sliding rod (107), the primary moving plate (105) and the secondary moving plate (106) are located between the supporting plugboard A (102) and the supporting plugboard B (103), and a circuit control box (4) is fixedly connected to the top surfaces of the primary moving plate (105) and the secondary moving plate (106).

3. The welding rotary locking structure capable of rotating at multiple angles according to claim 1, wherein the top surface of the circuit control box (4) is provided with an angle adjusting mechanism (2) and a telescopic adjusting mechanism (3), and the circuit control box (4) is electrically connected with the angle adjusting mechanism (2) and the telescopic adjusting mechanism (3) through wires.

4. The welding rotary locking structure capable of rotating at multiple angles according to claim 3, wherein the angle adjusting mechanism (2) comprises a rotary sliding block (202) and a movable circular ring (201), the movable circular ring (201) is sleeved with the rotary sliding block (202), a driver (203) is arranged on the top surface of the rotary sliding block (202), one side of the driver (203) is fixedly connected with a telescopic mechanical arm (204), the other end of the telescopic mechanical arm (204) is fixedly connected with a rotary sleeved ring (205), and the driver (203) is electrically connected with the telescopic mechanical arm (204) and a circuit control box (4) through wires.

5. The welding rotation locking structure capable of rotating at multiple angles according to claim 3, wherein the telescopic adjusting mechanism (3) comprises a rotating disc (301) and a hydraulic telescopic device (303), the rotating disc (301) is electrically connected with the circuit control box (4) through wires, the hydraulic telescopic device (303) is electrically connected with the circuit control box (4) through wires, a rotating shaft (304) is rotatably connected with the top surface of the rotating disc (301), a circular ring fixing frame (302) and a rotating sleeve ring (205) are sleeved on the outer wall of the rotating shaft (304), the hydraulic telescopic device (303) is located on the top surface of the rotating disc (301), and a lifting placing box (9) is welded on the top surface of the hydraulic telescopic device (303).