CN118060809B - Welding equipment capable of uniformly cooling for steel pipe rod machining - Google Patents

Abstract

The invention relates to the technical field of welding equipment, in particular to uniform cooling welding equipment for processing a steel pipe rod, which comprises a high-efficiency cooling fixing tool for positioning and fixing a steel pipe, wherein the high-efficiency cooling fixing tool comprises a fixing mounting plate, a penetrating hole is formed in the fixing mounting plate, a limiting clamping device is arranged on one side of the fixing mounting plate, a temperature detector is arranged at the abutting end on the limiting clamping device, an air guide cooling device is arranged on the side part of the limiting clamping device, the air guide cooling device is connected with the abutting end of the limiting clamping device, cooling liquid flows between the air guide cooling device and the limiting clamping device, an alternate air flow device is arranged on the side part of the air guide cooling device, and the limiting clamping device, the air guide cooling device and the alternate air flow device are coaxially arranged with the penetrating hole.

Description

Welding equipment capable of uniformly cooling for steel pipe rod machining

Technical Field

The invention relates to the technical field of welding equipment, in particular to uniformly cooling welding equipment for processing a steel pipe rod.

Background

When the steel pipes are welded into the guard rail, the two steel pipes are firstly used for butt joint and then are fixedly welded to reach the specified length, when a worker welds the steel pipes on a construction site, the two steel pipes are firstly axially butt-jointed together, and then the worker holds a welding gun to weld the butt joint positions of the two steel pipes.

Chinese patent CN218800234U discloses a welding equipment is used in production of stainless steel goods, relates to stainless steel goods processing technology field, including processing platform, welding mechanism and complementary unit, support frame fixed connection is at the top of processing platform, the output at the support frame is connected to the telescopic link, connecting plate fixed connection is at the output of telescopic link, the spring is installed at telescopic inner chamber, connecting rod fixed connection is at the end of spring, the bottom at the connecting rod is installed to the motor, the fifth wheel sets up the output at the motor, through the welding mechanism of design, can adjust the welding position of stainless steel pipe to the below of welding machine through complementary unit earlier, and the rethread control fifth wheel descends, makes it contact with the stainless steel pipe to can drive its rotation through friction, thereby be convenient for accomplish the welding of a week, can conveniently switch the stainless steel pipe of different groups to be located the welding below through the second motor moreover, implement the welding, thereby improves holistic machining efficiency.

According to the technical scheme, although the steel pipes can be fixed through the adjusting plate for quick welding, in the actual welding process, the temperature of the welding parts of the steel pipes can be quickly increased, workers cannot move the steel pipes when the temperature of the welding parts of the steel pipes is high, otherwise, the welding parts of the steel pipes can deform, materials can be taken after the steel pipes are required to be cooled, the time consumption is required for cooling the steel pipes, the working efficiency is influenced, meanwhile, the workers can hardly judge whether the steel pipes are cooled to a proper material taking temperature, and the welding quality can be influenced by premature material taking.

Disclosure of Invention

To above-mentioned problem, provide a welding equipment of even cooling for steel pipe pole processing, can effectually improve welding quality through the fixed utensil of high-efficient cooling, can effectually improve work efficiency through even cooling treatment simultaneously.

In order to solve the problems in the prior art, the invention provides welding equipment for uniformly cooling a steel pipe rod, which comprises a high-efficiency cooling fixing tool for positioning and fixing a steel pipe, wherein the high-efficiency cooling fixing tool comprises a fixing mounting plate, a penetrating hole is formed in the fixing mounting plate, a limiting clamping device is arranged on one side of the fixing mounting plate, a temperature detector is arranged at the abutting end on the limiting clamping device, an air guide radiating device is arranged at the side part of the limiting clamping device, the air guide radiating device is connected with the abutting end of the limiting clamping device, cooling liquid flows between the air guide radiating device and the limiting clamping device, an air penetrating device is arranged at the side part of the air guide radiating device, the limiting clamping device, the air guide radiating device and the air penetrating device are coaxially arranged with the penetrating hole, and a multi-angle clamping device is arranged on one side of the fixing mounting plate far away from the limiting clamping device.

Preferably, the limiting clamping device comprises a synchronous contraction device arranged on the side part of the fixed mounting plate, a telescopic supporting contact rod is arranged at the contraction end of the synchronous contraction device, a cooling roller is arranged on the telescopic supporting contact rod, and the cooling roller is connected with the air guide heat dissipation device.

Preferably, the synchronous contraction device comprises a limit mounting plate arranged on the side part of the fixed mounting plate, a plurality of limit sliding rails are arranged on the limit mounting plate, a synchronous driving plate is arranged on the side part of the limit mounting plate, a plurality of driving grooves are arranged on the synchronous driving plate and correspond to the limit sliding rails one by one, driving sliding blocks are arranged between the limit sliding rails and the driving grooves, a first linear driver is arranged on the limit mounting plate, and the output end of the first linear driver is connected with the synchronous driving plate.

Preferably, the wind-guiding heat abstractor is including installing the wind-collecting hopper at synchronous constriction device side, and the internally mounted who gathers wind-collecting hopper has first guide plate, and the inlet of first guide plate passes through connecting pipe and cooling roller intercommunication, and the cooling heat dissipation frame is installed to the play liquid end position of first guide plate, and the second guide plate is installed to the play liquid end of cooling heat dissipation frame, and the output of second guide plate passes through connecting pipe and cooling roller intercommunication, and wind-guiding heat abstractor still includes the first rotary driving device of drive cooling heat dissipation frame pivoted.

Preferably, the cooling and radiating frame is provided with a plurality of conical brackets, the inside of each conical bracket is provided with a circulation cavity, the inside of each conical bracket is also provided with a plurality of flow increasing blades, the outer sides of the conical brackets are provided with airflow radiating blades, and the inner wall of each conical bracket is also provided with a plurality of air supply blades.

Preferably, the wall thickness of the airflow radiating blade is provided with an airflow track, and a plurality of radiating ribs which are obliquely arranged are arranged in the airflow track.

Preferably, the air flow penetrating device comprises a ball screw sliding table arranged on the side part of the air guiding and radiating device, an electric fan is arranged on the moving end of the ball screw sliding table, and a rotary butt joint device is arranged at the top of the electric fan.

Preferably, the rotating butt joint device comprises a conical abutting bucket, the conical abutting bucket is sleeved outside the electric fan, an anti-slip abutting surface is arranged at the top of the conical abutting bucket, and the rotating butt joint device further comprises a second rotary driving device for driving the conical abutting bucket to rotate.

Preferably, the multi-angle clamping device comprises a fixed mounting seat arranged on the side part of the fixed mounting plate, a rotary mounting rod is arranged on the fixed mounting seat, a second linear driver is arranged between the rotary mounting rod and the fixed mounting seat, a rotary mounting plate is further arranged on the rotary mounting rod, a rotary driver is arranged on the side part of the rotary mounting rod, an output end of the rotary driver is connected with the rotary mounting plate, and a self-adaptive clamp is arranged on the rotary mounting plate.

Preferably, the self-adaptive clamp comprises a bidirectional ball screw sliding table, wherein the movable end of the bidirectional ball screw sliding table is symmetrically provided with a V-shaped clamp, and the inner wall of the V-shaped clamp is provided with a plurality of collision rollers at equal intervals.

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

1. The utility model provides a steel pipe cooling device, insert the interlude hole of fixed mounting plate with first steel pipe, first steel pipe can pass spacing clamping device in proper order, wind-guiding heat abstractor and interlude air current device, the bottom of first steel pipe can be contradicted with interlude air current device, staff control spacing clamping device is fixed first steel pipe centre gripping, first steel pipe is fixed by the centre gripping back, the staff places the second steel pipe on the multi-angle clamping device again, multi-angle clamping device is used for the butt joint with the welding end of second steel pipe and first steel, the welding end of second steel pipe and first steel butt joint finish the back, the staff carries out welded fastening with the second steel pipe of butt joint and first steel pipe, the welding place of second steel pipe and first steel pipe can produce high temperature, when temperature detector detects the steel pipe high temperature, wind-guiding heat abstractor and interlude air current device can start in step, can make the outside welding area's of steel pipe air current rapid flow, realize steel pipe outer wall forced air cooling effect, still can make inside coolant liquid to the butt joint end of spacing clamping device flow, the welding end of second steel pipe and first steel pipe butt joint finish, can cool off the inside cooling device is effective cooling down inside cooling 7 can be carried out to the inside cooling device simultaneously cooling down the steel pipe rapid cooling effectively.

2. The temperature of the steel pipe is detected in real time through the temperature detector, and when the temperature detector detects that the temperature of the steel pipe is reduced to the specified temperature, the steel pipe can be unloaded, so that the welding quality can be effectively ensured.

Drawings

Fig. 1 is a schematic perspective view of a welding apparatus for uniform cooling for steel pipe rod processing.

Fig. 2 is a plan sectional perspective view of a welding apparatus for uniform cooling for steel pipe rod processing.

Fig. 3 is a schematic perspective view of a limiting and clamping device in a welding device for uniformly cooling a steel pipe rod.

Fig. 4 is a second perspective view of a limiting and clamping device in a welding device for uniformly cooling a steel pipe rod.

Fig. 5 is a plan sectional perspective view of an air guide and heat dissipation device in a welding apparatus for uniformly cooling a steel pipe rod.

Fig. 6 is a schematic perspective view of a cooling rack in a welding device for uniformly cooling in steel pipe rod processing.

Fig. 7 is a schematic perspective view of airflow cooling fins in a welding device for uniformly cooling a steel pipe rod.

Fig. 8 is a schematic perspective view of a device for inserting air flow into a welding device for uniformly cooling in steel pipe rod processing.

Fig. 9 is a schematic perspective view of a device for inserting air flow into a welding device for uniformly cooling in steel pipe rod processing.

Fig. 10 is a schematic perspective view of a multi-angle clamping device in a welding apparatus for uniformly cooling a steel pipe rod.

Fig. 11 is a schematic perspective view of an adaptive clamp in a welding device for uniformly cooling a steel pipe rod.

The reference numerals in the figures are:

1-fixing a mounting plate; 2-limiting clamping devices; 21-synchronous constriction device; 211-a limit mounting plate; 2111-limiting slide rail; 212-synchronous drive disk; 213-drive slide; 214-a first linear drive; 22-telescoping touch-up lever; 23-cooling rollers; 3-a temperature detector; 4-an air-guiding heat dissipation device; 41-wind collecting hoppers; 42-a first baffle; 43-a second baffle; 44-a first rotary drive; 45-cooling the heat dissipation frame; 451-conical stents; 452-flow-increasing blades; 453-airflow heat sink fins; 4531-airflow track; 4532-heat dissipation ribs; 454-air supply fan blades; 5-inserting an air flow device; 51-a ball screw sliding table; 52-an electric fan; 53-rotating the docking device; 531-a second rotary drive; 532-conical interference bucket; 533-anti-slip interference surface; 6-a multi-angle clamping device; 61-fixing the mounting base; 62-turning the mounting bar; 63-a second linear drive; 64-a rotary drive; 65-rotating the mounting plate; 66-an adaptive clamp; 661-a bidirectional ball screw slipway; 662-V-clamp; 663-abutting rollers; 7-steel pipe.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 and 11, a welding equipment with even cooling for steel pipe pole processing, including the high-efficient cooling fixing tool of fixed steel pipe 7 of location, high-efficient cooling fixing tool includes fixed mounting panel 1, be equipped with the jack of wearing on the fixed mounting panel 1, spacing clamping device 2 is installed to one side of fixed mounting panel 1, temperature detector 3 is installed to the conflict end on the spacing clamping device 2, wind-guiding heat abstractor 4 is installed to the lateral part of spacing clamping device 2, with the conflict end interconnect of spacing clamping device 2 on the wind-guiding heat abstractor 4, circulate the coolant liquid between wind-guiding heat abstractor 4 and the spacing clamping device 2, alternate air current device 5 is installed to the lateral part of wind-guiding heat abstractor 4, spacing clamping device 2, wind-guiding heat abstractor 4 and alternate air current device 5 all with alternate the coaxial setting of hole, multi-angle clamping device 6 is installed to one side that spacing clamping device 2 is kept away from to fixed mounting panel 1.

The staff inserts first steel pipe 7 into the interlude hole of fixed mounting plate 1 earlier, first steel pipe 7 can pass spacing clamping device 2 in proper order, wind-guiding heat abstractor 4 and interlude air current device 5, the bottom of first steel pipe 7 can be contradicted with interlude air current device 5, staff control spacing clamping device 2 is fixed with first steel pipe 7 centre gripping, first steel pipe 7 is fixed after being held by the centre gripping, the staff places second steel pipe 7 on multi-angle clamping device 6 again, multi-angle clamping device 6 is used for the butt joint conflict with first steel with the welding end of second steel pipe 7, the welding end of second steel pipe 7 and first steel butt joint back, the staff will carry out welded fastening with second steel pipe 7 of butt joint, the welding department of second steel pipe 7 and first steel pipe 7 can produce high temperature, when temperature detector 3 detects steel pipe 7 high temperature, wind-guiding heat abstractor 4 and interlude air current device 5 can start with the same step, the air current of steel pipe 7 outside welding area can flow fast when the start, the air current of wind-guiding heat abstractor 4 can make the outer wall of steel pipe 7, the welding end of second steel pipe 7 carries out butt joint conflict with first steel pipe 7, the welding end carries out welded fastening with first steel pipe 7, the welding end is fixed with first steel pipe 7, the welding position can produce high temperature with the welding, the welding position of second steel pipe 7 can produce high temperature with the welding, temperature when the steel pipe 7 is cooled down, temperature detector 3 detects the steel pipe 7, temperature detector is cooled down, temperature inner side 7 can be cooled down, and inner end inside cooling device is cooled down to the inside can be cooled down, steel pipe 7 can be cooled down.

Referring to fig. 2 and 3, the limiting and clamping device 2 comprises a synchronous contraction device 21 installed on the side portion of the fixed mounting plate 1, a telescopic contact rod 22 is installed at the contraction end of the synchronous contraction device 21, a cooling roller 23 is installed on the telescopic contact rod 22, and the cooling roller 23 is connected with the air guiding and heat dissipating device 4.

The first steel pipe 7 can pass through the limiting clamping device 2, the air guide heat dissipation device 4 and the penetrating air flow device 5 in sequence, the bottom of the first steel pipe 7 can be abutted against the penetrating air flow device 5, the staff controls the synchronous contraction device 21 to drive the telescopic contact rods 22 to synchronously contract and move, the telescopic contact rods 22 can drive the cooling roller 23 to contract and move towards the axis, the cooling roller 23 can be abutted against the outer wall of the first steel pipe 7 when contracting, the positioning of the first steel pipe 7 is fixed, the cooling roller 23 can rotate for adjusting the angle even if the first steel pipe 7 is clamped, the welding angle of the first steel pipe 7 can be adjusted conveniently by rotating the steel pipe 7, when the second steel pipe 7 is welded with the first steel pipe 7, the cooling roller 23 is communicated with the air guide heat dissipation device 4, cooling liquid can be effectively cooled on the cooling roller 23, and liquid cooling of the steel pipe 7 is effectively realized.

Referring to fig. 2 to 4, the synchronous contracting device 21 includes a limit mounting plate 211 mounted on a side portion of the fixed mounting plate 1, a plurality of limit sliding rails 2111 are provided on the limit mounting plate 211, a synchronous driving plate 212 is mounted on a side portion of the limit mounting plate 211, a plurality of driving grooves are provided on the synchronous driving plate 212, the limit sliding rails 2111 are in one-to-one correspondence with the driving grooves, driving sliding blocks 213 are mounted between the limit sliding rails 2111 and the driving grooves, a first linear driver 214 is mounted on the limit mounting plate 211, and an output end of the first linear driver 214 is connected with the synchronous driving plate 212.

The first linear driver 214 is preferably an electric push rod, when a plurality of telescopic supporting contact rods 22 are required to be synchronously driven to carry out shrinkage movement, a worker can drive the synchronous driving disc 212 to adjust the angle by starting the electric push rod, a plurality of driving grooves can be driven to synchronously move when the synchronous driving disc 212 adjusts the angle, the driving grooves can push the driving sliding blocks 213 to synchronously shrink along the limiting sliding rails 2111 when moving, and the driving sliding blocks 213 can effectively drive the telescopic supporting contact rods 22 to synchronously shrink when moving, so that the stability of clamping is effectively ensured.

Referring to fig. 2 and 5, the air guiding and heat dissipating device 4 includes an air collecting hopper 41 installed beside the synchronous shrinking device 21, a first guide plate 42 is installed in the air collecting hopper 41, a liquid inlet of the first guide plate 42 is communicated with the cooling roller 23 through a connecting pipe, a cooling and heat dissipating frame 45 is installed at a liquid outlet end of the first guide plate 42, a second guide plate 43 is installed at a liquid outlet end of the cooling and heat dissipating frame 45, an output end of the second guide plate 43 is communicated with the cooling roller 23 through a connecting pipe, and the air guiding and heat dissipating device 4 further includes a first rotary driving device 44 for driving the cooling and heat dissipating frame 45 to rotate.

The inlet of first guide plate 42 passes through the connecting pipe and communicates with cooling roller 23, the output of second guide plate 43 passes through connecting pipe and cooling roller 23 intercommunication, form circulation flow effect, the temperature when cooling roller 23 can conduct steel pipe 7 welding when the welding of second steel pipe 7 and first steel pipe 7, can make the inside coolant liquid temperature of cooling roller 23 rise when cooling roller 23 conduction temperature, in order to ensure cooling roller 23 radiating effect, first rotary driving device 44 can drive cooling frame 45 and rotate, can make inside coolant liquid carry out circulation flow to cooling roller 23 when cooling frame 45 rotates, cooling frame 45 can cool down the cooling of flowing, cooling roller 23 inside coolant liquid can make cooling roller 23 piece temperature fast decline when flowing, can effectually improve the radiating effect, can make the outside air current of steel pipe 7 welded area fast flow when cooling frame 45 rotates simultaneously, the collection flow of the effectual guide air current of wind bucket 41 can gather and flow, the effectual outer wall effect to 7 is realized to the air current. The first rotary driving device 44 is a conventional motor gear transmission technology, which will not be described herein.

Referring to fig. 5 and 6, the cooling and heat dissipating frame 45 is provided with a plurality of tapered brackets 451, a flow chamber is provided in the tapered brackets 451, a plurality of flow increasing blades 452 are further mounted in the tapered brackets 451, air flow heat dissipating blades 453 are further mounted on the outer sides of the tapered brackets 451, and a plurality of air supply blades 454 are further mounted on the inner walls of the tapered brackets 451.

When the cooling heat dissipation frame 45 rotates, the internal flow increasing blades 452 can rotate simultaneously, the flow increasing blades 452 rotate to enable cooling liquid to flow through the plurality of conical supports 451, when the cooling liquid flows through the conical supports 451, the conical supports 451 rotate to effectively cool the flowing cooling liquid, the conical supports 451 rotate to drive the air flow cooling blades 453 to synchronously rotate, the air flow cooling blades 453 rotate to increase the heat dissipation area, the cooling heat dissipation frame 45 rotates to drive the plurality of air supply fan blades 454 to rotate, the air flow inside the air collecting hopper 41 can be effectively driven to rapidly flow when the plurality of air supply fan blades 454 rotate, the air collecting hopper 41 can effectively guide the air flow to flow in an aggregation mode, the air flow aggregation flow can effectively realize the outer wall air cooling effect on the steel pipe 7, and meanwhile the cooling liquid is effectively cooled in a circulating mode.

Referring to fig. 6 and 7, an air flow rail 4531 is provided at a wall thickness of the air flow heat dissipation blade 453, and a plurality of heat dissipation ribs 4532 provided in an inclined manner are installed inside the air flow rail 4531.

The conical bracket 451 can also drive the airflow radiating blades 453 to synchronously rotate when rotating, and the flowing external air can pass through the airflow rail 4531 when the airflow radiating blades 453 rotate, so that the radiating ribs 4532 in the airflow rail 4531 are used for increasing the windward area and improving the radiating effect.

Referring to fig. 2 and 8, the air-penetrating device 5 includes a ball screw sliding table 51 installed at a side of the air-guiding heat-dissipating device 4, an electric fan 52 is installed on a moving end of the ball screw sliding table 51, and a rotational docking device 53 is installed at a top of the electric fan 52.

The staff accessible ball screw slip table 51 adjusts the height of rotating interfacing device 53, when the staff inserts first steel pipe 7 in the interlude hole of fixed mounting plate 1 earlier, first steel pipe 7 can pass spacing clamping device 2 and wind-guiding heat abstractor 4 in proper order, the bottom of first steel pipe 7 can dock with rotating interfacing device 53 and contradict, the bottom that rotates interfacing device 53 can effectually support steel pipe 7, staff control spacing clamping device 2 is fixed with first steel pipe 7 centre gripping, first steel pipe 7 is fixed by the centre gripping back, the staff places second steel pipe 7 again on multi-angle clamping device 6, multi-angle clamping device 6 is used for docking the welding end of second steel pipe 7 with first steel, the welding end of second steel pipe 7 and the welding end of first steel pipe are accomplished the back, the staff will dock second steel pipe 7 and first steel pipe 7 carry out welded fastening, the welding department of second steel pipe 7 and first steel pipe 7 can produce high temperature, when temperature detector 3 detects steel pipe 7 high temperature, electric fan 52 can rotate, electric fan 52 can be the inside air current fan 52 can be used for the inside natural cooling air current to the inside of air current device 7, can be used for the inside natural cooling air current device of air current of air-handling device 53, the inside can be cooled down.

Referring to fig. 8 and 9, the rotary docking device 53 includes a conical abutting bucket 532, the conical abutting bucket 532 is sleeved outside the electric fan 52, an anti-slip abutting surface 533 is provided at the top of the conical abutting bucket 532, and the rotary docking device 53 further includes a second rotary driving device 531 for driving the conical abutting bucket 532 to rotate.

The staff accessible ball screw slip table 51 adjusts the height of rotating interfacing apparatus 53, insert first steel pipe 7 first in the interlude hole of fixed mounting plate 1 when the staff, first steel pipe 7 can pass spacing clamping device 2 and wind-guiding heat abstractor 4 in proper order, the bottom of first steel pipe 7 can conflict with toper conflict fill 532, the air outlet of toper conflict fill 532 can insert first steel pipe 7 bottom opening part, the air outlet of toper conflict fill 532 can effectually guide air current enter into the inside of steel pipe 7, toper conflict fill 532 is convenient for dock cartridge steel pipe 7 simultaneously, the antiskid conflict face 533 of toper conflict fill 532 can effectual increase frictional force, the back is placed to first steel pipe 7, staff control synchronous constriction device 21 drives a plurality of flexible touch-sensitive rods 22 and carries out synchronous constriction and remove, can drive cooling roller 23 to the axle center shrink and remove when cooling roller 23 shrink can conflict with the outer wall of first steel pipe 7, the centre gripping of first steel pipe 7 is fixed, when the staff need rotate the angle of adjusting 7 when welding steel pipe 7, can drive the rotatable fill 532 through second rotary device and carry out the effectual rotation of toper fill 532, can drive the rotation fill 533 when the annular conflict fill 532 rotates 533. The second rotation driving device 531 is a conventional motor gear transmission technology and will not be described herein.

Referring to fig. 1 and 10, the multi-angle clamping device 6 includes a fixed mounting seat 61 mounted on a side portion of the fixed mounting plate 1, a rotation mounting rod 62 is mounted on the fixed mounting seat 61, a second linear driver 63 is mounted between the rotation mounting rod 62 and the fixed mounting seat 61, a rotation mounting plate 65 is further mounted on the rotation mounting rod 62, a rotation driver 64 is mounted on a side portion of the rotation mounting rod 62, an output end of the rotation driver 64 is connected with the rotation mounting plate 65, and an adaptive clamp 66 is mounted on the rotation mounting plate 65.

The rotary driver 64 is preferably a servo motor, the second linear driving is preferably an electric push rod, the rotary mounting rod 62 and the fixed mounting seat 61 are arranged, a first steel pipe 7 is inserted into the penetrating hole of the fixed mounting plate 1 by a worker, the first steel pipe 7 sequentially penetrates through the limiting clamping device 2, the air guide radiating device 4 and the penetrating air flow device 5, the bottom of the first steel pipe 7 is abutted against the penetrating air flow device 5, the worker controls the limiting clamping device 2 to clamp and fix the first steel pipe 7, after the first steel pipe 7 is clamped and fixed, the worker places the second steel pipe 7 on the self-adaptive clamp 66, the self-adaptive clamp 66 can effectively limit and clamp the steel pipes 7 with different sizes, the welding end of the second steel pipe 7 is abutted against the first steel pipe, if the steel pipes 7 with different angles need to be welded, the angle of the rotary mounting plate 65 can be adjusted through the electric push rod, and the installation adaptability is effectively improved.

Referring to fig. 10 and 11, the adaptive clamp 66 includes a bidirectional ball screw sliding table 661, V-shaped clamps 662 are symmetrically installed on movable ends of the bidirectional ball screw sliding table 661, and a plurality of abutting rollers 663 are installed on inner walls of the V-shaped clamps 662 at equal intervals.

The bidirectional ball screw slipway 661 is used for driving the V-shaped clamp 662 to carry out mutual clamping movement, the V-shaped clamp 662 main mutually moves and can effectively clamp the inner conflict roller 663 of the steel pipe 7,V clamp 662 with different sizes, the conflict roller 663 can effectively conflict with the outer wall of the steel pipe 7, the conflict roller 663 can limit and clamp the steel pipe 7, and meanwhile the steel pipe 7 can be rotationally adjusted.

The specific working principle is as follows:

the staff inserts first steel pipe 7 into the interlude hole of fixed mounting plate 1 earlier, first steel pipe 7 can pass spacing clamping device 2 in proper order, wind-guiding heat abstractor 4 and interlude air current device 5, the bottom of first steel pipe 7 can be contradicted with interlude air current device 5, staff control spacing clamping device 2 is fixed with first steel pipe 7 centre gripping, first steel pipe 7 is fixed after being held by the centre gripping, the staff places second steel pipe 7 on multi-angle clamping device 6 again, multi-angle clamping device 6 is used for the butt joint conflict with first steel with the welding end of second steel pipe 7, the welding end of second steel pipe 7 and first steel butt joint back, the staff will carry out welded fastening with second steel pipe 7 of butt joint, the welding department of second steel pipe 7 and first steel pipe 7 can produce high temperature, when temperature detector 3 detects steel pipe 7 high temperature, wind-guiding heat abstractor 4 and interlude air current device 5 can start with the same step, the air current of steel pipe 7 outside welding area can flow fast when the start, the air current of wind-guiding heat abstractor 4 can make the outer wall of steel pipe 7, the welding end of second steel pipe 7 carries out butt joint conflict with first steel pipe 7, the welding end carries out welded fastening with first steel pipe 7, the welding end is fixed with first steel pipe 7, the welding position can produce high temperature with the welding, the welding position of second steel pipe 7 can produce high temperature with the welding, temperature when the steel pipe 7 is cooled down, temperature detector 3 detects the steel pipe 7, temperature detector is cooled down, temperature inner side 7 can be cooled down, and inner end inside cooling device is cooled down to the inside can be cooled down, steel pipe 7 can be cooled down.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims (4)

1. The utility model provides a welding equipment of even cooling is used in steel pipe pole processing, including the high-efficient cooling fixing tool of fixed steel pipe (7), a serial communication port, high-efficient cooling fixing tool includes fixed mounting panel (1), be equipped with on fixed mounting panel (1) and wear the jack, spacing clamping device (2) are installed to one side of fixed mounting panel (1), temperature detector (3) are installed to the conflict end on spacing clamping device (2), wind-guiding heat abstractor (4) are installed to the lateral part on spacing clamping device (2), with the conflict end interconnect of spacing clamping device (2) on wind-guiding heat abstractor (4), circulate the coolant liquid between wind-guiding heat abstractor (4) and spacing clamping device (2), interlude air current device (5) are installed to the lateral part of wind-guiding heat abstractor (4), spacing clamping device (2), wind-guiding heat abstractor (4) and interlude air current device (5) all set up with interlude hole is coaxial, multi-angle clamping device (6) are installed to one side that spacing clamping device (2) are kept away from to fixed mounting panel (1);

the limiting clamping device (2) comprises a synchronous contraction device (21) arranged on the side part of the fixed mounting plate (1), a telescopic contact rod (22) is arranged at the contraction end of the synchronous contraction device (21), a cooling roller (23) is arranged on the telescopic contact rod (22), and the cooling roller (23) is connected with the air guide heat dissipation device (4);

The air guide heat dissipation device (4) comprises an air collecting hopper (41) arranged beside the synchronous contraction device (21), a first guide plate (42) is arranged in the air collecting hopper (41), a liquid inlet of the first guide plate (42) is communicated with the cooling roller (23) through a connecting pipe, a cooling heat dissipation frame (45) is arranged at a liquid outlet end of the first guide plate (42), a second guide plate (43) is arranged at a liquid outlet end of the cooling heat dissipation frame (45), an output end of the second guide plate (43) is communicated with the cooling roller (23) through the connecting pipe, and the air guide heat dissipation device (4) further comprises a first rotary driving device (44) for driving the cooling heat dissipation frame (45) to rotate;

A plurality of conical supports (451) are arranged on the cooling and heat dissipation frame (45), a circulation cavity is arranged in each conical support (451), a plurality of flow increasing blades (452) are further arranged in each conical support (451), air flow heat dissipation blades (453) are respectively arranged on the outer sides of the conical supports (451), and a plurality of air supply fan blades (454) are further arranged on the inner walls of the conical supports (451);

an air flow track (4531) is arranged at the wall thickness of the air flow radiating blade (453), and a plurality of radiating ribs (4532) which are obliquely arranged are arranged in the air flow track (4531);

the synchronous contraction device (21) comprises a limit mounting plate (211) arranged on the side part of the fixed mounting plate (1), a plurality of limit sliding rails (2111) are arranged on the limit mounting plate (211), a synchronous driving plate (212) is arranged on the side part of the limit mounting plate (211), a plurality of driving grooves are formed in the synchronous driving plate (212), the limit sliding rails (2111) are in one-to-one correspondence with the driving grooves, driving sliding blocks (213) are arranged between the limit sliding rails (2111) and the driving grooves, a first linear driver (214) is arranged on the limit mounting plate (211), and the output end of the first linear driver (214) is connected with the synchronous driving plate (212);

The multi-angle clamping device (6) comprises a fixed mounting seat (61) arranged on the side part of a fixed mounting plate (1), a rotary mounting rod (62) is arranged on the fixed mounting seat (61), a second linear driver (63) is arranged between the rotary mounting rod (62) and the fixed mounting seat (61), a rotary mounting plate (65) is also arranged on the rotary mounting rod (62), a rotary driver (64) is arranged on the side part of the rotary mounting rod (62), the output end of the rotary driver (64) is connected with the rotary mounting plate (65), and a self-adaptive clamp (66) is arranged on the rotary mounting plate (65).

2. The welding equipment for uniformly cooling the steel pipe rod according to claim 1, wherein the penetrating airflow device (5) comprises a ball screw sliding table (51) arranged on the side part of the air guiding and radiating device (4), an electric fan (52) is arranged on the moving end of the ball screw sliding table (51), and a rotating butt joint device (53) is arranged on the top of the electric fan (52).

3. The welding equipment for uniformly cooling for machining steel pipe poles according to claim 2, wherein the rotary butt joint device (53) comprises a conical collision bucket, the conical collision bucket is sleeved outside the electric fan (52), an anti-skid collision surface (533) is arranged at the top of the conical collision bucket, and the rotary butt joint device (53) further comprises a second rotary driving device (531) for driving the conical collision bucket to rotate.

4. The welding equipment for uniformly cooling for machining steel pipe rods according to claim 1, wherein the self-adaptive clamp (66) comprises a bidirectional ball screw sliding table (661), V-shaped clamps (662) are symmetrically arranged on the movable end of the bidirectional ball screw sliding table (661), and a plurality of abutting rollers (663) are arranged on the inner wall of each V-shaped clamp (662) at equal intervals.