CN209753685U - Multi-process full-automatic stainless steel strip continuous pipe making equipment - Google Patents

Abstract

the utility model provides a full-automatic stainless steel strip of multiple operation is tubulation equipment in succession belongs to machining technical field. It is including connecting gradually the material loading platform on the workstation, steel strip tubulation mechanism, the welding seat, circularity adjustment seat and cutting bed, steel strip tubulation mechanism is including locating the total transmission driver on the workstation, two locating wheels that the central line symmetry of positioning seat and edge workstation set up, still be equipped with a plurality of groups pinch roller subassembly on the workstation, total transmission driver has rotatable total output shaft, total transmission driver and a plurality of are through pivot interconnect's reposition of redundant personnel driver power connection, and one of them reposition of redundant personnel driver links to each other with total output shaft tip of total transmission driver. The utility model discloses a pinch roller subassembly can become the tubulose with the steel band material shape in removing, and work such as welding, accent circle and removal cutting afterwards of rethread can be the continuity make the steel pipe with the steel band to improve production efficiency.

Description

Multi-process full-automatic stainless steel strip continuous pipe making equipment

Technical Field

The utility model belongs to the technical field of machining, a full-automatic stainless steel strip of multiple operation is pipe equipment in succession is related to.

background

When the steel pipe is prepared, an extruder is often required to perform extrusion deformation, welding is performed through a welder (or welding equipment), cutting (or manual work) is performed through a cutting machine, the steps of cutting the steel pipe and moving the steel pipe are often separated, the steel pipe is firstly cut and then moved to the next processing step, two time periods of cutting and moving are consumed in one manufacturing process, the time cost of work is increased, and finally roundness is adjusted, so that the steel pipe production needs multiple equipment matching, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a full-automatic stainless steel strip of multiple operation is tubulation equipment in succession.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

The utility model provides a full-automatic stainless steel strip of multiple operation is tubulation equipment in succession, including the material loading platform that connects gradually on the workstation, steel strip tubulation mechanism, the welded seat, circularity adjustment seat and cutting bed, steel strip tubulation mechanism is including locating the total conveying driver on the workstation, two locating wheels that the positioning seat and the central line symmetry that follows the workstation set up, still be equipped with a plurality of groups pinch roller subassembly on the workstation, total conveying driver has rotatable total output shaft, total conveying driver and a plurality of are connected through pivot interconnect's reposition of redundant personnel driver power, and one of them reposition of redundant personnel driver links to each other with total output shaft tip of total conveying driver, reposition of redundant personnel driver and pinch roller subassembly one-to-one, and reposition of redundant personnel driver has rotatable conveying axle, the conveying axle of reposition of redundant personnel driver links to each other with the transfer wheel in the.

In foretell full-automatic stainless steel strip of multiple operation is in the tubulation equipment in succession, the pinch roller subassembly is including locating two pinch roller adjustment seats that set up along workstation central line symmetry on the workstation, be equipped with the spout that runs through on the pinch roller adjustment seat, and pinch roller adjustment seat top still spiro union have the screw rod that runs through pinch roller adjustment seat and penetrate the spout, this screw rod bottom fixedly connected with can follow the spout and be reciprocating motion's slider, and this screw rod top even has the hand wheel, even has rotatable steel band pinch roller between the last corresponding slider of every pinch roller subassembly.

In the multi-process full-automatic stainless steel strip continuous pipe making equipment, the size and the shape of the steel strip pinch roller in each group of pinch roller assemblies are different, symmetrical steel strip rolling wheels are arranged between every two groups of pinch roller assemblies, the size and the shape of each pair of steel strip rolling wheels are different, the distance between the steel strip rolling wheels gradually decreases along the moving direction of the strip, and the welding head of the welding seat corresponds to the welding seam at the top of the steel pipe.

In foretell full-automatic stainless steel strip of multiple operation is in the tubulation equipment in succession, the circularity adjustment seat is including locating the frame on the workstation, be equipped with the vertical piece of circularity on the frame, be equipped with the slip recess in the vertical piece of circularity, be equipped with the direction control subassembly that can follow the reciprocal linear motion of vertical direction in the slip recess, be equipped with the circularity adjustment subassembly that can follow the reciprocal linear motion of horizontal direction on the direction control subassembly, it leads to the groove to be equipped with the steel pipe that runs through in the vertical piece of circularity, the frame still is equipped with and lets in the corresponding power drive subassembly in groove position with the steel pipe, the power drive subassembly can.

In the multi-process full-automatic stainless steel strip continuous pipe making equipment, the direction control assembly comprises a direction control wheel disc arranged on a circular vertical block, the end part of the direction control wheel disc is connected with a vertical threaded rod penetrating through the circular vertical block, the vertical threaded rod is screwed with a vertical direction control block capable of linearly reciprocating along the vertical direction, and the circular degree adjusting assembly is positioned on the vertical direction control block.

In the multi-process full-automatic stainless steel strip continuous pipe making equipment, the roundness adjusting assembly comprises a horizontal threaded rod which is rotatably connected in a vertical direction control block, the end part of the horizontal threaded rod is connected with a roundness control wheel disc, a roundness adjusting block which can do reciprocating linear motion along the horizontal direction is screwed on the horizontal threaded rod, a roundness through hole corresponding to the position of the steel pipe inlet groove is arranged in the roundness adjusting block, the diameter of the steel pipe inlet groove is larger than that of the roundness through hole, a thread guide block is also arranged on the roundness vertical block, the end part of the roundness adjusting block is connected with a thread guide rod, the thread guide rod is screwed with the thread guide block, and a cooling pipe with an outlet positioned above the steel pipe inlet groove is also arranged on;

The power driving assembly comprises a driving base connected to the base, two drivers are symmetrically arranged in the driving base, a power shaft is connected to each driver, a steel pipe propelling rotating wheel is connected to each power shaft, the steel pipe penetrates into the two steel pipe propelling rotating wheels, the steel pipe and the steel pipe propelling rotating wheels form close fit, and the positions of the steel pipe propelling rotating wheels correspond to the steel pipe access grooves.

In the above multi-process full-automatic stainless steel strip continuous pipe making equipment, the cutting table comprises a clamping component which is arranged on the workbench and can move repeatedly along the axial direction of the workbench, the clamping component comprises a sliding seat movably connected with the machine base, a connecting plate is arranged on the sliding seat, a clamping driver is arranged at one end of the connecting plate, and a first clamping plate which can move repeatedly back and forth along the output shaft direction of the clamping driver is arranged at the end part of an output shaft of the clamping driver, which penetrates through the connecting plate and clamps the driver.

In the multi-process full-automatic stainless steel strip continuous pipe making equipment, the clamping driver is provided with the rotatable adjusting wheel disc, the output shaft on the adjusting wheel disc extends into the clamping driver and is connected with the output shaft of the clamping driver, the sliding seat is provided with the second clamping plate at the position corresponding to the first clamping plate, the first clamping plate and the second clamping plate surround to form a channel for the steel pipe to penetrate, and the first clamping plate and the second clamping plate are respectively provided with the cutting grooves.

In the multi-process full-automatic stainless steel strip continuous pipe making equipment, the sliding seat is further provided with a cutting machine a and a water pipe arranged on the cutting machine, the cutting machine a comprises a cutting base hinged to the sliding seat, the cutting base is provided with a cutting cover and a cutting driver, the end portion of an output shaft of the cutting driver is provided with a cutting disc located in the cutting cover, the cutting base is provided with a water injector, the water injector is connected with the water pipe, and the end portion of the water pipe is communicated into the cutting cover.

In the multi-process full-automatic stainless steel strip continuous pipe making equipment, one side of the sliding seat, which is far away from the clamping component, is provided with a plurality of movable drivers on the workbench, each movable driver is provided with a rotatable output shaft, the output shafts of the movable drivers are in threaded connection with the sliding seat, the end faces of the first clamping plate and the second clamping plate are respectively provided with a clamping groove a, and the clamping grooves a on the first clamping plate and the second clamping plate are mutually opposite and surround to form a channel for a steel pipe to penetrate.

Compared with the prior art, the utility model has the advantages of:

1. The utility model discloses a pinch roller subassembly can become the tubulose with the steel band material shape in removing, and work such as welding, accent circle and removal cutting afterwards of rethread can be the continuity make the steel pipe with the steel band to improve production efficiency.

2. The roundness adjusting seat can continuously and automatically eliminate the maximum and minimum diameter difference on the cross section of the steel pipe after the steel pipe is welded and formed, so that the roundness of the steel pipe is ensured, meanwhile, the roundness can be adjusted according to different steel pipes, the quality of the steel pipe is ensured, and the production efficiency is higher.

3. The cutting table sets up cutting unit on the sliding seat that removes, and when the sliding seat removed the steel pipe, cutting unit accomplished the work procedure of cutting the steel pipe, has saved the time, has improved work efficiency.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic diagram of the overall function distribution provided by the present invention;

FIG. 2 is a schematic structural view of a steel strip tubing mechanism;

FIG. 3 is a schematic structural view of the steel strip pipe-making mechanism in another direction;

FIG. 4 is a schematic structural view of the roundness adjusting seat;

FIG. 5 is a schematic view of the roundness adjusting seat in another direction;

FIG. 6 is a schematic view of the roundness adjusting seat in another direction;

FIG. 7 is a schematic view of the cutting station.

In the figure, a feeding table 30, a welding seat 32, a roundness adjusting seat 33, a cutting table 34, a total conveying driver 35, a positioning seat 36, a positioning wheel 37, a shunt driver 38, a pinch roller assembly 39, a pinch roller adjusting seat 40, a chute 41, a screw 42, a hand wheel 44, a slide block 43, a steel strip pinch roller 45, a steel strip coil wheel 46, a workbench 60, a machine base 1, a roundness vertical block 2, a sliding groove 3, a direction control assembly 4, a steel pipe passing groove 5, a power driving assembly 6, a direction control wheel disc 7, a vertical threaded rod 8, a vertical direction control block 9, a roundness adjusting assembly 21, a horizontal threaded rod 10, a roundness control wheel disc 11, a roundness adjusting block 12, a roundness through hole 13, a thread guide rod 15, a thread guide block 14, a cooling pipe 20, a driving base 16, a steel pipe propelling wheel 17, a clamping component 70, a sliding seat 71, a connecting plate 72, a clamping driver 73, The adjusting wheel disc 76, the second clamping plate 75, the cutting groove 77, the cutting machine 80a, the cutting base 81, the cutting cover 82, the cutting driver 83, the cutting disc 84, the water injector 85, the water pipe 86, the moving driver 61, and the clamping groove 75 a.

Detailed Description

As shown in fig. 1, 2 and 3, a multi-process full-automatic stainless steel strip continuous pipe-making device comprises a feeding table 30, a steel strip pipe-making mechanism 31, a welding seat 32, a roundness adjusting seat 33 and a cutting table 34 which are sequentially connected on a working table 60, wherein the steel strip pipe-making mechanism 31 comprises a main transmission driver 35, a positioning seat 36 and two positioning wheels 37 which are symmetrically arranged along the central line of the working table 60, the working table 60 is also provided with a plurality of groups of pressure wheel assemblies 39, the main transmission driver 35 is provided with a rotatable main output shaft, the main transmission driver 35 is in power connection with a plurality of shunt drivers 38 which are mutually connected through rotating shafts, one of the shunt drivers 38 is connected with the end part of the main output shaft of the main transmission driver 35, the shunt drivers 38 are in one-to-one correspondence with the pressure wheel assemblies 39, and the shunt drivers 38 are provided with rotatable transmission shafts, the transfer shaft of shunt drive 38 is connected to a transfer wheel within pinch roller assembly 39.

In this embodiment, the main transmission driver 35 can be a motor or a rotary cylinder, preferably, a motor is used in this embodiment, the shunt driver 38 can be a universal valve or a vertical power switching assembly with a bevel gear mechanism, the main transmission driver 35 is used for transmission of the steel strip in this embodiment, and the steel strip can be changed into a tubular shape in movement through the pinch roller assembly 39.

Pinch roller subassembly 39 is including locating two pinch roller adjustment seats 40 that set up along workstation 60 central line symmetry on the workstation 60, be equipped with the spout 41 that runs through on the pinch roller adjustment seat 40, and pinch roller adjustment seat 40 top still the spiro union have run through pinch roller adjustment seat 40 and penetrate the screw rod 42 in the spout 41, this screw rod 42 bottom fixedly connected with can be followed spout 41 and be reciprocating motion's slider 43, and this screw rod 42 top even has hand wheel 44, it has rotatable steel band pinch roller 45 to link between the last corresponding slider 43 of every pinch roller subassembly 39.

In this embodiment, as shown in fig. 2 and 3, the pressing wheel adjusting seat 40 is fixed on the worktable 60, the top end of the screw rod 42 is fixedly connected with the hand wheel 44, the bottom end of the screw rod is fixedly connected with the sliding block 43, the sliding block 43 can make reciprocating linear motion along the sliding groove 41 by rotating the hand wheel 44, a rotatable rotating shaft is connected between the corresponding sliding blocks 43 on each pressing wheel assembly 39, and a steel belt pressing wheel 45 is fixedly connected to the rotating shaft.

It will be appreciated by those skilled in the art that the hand wheel 44 may be modified to provide a power mechanism such as a motor or a rotary cylinder.

The steel belt pinch rollers 45 in each group of pinch roller assemblies 39 are different in size and shape, symmetrical steel belt winding wheels 46 are arranged between each two groups of pinch roller assemblies 39, each pair of steel belt winding wheels 46 are different in size and shape, the distance between the steel belt winding wheels 46 gradually decreases along the moving direction of the belt materials, and the welding head of the welding seat 32 corresponds to the welding seam at the top of the steel pipe.

In this embodiment, as shown in fig. 1, fig. 2, and fig. 3, the size and the shape of the steel belt pinch rollers 45 in each pinch roller assembly 39 are different, and the size and the shape of the steel belt pinch rollers 45 in the direction of movement of the strip tend to form the appearance of the pipe, and the weld joint at the top of the steel pipe is always aligned with the weld joint of the weld seat 32 in the moving process, so that the welding can be performed effectively without damaging the surface of the pipe.

Roundness adjusting seat 33 is including locating frame 1 on workstation 60, be equipped with the vertical piece 2 of roundness on the frame 1, be equipped with sliding groove 3 in the vertical piece 2 of roundness, be equipped with the direction control subassembly 4 that can follow the reciprocal linear motion of vertical direction in the sliding groove 3, be equipped with the roundness adjusting subassembly 21 that can follow the reciprocal linear motion of horizontal direction on the direction control subassembly 4, the steel pipe that runs through is gone into groove 5 in the vertical piece 2 of roundness, frame 1 still is equipped with and leads to the corresponding power drive subassembly 6 in groove 5 position with the steel pipe, power drive subassembly 6 can push the steel pipe and let in the groove 5 to the steel pipe.

in this embodiment, as shown in fig. 4, 5 and 6, the steel pipe is automatically conveyed into the steel pipe passing groove 5 by the power driving unit 6, and the roundness of the steel pipe is adjusted by adjusting the positions of the direction control unit 4 and the roundness adjusting unit 21.

the direction control assembly 4 comprises a direction control wheel disc 7 arranged on the roundness vertical block 2, the end part of the direction control wheel disc 7 is connected with a vertical threaded rod 8 penetrating through the roundness vertical block 2, the vertical threaded rod 8 is screwed with a vertical direction control block 9 capable of performing reciprocating linear motion in the vertical direction, and the roundness adjusting assembly 21 is positioned on the vertical direction control block 9.

In this embodiment, as shown in fig. 4, 5 and 6, the rotation direction control wheel disc 7 can drive the vertical threaded rod 8 to rotate simultaneously, and further drive the vertical direction control block 9 to complete the displacement adjustment in the vertical direction.

The roundness adjusting assembly 21 comprises a horizontal threaded rod 10 which is rotatably connected in a vertical direction control block 9, the end part of the horizontal threaded rod 10 is connected with a roundness control wheel disc 11, a roundness adjusting block 12 which can do reciprocating linear motion along the horizontal direction is screwed on the horizontal threaded rod 10, a roundness through hole 13 corresponding to the position of a steel pipe access groove 5 is arranged in the roundness adjusting block 12, the diameter of the steel pipe access groove 5 is larger than that of the roundness through hole 13, a thread guide block 14 is also arranged on the roundness vertical block 2, a thread guide rod 15 is connected to the end part of the roundness adjusting block 12, the thread guide rod 15 is screwed with the thread guide block 14, and a cooling pipe 20 with an outlet positioned above the steel pipe access groove 5 is also arranged on the roundness adjusting block;

The power driving assembly 6 comprises a driving base 16 connected to the machine base 1, two drivers are symmetrically arranged in the driving base 16, a power shaft is connected to each driver, a steel pipe propelling rotating wheel 17 is connected to each power shaft, the steel pipe penetrates into the two steel pipe propelling rotating wheels 17, the steel pipe and the steel pipe propelling rotating wheels 17 form close fit, and the positions of the steel pipe propelling rotating wheels 17 correspond to the positions of the steel pipe access grooves 5.

in this embodiment, as shown in fig. 4, 5, and 6, in this embodiment, the roundness control wheel disc 11 is rotated to drive the horizontal threaded rod 10 to rotate simultaneously, and further drive the roundness adjustment block 12 to complete displacement adjustment in the horizontal direction, so that the roundness through hole 13 and the steel pipe through groove 5 are in the facing position, and the thread guide block 14 plays a role in guiding, and ensures that the roundness adjustment block 12 can only move in the horizontal direction.

Through the steel pipe propulsion runner 17 and the hugging effect of steel pipe, when the driver starts, make steel pipe propulsion runner 17 take place when rotating through the power shaft, can drive the steel pipe and remove, the driver can be motor, servo motor or hydraulic motor etc..

The cutting table 34 comprises a clamping component 70 which is arranged on the workbench 60 and can move repeatedly along the axial direction of the workbench 60, the clamping component 70 comprises a sliding seat 71 movably connected with the machine base, a connecting plate 72 is arranged on the sliding seat 71, a clamping driver 73 is arranged at one end of the connecting plate 72, an output shaft of the clamping driver 73 penetrates through the connecting plate 72, and a first clamping plate 74 capable of moving repeatedly back and forth along the output shaft direction of the clamping driver 73 is arranged at the end part of the output shaft of the clamping driver 73.

In this embodiment, as shown in fig. 7, the clamp driver 73 operates to push the first clamp plate 74 to move the clamp steel pipe in the direction of the tip of the output shaft of the clamp driver 73.

It will be understood by those skilled in the art that the clamping actuator 73 may be a pneumatic cylinder, but the clamping force generated by the pneumatic cylinder is greater than the clamping force generated by the pneumatic cylinder, so in the present embodiment, the clamping actuator 73 is a pneumatic cylinder

The clamping driver 73 is provided with a rotatable adjusting wheel disc 76, an output shaft on the adjusting wheel disc 76 extends into the clamping driver 73 and is connected with the output shaft of the clamping driver 73, a second clamping plate 75 is arranged on the sliding seat 71 and at a position corresponding to the first clamping plate 74, the first clamping plate 74 and the second clamping plate 75 surround to form a channel for a steel pipe to penetrate through, and the first clamping plate 74 and the second clamping plate 75 are respectively provided with a cutting groove 77.

Still be equipped with cutting machine 80a on sliding seat 71 and set up the water pipe 86 on the cutting machine, cutting machine 80a includes the cutting base 81 with sliding seat 71 articulated, cutting base 81 on be equipped with cutting cover 82 and cutting driver 83, the tip of the output shaft of cutting driver 83 is equipped with the cutting dish 84 that is located cutting cover 82, cutting base 81 on be equipped with water injector 85, water injector 85 connect water pipe 86, the tip of water pipe 86 lets in cutting cover 82.

In this embodiment, as shown in fig. 7, the cutting driver 83 drives the cutting disc 84 to rotate rapidly, the steering motor (not shown in the figure) drives the cutting base 81 to rotate, the cutting disc 84 is driven to extend into the cutting groove 77 to cut the steel pipe, the water pipe 86 performs a cooling and cleaning step on the cut part, and the cutting cover 82 can prevent sparks and metal chips from splashing during cutting.

A plurality of movable drivers 61 positioned on the workbench 60 are arranged on one side of the sliding seat 71 away from the clamping component 70, each movable driver 61 is provided with a rotatable output shaft, the output shafts of the movable drivers 61 are in threaded connection with the sliding seat 71, clamping grooves 75a are respectively arranged on the end surfaces of the first clamping plate 74 and the second clamping plate 75, and the clamping grooves 75a on the first clamping plate 74 and the second clamping plate 75 are mutually opposite and enclose to form a channel for steel pipes to penetrate through.

In this embodiment, the steel pipe is clamped by the clamping grooves 75a on the end surfaces of the first clamping plate 74 and the second clamping plate 75, and the shape of the clamping grooves 75a may be horizontal or arc-shaped.

The use method of the equipment comprises the following steps: the steel strip on the feeding table 30 is placed on a transmission wheel, a main transmission driver 35 is opened, the transmission wheel (not shown in the figure) is rotated through a shunt driver 38, the steel strip passes through a steel strip pinch roller 45 and a steel strip coil wheel 46 to be tubular, then welding is carried out through a welding seat 32, a rotating direction control wheel disc 7 can drive a vertical threaded rod 8 to rotate simultaneously, a vertical direction control block 9 is further driven to complete displacement adjustment in the vertical direction, a roundness through hole 13 and a steel tube through groove 5 are in corresponding positions in the vertical direction, then a roundness control wheel disc 11 is rotated to drive a horizontal threaded rod 10 to rotate simultaneously, and further a roundness adjusting block 12 is driven to complete displacement adjustment in the horizontal direction, so that the roundness through hole 13 and the steel tube through groove 5 are in opposite positions, a thread guide block 14 plays a guiding role, and ensures that the roundness adjusting block 12 can only move in the horizontal direction, after the roundness adjustment is finished, the steel pipes are placed into the two steel pipe pushing rotating wheels 17 to form close fit, a driver is started, when the steel pipe pushing rotating wheels 17 rotate through the power shaft, the steel pipes can be driven to move to the position where the steel pipes are led into the grooves 5 and then enter the roundness through holes 13, after the roundness is finished, the steel pipes can be cooled through cooling polishing liquid flowing out of the outlets of the cooling pipes 20, so that the steel pipes are prevented from deforming again, the adjusting wheel disc 76 is manually rotated, the first clamping plate 74 is far away from the second clamping plate 75, after the steel pipes penetrate through a channel formed by the first clamping plate 74 and the second clamping plate 75 in a surrounding mode, the adjusting wheel disc 76 is manually rotated to the initial position, then the clamping driver 73 works to drive the first clamping plate 74 to be close to the second clamping plate 75 and firmly fix the steel pipes in the channel formed by the first clamping plate 74 and the second clamping plate 75 in the surrounding mode, then the cutting driver 83 drives the cutting disc 84 to, the turning motor (not shown in the figure) drives the cutting base 81 to rotate, drives the cutting disc 84 to extend into the cutting groove 77 to cut the steel pipe, the water pipe 86 performs a cooling and cleaning step on the cut part in a water spraying mode, the moving driver 61 drives the sliding seat 71 to move while the cutting and cleaning start work, so that the steel pipe in cutting and cleaning is driven to move synchronously, and when the sliding seat 71 moves to the position of the workbench 60 where the work is finished, the cutting and cleaning step on the steel pipe is just finished.

the specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the loading table 30, the welding seat 32, the roundness adjusting seat 33, the cutting table 34, the total conveying driver 35, the positioning seat 36, the positioning wheel 37, the shunt driver 38, the pinch roller assembly 39, the pinch roller adjusting seat 40, the chute 41, the screw 42, the hand wheel 44, the slider 43, the steel strip pinch roller 45, the steel strip winding wheel 46, the work table 60, the machine base 1, the roundness vertical block 2, the sliding groove 3, the direction control assembly 4, the steel pipe feed-through slot 5, the power drive assembly 6, the direction control wheel disc 7, the vertical threaded rod 8, the vertical direction control block 9, the roundness adjusting assembly 21, the horizontal threaded rod 10, the roundness control wheel disc 11, the roundness adjusting block 12, the roundness through hole 13, the thread guide rod 15, the thread guide block 14, the cooling pipe 20, the drive base 16, the steel pipe pushing wheel 17, the clamping part 70, the sliding seat 71, the connecting plate 72, the clamping, First clamping plate 74, adjustment wheel disc 76, second clamping plate 75, cutting groove 77, cutter 80a, cutting base 81, cutting cover 82, cutting drive 83, cutting disc 84, water injector 85, water pipe 86, movement drive 61, clamping groove 75a, etc., without excluding the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. a multi-process full-automatic stainless steel strip continuous pipe making device comprises a feeding table (30), a steel strip pipe making mechanism (31), a welding seat (32), a roundness adjusting seat (33) and a cutting table (34) which are sequentially connected onto a workbench (60), and is characterized in that the steel strip pipe making mechanism (31) comprises a main transmission driver (35) arranged on the workbench (60), a positioning seat (36) and two positioning wheels (37) symmetrically arranged along the central line of the workbench (60), a plurality of groups of pressure wheel assemblies (39) are further arranged on the workbench (60), the main transmission driver (35) is provided with a rotatable main output shaft, the main transmission driver (35) is in power connection with a plurality of shunt drivers (38) which are mutually connected through a rotating shaft, one of the shunt drivers (38) is connected with the end part of the main output shaft of the main transmission driver (35), the shunt driver (38) corresponds to the pinch roller assembly (39) one by one, the shunt driver (38) is provided with a rotatable transmission shaft, and the transmission shaft of the shunt driver (38) is connected with a transmission wheel in the pinch roller assembly (39).

2. The multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 1, wherein the pinch roller assembly (39) comprises two pinch roller adjusting seats (40) which are symmetrically arranged on the workbench (60) along the center line of the workbench (60), a through sliding groove (41) is formed in each pinch roller adjusting seat (40), a screw rod (42) which penetrates through each pinch roller adjusting seat (40) and penetrates into the corresponding sliding groove (41) is further screwed to the top of each pinch roller adjusting seat (40), a sliding block (43) which can reciprocate along the corresponding sliding groove (41) is fixedly connected to the bottom end of the screw rod (42), a hand wheel (44) is connected to the top end of the screw rod (42), and a rotatable steel belt pinch roller (45) is connected between the corresponding sliding blocks (43) on each pinch roller assembly (39).

3. The multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 2, wherein the steel strip pinch rollers (45) in each group of pinch roller assemblies (39) are different in size and shape, symmetrical steel strip rolling wheels (46) are arranged between each two groups of pinch roller assemblies (39), the size and shape of each pair of steel strip rolling wheels (46) are different, the distance between the steel strip rolling wheels (46) gradually decreases along the moving direction of the strip, and the welding head of the welding seat (32) corresponds to the welding seam at the top of the steel pipe.

4. the multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 1, wherein the roundness adjusting seat (33) comprises a machine seat (1) arranged on the workbench (60), a roundness vertical block (2) is arranged on the machine seat (1), a sliding groove (3) is arranged in the roundness vertical block (2), a direction control assembly (4) capable of linearly reciprocating along the vertical direction is arranged in the sliding groove (3), a roundness adjusting assembly (21) capable of linearly reciprocating along the horizontal direction is arranged on the direction control assembly (4), a steel pipe access groove (5) is arranged in the roundness vertical block (2) in a penetrating manner, the machine seat (1) is further provided with a power driving assembly (6) corresponding to the position of the steel pipe access groove (5), and the power driving assembly (6) can push the steel pipe into the steel pipe access groove (5).

5. The multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 4, wherein the direction control assembly (4) comprises a direction control wheel disc (7) arranged on the roundness vertical block (2), the end part of the direction control wheel disc (7) is connected with a vertical threaded rod (8) penetrating through the roundness vertical block (2), the vertical threaded rod (8) is in threaded connection with a vertical direction control block (9) capable of performing reciprocating linear motion along the vertical direction, and the roundness adjusting assembly (21) is positioned on the vertical direction control block (9).

6. The multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 5, wherein the roundness adjusting assembly (21) comprises a horizontal threaded rod (10) rotatably connected in a vertical direction control block (9), a roundness control wheel disc (11) is connected to the end part of the horizontal threaded rod (10), a roundness adjusting block (12) capable of reciprocating and linearly moving along the horizontal direction is screwed on the horizontal threaded rod (10), a roundness through hole (13) corresponding to the position of the steel pipe access groove (5) is arranged in the roundness adjusting block (12), the diameter of the steel pipe access groove (5) is larger than the roundness through hole (13), the roundness vertical block (2) is also provided with a thread guide block (14), the end part of the roundness adjusting block (12) is connected with a thread guide rod (15), the thread guide rod (15) is in threaded connection with the thread guide block (14), the roundness adjusting block (12) is also provided with a cooling pipe (20) the outlet of which is positioned above the steel pipe inlet groove (5);

Power drive subassembly (6) are including connecting drive base (16) on frame (1), drive base (16) in the symmetry be equipped with two drivers, be connected with the power shaft on every driver, be connected with steel pipe propulsion runner (17) on every power shaft, the steel pipe penetrates in two steel pipe propulsion runners (17) and the steel pipe impels runner (17) with the steel pipe and forms to paste tight cooperation, the position that the steel pipe impeld runner (17) is corresponding with steel pipe access groove (5).

7. The multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 1, wherein the cutting table (34) comprises a clamping component (70) which is arranged on the workbench (60) and can move repeatedly along the axial direction of the workbench (60), the clamping component (70) comprises a sliding seat (71) movably connected with the machine base, a connecting plate (72) is arranged on the sliding seat (71), a clamping driver (73) is arranged at one end of the connecting plate (72), an output shaft of the clamping driver (73) penetrates through the connecting plate (72), and a first clamping plate (74) which can move repeatedly back and forth along the output shaft direction of the clamping driver (73) is arranged at the end part of the output shaft of the clamping driver (73).

8. The multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 7, wherein a rotatable adjusting wheel disc (76) is arranged on the clamping driver (73), an output shaft on the adjusting wheel disc (76) extends into the clamping driver (73) and is connected with the output shaft of the clamping driver (73), a second clamping plate (75) is arranged on the sliding seat (71) and at a position corresponding to the first clamping plate (74), the first clamping plate (74) and the second clamping plate (75) are surrounded to form a channel for a steel pipe to penetrate through, and cutting grooves (77) are respectively arranged on the first clamping plate (74) and the second clamping plate (75).

9. the multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 8, wherein the sliding seat (71) is further provided with a cutting machine (80a) and a water pipe (86) arranged on the cutting machine, the cutting machine (80a) comprises a cutting base (81) hinged with the sliding seat (71), the cutting base (81) is provided with a cutting cover (82) and a cutting driver (83), the end part of an output shaft of the cutting driver (83) is provided with a cutting disc (84) positioned in the cutting cover (82), the cutting base (81) is provided with a water injector (85), the water injector (85) is connected with the water pipe (86), and the end part of the water pipe (86) is communicated into the cutting cover (82).

10. The multi-process full-automatic stainless steel strip continuous pipe making equipment according to claim 9, wherein one side of the sliding seat (71) far away from the clamping component (70) is provided with a plurality of movable drivers (61) arranged on the workbench (60), each movable driver (61) is provided with a rotatable output shaft, the output shafts of the movable drivers (61) are in threaded connection with the sliding seat (71), the end surfaces of the first clamping plate (74) and the second clamping plate (75) are respectively provided with a clamping groove (75a), and the clamping grooves (75a) on the first clamping plate (74) and the second clamping plate (75) are mutually opposite and enclose to form a channel for the steel pipe to penetrate through.