CN210848910U - Full-automatic fence piece welding machine - Google Patents

Abstract

The utility model discloses a full-automatic fence piece welding machine, which comprises a frame, be provided with two horizontal pipe tracks in the frame, its characterized in that, still be provided with in the frame: the horizontal pipe feeding mechanism is used for conveying the horizontal pipes to the corresponding horizontal pipe tracks; the vertical pipe feeding mechanism is used for conveying a vertical pipe between the two horizontal pipe tracks; the horizontal pipe conveying mechanism is used for driving the horizontal pipes to move on the corresponding horizontal pipe tracks; the horizontal pipe spacing adjusting mechanism is used for adjusting the spacing between the two horizontal pipes; and a welding mechanism for welding the riser to the horizontal pipe. The utility model realizes the full automation from feeding to welding completion, and has high automation degree; the utility model discloses can adjust the size of fence piece wantonly, including the interval of horizontal pipe to and the interval between each riser, convenient nimble.

Description

Full-automatic fence piece welding machine

Technical Field

The utility model relates to the technical field of machinery, specifically be a full-automatic fence piece welding machine.

Background

Traditional fence piece welding is carried out through the manual work, and welding quality varies from person to person, and welding efficiency is lower. In the prior art, an automatic welding device adopting a displacement tool is used for welding, after one side of the device is welded, the whole fence piece needs to be turned over, and then the other side of the fence piece is welded, so that the welding efficiency is low; when the size of the fence piece changes, the automatic adjustment cannot be realized, and the automation degree is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic fence piece welding machine to solve present fence piece welding machine welding inefficiency, unable automatically regulated size, the not high problem of degree of automation.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a full-automatic fence piece welding machine, includes the frame, be provided with two horizontal pipe tracks in the frame, still be provided with in the frame:

the horizontal pipe feeding mechanism is used for conveying the horizontal pipes to the corresponding horizontal pipe tracks;

the vertical pipe feeding mechanism is used for conveying a vertical pipe between the two horizontal pipe tracks;

the horizontal pipe conveying mechanism is used for driving the horizontal pipes to move on the corresponding horizontal pipe tracks;

the horizontal pipe spacing adjusting mechanism is used for adjusting the spacing between the two horizontal pipes; and

and the welding mechanism is used for welding the vertical pipe to the horizontal pipe.

Further, the horizontal pipe tracks comprise a first horizontal pipe track and a second horizontal pipe track, the first horizontal pipe track is arranged at the lower end of the rack, and the second horizontal pipe track is arranged at the upper end of the first horizontal pipe track in parallel.

Furthermore, the horizontal pipe feeding mechanism comprises a horizontal pipe feeding rack, a horizontal pipe feeding sliding rail and a horizontal pipe feeding sliding table are arranged on the horizontal pipe feeding rack, the horizontal pipe feeding sliding table is arranged on the horizontal pipe feeding sliding rail in a sliding mode, and a sliding tongue is arranged on the horizontal pipe feeding sliding table.

Furthermore, the motion direction of the horizontal pipe feeding sliding table is perpendicular to the horizontal pipe track.

Further, the tongue of sliding includes tongue seat and first tongue piece, tongue seat and horizontal pipe material loading slip table fixed connection, first tongue piece rotates with the tongue seat through the pivot to be connected, the one end that first tongue piece is close to the tongue seat of sliding has a tongue baffle, the upper end and the tongue seat butt of tongue baffle for the one end that the first tongue piece of sliding was kept away from the tongue seat of sliding can only rotate towards the orbital direction of second horizontal pipe.

Furthermore, one end, far away from the tongue piece seat, of the first tongue piece is rotatably connected with a second tongue piece through a rotating shaft, and one end, far away from the first tongue piece, of the second tongue piece can only rotate towards the direction of the second horizontal pipe track. The contact surface of the first sliding tongue piece and the second sliding tongue piece is provided with a limiting structure, the contact surface of the second sliding tongue piece is a plane, one side, close to the first horizontal pipe track, of the contact surface of the first sliding tongue piece is a plane, and one side, close to the second horizontal pipe track, of the contact surface of the first sliding tongue piece is a circular surface, so that the situation that one end, far away from the first sliding tongue piece, of the second sliding tongue piece can only rotate towards the direction of the second horizontal pipe track is limited. If the sliding tongue only adopts a one-section structure of the first sliding tongue block, the length of the first sliding tongue block has higher requirements, the advancing distance of the horizontal pipe feeding sliding table can be prolonged, and the first sliding tongue block is easy to collide with other parts when being reset in a rotating mode to cause damage. Therefore, preferably, the sliding tongue adopts a two-section structure combining the first sliding tongue block and the second sliding tongue block, the advancing distance of the horizontal pipe feeding sliding table can be effectively reduced, and the probability of collision between the sliding tongue and other parts is reduced.

Furthermore, the horizontal pipe feeding mechanism further comprises a horizontal pipe feeding baffle arranged on one side of the first horizontal pipe track and used for guiding the horizontal pipes into the first horizontal pipe track.

Further, riser feed mechanism includes riser loading frame, be provided with in the riser loading frame:

the first transmission mechanism is used for transmitting the vertical pipe which is horizontally placed to a vertical position; and

the second transmission mechanism is arranged behind the first transmission mechanism and used for conveying the stand pipe to a welding position;

the first transmission mechanism comprises a vertical pipe feeding platform and a first vertical pipe feeding guide rail, the first vertical pipe feeding guide rail is obliquely arranged, one end of the vertical pipe feeding platform is movably connected with a vertical pipe feeding frame, a second vertical pipe feeding guide rail is arranged on one side of the vertical pipe feeding platform, a double-axis slide block is slidably connected in the second vertical pipe feeding guide rail, and the other side of the double-axis slide block is slidably connected to the first vertical pipe feeding guide rail; the cylinder is arranged on the first vertical pipe feeding guide rail and drives the double-shaft-center sliding block to move, so that the vertical pipe feeding table is driven to rotate to a vertical position from a horizontal position.

The second transmission mechanism comprises a first propulsion block, a second propulsion block and a vertical pipe locking mechanism, the second propulsion block is provided with a limiting groove, the first propulsion block is driven by a first propulsion cylinder arranged on a vertical pipe feeding frame, the vertical pipe is pushed to the limiting groove of the second propulsion block, the second propulsion block is driven by a second propulsion cylinder arranged on the vertical pipe feeding frame to push the vertical pipe to the vertical pipe locking mechanism, the vertical pipe locking mechanism comprises a rotary locking cylinder and a vertical pipe limiting plate, the rotary locking cylinder and the vertical pipe limiting plate are both arranged between a first horizontal pipe track and a second horizontal pipe track, the vertical pipe limiting plate is provided with the limiting groove, and the rotary locking cylinder is matched with the vertical pipe limiting plate to lock the vertical pipe. Of course, a track is provided on the travel route of both the first and second propulsion blocks.

Further, horizontal pipe conveying mechanism includes main clamping block, branch storehouse slider and action wheel pressure arm, the fixed intermediate position that sets up at the horizontal pipe track of main clamping block, the both sides of main clamping block set up a storehouse slider respectively, two divide the activity of storehouse slider to set up on the horizontal pipe track, two divide the linkage of storehouse slider, divide the storehouse slider outside to set up the action wheel pressure arm, the action wheel pressure arm is fixed to be set up on the horizontal pipe track, be provided with the clamping jaw respectively on main clamping block and the branch storehouse slider for press from both sides and get fixed horizontal pipe.

Further, action wheel pressure arm includes base, presss from both sides tight piece, pressure arm cylinder and action wheel, it is provided with two to press from both sides tight piece, two press from both sides the one end of tight piece respectively through pivot swing joint on the base, two press from both sides the other end of tight piece respectively with the both ends swing joint of pressure arm cylinder, two be provided with an action wheel on the tight piece of clamp respectively, the action wheel passes through action wheel motor drive and rotates.

Furthermore, horizontal pipe interval adjustment mechanism is including setting up the interval adjustment slide rail in the frame to and set up the interval adjustment slider on the second horizontal pipe track, interval adjustment slider sliding connection is on the interval adjustment slide rail, and interval adjustment slider passes through lead screw drive by the motor.

Further, the welding mechanism comprises more than two welding mechanical arms.

Further, the welding mechanism is a six-axis welding mechanical arm.

The horizontal pipe conveying device comprises a vertical pipe conveying mechanism, a horizontal pipe conveying mechanism and a loading trolley, wherein the vertical pipe conveying mechanism is used for conveying a vertical pipe to the vertical pipe conveying mechanism, and the horizontal pipe conveying mechanism is used for conveying a horizontal pipe to the horizontal pipe conveying mechanism.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a from the material loading to the complete automation of welding completion, degree of automation is high.

(2) The utility model discloses can adjust the size of fence piece wantonly, including the interval of horizontal pipe to and the interval between each riser, convenient nimble.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a horizontal tube feeding mechanism of the present invention;

FIG. 3 is a schematic structural view of the sliding tongue of the present invention;

fig. 4 is an exploded view of the sliding tongue of the present invention;

fig. 5 and 6 are schematic structural views of a first transmission mechanism of the present invention;

fig. 7 and 8 are schematic structural views of a second transmission mechanism according to the present invention;

FIG. 9 is a schematic structural view of the horizontal tube conveying mechanism of the present invention;

fig. 10 is a schematic structural view of the driving pressing arm of the present invention;

fig. 11 is a schematic structural view of the horizontal tube spacing adjustment mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-11, the utility model provides a full-automatic fence piece welding machine, including frame 1, be provided with two horizontal pipe tracks in frame 1, still be provided with in frame 1:

the horizontal pipe feeding mechanism 4 is used for conveying the horizontal pipes 2 to the corresponding horizontal pipe tracks;

a riser feeding mechanism 5 for transporting the riser 3 between the two horizontal pipe tracks;

the horizontal pipe conveying mechanism 6 is used for driving the horizontal pipes 2 to move on the corresponding horizontal pipe tracks;

the horizontal pipe spacing adjusting mechanism 7 is used for adjusting the spacing between the two horizontal pipes 2; and

and a welding mechanism 8 for welding the riser 3 to the horizontal pipe 2.

Specifically, the horizontal pipe rails include a first horizontal pipe rail 11 and a second horizontal pipe rail 12, the first horizontal pipe rail 11 is disposed at the lower end of the rack 1, and the second horizontal pipe rail 12 is disposed at the upper end of the first horizontal pipe rail 11 in parallel.

Specifically, as shown in fig. 2-4, the horizontal tube feeding mechanism 4 includes a horizontal tube feeding rack 41, a horizontal tube feeding slide rail 42 and a horizontal tube feeding slide table 421 are disposed on the horizontal tube feeding rack 41, the horizontal tube feeding slide table 421 is slidably connected to the horizontal tube feeding slide rail 42 through a motor, a slide tongue 43 is disposed on the horizontal tube feeding slide table 421, and a moving direction of the horizontal tube feeding slide table 421 is perpendicular to a horizontal tube track.

The sliding tongue 43 comprises a sliding tongue seat 431 and a first sliding tongue block 432, the sliding tongue seat 431 is fixedly connected with the horizontal pipe feeding sliding table 421, the first sliding tongue block 432 is rotatably connected with the sliding tongue seat 431 through a rotating shaft, one end, close to the sliding tongue seat 431, of the first sliding tongue block 432 is provided with a sliding tongue baffle 4321, the upper end of the sliding tongue baffle 4321 is abutted to the sliding tongue seat 431 and used for limiting one end, far away from the sliding tongue seat 431, of the first sliding tongue block 432 to only rotate towards the direction of the second horizontal pipe track 12.

In a preferred embodiment, as shown in fig. 2 and 3, one end of the first sliding tongue block 432 away from the sliding tongue seat 431 is rotatably connected with a second sliding tongue block 433 through a rotating shaft, and one end of the second sliding tongue block 433 away from the first sliding tongue block 432 can only rotate towards the direction of the second horizontal pipe track 12. The contact surfaces of the first sliding tongue piece 432 and the second sliding tongue piece 433 are provided with limiting structures, the contact surface of the second sliding tongue piece 433 is a plane, one side, close to the first horizontal pipe track 11, of the contact surface of the first sliding tongue piece 432 is a plane, and one side, close to the second horizontal pipe track 12, of the contact surface of the first sliding tongue piece 432 is a circular surface, so that the situation that one end, far away from the first sliding tongue piece 432, of the second sliding tongue piece 433 can only rotate towards the direction of the second horizontal pipe track 12 is limited. If the sliding tongue 43 only adopts the one-stage structure of the first sliding tongue block 432, the length of the first sliding tongue block 432 is required to be high, the advancing distance of the horizontal tube feeding sliding table 421 will be extended, and the first sliding tongue block 432 is easy to collide with other components to cause damage when being rotated and reset. Therefore, preferably, the sliding tongue 43 adopts a two-stage structure combining the first sliding tongue block 432 and the second sliding tongue block 433, which can effectively reduce the travel distance of the horizontal pipe feeding sliding table 421 and reduce the probability of collision between the sliding tongue 43 and other components.

The horizontal pipe feeding mechanism 4 further comprises a horizontal pipe sensor arranged on the second horizontal pipe track 12, the horizontal pipe sensor is used for detecting whether a horizontal pipe is present on the second horizontal pipe track 12, when no horizontal pipe is present on the second horizontal pipe track 12, the horizontal pipe feeding sliding table 421 on the horizontal pipe feeding rack 41 moves towards the direction of the first horizontal pipe track 11, in the process, the bottoms of the first sliding tongue block 432 and the second sliding tongue block 433 respectively contact with the horizontal pipe 2 and rotate, namely, the sliding tongue 43 can pass the block of the horizontal pipe 2 in the process of moving towards the first horizontal pipe track 11 until the sliding tongue 43 moves to the lower end of the first horizontal pipe track 11, then the horizontal pipe feeding sliding table 421 moves towards the direction of the second horizontal pipe track 12, in the process, the upper ends of the first sliding tongue block 432 and the second sliding tongue block 433 respectively contact with the horizontal pipe 2, under the action of the sliding tongue baffle 4321 and the limit structure, the first sliding tongue block 432 and the second sliding tongue block 433 can not rotate, and the horizontal pipe 2 on the first horizontal pipe track 11 is lifted to the second horizontal pipe track 12; when a horizontal pipe 2 is already present on the second horizontal pipe track 12, the horizontal pipe loading slipway 421 on the horizontal pipe loading rack 41 remains stationary.

In a preferred embodiment, vial feeding mechanism 4 further comprises a vial feeding baffle 44 disposed on one side of first vial track 11 for directing vials 2 into first vial track 11.

Specifically, as shown in fig. 5 to 9, the riser feeding mechanism 5 includes a riser feeding rack 51, and the riser feeding rack 51 is provided with:

a first transfer mechanism 52 for transferring the horizontally placed riser 3 to a vertical position; and

a second transfer mechanism 53, disposed behind first transfer mechanism 52, for transferring riser 3 to a welding location between first and second horizontal pipe tracks 11 and 12.

As shown in fig. 5 and 6, the first transmission mechanism 52 includes a riser feeding table 521 and a first riser feeding guide rail 522, the first riser feeding guide rail 522 is obliquely arranged, one end of the riser feeding table 521 is movably connected to the riser feeding frame 51, a second riser feeding guide rail 523 is disposed on one side of the riser feeding table 521, a double-axis slider 524 is slidably connected to the second riser feeding guide rail 523, and the other side of the double-axis slider 524 is slidably connected to the first riser feeding guide rail 522. During operation, the vertical pipe 3 is conveyed to the vertical pipe feeding table 521 by an automatic feeding mechanism, and the first vertical pipe feeding guide rail 522 is provided with an air cylinder to drive the double-axis slide block 524 to move, so that the vertical pipe feeding table 521 is driven to rotate from a horizontal position to a vertical position.

As shown in fig. 7 and 8, the second transmission mechanism 53 includes a first pushing block 531, a second pushing block 532, and a riser locking mechanism, the second pushing block 532 has a limiting groove 533, the first pushing block 531 is driven by a first pushing cylinder 534 disposed on the riser feeder frame 51 to push the vertically disposed riser 3 to the limiting groove 533 of the second pushing block 532, the second pushing block 532 is driven by a second pushing cylinder 535 disposed on the riser feeder frame 51 to push the riser 3 to the riser locking mechanism, the riser locking mechanism includes a rotation locking cylinder 536 and a riser limiting plate 537, the rotation locking cylinder 536 and the riser limiting plate 537 are both disposed between the first horizontal pipe rail 11 and the second horizontal pipe rail 12, the riser limiting plate 537 has a limiting groove 533, and the rotation locking cylinder 536 is matched with the riser limiting plate 537 to lock the riser 3. Of course, a track is provided on the traveling path of each of the first and second push blocks 531 and 532. During operation, the first pushing block 531 pushes the vertical pipe 3 to the position of the limiting groove 533 of the second pushing block 532, the second pushing block 532 pushes the vertical pipe 3 to the position of the limiting groove 533 of the vertical pipe limiting plate 537, and then the rotary locking cylinder 536 presses the vertical pipe 3 against the vertical pipe limiting plate 537 to wait for welding.

Specifically, as shown in fig. 9 and 10, the horizontal tube conveying mechanism 6 includes a main clamping block 61, a bin dividing slider 62 and a driving pressure arm 63, the horizontal tube conveying mechanism 6 is disposed on each of the first horizontal tube rail 11 and the second horizontal tube rail 12, the main clamping block 61 is fixedly disposed at the middle position of the horizontal tube rail, the two sides of the main clamping block 61 are respectively provided with a bin dividing slider 62, the two bin dividing sliders 62 are movably disposed on the horizontal tube rail, the two bin dividing sliders 62 are linked, the driving pressure arm 63 is disposed outside the bin dividing slider 62, the driving pressure arm 63 is fixedly disposed on the horizontal tube rail, and the main clamping block 61 and the bin dividing slider 62 are respectively provided with a clamping jaw 64 for clamping the fixed horizontal tube 2.

As shown in fig. 10, the driving pressure arm 63 includes a base 631, two clamping blocks 632, a pressure arm cylinder 633 and a driving wheel 634, the two clamping blocks 632 are provided, one end of each of the two clamping blocks 632 is movably connected to the base 631 through a rotating shaft, the other end of each of the two clamping blocks 632 is movably connected to two ends of the pressure arm cylinder 633, the two clamping blocks 632 are provided with a driving wheel 634, and the driving wheel 634 is driven to rotate by a driving wheel motor 635.

When the horizontal tube conveying mechanism 6 works, the horizontal tube 2 is driven by the driving wheel pressure arm 63 to move on the horizontal tube track, when the front end of the horizontal tube 2 is contacted with the main clamping block 61, the clamping jaw 64 on the main clamping block 61 clamps the horizontal tube 2, and at the moment, the driving wheel pressure arm 63 is loosened; then the bin dividing slide block 62 moves to the next target welding position of the horizontal pipe 2 and clamps the horizontal pipe 2, at this time, the main clamping block 61 is loosened, the horizontal pipe 2 is driven by the bin dividing slide block 62 to move forwards to the target welding position, the position of the horizontal pipe 2 is the same as that of the vertical pipe 3, at this time, the main clamping block 61 is clamped again, the vertical pipe 3 is welded to the target welding position of the horizontal pipe 2 by the welding mechanism 8, and then the bin dividing slide block 62 is loosened and continuously moved to the next welding position of the horizontal pipe 2. The purpose of arranging two warehouse dividing sliding blocks 62 is to enable one warehouse dividing sliding block 62 to drive the horizontal pipe 2 to move when the front end of the horizontal pipe 2 enters and the rear end of the horizontal pipe leaves.

Specifically, as shown in fig. 11, the horizontal pipe spacing adjustment mechanism 7 includes a spacing adjustment slide rail 71 disposed on the rack 1, and a spacing adjustment slider 72 disposed on the second horizontal pipe rail 12, the spacing adjustment slider 72 is slidably connected to the spacing adjustment slide rail 71, and the spacing adjustment slider 72 is driven by a spacing adjustment motor 73 through a lead screw 74. The horizontal pipe interval adjusting mechanism 7 can freely adjust the interval between the horizontal pipes 2.

Specifically, the welding mechanism 8 includes more than two welding robots, and in a preferred embodiment, the welding mechanism is a six-axis welding robot.

In a preferred embodiment, the fully automatic fence tab welding machine includes a skip car for transporting riser 3 to riser feed mechanism 5 and horizontal pipe 2 to horizontal pipe feed mechanism 4. The above-mentioned material loading vehicle is an automatic material loading vehicle, and the material loading vehicle is a prior art, and the specific structure thereof is not detailed here.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a full-automatic fence piece welding machine, includes the frame, be provided with two horizontal pipe tracks in the frame, its characterized in that, still be provided with in the frame:

the horizontal pipe feeding mechanism is used for conveying the horizontal pipes to the corresponding horizontal pipe tracks;

the vertical pipe feeding mechanism is used for conveying a vertical pipe between the two horizontal pipe tracks;

the horizontal pipe conveying mechanism is used for driving the horizontal pipes to move on the corresponding horizontal pipe tracks;

the horizontal pipe spacing adjusting mechanism is used for adjusting the spacing between the two horizontal pipes; and

and the welding mechanism is used for welding the vertical pipe to the horizontal pipe.

2. The full-automatic fence tab welding machine of claim 1, wherein the horizontal tube rails comprise a first horizontal tube rail disposed at a lower end of the machine frame and a second horizontal tube rail disposed in parallel at an upper end of the first horizontal tube rail.

3. The full-automatic fence piece welding machine of claim 2, wherein the horizontal tube feeding mechanism comprises a horizontal tube feeding rack, a horizontal tube feeding slide rail and a horizontal tube feeding sliding table are arranged on the horizontal tube feeding rack, the horizontal tube feeding sliding table is slidably arranged on the horizontal tube feeding slide rail, and a slide tongue is arranged on the horizontal tube feeding sliding table.

4. The full-automatic fence piece welding machine of claim 3, characterized in that the tongue comprises a tongue seat and a first tongue block, the tongue seat is fixedly connected with a horizontal tube feeding sliding table, the first tongue block is rotatably connected with the tongue seat through a rotating shaft, one end, close to the tongue seat, of the first tongue block is provided with a tongue baffle, the upper end of the tongue baffle is abutted against the tongue seat, and the end, far away from the tongue seat, of the first tongue block is limited to rotate only towards the direction of the second horizontal tube track.

5. The full-automatic fence piece welding machine as claimed in claim 4, wherein one end of the first sliding tongue piece, which is far away from the sliding tongue seat, is rotatably connected with a second sliding tongue piece through a rotating shaft, and one end of the second sliding tongue piece, which is far away from the first sliding tongue piece, can only rotate towards the direction of the second horizontal pipe track.

6. The full-automatic fence piece welding machine of claim 2, wherein the riser feed mechanism comprises a riser feed rack, the riser feed rack having disposed thereon:

the first transmission mechanism is used for transmitting the vertical pipe which is horizontally placed to a vertical position; and

the second transmission mechanism is arranged behind the first transmission mechanism and used for conveying the stand pipe to a welding position;

the first transmission mechanism comprises a vertical pipe feeding platform and a first vertical pipe feeding guide rail, the first vertical pipe feeding guide rail is obliquely arranged, one end of the vertical pipe feeding platform is movably connected with a vertical pipe feeding frame, a second vertical pipe feeding guide rail is arranged on one side of the vertical pipe feeding platform, a double-axis slide block is slidably connected in the second vertical pipe feeding guide rail, and the other side of the double-axis slide block is slidably connected to the first vertical pipe feeding guide rail;

second transmission device includes first propulsion piece, second propulsion piece and riser locking mechanical system, the second propulsion piece has a spacing recess, the riser that first propulsion piece will be vertical to be placed pushes away the spacing recess department to the second propulsion piece, the second propulsion piece promotes the riser to riser locking mechanical system department, riser locking mechanical system includes rotatory locking cylinder and riser limiting plate, rotatory locking cylinder and riser limiting plate all set up between first horizontal pipe track and second horizontal pipe track, the riser limiting plate has spacing recess, rotatory locking cylinder locks the riser with the cooperation of riser limiting plate.

7. The full-automatic fence piece welding machine according to claim 1, wherein the horizontal pipe conveying mechanism comprises a main clamping block, bin dividing sliders and driving wheel pressing arms, the main clamping block is fixedly arranged in the middle of the horizontal pipe track, two bin dividing sliders are respectively arranged on two sides of the main clamping block, the two bin dividing sliders are movably arranged on the horizontal pipe track, the two bin dividing sliders are linked, the driving wheel pressing arms are arranged on the outer sides of the bin dividing sliders, the driving wheel pressing arms are fixedly arranged on the horizontal pipe track, and clamping jaws are respectively arranged on the main clamping block and the bin dividing sliders and used for clamping and fixing the horizontal pipe.

8. The full-automatic fence piece welding machine according to claim 7, wherein the driving wheel pressure arm comprises a base, two clamping blocks, a pressure arm cylinder and a driving wheel, one end of each of the two clamping blocks is movably connected to the base through a rotating shaft, the other end of each of the two clamping blocks is movably connected to two ends of the pressure arm cylinder, and the two clamping blocks are respectively provided with a driving wheel.

9. The full-automatic fence piece welding machine of claim 2, wherein the horizontal tube spacing adjustment mechanism comprises a spacing adjustment slide rail disposed on the frame, and a spacing adjustment slider disposed on the second horizontal tube track, the spacing adjustment slider slidably coupled to the spacing adjustment slide rail.

10. The full automatic fence tab welding machine of claim 1, further comprising a skip car for transporting said riser to said riser feeding mechanism and said horizontal pipe to said horizontal pipe feeding mechanism.

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