CN213672786U - Automatic upright column bending welding device - Google Patents

Abstract

The utility model relates to an automatic column bending welding device, which comprises a conveying and shaping module, a bending and feeding module, a welding module, a blanking and shaping module and a control system; the conveying and shaping module is used for conveying incoming materials to the bending and feeding module, the bending and feeding module is used for clamping the incoming materials and performing positioning, bending and shaping, the welding module is used for welding a pipe seal formed by bending, the blanking and shaping module is used for shaping a product subjected to bending and welding to a preset size and then outputting the product, and the control system is simultaneously communicated with the conveying and shaping module, the bending and feeding module, the welding module and the blanking and shaping module to realize driving and control of the whole system; the utility model discloses not only save the manual work, can guarantee the quality of standardized product moreover.

Description

Automatic upright column bending welding device

Technical Field

The utility model relates to an automatic stand is bent and is welded device belongs to a novel automatic feeding welding equipment field of bending.

Background

With the development of the times, the living standard of people is improved, the demand of products is greatly increased, the existing welding of similar products is mainly in manual and semi-manual states, generally, four persons are needed for welding the products, the working efficiency is low, the labor intensity of workers is high, and meanwhile, the quality of standardized products is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic stand is bent and is welded device not only saves the manual work, can guarantee the quality of standardized product moreover.

The utility model provides a technical scheme that its technical problem adopted is:

an automatic column bending welding device comprises a conveying shaping module, a bending feeding module, a welding module, a blanking shaping module and a control system;

the conveying and shaping module is used for conveying incoming materials to the bending and feeding module, the bending and feeding module is used for clamping the incoming materials and performing positioning, bending and shaping, the welding module is used for welding a pipe seal formed by bending, the blanking and shaping module is used for shaping a product subjected to bending and welding to a preset size and then outputting the product, and the control system is simultaneously communicated with the conveying and shaping module, the bending and feeding module, the welding module and the blanking and shaping module to realize driving and control of the whole system;

as a further preferred feature of the present invention, the conveying and shaping module includes a speed reduction motor, which is fixedly mounted on the angle aluminum bracket, a plurality of sprockets are disposed on one side of the angle aluminum bracket opposite to the bending and feeding module, an output shaft of the speed reduction motor is connected to an adjacent sprocket, and the plurality of sprockets are connected by a chain;

a conveying connecting plate is arranged on the other side of the angle aluminum support, a plurality of rollers are distributed on the conveying connecting plate, the rollers are matched with corresponding chain wheels, and the chain moves to drive the chain wheels to roll, so that the rollers are driven to rotate;

a plurality of guide plate groups are vertically arranged on the conveying connecting plate, each guide plate group comprises two guide plates which are oppositely arranged, the guide plate groups are positioned between the two rollers, and the conveying connecting plate also comprises a conveying guide rod which penetrates through the angle aluminum bracket to abut against the conveying connecting plate; the jacking cylinder is fixed at the bottom of the angle aluminum support, and the head of the jacking cylinder is vertically fixed with the conveying connecting plate;

as a further preference of the utility model, a blocking positioning plate and a feed inlet supporting plate are respectively installed at two ends of the angle aluminum bracket, the blocking positioning plate is adjacent to the gear motor, a feed inlet is installed on the feed inlet supporting plate, the feed inlet protrudes out of the feed inlet supporting plate, a conveying cylinder is arranged at the bottom of the feed inlet, and a conveying cylinder rod is abutted against the feed inlet;

the angle aluminum bracket is also provided with a protective cover which is covered on the roller;

as a further preference of the utility model, the bending and feeding module comprises a welding rack, and the angle aluminum bracket is fixed on the side wall of the welding rack through a rack connecting plate;

the bending and feeding finger cylinder is connected with the rodless cylinder through the bending and feeding finger cylinder support, and the bending and feeding finger cylinder is positioned above the space between the two platens;

guide metal plates are respectively arranged at the positions, close to the angle aluminum support, of the two platens, pressing cylinders are respectively arranged on the platens at the two sides of the space, guide bearings are respectively arranged at the two sides of the pressing cylinders, and positioning blocks are respectively arranged at the positions, far away from the guide metal plates, of the platens;

as a further preference of the utility model, adjusting feet are arranged at the bottoms of four frame feet of the welding frame;

as a further preferred aspect of the present invention, the welding module comprises a wire feeding device, a welding device and an air feeding device,

the welding device comprises a welding support, welding guns are erected on the welding support, two sides of a linear module are respectively connected with one welding support in a sliding mode, a welding servo motor is installed at the bottom end of the linear module, a linear module connecting plate is installed on the side wall of the linear module between the two welding supports and is connected to the bottom of an upper fixing plate in a sliding mode through a guide rail pair sliding block, and the upper fixing plate is located between the two welding guns;

a welding cylinder is also installed at the bottom of the upper fixing plate, a piston rod of the welding cylinder is connected with a linear module connecting plate, the welding cylinder is started, and the linear module connecting plate moves on the upper fixing plate through a guide rail pair sliding block;

the wire feeding device is a wire feeder, and mixed gas is distributed in the gas feeding device;

as a further preferred feature of the present invention, the blanking shaping module includes a blanking servo motor, the blanking servo motor is erected on a support plate, the support plate is mounted at an end of the aluminum profile support through a belt pulley connecting plate, a motor shaft of the blanking servo motor is connected to a synchronous pulley, a driven wheel support is mounted at another end of the aluminum profile support through a belt pulley connecting plate, the driven wheel is mounted on the driven wheel support, and the synchronous pulley is connected to the driven wheel through a synchronous belt;

one end of a synchronous belt connecting plate is arranged on a synchronous belt, the other end of the synchronous belt connecting plate is fixedly connected to the surface of a blanking connecting plate, a blanking cylinder and four blanking guide rods are further arranged on the blanking connecting plate and located at four corners of the blanking connecting plate, the four blanking guide rods are respectively connected with the surface of a finger cylinder connecting plate after penetrating through the blanking connecting plate through linear bearings, the blanking cylinder is fixed on the blanking connecting plate through a cylinder fixing plate, the blanking cylinder is started, and the blanking guide rods drive the blanking connecting plate to move up and down in a reciprocating mode under the restraint of the linear bearings;

shaping cylinders are respectively installed at four corners of the bottom of a blanking connecting plate, a reciprocating shaft of each shaping cylinder is connected with a blanking finger cylinder, a blanking guide rail is installed at the bottom end of the blanking connecting plate, each blanking finger cylinder is connected in the blanking guide rail in a matching mode through a blanking sliding block, and the blanking finger cylinders are started to drive the blanking finger cylinders to clamp or loosen products which are bent and welded for outer support shaping;

guard plates are respectively arranged on two sides of the finger cylinder connecting plate;

as the utility model discloses a further preferred, aforementioned control system includes the PLC switch board, and it realizes the intercommunication with entire system, still includes the operation display screen simultaneously, shows information in real time on the operation display screen.

Through above technical scheme, for prior art, the utility model discloses following beneficial effect has:

1. the whole system of the utility model adopts PLC control, which is simple and reliable;

2. the equipment provided by the utility model can operate the whole production line by only one operator, thus greatly reducing the labor cost;

3. in the system provided by the utility model, the driving devices are a speed reducing motor, a servo motor, a cylinder and the like, the system has the characteristics of high conveying speed and accurate positioning precision, and the production efficiency is improved;

4. the utility model provides an equipment can saw cut unloading equipment, cut V equipment and drilling tapping equipment with other and form the intercommunication, has realized the automation of whole production line, and one-man operation can accomplish.

Drawings

The present invention will be further explained with reference to the drawings and examples.

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

fig. 2 is a front view of a delivery and sizing module in a preferred embodiment provided by the present invention;

fig. 3 is a side view of a delivery and sizing module in a preferred embodiment provided by the present invention;

fig. 4 is a schematic structural view of a bending and feeding module in a preferred embodiment of the present invention;

fig. 5 is a schematic structural diagram of a welding module with respect to a welding device according to a preferred embodiment of the present invention;

FIG. 6 is a side view of a welding module in a preferred embodiment of the present invention with respect to a welding device;

fig. 7 is a schematic structural view of a blanking shaping module in the preferred embodiment of the present invention.

In the figure: 1 is a speed reducing motor, 2 is a protective cover, 3 is a blocking positioning plate, 4 is a roller, 5 is a conveying connecting plate, 6 is a conveying guide rod, 7 is an angle aluminum support, 8 is a guide plate, 9 is a jacking cylinder, 10 is a conveying cylinder, 11 is a feed inlet, 12 is a feed inlet support plate, 13 is a chain wheel, 14 is a chain, 15 is a frame connecting plate, 21 is an aluminum profile support, 22 is a welding frame, 23 is a guide metal plate, 24 is a bending feeding finger cylinder support, 25 is a bending feeding finger cylinder, 26 is a rodless cylinder, 27 is a pressing cylinder, 28 is a positioning block, 29 is a guide bearing, 30 is an adjusting ground foot, 31 is a platen, 41 is a wire feeder, 42 is a welding machine, 43 is mixed gas, 44 is a welding gun, 45 is a welding support, 46 is an upper fixing plate, 47 is a welding cylinder, 48 is a linear module, 49 is a welding servo motor, 50 is a guide rail pair sliding block, and 51 is a linear, 61 is a belt wheel connecting plate, 62 is a blanking servo motor, 63 is a support plate, 64 is a synchronous belt wheel, 65 is a synchronous belt, 66 is a finger of a blanking finger cylinder, 67 is a product, 68 is a blanking finger cylinder, 69 is a blanking guide rail, 70 is a blanking sliding block, 71 is a finger cylinder connecting plate, 72 is a shaping cylinder, 73 is a linear bearing, 74 is a cylinder fixing plate, 75 is a blanking cylinder, 76 is a driven wheel, 77 is a driven wheel support, 78 is a belt wheel connecting plate, 79 is a blanking guide rod, 80 is a synchronous belt connecting plate, 81 is a blanking connecting plate, and 82 is a protective plate.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In order to solve the problems in the background art, the application aims to provide an automatic column bending welding device which mainly comprises five parts, namely a conveying shaping module, a bending feeding module, a welding module, a blanking shaping module and a control system; the conveying and shaping module is used for conveying incoming materials to the bending and feeding module and overturning the incoming materials by an angle, the bending and feeding module is used for clamping the incoming materials and performing positioning, bending and shaping, the welding module is used for welding a pipe seal formed by bending, the discharging and shaping module is used for shaping a product subjected to bending and welding to a preset size and then conveying the product to the next procedure for processing, and the control system is simultaneously communicated with the conveying and shaping module, the bending and feeding module, the welding module and the discharging and shaping module to realize the control of the driving, the operation mode and the speed of the whole system.

The following makes specific statements on the individual modules: fig. 1 is a schematic diagram of the whole structure, wherein fig. 2 is a schematic diagram of a conveying and shaping module, the conveying and shaping module comprises a speed reducing motor 1 which is fixedly installed on an angle aluminum bracket 7, one side of the angle aluminum bracket, which is bent relative to a feeding module, is provided with a plurality of chain wheels 13, an output shaft of the speed reducing motor is connected with an adjacent chain wheel, the chain wheels are connected through a chain 14, and as long as the chain wheels adjacent to the output shaft of the speed reducing motor rotate, all the chain wheels can be driven to rotate through the chain; as shown in fig. 3, a conveying connecting plate 5 is arranged on the other side of the angle aluminum support, a plurality of rollers 4 are arranged on the conveying connecting plate, the rollers are matched with corresponding chain wheels, and the chain moves to drive the chain wheels to roll, so that the rollers are driven to rotate; the rolling of a plurality of rollers drives the incoming materials to move forwards; a plurality of guide plate groups are vertically arranged on the conveying connecting plate, each guide plate group comprises two guide plates 8 which are oppositely arranged, the guide plate groups are positioned between two rollers, and the distance between the two guide plates in each guide plate group restricts the advancing direction of the supplied materials; the conveying guide rod 6 penetrates through the angle aluminum bracket to abut against the conveying connecting plate; jacking cylinder 9 is fixed in the bottom of angle aluminium support, and jacking cylinder head and transport connecting plate vertical fixation, and the restraint scope that rises under the jacking cylinder effect has been given to the transport connecting plate in the setting of conveying guide pole.

When the incoming materials are pushed on the rollers, in order to avoid the incoming materials from being pushed forwards all the time, a blocking positioning plate 3 and a feed inlet supporting plate 12 are respectively arranged at two ends of the angle aluminum bracket, and the blocking positioning plate is adjacent to the speed reducing motor; a feeding hole 11 is arranged on the feeding hole supporting plate, the feeding hole protrudes out of the feeding hole supporting plate, a conveying cylinder 10 is arranged at the bottom of the feeding hole, a conveying cylinder rod is abutted against the feeding hole, the conveying cylinder is started, and the feeding hole rotates to realize rotation of a feeding angle; and a protective cover 2 is also arranged on the angle aluminum bracket and is covered on the roller.

As shown in fig. 4, the bending and feeding module includes a welding frame 22, and an angle aluminum bracket is fixed on a side wall of the welding frame through a frame connecting plate 15;

an aluminum profile support 21 is arranged on a welding machine frame, a rodless cylinder 26 is arranged on the aluminum profile support, two platens 31 are arranged at the top of the welding machine frame, a space is reserved between the two platens, a bending and feeding finger cylinder 25 is connected with the rodless cylinder through a bending and feeding finger cylinder support 24, and the bending and feeding finger cylinder is positioned above the space between the two platens; the bending feeding finger cylinder respectively clamps incoming materials from the middle part and stretches the incoming materials to the inner side, guide metal plates 23 are respectively arranged at the positions, close to the angle aluminum support, of the two platens, the incoming materials are gradually bent due to the arrangement of the guide metal plates, pressing cylinders 27 are respectively arranged on the platens at the two sides of the space, guide bearings 29 are respectively arranged at the two sides of each pressing cylinder, positioning blocks 28 are respectively arranged at the positions, far away from the guide metal plates, of the platens, when the incoming materials are bent to the positioning blocks, the bending step is finished at the moment, and the pressing cylinders are started to realize shaping; since it may be necessary to adjust the height of the welding stand during the bending operation, adjustment feet 30 are installed at the bottom of the four stand legs of the welding stand.

The welding module comprises a wire feeding device, a welding device and an air feeding device, as shown in fig. 5, the welding device comprises a welding support 45, a welding gun 44 is erected on the welding support, two welding supports are respectively connected with two sides of a linear module 48 in a sliding manner, the welding gun can run up and down along the linear module, a welding servo motor 49 is installed at the bottom end of the linear module, a linear module connecting plate 51 is installed on the side wall of the linear module between the two welding supports and is connected with the bottom of an upper fixing plate 46 in a sliding manner through a guide rail pair sliding block 50, and the upper fixing plate is located between the two welding guns; a welding cylinder 47 is further installed at the bottom of the upper fixing plate, a piston rod of the welding cylinder is connected with a linear module connecting plate, and as can be seen in fig. 6, when the welding cylinder is started, the linear module connecting plate moves on the upper fixing plate through a guide rail pair sliding block; in the welding module, the wire feeder is a wire feeder 41, and a mixed gas 43 is distributed in the gas feeder. It should be noted that the linear template is a relatively common slide rail and slide block structure, and only needs to satisfy that the welding gun can move up and down.

As shown in fig. 7, the blanking shaping module includes a blanking servo motor 62, the blanking servo motor is erected on a support plate 63, the support plate is mounted at the end of an aluminum profile support through a belt wheel connecting plate 61, a motor shaft of the blanking servo motor is connected with a synchronous belt wheel 64, a driven wheel support 77 is mounted at the other end of the aluminum profile support through a belt wheel connecting plate 78, a driven wheel 76 is mounted on the driven wheel support, and the synchronous belt wheel is connected with the driven wheel through a synchronous belt 65; one end of a synchronous belt connecting plate 80 is installed on a synchronous belt, reciprocating motion of the synchronous belt connecting plate can be achieved, the other end of the synchronous belt connecting plate is fixedly connected to the surface of a blanking connecting plate 81, a blanking cylinder 75 and four blanking guide rods 79 are further installed on the blanking connecting plate, the four blanking guide rods are located at four corners of the blanking connecting plate and are connected with the surface of a finger cylinder connecting plate 71 after penetrating through the blanking connecting plate through linear bearings 73 respectively, guard plates 82 are installed on two sides of the finger cylinder connecting plate respectively, the blanking cylinder is fixed on the blanking connecting plate through a cylinder fixing plate 74 and is started, and the blanking guide rods drive the blanking connecting plate to reciprocate up and down under the constraint of the linear bearings; shaping cylinders 72 are respectively installed at four corners of the bottom of the blanking connecting plate, a reciprocating shaft of each shaping cylinder is connected with a blanking finger cylinder 68, a blanking guide rail 69 is installed at the bottom end of the blanking connecting plate, each blanking finger cylinder is connected in the blanking guide rail in a matching mode through a blanking sliding block 70, and the blanking finger cylinders are started to drive the blanking finger cylinders to clamp or loosen products 67 which are bent and welded to carry out external support shaping.

In this application, control system includes the PLC switch board, and it realizes the intercommunication with entire system for entire system's mechanical action stably carries out reciprocating motion in order to reach the purpose of replacing manual production as required, still includes the operation display screen simultaneously, shows information in real time on the operation display screen.

The application also provides a bending welding process based on the automatic upright post bending welding device, an operator presses a start button to start a PLC control cabinet, the whole system enters an operation mode, a jacking cylinder in a conveying and shaping module ascends to drive a conveying connecting plate to ascend within the restraint range of a conveying guide rod, a speed reduction motor is started to drive adjacent chain wheels to rotate, the chain wheels drive the chain wheels of the whole system to rotate through chains, the chain wheels drive matched rollers to rotate after rotating, incoming materials enter through a feed inlet, and the rollers rotate to drive the incoming materials to be conveyed forwards until the incoming materials are limited by a blocking positioning plate; the conveying cylinder is started, and the feeding hole is rotated to drive the incoming material to rotate by 90 degrees;

after supplied materials are turned, fingers of a bending and feeding finger cylinder clamp the supplied materials from unfolding to closing, a jacking cylinder descends to drive a conveying connecting plate to descend, a rodless cylinder is started, the bending and feeding finger cylinder pulls the supplied materials to be restrained to a bending state through two guide metal plates, when the supplied materials reach a positioning block, positioning bending forming is completed, the conveying cylinder acts again at the moment, a cylinder rod of the conveying cylinder resets a feed inlet, a pressing cylinder starts to press, position and bend the formed products, the rodless cylinder sends a loosening instruction to the bending and feeding finger cylinder, and the rodless cylinder resets;

then, starting a welding servo motor, lifting two welding guns to a designated position, enabling a welding cylinder to retreat to drive the welding guns to be close to a product, starting a welding machine 42, a wire feeder and an air supply device to weld the product, resetting the welding cylinder to push out the welding guns after welding is finished, and starting the welding servo motor to lower and reset the welding guns to finish the whole welding action;

finally, starting the blanking cylinder, pushing out the blanking finger cylinder in an open state towards the direction of the product, closing the finger 66 of the blanking finger cylinder, clamping the product, and driving the blanking finger cylinder to ascend to a specified position again by the blanking cylinder; the blanking servo motor is started, the blanking finger cylinder for clamping the product is moved to a blanking position, the blanking finger cylinder receives a loosening instruction at the moment and loses the product which is bent and welded to an appointed position, and finally the blanking finger cylinder returns to the position to be taken again.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The meaning of "and/or" as used herein is intended to include both the individual components or both.

The term "connected" as used herein may mean either a direct connection between components or an indirect connection between components via other components.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides an automatic stand is bent and is welded device which characterized in that: the automatic bending and shaping device comprises a conveying and shaping module, a bending and feeding module, a welding module, a blanking and shaping module and a control system;

the conveying and shaping module is used for conveying supplied materials to the bending and feeding module, the bending and feeding module is used for clamping the supplied materials and performing positioning, bending and shaping, the welding module is used for welding a pipe seal formed by bending, the discharging and shaping module is used for shaping a product subjected to bending and welding to a preset size and then outputting the product, and the control system is simultaneously communicated with the conveying and shaping module, the bending and feeding module, the welding module and the discharging and shaping module to realize driving and control of the whole system.

2. The automatic pillar bend welding device according to claim 1, characterized in that: the conveying and shaping module comprises a speed reducing motor which is fixedly arranged on an angle aluminum support, a plurality of chain wheels are distributed on one side of the angle aluminum support, which is opposite to the bending and feeding module, the output shaft of the speed reducing motor is connected with an adjacent chain wheel, and the chain wheels are connected through a chain;

a conveying connecting plate is arranged on the other side of the angle aluminum support, a plurality of rollers are distributed on the conveying connecting plate, the rollers are matched with corresponding chain wheels, and the chain moves to drive the chain wheels to roll, so that the rollers are driven to rotate;

a plurality of guide plate groups are vertically arranged on the conveying connecting plate, each guide plate group comprises two guide plates which are oppositely arranged, the guide plate groups are positioned between the two rollers, and the conveying connecting plate also comprises a conveying guide rod which penetrates through the angle aluminum bracket to abut against the conveying connecting plate; the jacking cylinder is fixed at the bottom of the angle aluminum support, and the head of the jacking cylinder is vertically fixed with the conveying connecting plate.

3. The automatic pillar bend welding device according to claim 2, characterized in that: a blocking positioning plate and a feed port supporting plate are respectively arranged at two ends of the angle aluminum support, the blocking positioning plate is adjacent to the speed reduction motor, a feed port is arranged on the feed port supporting plate, the feed port protrudes out of the feed port supporting plate, a conveying cylinder is arranged at the bottom of the feed port, and a rod of the conveying cylinder is abutted against the feed port;

and a protective cover is also arranged on the angle aluminum bracket and covers the roller.

4. The automatic pillar fillet welding device according to claim 3, characterized in that: the bending and feeding module comprises a welding rack, and an angle aluminum support is fixed on the side wall of the welding rack through a rack connecting plate;

the bending and feeding finger cylinder is connected with the rodless cylinder through the bending and feeding finger cylinder support, and the bending and feeding finger cylinder is positioned above the space between the two platens;

guide metal plates are respectively arranged at the positions, close to the angle aluminum supports, of the two platens, pressing cylinders are respectively arranged on the platens at the two sides of the space, guide bearings are respectively arranged at the two sides of the pressing cylinders, and positioning blocks are respectively arranged at the positions, far away from the guide metal plates, of the platens.

5. The automatic pillar fillet welding device according to claim 4, characterized in that: and adjusting feet are arranged at the bottoms of the four frame feet of the welding frame.

6. The automatic pillar angle welding apparatus of claim 5, wherein: the welding module comprises a wire feeding device, a welding device and a gas feeding device,

the welding device comprises a welding support, welding guns are erected on the welding support, two sides of a linear module are respectively connected with one welding support in a sliding mode, a welding servo motor is installed at the bottom end of the linear module, a linear module connecting plate is installed on the side wall of the linear module between the two welding supports and is connected to the bottom of an upper fixing plate in a sliding mode through a guide rail pair sliding block, and the upper fixing plate is located between the two welding guns;

a welding cylinder is also installed at the bottom of the upper fixing plate, a piston rod of the welding cylinder is connected with a linear module connecting plate, the welding cylinder is started, and the linear module connecting plate moves on the upper fixing plate through a guide rail pair sliding block;

the wire feeder is a wire feeder, and mixed gas is distributed in the gas feeder.

7. The automatic pillar fillet welding device of claim 6, characterized in that: the blanking shaping module comprises a blanking servo motor, the blanking servo motor is erected on a support plate, the support plate is installed at the end part of an aluminum profile support through a belt wheel connecting plate, a motor shaft of the blanking servo motor is connected with a synchronous belt wheel, a driven wheel support is installed at the other end part of the aluminum profile support through the belt wheel connecting plate, a driven wheel is installed on the driven wheel support, and the synchronous belt wheel is connected with the driven wheel through a synchronous belt;

one end of a synchronous belt connecting plate is arranged on a synchronous belt, the other end of the synchronous belt connecting plate is fixedly connected to the surface of a blanking connecting plate, a blanking cylinder and four blanking guide rods are further arranged on the blanking connecting plate and located at four corners of the blanking connecting plate, the four blanking guide rods are respectively connected with the surface of a finger cylinder connecting plate after penetrating through the blanking connecting plate through linear bearings, the blanking cylinder is fixed on the blanking connecting plate through a cylinder fixing plate, the blanking cylinder is started, and the blanking guide rods drive the blanking connecting plate to move up and down in a reciprocating mode under the restraint of the linear bearings;

shaping cylinders are respectively installed at four corners of the bottom of a blanking connecting plate, a reciprocating shaft of each shaping cylinder is connected with a blanking finger cylinder, a blanking guide rail is installed at the bottom end of the blanking connecting plate, each blanking finger cylinder is connected in the blanking guide rail in a matching mode through a blanking sliding block, and the blanking finger cylinders are started to drive the blanking finger cylinders to clamp or loosen products which are bent and welded for outer support shaping;

guard plates are respectively arranged on two sides of the finger cylinder connecting plate.

8. The automatic pillar fillet welding device of claim 7, wherein: the control system comprises a PLC control cabinet which is communicated with the whole system, and also comprises an operation display screen which displays information on the operation display screen in real time.

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