CN115121919A - Automatic arc light blocking device for double-station arc welding - Google Patents

Abstract

The invention provides a double-station arc welding automatic arc light blocking device, which comprises: the device comprises a lifting arc blocking plate assembly, an upper detector and an arc welding robot welding detector, wherein the lifting arc blocking plate assembly is connected with an arc blocking plate, the upper detector is used for detecting the state of an upper part, the arc welding robot welding detector is used for detecting the welding state of an arc welding robot, the upper detector and the arc welding robot welding detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a driving assembly, and the programmable logic controller is used for controlling the driving assembly to drive the lifting operation of the arc blocking plate; its easy operation has not only effectively solved the technical problem of the arc light that leaks among the welding process, has avoided leaking the harm of arc light to operating personnel, and this structure has improved the productivity moreover for it need not to wait to go up with the welding of arc welding robot, and production efficiency has obtained effective improvement.

Description

Automatic arc light blocking device for double-station arc welding

Technical Field

The invention relates to the technical field of welding, in particular to a double-station arc welding automatic arc light blocking device.

Background

Nowadays, with the continuous development of welding technology, on the one hand, the requirement on the intelligent automation of industrial production is higher and higher, and on the other hand, more and more attention is paid to the manual safety guarantee measures of factories, and the higher and higher requirement on safety is put forward when the automatic welding of robot is realized. Under the condition of meeting production requirements, the gradual reduction of cost, the gradual improvement of automation degree, the comprehensive guarantee of personal safety of workers and the like are realized.

The existing arc welding robot mainly fixes the rear part of the arc welding robot when in work. The arc baffle plate is fixed behind the robot and can rotate along with the robot during welding, so that the requirement on space is high, and the required space is necessarily large; because the fan-shaped robot is designed to surround the robot, the processing is complex and the cost is high; because the robot is arranged on the robot body, certain interference postures need to be specially avoided during simulation, and the difficulty of simulation coefficients is increased; due to the designed short plate, the posture of the on-site debugging robot is easy to be limited, and the on-site debugging difficulty is high.

The arc welding robot solves the problems, but the arc welding robot cannot automatically lift and lower the double-station arc blocking part in the working process, so that the arc blocking part cannot automatically lift in place to cause arc light leakage when the arc welding robot at one station welds, and the arc blocking part cannot timely lift in place to cause the injury of operators to the arc light; when the arc welding robot at the station on one side is used for welding, workers at the station on the other side cannot timely load workpieces, so that the workpieces and the arc welding robot need to wait for welding, the productivity is low, and the production efficiency is reduced.

Disclosure of Invention

In order to solve the technical problems, the invention provides the device for automatically blocking the arc light for the double-station arc welding, which is simple to operate, not only effectively solves the technical problem of arc light leakage in the welding process and avoids the harm of the arc light leakage to operators, but also improves the productivity by adopting the structure, so that the workpiece feeding and the arc welding robot do not need to wait for welding, and the production efficiency is effectively improved.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the invention provides a double-station arc welding automatic arc light blocking device, which comprises: the device comprises a lifting arc blocking plate component, an upper detector and an arc welding robot welding detector, wherein the lifting arc blocking plate component is connected with an arc blocking plate, the upper detector is used for detecting the state of an upper part, the arc welding robot welding detector is used for detecting the welding state of an arc welding robot, the upper detector and the arc welding robot welding detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a driving component, and the programmable logic controller is used for controlling the driving component to drive the arc blocking plate to lift and run.

The invention provides a double-station arc welding automatic arc light blocking device which is simple to operate, not only effectively solves the technical problem of arc light leakage in the welding process and avoids the harm of the arc light leakage to operators, but also improves the productivity by the structure, so that the welding of a workpiece and an arc welding robot is not required to wait, and the production efficiency is effectively improved.

Preferably, the elevating arc baffle assembly includes at least two sets of elevating arc baffle assemblies, the two sets of elevating arc baffle assemblies disposed opposite to each other include a first elevating arc baffle assembly and a second elevating arc baffle assembly, and an arc welding robot is disposed between the first elevating arc baffle assembly and the second elevating arc baffle assembly.

As a preferred technical solution, the lifting arc baffle plate assembly includes: at least two sets of sliding parts, the two sets of sliding parts are arranged oppositely and are a first sliding part and a second sliding part, the arc blocking plate is arranged between the first sliding part and the second sliding part, one side of the arc blocking plate is connected with the first sliding part, and the other side of the arc blocking plate is connected with the second sliding part.

As a preferred technical solution, the driving assembly includes: the upper detector and the arc welding robot welding detector are respectively and electrically connected with a programmable logic controller, and the programmable logic controller is electrically connected with the electromagnetic valve.

As a preferred technical solution, the driving assembly includes: the electromagnetic valve is connected with the air cylinder through an air pipe, the air cylinder is connected with the air cylinder to be connected with the floating joint, and the air cylinder is connected with the floating joint and is connected with the arc blocking plate.

The preferable technical scheme comprises the following steps: a leveling assembly, the leveling assembly comprising: the first leveling plate is connected with one end of the sliding part through a fixing part, the second leveling plate is connected with one end of the air cylinder through a fixing part, the first leveling plate and the second leveling plate are respectively connected with a plurality of leveling parts, and the leveling parts are respectively used for adjusting the levelness of the placing surfaces of the opposite devices of the first leveling plate and the second leveling plate so as to realize parallel lifting arc blocking light plates.

As a preferred embodiment, the arc baffle comprises: the light high-strength arc blocking frame and the arc blocking soft curtain are arranged in the light high-strength arc blocking frame and connected with the light high-strength arc blocking frame.

Preferably, the arc baffle plate on the first ascending and descending arc baffle plate component and the arc baffle plate on the second ascending and descending arc baffle plate component alternately and circularly ascend and descend to form double stations so as to realize the uninterrupted operation of the workpiece loading and the arc welding robot.

The preferable technical scheme comprises the following steps: the device comprises a cylinder magnetic switch detector, wherein the cylinder magnetic switch detector is used for detecting whether an arc baffle plate on a lifting arc baffle plate assembly is lifted in place or not, the upper piece detector, the arc welding robot welding detector and the cylinder magnetic switch detector are respectively and electrically connected with the programmable logic controller, the programmable logic controller is electrically connected with an arc welding robot, and the programmable logic controller is used for controlling the arc welding robot to move to a corresponding station for welding.

As a preferred technical scheme, the workpiece loading detector, the arc welding robot welding detector and the air cylinder magnetic switch detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a voice prompter, and the programmable logic controller is used for controlling the voice prompter to send out voice prompts to corresponding stations for loading workpieces.

The invention provides a double-station arc welding automatic arc light blocking device which is simple to operate, not only effectively solves the technical problem of arc light leakage in the welding process and avoids the harm of the arc light leakage to operators, but also improves the productivity by the structure, so that the welding of a workpiece and an arc welding robot is not required to wait, and the production efficiency is effectively improved.

Drawings

FIG. 1 is a structural diagram of an automatic arc-shielding device for double-station arc welding according to the present invention;

FIG. 2 is a structural view of a lifting arc-blocking plate assembly in the automatic arc-blocking apparatus for double-station arc welding according to the present invention;

FIG. 3 is a block diagram of a leveling assembly in the elevating arc plate assembly provided by the present invention;

FIG. 4 is a circuit diagram of an automatic arc-shielding apparatus for double-station arc welding according to the present invention;

wherein: 1-lifting arc baffle plate assembly; 2-a first lifting arc baffle plate assembly; 3-a second elevating arc baffle plate assembly; 4-arc welding robot; 5-a slide; 6-a first slide; 7-a second slide; 8-arc blocking light plate; 9-an electromagnetic valve; 10-trachea; 11-a cylinder; 12-the cylinder is connected with a floating joint; 13-a leveling assembly; 14-a first leveling plate; 15-a second leveling plate; 16-a fixing member; 17-leveling members; 18-a light high-strength arc-blocking outer frame; 19-soft curtain for blocking arc light; and 20-leveling.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

It is understood that the invention achieves the objects of the invention by means of some embodiments.

As shown in fig. 1, the present invention provides an automatic arc-shielding device for double-station arc welding, comprising: the device comprises a lifting arc baffle plate component 1, an upper detector and an arc welding robot welding detector, wherein the lifting arc baffle plate component 1 is connected with an arc baffle plate 19, the upper detector is used for detecting the state of an upper part, the arc welding robot welding detector is used for detecting the welding state of an arc welding robot, the upper detector and the arc welding robot welding detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a driving component, and the programmable logic controller is used for controlling the driving component to drive the lifting operation of the arc baffle plate 19; the two groups of oppositely-arranged lifting arc baffle plate assemblies 1 are a first lifting arc baffle plate assembly 2 and a second lifting arc baffle plate assembly 3, and an arc welding robot 4 is arranged between the first lifting arc baffle plate assembly 2 and the second lifting arc baffle plate assembly 3; its easy operation has not only effectively solved the technical problem of the arc light that leaks among the welding process, has avoided leaking the harm of arc light to operating personnel, and this structure has improved the productivity moreover for it need not to wait to go up with the welding of arc welding robot, and production efficiency has obtained effective improvement.

As shown in fig. 2, the present invention provides a lifting arc baffle assembly 1, wherein the lifting arc baffle assembly 1 comprises: the two sets of sliding parts 5 are a first sliding part 6 and a second sliding part 7, the arc blocking plate 8 is arranged between the first sliding part 6 and the second sliding part 7, one side of the arc blocking plate 8 is connected with the first sliding part 6, and the other side of the arc blocking plate 8 is connected with the second sliding part 7; a first sliding groove (not shown) is formed in the first sliding part 6, a first pulley (not shown) is connected to one side wall of the arc blocking light panel 8, the first pulley (not shown) is clamped in the first sliding groove (not shown) to enable the first pulley (not shown) to slide back and forth in the first sliding groove (not shown), a second sliding groove (not shown) is formed in the second sliding part 7, a second pulley (not shown) is connected to one side wall of the arc blocking light panel 8, and the second pulley (not shown) is clamped in the second sliding groove (not shown) to enable the second pulley (not shown) to slide back and forth in the second sliding groove (not shown), so that the arc blocking light panel 8 can slide back and forth along the first sliding part 6 and the second sliding part 7 to achieve the purpose of lifting the arc blocking light panel 8, and the structure is low in cost and high in efficiency; the drive assembly includes: the electromagnetic valve 9 is used for electrically connecting the upper piece detector and the arc welding robot welding detector with a programmable logic controller respectively, and the programmable logic controller is electrically connected with the electromagnetic valve; the electromagnetic valve 9 is connected with an air cylinder 11 through an air pipe 10, the air cylinder 11 is connected with an air cylinder connecting floating joint 12, the air cylinder connecting floating joint 12 is connected with the arc baffle plate 8, compressed air generated by the work of the control electromagnetic valve 9 is transmitted to the air cylinder 11 through the air pipe 10, the air cylinder 11 drives the air cylinder connecting floating joint 12 to drive the arc baffle plate 8 to slide and lift along the sliding part 5, the air cylinder connecting floating joint 12 is arranged between the arc baffle plate 8 and the air cylinder 11 to serve as a transmission part, and the problem that a guide rod of the air cylinder 11 is easy to bend due to the fact that the air cylinder 11 directly drives the arc baffle plate 8 to lift is avoided; the leveling assembly 13 includes: the device comprises a first leveling plate 14 and a second leveling plate 15, wherein the first leveling plate 14 is connected with one end of a sliding part 5 through a fixing part 16, the second leveling plate 15 is connected with one end of a cylinder 11 through a fixing part 16, the first leveling plate 14 and the second leveling plate 15 are respectively connected with a plurality of leveling parts 17, and the leveling parts 17 are used for adjusting the levelness of the first leveling plate 14 or the second leveling plate 15 relative to a device placing surface so as to achieve the purpose of parallelly lifting the arc blocking light plate 8; the arc baffle plate 8 includes: the light high-strength arc blocking outer frame 18 and the arc blocking soft curtain 19 are arranged in the light high-strength arc blocking outer frame 18, the arc blocking soft curtain 19 is connected with the light high-strength arc blocking outer frame 18, and the arc blocking soft curtain 19 can effectively block arc light, so that the injury of the arc light to an operator is avoided, and the operator feels comfortable during working; the working efficiency is also improved; the light high-strength arc-blocking outer frame 18 is preferably made of aluminum profiles, and the arc-blocking soft curtain 19 is selected to effectively prevent the arc-blocking organic glass from being easily broken during transportation and field debugging; the first lifting arc baffle plate component 2 and the second lifting arc baffle plate component 3 alternately and circularly lift to form double stations so as to realize the uninterrupted operation of the workpiece feeding and the arc welding robot 4; the air cylinder magnetic switch detector is used for detecting whether an arc blocking light plate 8 on the lifting arc blocking plate component 1 is lifted in place or not, the upper piece detector, the arc welding robot welding detector and the air cylinder magnetic switch detector are respectively and electrically connected with the programmable logic controller, the programmable logic controller is electrically connected with the arc welding robot 4, and the programmable logic controller is used for controlling the arc welding robot 4 to a corresponding station for welding; the workpiece loading detector, the arc welding robot welding detector and the air cylinder magnetic switch detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a voice prompter, and the programmable logic controller is used for controlling the voice prompter to send out voice prompts to corresponding stations for loading workpieces; its easy operation has not only effectively solved the technical problem of arc light that leaks among the welding process, has avoided the harm of arc light to operating personnel, and this structure has improved the productivity moreover for the welding of last piece and arc welding robot need not to wait for, and production efficiency has obtained effective improvement.

As shown in fig. 3, the present invention provides a leveling assembly 13, wherein the leveling assembly 13 comprises: the leveling plate 20 is connected with one end of the sliding part 5 through a fixing part 16, a plurality of leveling parts 17 are respectively connected onto the leveling plate 20, and the leveling parts 17 are used for adjusting the levelness of the leveling plate 20 relative to a device placing surface so as to realize parallel lifting of the arc blocking light plate 8; the leveling component 13 can adjust and keep the two sliding pieces 5 to lift and lower the arc-blocking light plate 8 in parallel according to the height of the device placing surface; the leveling plate 20 is fixed by using a ground foot, then one end of the sliding part 5 is connected with the leveling plate 20 by 4 fixing parts 16, leveling parts 17 are arranged at four corners of the leveling plate 20, the leveling parts 17 arranged at the four corners are respectively downwards towards the surface of the device placing surface to jack the leveling plate 20, then a level meter is used for detecting levelness, then the 4 fixing parts 16 are locked and fastened, and finally the leveling parts 17 are screwed and fastened, so that the purpose of adjusting the levelness is achieved; guaranteed to place the levelness of placing the face upper mounting at the device, effectively avoided like this when going up and down keeping off arc worn-out fur 8, kept off the pulley on the arc worn-out fur 8 and can not block easily in the spout on slider 5 and cause the device to damage, improved the life of device, and this structure is with low costs, sturdy and durable, has realized parallel lift and has kept off the purpose of arc worn-out fur 8.

As shown in fig. 4, the present invention provides an automatic arc-shielding device for double-station arc welding, comprising: the device comprises a lifting arc baffle plate component 1, an upper detector and an arc welding robot welding detector, wherein the lifting arc baffle plate component 1 is connected with an arc baffle plate 8, the upper detector is used for detecting the state of an upper part, the arc welding robot welding detector is used for detecting the welding state of an arc welding robot 4, the upper detector and the arc welding robot welding detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a driving component, and the programmable logic controller is used for controlling the driving component to drive the lifting running state of the arc baffle plate 8;

the air cylinder magnetic switch detector is used for detecting whether an arc blocking light plate 8 on the lifting arc blocking plate component 1 is lifted in place or not, the upper piece detector, the arc welding robot welding detector and the air cylinder magnetic switch detector are respectively and electrically connected with the programmable logic controller, the programmable logic controller is electrically connected with the arc welding robot 4, and the programmable logic controller is used for controlling the arc welding robot 4 to a corresponding station for welding; the workpiece loading detector, the arc welding robot welding detector and the air cylinder magnetic switch detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a voice prompter, and the programmable logic controller is used for controlling the voice prompter to send out voice prompt for an operator to load workpieces to corresponding stations;

the device starts to work, at the moment, the arc baffles 8 on the first lifting arc baffle plate component 2 and the arc baffles 8 on the second lifting arc baffle plate component 3 on two sides of the arc welding robot 4 are both in a descending state, after a worker finishes welding at a station on the first lifting arc baffle plate component 2, the arc welding robot 4 does not weld, the upper detector detects a signal that the workpiece is finished at the station on the first lifting arc baffle plate component 2, the arc welding robot welding detector detects a signal that the arc welding robot 4 does not weld, and transmits the signal that the worker finishes welding at the station on the first lifting arc baffle plate component 2 and the signal that the arc welding robot 4 does not weld, the programmable logic controller detects the signals, processes the signals, controls the driving components to work according to the processed data, the electromagnetic valve 9 works, and compressed air generated by the work of the electromagnetic valve 9 is transmitted to the air cylinder 11 through the air pipe 10, the cylinder 11 drives the cylinder to be connected with the floating joint 12 to drive the arc blocking plate 8 on the first lifting arc blocking plate component 2 to ascend in place along the sliding component 5;

the workpiece loading detector detects a signal that the workpiece is finished at a station of the first lifting arc baffle plate component 2, the arc welding robot welding detector detects a signal that the arc welding robot 4 does not weld, the air cylinder magnetic switch detector detects that the arc baffle plate 8 on the first lifting arc baffle plate component 2 is in a signal of ascending in place, and the air cylinder magnetic switch detector respectively sends the signal that the workpiece is finished at the station of the first lifting arc baffle plate component 2, a signal that the arc welding robot 4 does not weld and a signal that the arc baffle plate 8 on the first lifting arc baffle plate component 2 ascends in place to the programmable logic controller, the programmable logic controller detects the signals, processes the signals, and controls the arc welding robot 4 to weld at the station of the first lifting arc baffle plate component 2 according to the processed data;

the welding detector of the arc welding robot detects a signal that the arc welding robot 4 performs welding at a station of the first lifting arc-baffle plate component 2, the piece loading detector detects a signal that the piece loading is not carried out at the station at the second lifting arc plate component 3, when the cylinder magnetic switch detector detects that the arc baffle plate 8 on the second lifting arc baffle plate component 3 is in a signal of descending in place, and respectively sending a signal that an arc blocking light plate 8 on the second lifting arc blocking plate component 3 is in a descending position, a signal that a work station at the second lifting arc blocking plate component 3 is not subjected to workpiece loading and a signal that the arc welding robot 4 performs welding at a work station at the first lifting arc blocking plate component 2 to a programmable logic controller, wherein the programmable logic controller detects the signal and processes the signal, controlling a voice prompter to send out a prompt voice prompt for prompting an operator to go to a station of the second lifting arc baffle plate component 3 to load according to the processed data; the arc blocking plate 8 on the first lifting arc blocking plate component 2 and the arc blocking plate 8 on the second lifting arc blocking plate component 3 alternately and circularly lift to form double stations so as to realize uninterrupted operation and work of workpiece feeding and welding of the arc welding robot 4, so that the waiting time of welding and workpiece feeding of workers by the arc welding robot 4 is not needed to be spent, and the productivity is effectively improved; its easy operation has not only effectively solved the technical problem of the arc light that leaks among the welding process, has avoided leaking the harm of arc light to operating personnel, and this structure has improved the productivity moreover for it need not to wait to go up with the welding of arc welding robot 4, and production efficiency has obtained effective improvement.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all modifications and equivalents falling within the scope of the appended claims. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. A double-station arc welding automatic arc light blocking device is characterized by comprising: the device comprises a lifting arc blocking plate component, an upper detector and an arc welding robot welding detector, wherein the lifting arc blocking plate component is connected with an arc blocking plate, the upper detector is used for detecting the state of an upper part, the arc welding robot welding detector is used for detecting the welding state of an arc welding robot, the upper detector and the arc welding robot welding detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with a driving component, and the programmable logic controller is used for controlling the driving component to drive the arc blocking plate to lift and run.

2. The apparatus for double-station arc welding automatic arc shielding according to claim 1, wherein the up-down arc plate assembly is provided with at least two sets of oppositely disposed up-down arc plate assemblies, which are a first up-down arc plate assembly and a second up-down arc plate assembly, and an arc welding robot is provided between the first up-down arc plate assembly and the second up-down arc plate assembly.

3. The apparatus for automatically blocking arc light for double station arc welding according to claim 2, wherein the up-down arc plate assembly comprises: the two sets of sliding parts which are oppositely arranged are a first sliding part and a second sliding part, the arc blocking plate is arranged between the first sliding part and the second sliding part, one side of the arc blocking plate is connected with the first sliding part, and the other side of the arc blocking plate is connected with the second sliding part.

4. The double-station arc welding automatic arc-shielding apparatus according to claim 3, wherein the driving assembly comprises: the upper detector and the arc welding robot welding detector are respectively and electrically connected with a programmable logic controller, and the programmable logic controller is electrically connected with the electromagnetic valve.

5. The double-station arc welding automatic arc-shielding apparatus according to claim 4, wherein the driving assembly comprises: the electromagnetic valve is connected with the air cylinder through an air pipe, the air cylinder is connected with the air cylinder connecting floating joint, and the air cylinder connecting floating joint is connected with the arc light blocking plate.

6. The double-station arc welding automatic arc stopping device according to claim 5, comprising: a leveling assembly, the leveling assembly comprising: the first leveling plate is connected with one end of the sliding part through a fixing part, the second leveling plate is connected with one end of the air cylinder through a fixing part, the first leveling plate and the second leveling plate are respectively connected with a plurality of leveling parts, and the leveling parts are respectively used for adjusting the levelness of the placing surfaces of the opposite devices of the first leveling plate and the second leveling plate so as to realize parallel lifting arc blocking light plates.

7. The apparatus for double-station arc welding automatic arc shielding according to claim 3, wherein the arc shielding plate comprises: the light high-strength arc blocking outer frame and the arc light blocking soft curtain are arranged in the light high-strength arc blocking outer frame and connected with the light high-strength arc blocking outer frame.

8. The apparatus for double-station arc welding automatic arc shielding according to claim 3, wherein the arc shielding plate on the first ascending and descending arc shielding plate assembly and the arc shielding plate on the second ascending and descending arc shielding plate assembly are alternately and cyclically ascended and descended to form double stations so as to realize the welding uninterrupted running work of the upper part and the arc welding robot.

9. The double-station arc welding automatic arc-shielding apparatus according to claim 8, comprising: the device comprises a cylinder magnetic switch detector, wherein the cylinder magnetic switch detector is used for detecting whether an arc baffle plate on a lifting arc baffle plate assembly is lifted in place or not, the upper detector, the arc welding robot welding detector and the cylinder magnetic switch detector are respectively and electrically connected with a programmable logic controller, the programmable logic controller is electrically connected with an arc welding robot, and the programmable logic controller is used for controlling the arc welding robot to move to a corresponding station for welding.

10. The double-station arc welding automatic arc stopping device according to claim 9, wherein the workpiece loading detector, the arc welding robot welding detector and the air cylinder magnetic switch detector are electrically connected with a programmable logic controller respectively, the programmable logic controller is electrically connected with a voice prompter, and the programmable logic controller is used for controlling the voice prompter to send voice prompts to corresponding stations for loading workpieces.

Images