CN211162486U - Automatic welding assembly line for reinforcing ribs of elevator door plate - Google Patents

Automatic welding assembly line for reinforcing ribs of elevator door plate Download PDF

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Publication number
CN211162486U
CN211162486U CN201921517040.8U CN201921517040U CN211162486U CN 211162486 U CN211162486 U CN 211162486U CN 201921517040 U CN201921517040 U CN 201921517040U CN 211162486 U CN211162486 U CN 211162486U
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CN
China
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elevator door
reinforcing rib
conveying belt
welding
guide rail
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CN201921517040.8U
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Chinese (zh)
Inventor
邱俊峰
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Suzhou Duixueren Intelligent Technology Co ltd
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Suzhou Duixueren Intelligent Technology Co ltd
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Abstract

The utility model provides an automatic welding assembly line for reinforcing ribs of an elevator door plate, which comprises an elevator door plate conveying mechanism, a reinforcing rib conveying mechanism, an assembling and feeding mechanism, a welding mechanism, a switching turnover mechanism and a carrying and stacking mechanism; the elevator door plate conveying mechanism is communicated with the tail end of the elevator door plate forming line, when the elevator door plate conveying mechanism works, the elevator door plate and the reinforcing ribs are assembled together through the assembling and feeding mechanism and are sent into the welding mechanism to be welded, the switching turnover mechanism is matched with the carrying and stacking mechanism after welding is completed, welded finished products are directly hung on the plastic spraying assembly line through a robot, and manual carrying is not needed; the utility model discloses an assembly line is parallelly connected elevator door plant shaping line and strengthening rib roll-in line and is in the same place, can accomplish the work to elevator door plant welding strengthening rib fast, and whole journey need not artifical transport, and is efficient, and the welding precision is high, and degree of automation is high.

Description

Automatic welding assembly line for reinforcing ribs of elevator door plate
Technical Field
The utility model belongs to the technical field of the automatic assembly line, concretely relates to elevator door plant strengthening rib automatic weld assembly line.
Background
The elevator door plant need weld the strengthening rib on its one side face in order to guarantee the quality after the shaping, and traditional mode is earlier with the elevator door plant take off from elevator door plant shaping assembly line, then take off the strengthening rib from the strengthening rib roll-in line, direct welding after elevator door plant and the strengthening rib equipment at last, two production water lines in addition transport personnel, need 8-9 people to accomplish the whole work flow of elevator door plant welding strengthening rib altogether, so this kind of mode need consume a large amount of manpowers, staff's fatigue degree is high, certain danger has, holistic efficiency is very low simultaneously.
Therefore, it is necessary to design an automatic welding assembly line for reinforcing ribs of an elevator door panel, and the problem that the reinforcing ribs need to be manually lifted after the elevator door panel is formed at present is solved.
Disclosure of Invention
For overcoming the not enough among the above-mentioned prior art, the utility model aims to provide an elevator door plant strengthening rib automatic weld assembly line.
In order to achieve the above objects and other related objects, the present invention provides a technical solution: an automatic welding assembly line for reinforcing ribs of an elevator door plate comprises an elevator door plate conveying mechanism, a reinforcing rib conveying mechanism, an assembling and feeding mechanism, a welding mechanism, a switching turnover mechanism and a carrying stacking mechanism;
the elevator door plate conveying mechanism comprises a left bearing support rod and a right bearing support rod with certain inclination, and a convex stop block is arranged at the tail end of each bearing support rod; a first guide rail is arranged in the middle of the two bearing support rods, a movable support is movably arranged on the first guide rail, a first sucker module is arranged above the movable support, two telescopic cylinders are arranged on the left side and the right side of the movable support, and telescopic rods of the two telescopic cylinders are respectively connected with the left side and the right side of the first sucker module;
the reinforcing rib conveying mechanism comprises a reinforcing rib roller pressing line and a reinforcing rib conveying belt, and the reinforcing rib conveying belt is communicated to the assembling and feeding mechanism;
the assembly feeding mechanism comprises an elevator door plate conveying belt group and a reinforcing rib grabbing mechanism, the reinforcing rib grabbing mechanism comprises a second guide rail and a third guide rail which are parallel to each other, the second guide rail and the third guide rail are arranged above the first elevator door plate conveying belt group through a support, a cross beam is arranged between the second guide rail and the third guide rail in a manner of moving back and forth, a vertically-arranged fourth guide rail is arranged on the cross beam, a transversely-arranged lifting straight rod is arranged on the fourth guide rail in a manner of moving up and down, and a plurality of clamping jaws are uniformly arranged on the lifting straight rod;
the welding mechanism comprises a spot welding machine and a welding platform, a welding head of the spot welding machine is arranged above the welding platform, and the first elevator door plate conveying belt group is communicated with the welding platform;
the switching turnover mechanism comprises a finished product conveying belt group and a finished product grabbing mechanism, a door-shaped support is arranged above the finished product conveying belt group, a rotating shaft is arranged on the door-shaped support and is connected with the rotating motor through a coupler, and a second sucker module is arranged on the rotating shaft;
the carrying and stacking mechanism comprises a carrying manipulator and a third sucker module, and the manipulator is connected with the third sucker module.
Preferably, two left and right corresponding positioning rods are further respectively arranged on the left and right sides of the two bearing support rods, and one of the two left and right corresponding positioning rods is movably arranged on the fifth guide rail.
Preferably, strengthening rib conveyor belt includes first strengthening rib conveyor belt and second strengthening rib conveyor belt, first strengthening rib conveyor belt with second strengthening rib conveyor belt is mutually perpendicular, first strengthening rib conveyor belt with strengthening rib roll-in line intercommunication, second strengthening rib conveyor belt intercommunication to equipment feeding mechanism, simultaneously first strengthening rib conveyor belt with second strengthening rib conveyor belt handing-over department is provided with strengthening rib shifting mechanism, strengthening rib shifting mechanism includes supporting platform, the last revolving cylinder that is provided with of supporting platform, the rotating panel is connected to the pivot cylinder, the last sixth guide rail that is provided with of rotating panel, the movably straight-bar that is provided with on the sixth guide rail, evenly be provided with a plurality of sucking disc on the straight-bar.
Preferably, a plurality of welding heads are arranged on the spot welding machine, the welding heads are uniformly distributed above the welding platform, and each welding head is connected with the air cylinder.
Preferably, the finished product grabbing mechanism and the reinforcing rib grabbing mechanism are identical in structure.
Preferably, the elevator door panel conveying belt group and the finished product conveying belt group are identical in structure and are composed of two conveying belts which correspond to each other left and right and are parallel to each other.
Preferably, the first sucker module, the second sucker module and the third sucker module are identical in structure and all comprise a rectangular support frame and six suckers, and the suckers are uniformly distributed on the rectangular support frame.
The mechanism features for the above solution are explained as follows:
the specific theory of operation of an elevator door plant strengthening rib automatic weld assembly line of this scheme design does:
firstly, an elevator door plate conveying mechanism is communicated with the tail end of an elevator door plate forming production line, after an elevator door plate is formed, the elevator door plate directly slides into a left bearing support rod and a right bearing support rod of the elevator door plate conveying mechanism from a conveying belt at the tail end of the forming production line, and the bearing support rods have certain inclination, so that a certain guiding effect is exerted on the elevator door plate; meanwhile, the reinforcing ribs are formed in a reinforcing rib rolling line and then are sent into an assembly feeding mechanism by a reinforcing rib conveying belt, the assembly feeding mechanism has the main function that an elevator door plate and the reinforcing ribs are simultaneously sent into a welding mechanism and are assembled together for welding, the elevator door plate can be directly translated on the elevator door plate conveying belt and enter the welding mechanism, the reinforcing ribs enter the welding mechanism by being grabbed by a reinforcing rib grabbing mechanism, the reinforcing rib grabbing mechanism works by matching a straight rod with a plurality of clamping jaws with a three-shaft transmission mechanism, the reinforcing ribs are clamped by the clamping jaws, then the clamping jaws can drive the reinforcing ribs to move up and down, left and right and front, and back, the reinforcing ribs are placed in the specified positions of the door plate, so that the reinforcing ribs and the door plate are assembled together and then are welded in; the welded finished product is grabbed to a finished product conveying belt set of the transfer turnover mechanism from the welding mechanism through a finished product grabbing mechanism, the transfer turnover mechanism is used for overturning the welded finished product to one surface, so that one surface with the reinforcing ribs faces downwards, and the smooth and flat surface faces upwards, and the reason is that the transfer turnover mechanism needs to be matched with a final carrying and stacking mechanism of a production line to work, so that a plurality of finished products can be stacked and stacked, after the elevator door panel is welded, the surface with the reinforcing ribs faces upwards, and after the elevator door panel enters the transfer turnover mechanism, the elevator door panel is firstly sucked from the finished product conveying belt set through a second sucking disc module, and then the elevator door panel is rotated in a matching manner through a rotating shaft, so that the elevator door panel is overtur; after overturning, the mechanical arm in the carrying and stacking mechanism drives the third sucking disc module to suck the finished elevator door plate, and then the elevator door plate is moved to a uniform area to be stacked and stacked, so that the work of the whole assembly line is completed.
Two locating levers that correspond about accepting the die-pin left and right sides setting mainly act on the both sides flange edge that supports the elevator door plant from the left and right sides respectively, realize the location to it, the principle is: one of the two positioning rods translates left and right through the fifth guide rail, so that the door plate can be pushed to the other side through the movable positioning rod to realize the positioning effect.
Because the whole conveying line is longer after the reinforcing rib roller pressing line is matched with the reinforcing rib conveying belt, if a straight line conveying belt is adopted to directly enter the assembly feeding mechanism, the reinforcing rib conveying assembly line needs to be vertical to the assembly line, so that a large space is needed for placing two assembly line devices, in order to save space, the two assembly lines need to be placed in parallel, the reinforcing rib conveying belt is divided into a first reinforcing rib conveying belt and a second reinforcing rib conveying belt which are vertical to each other, only the second reinforcing rib conveying belt needs to be communicated with the assembly feeding mechanism, meanwhile, a reinforcing rib deflection mechanism is arranged at the joint of the two conveying belts to realize the deflection of the reinforcing rib, so that the reinforcing rib can smoothly rotate in the second reinforcing rib conveying belt, the principle of the reinforcing rib deflection mechanism is that the reinforcing rib is firstly sucked by a sucker on a straight rod, and then the reinforcing rib is, the reinforcing ribs are parallel to the second reinforcing rib conveying belt, and the reinforcing ribs are accurately placed into the second reinforcing rib conveying belt through the sixth guide rail in a translation angle adjusting mode.
The welding head in the welding mechanism is provided with one row, and when welding, the welding head in one row drives downwards through the cylinder to weld the elevator door plate and the reinforcing ribs.
Finished product snatchs the effect of mechanism and does: firstly, when the elevator door plate enters the welding mechanism, the finished product grabbing mechanism extends the clamping jaw into the welding mechanism through three-axis movement to clamp the elevator door plate to position the elevator door plate, and then after the elevator door plate and the reinforcing rib are welded, the finished product grabbing mechanism grabs the finished product elevator door plate out of the welding mechanism and puts the finished product elevator door plate into a finished product conveying belt set of the switching turnover mechanism.
In the assembly line designed by the scheme, all guide rails including the first guide rail, the second guide rail, the third guide rail, the fourth guide rail, the fifth guide rail and the sixth guide rail are actually screw modules, and the driving mechanisms adopted by the guide rails are the same and are all ball screw structures, and the operation principle of the ball screws is a conventional technology, so that specific description is not provided in the scheme.
The structure of first sucking disc module, second sucking disc module and third sucking disc module is all the same, adopts the rectangle support frame that corresponds with elevator door plant shape to all with set up 6 sucking discs on the support frame, guarantee to absorb stably, the condition that can not appear droing.
The utility model has the advantages that: the utility model discloses an assembly line is parallelly connected elevator door plant shaping line and strengthening rib roll-in line and is in the same place, can accomplish the work to elevator door plant welding strengthening rib fast, and degree of automation is high, has solved present elevator door plant shaping back effectively, needs the manual work to lift the problem of welding strengthening rib, has saved the space effectively, has improved production efficiency, reduces the manual work.
Drawings
Fig. 1 is a schematic diagram of the overall structure of a pipeline.
Fig. 2 is a schematic structural diagram of an elevator door panel conveying mechanism.
Fig. 3 is a schematic structural view of a reinforcing bar conveying mechanism.
Fig. 4 is a schematic structural view of a rib-displacing mechanism.
Fig. 5 is a schematic structural view of an assembly feeding mechanism.
Fig. 6 is a schematic structural view of the welding mechanism.
FIG. 7 is a schematic view of the transfer and turnover mechanism and the conveying and stacking mechanism.
In the attached drawings, an elevator door plate conveying mechanism 1, a reinforcing rib conveying mechanism 2, an assembly feeding mechanism 3, a welding mechanism 4, a switching turnover mechanism 5, a carrying stacking mechanism 6, an elevator door plate forming line tail end 7,
A receiving supporting rod 11, a stop block 12, a first guide rail 13, a movable bracket 14, a telescopic cylinder 15, a first sucker module 16, a positioning rod 17, a fifth guide rail 18,
A rib roll line 21, a rib conveyor belt 22, a rib indexing mechanism 23, a first rib conveyor belt 221, a second rib conveyor belt 222, a sixth guide rail 231, a straight bar 232, a suction cup 233, a support platform 234, a rotating panel 235, a roller,
An elevator door panel conveying belt group 31, a second guide rail 32, a third guide rail 33, a cross beam 34, a fourth guide rail 35, a lifting straight rod 36, a clamping jaw 37,
A welding platform 41, a welding head 42, a cylinder 43,
A finished product conveying belt group 51, a door-shaped bracket 52, a rotating shaft 53, a second sucker module 54, a finished product grabbing mechanism 55,
A transfer robot 61 and a third chuck module 62.
Detailed Description
The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.
Please refer to fig. 1 to 7. It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.
Example (b): as shown in fig. 1, an automatic welding assembly line for reinforcing ribs of an elevator door panel comprises an elevator door panel conveying mechanism 1, a reinforcing rib conveying mechanism 2, an assembling and feeding mechanism 3, a welding mechanism 4, a switching and overturning mechanism 5 and a carrying and stacking mechanism 6; as shown in fig. 2, the elevator door panel conveying mechanism 1 comprises a left receiving support rod 11 and a right receiving support rod 11 with a certain inclination, and a convex stop 12 is arranged at the tail end of each receiving support rod 11; a first guide rail 13 is arranged in the middle of the two bearing support rods 11, a movable support 14 is movably arranged on the first guide rail 13, a first sucker module 16 is arranged above the movable support 14, two telescopic cylinders 15 are arranged on the left side and the right side of the movable support 14, and telescopic rods of the two telescopic cylinders 15 are respectively connected with the left side and the right side of the first sucker module 16; as shown in fig. 3, the reinforcing rib conveying mechanism 2 includes a reinforcing rib rolling line 21 and a reinforcing rib conveying belt 22, and the reinforcing rib conveying belt 22 is communicated to the assembly feeding mechanism 3; as shown in fig. 5, the assembly feeding mechanism 3 includes an elevator door panel conveying belt group 31 and a reinforcing rib grabbing mechanism, the reinforcing rib grabbing mechanism includes two second guide rails 32 and a third guide rail 33 which are parallel to each other, the second guide rails 32 and the third guide rail 33 are arranged above the first elevator door panel conveying belt group 31 through a bracket, a cross beam 34 is arranged between the second guide rails 32 and the third guide rail 33 and can move back and forth, a vertically arranged fourth guide rail 35 is arranged on the cross beam 34, a transversely arranged lifting straight rod 36 is arranged on the fourth guide rail 35 and can move up and down, and a plurality of clamping jaws 37 are uniformly arranged on the lifting straight rod 36; as shown in fig. 6, the welding mechanism 4 includes a spot welder and a welding platform 41, a welding head 42 of the spot welder is disposed above the welding platform 41, and the first elevator door panel conveying belt set 31 is communicated with the welding platform 41; as shown in fig. 7, the switching and overturning mechanism 5 includes a finished product conveying belt set 51 and a finished product grabbing mechanism 55, a gate-shaped bracket 52 is arranged above the finished product conveying belt set 51, a rotating shaft 53 is arranged on the gate-shaped bracket 52, the rotating shaft 53 is connected with a rotating motor through a coupling, and a second suction cup module 54 is arranged on the rotating shaft 53; the conveying and stacking mechanism 6 comprises a conveying manipulator 61 and a third sucker module 62, and the manipulator is connected with the third sucker module 62; the specific working principle of the assembly line is as follows: firstly, an elevator door panel conveying mechanism 1 is communicated with the tail end of an elevator door panel forming production line, after an elevator door panel is formed, the elevator door panel directly slides into a left supporting and supporting rod 11 and a right supporting and supporting rod 11 of the elevator door panel conveying mechanism 1 from a conveying belt at the tail end of the forming production line, a certain guiding effect is achieved on the elevator door panel due to the fact that the supporting and supporting rods 11 have certain inclination, then a first sucking disc module 16 in the middle of the two supporting and supporting rods 11 sucks the elevator door panel from the lower side of the elevator door panel and moves on a first rail, and the elevator door panel is sent to an elevator door panel conveying belt of an assembly feeding mechanism 3; at the same time, the reinforcing ribs are formed in the reinforcing rib rolling line 21, and then are sent into the assembly feeding mechanism 3 by the reinforcing rib conveying belt, the assembly feeding mechanism 3 has the main functions of simultaneously feeding the elevator door panel and the reinforcing ribs into the welding mechanism 4 and assembling the elevator door panel and the reinforcing ribs together for welding, the elevator door panel can directly move on the elevator door panel conveying belt in a translation manner to enter the welding mechanism 4, the reinforcing ribs enter the welding mechanism 4 through the grabbing of the reinforcing rib grabbing mechanism, the reinforcing rib grabbing mechanism works by matching a straight rod with a plurality of clamping jaws 37 with a three-shaft transmission mechanism, the reinforcing ribs are clamped by the clamping jaws 37, then, the clamping jaw 37 can drive the reinforcing rib to move up, down, left and right back and forth through the three-axis transmission mechanism, the reinforcing rib is placed in the specified position of the door plate, the reinforcing rib and the door plate are assembled together, and then welding is carried out in the welding mechanism 4; a welded finished product is grabbed onto a finished product conveying belt group 51 of the transfer turnover mechanism 5 from the welding mechanism 4 through a finished product grabbing mechanism 55, the transfer turnover mechanism 5 is used for overturning one surface of the welded finished product, so that one surface with the reinforcing ribs faces downwards, and the smooth and flat surface faces upwards, and the reason is that the transfer turnover mechanism 5 is matched with a final carrying and stacking mechanism 6 of a production line to work, so that a plurality of finished products can be stacked and stacked, after the elevator door panel is welded, the surface with the reinforcing ribs faces upwards, and enters the transfer turnover mechanism 5, the elevator door panel is firstly sucked from the finished product conveying belt group 51 through a second sucking disc module 54, and then the elevator door panel is rotated in a matching manner through a rotating shaft 53, so that the elevator door panel is overturned by 180 degrees; after overturning, the mechanical arm in the carrying and stacking mechanism 6 drives the third sucking disc module 62 to suck the finished elevator door plate, and then the elevator door plate is moved to a uniform area to be stacked and stacked, so that the work of the whole assembly line is completed.
The preferred embodiment is as follows:
as shown in fig. 2, two positioning rods 17 corresponding to each other left and right are further provided on the left and right sides of the two receiving support rods 11, respectively, and one of the two positioning rods 17 corresponding to each other left and right is movably provided on a fifth guide rail 18; two locating levers 17 that correspond about accepting the setting of die-pin 11 left and right sides mainly act on the both sides flange edge that supports the elevator door plant from left and right sides respectively, realize the location to it, the principle does: one of the two positioning rods 17 is translated left and right through the fifth guide rail 18, so that the movable positioning rod 17 can push the door panel to lean against the other side to realize the positioning function.
As shown in fig. 4, the reinforcing rib conveying belt comprises a first reinforcing rib conveying belt 221 and a second reinforcing rib conveying belt 222, the first reinforcing rib conveying belt 221 and the second reinforcing rib conveying belt 222 are perpendicular to each other, the first reinforcing rib conveying belt 221 is communicated with the reinforcing rib rolling line 21, the second reinforcing rib conveying belt 222 is communicated with the assembly feeding mechanism 3, meanwhile, a reinforcing rib shifting mechanism 23 is arranged at the joint of the first reinforcing rib conveying belt 221 and the second reinforcing rib conveying belt 222, the reinforcing rib shifting mechanism 23 comprises a supporting platform 234, a rotating cylinder is arranged on the supporting platform 234, the rotating shaft 53 is connected with a rotating panel 235, a sixth guide rail 231 is arranged on the rotating panel 235, a straight rod 232 is movably arranged on the sixth guide rail 231, and a plurality of suckers 233 are uniformly arranged on the straight rod 232; because the whole conveying path is longer after the reinforcing rib rolling line 21 is matched with the reinforcing rib conveying belt, if a straight line conveying belt is adopted to directly enter the assembly feeding mechanism 3, the reinforcing rib conveying pipeline needs to be vertical to the pipeline, so that a large space is needed to place two pipeline devices, in order to save space, the two pipelines need to be placed in parallel, the reinforcing rib conveying belt is divided into a first reinforcing rib conveying belt 221 and a second reinforcing rib conveying belt 222 which are vertical to each other, only the second reinforcing rib conveying belt 222 needs to be communicated with the assembly feeding mechanism 3, meanwhile, the reinforcing rib deflection mechanism 23 is arranged at the joint of the two conveying belts to realize the deflection of the reinforcing rib, so that the reinforcing rib can smoothly go through the second reinforcing rib conveying belt 222, the principle of the reinforcing rib deflection mechanism 23 is that the reinforcing rib is firstly sucked by the suction cup 233 on the straight rod 232, then the reinforcing ribs are driven to rotate 90 degrees by the rotating cylinder, so that the reinforcing ribs are parallel to the second reinforcing rib conveying belt 222, and finally the reinforcing ribs are accurately placed into the second reinforcing rib conveying belt 222 by horizontally moving and adjusting the angle through the sixth guide rail 231.
As shown in fig. 6, a plurality of welding heads 42 of the spot welding machine are arranged, the welding heads 42 are uniformly distributed above the welding platform 41, and each welding head 42 is connected with the air cylinder; the welding heads 42 in the welding mechanism 4 are arranged in a row, and when welding, the row of welding heads 42 are driven to move downwards through the air cylinder to weld the elevator door plate and the reinforcing ribs.
With reference to fig. 5 and 7, the finished product grabbing mechanism 55 has the same structure as the reinforcing rib grabbing mechanism, and the finished product grabbing mechanism 55 functions as: firstly, when the elevator door panel enters the welding mechanism 4, the finished product grabbing mechanism 55 moves in a three-axis mode to enable the clamping jaw 37 to extend into the welding mechanism 4 to clamp the elevator door panel to position the elevator door panel, and then after the elevator door panel and the reinforcing ribs are welded, the finished product grabbing mechanism 55 grabs the finished product elevator door panel out of the welding mechanism 4 and puts the finished product elevator door panel into the finished product conveying belt set 51 of the switching turnover mechanism 5.
The first sucker module 16, the second sucker module 54 and the third sucker module 62 have the same structure and are all composed of a rectangular support frame and six suckers, and the six suckers are uniformly distributed on the rectangular support frame; the first sucker module 16, the second sucker module 54 and the third sucker module 62 are all the same in structure, adopt rectangular support frames corresponding to the shape of the elevator door plate, and all set 6 suckers on the support frames, so that the sucking stability is ensured, and the falling-off condition can not occur.
In the automatic welding assembly line for the reinforcing ribs of the elevator door panel, an elevator door panel conveying mechanism 1 is communicated with the tail end 7 of an elevator door panel forming line, the elevator door panel and the reinforcing ribs are assembled together through an assembling and feeding mechanism 3 and are sent into a welding mechanism 4 for welding during working, a switching turnover mechanism 5 is matched with a carrying and stacking mechanism 6 after welding is completed, and welded finished products are neatly stacked in a specified area to wait for uniform collection and carrying; can accomplish the work to elevator door plant welding strengthening rib fast, degree of automation is high, has solved present elevator door plant shaping back effectively, needs the manual work to lift the problem of welding strengthening rib, saves space, improves production efficiency, reduces the manual work.
The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (7)

1. The utility model provides an elevator door plant strengthening rib automatic weld assembly line which characterized in that: the device comprises an elevator door plate conveying mechanism, a reinforcing rib conveying mechanism, an assembling and feeding mechanism, a welding mechanism, a switching turnover mechanism and a carrying and stacking mechanism;
the elevator door plate conveying mechanism comprises a left bearing support rod and a right bearing support rod with certain inclination, and a convex stop block is arranged at the tail end of each bearing support rod; a first guide rail is arranged in the middle of the two bearing support rods, a movable support is movably arranged on the first guide rail, a first sucker module is arranged above the movable support, two telescopic cylinders are arranged on the left side and the right side of the movable support, and telescopic rods of the two telescopic cylinders are respectively connected with the left side and the right side of the first sucker module;
the reinforcing rib conveying mechanism comprises a reinforcing rib roller pressing line and a reinforcing rib conveying belt, and the reinforcing rib conveying belt is communicated to the assembling and feeding mechanism;
the assembly feeding mechanism comprises an elevator door plate conveying belt group and a reinforcing rib grabbing mechanism, the reinforcing rib grabbing mechanism comprises a second guide rail and a third guide rail which are parallel to each other, the second guide rail and the third guide rail are arranged above the first elevator door plate conveying belt group through a support, a cross beam is arranged between the second guide rail and the third guide rail in a manner of moving back and forth, a vertically arranged fourth guide rail is arranged on the cross beam, a transversely arranged lifting straight rod is arranged on the fourth guide rail in a manner of moving up and down, and a plurality of clamping jaws are uniformly arranged on the lifting straight rod;
the welding mechanism comprises a spot welding machine and a welding platform, a welding head of the spot welding machine is arranged above the welding platform, and the first elevator door plate conveying belt group is communicated with the welding platform;
the switching turnover mechanism comprises a finished product conveying belt group and a finished product grabbing mechanism, a door-shaped support is arranged above the finished product conveying belt group, a rotating shaft is arranged on the door-shaped support and is connected with a rotating motor through a coupler, and a second sucker module is arranged on the rotating shaft;
the carrying and stacking mechanism comprises a carrying manipulator and a third sucker module, and the manipulator is connected with the third sucker module.
2. The automatic welding assembly line for reinforcing ribs of elevator door panels as claimed in claim 1, wherein: two positioning rods which correspond to each other left and right are further arranged on the left side and the right side of the two bearing support rods respectively, and one of the two positioning rods which correspond to each other left and right is movably arranged on a fifth guide rail.
3. The automatic welding assembly line for reinforcing ribs of elevator door panels as claimed in claim 1, wherein: the reinforcing rib conveying belt comprises a first reinforcing rib conveying belt and a second reinforcing rib conveying belt, the first reinforcing rib conveying belt and the second reinforcing rib conveying belt are perpendicular to each other, the first reinforcing rib conveying belt is communicated with the reinforcing rib rolling line, the second reinforcing rib conveying belt is communicated to the assembly feeding mechanism, and meanwhile, the first reinforcing rib conveying belt is communicated with the second reinforcing rib conveying belt in a joint mode and is provided with a reinforcing rib shifting mechanism, the reinforcing rib shifting mechanism comprises a supporting platform, a rotating cylinder is arranged on the supporting platform, a rotating panel is connected with the rotating cylinder, a sixth guide rail is arranged on the rotating panel, a straight rod is movably arranged on the sixth guide rail, and a plurality of suckers are evenly arranged on the straight rod.
4. The automatic welding assembly line for reinforcing ribs of elevator door panels as claimed in claim 1, wherein: the welding heads of the spot welding machine are uniformly distributed above the welding platform, and each welding head is connected with the air cylinder.
5. The automatic welding assembly line for reinforcing ribs of elevator door panels as claimed in claim 1, wherein: the finished product grabbing mechanism and the reinforcing rib grabbing mechanism are identical in structure.
6. The automatic welding assembly line for reinforcing ribs of elevator door panels as claimed in claim 1, wherein: the elevator door plate conveying belt group and the finished product conveying belt group are identical in structure and are composed of two conveying belts which correspond to each other left and right and are parallel to each other.
7. The automatic welding assembly line for reinforcing ribs of elevator door panels as claimed in claim 1, wherein: the first sucker module, the second sucker module and the third sucker module are identical in structure and are composed of a rectangular support frame and six suckers, and the suckers are evenly distributed on the rectangular support frame.
CN201921517040.8U 2019-09-12 2019-09-12 Automatic welding assembly line for reinforcing ribs of elevator door plate Active CN211162486U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921517040.8U CN211162486U (en) 2019-09-12 2019-09-12 Automatic welding assembly line for reinforcing ribs of elevator door plate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921517040.8U CN211162486U (en) 2019-09-12 2019-09-12 Automatic welding assembly line for reinforcing ribs of elevator door plate

Publications (1)

Publication Number Publication Date
CN211162486U true CN211162486U (en) 2020-08-04

Family

ID=71823909

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921517040.8U Active CN211162486U (en) 2019-09-12 2019-09-12 Automatic welding assembly line for reinforcing ribs of elevator door plate

Country Status (1)

Country Link
CN (1) CN211162486U (en)

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