CN109482768B

CN109482768B - Tank production line and flanging and sealing device thereof

Info

Publication number: CN109482768B
Application number: CN201811486032.1A
Authority: CN
Inventors: 于艳军; 陈小同; 朱晓林; 高秀
Original assignee: Jiangsu Aoruijin Package Co ltd
Current assignee: Jiangsu Aoruijin Package Co ltd
Priority date: 2018-12-06
Filing date: 2018-12-06
Publication date: 2023-10-03
Anticipated expiration: 2038-12-06
Also published as: CN109482768A

Abstract

The invention discloses a tank production line which comprises a conveyor belt, wherein a diameter reducing device, a flanging sealing device, a turning-over device, a lifting device and a full-jet machine triangular belt device are sequentially arranged in the advancing direction of the conveyor belt. Be equipped with two infrared sensing devices that can detect jar body between two adjacent devices along the conveyer belt direction, all infrared sensing devices are connected to the controller, through the time interval that infrared sensing was truncated, can know whether the place ahead jar body has the backlog, then can stop the conveyer belt at rear portion. The invention also discloses a flanging and sealing device of the tank production line, which can carry out flanging and sealing on the tank. By adopting the design of the invention, the tank volume pressure of the production line can be prevented, and the full-automatic work can be realized.

Description

Tank production line and flanging and sealing device thereof

Technical Field

The invention relates to a production line for producing a tank body and a flanging and sealing device thereof, and belongs to the field of production and manufacturing.

Background

Under the premise of continuously innovating technology, the technology in the production technical field is continuously innovated, from manual operation, semi-automatic operation, full-automatic production, various problems of time and labor waste, high cost, low semi-automatic efficiency, high requirements on workers, low yield of the production line, easy backlog of a tank body, incoherence in connection of various process steps and the like exist in the full-automatic technology.

Disclosure of Invention

The invention aims to: the invention aims to solve the problems that the existing tank production line is immature by adopting a full-automatic production technology, the production line yield is low, the tank is easy to produce backlog, and the connection of all the process steps is not consistent.

The technical scheme is as follows: in order to solve the problems, the invention adopts the following technical scheme:

the utility model provides a jar body production line, includes the conveyer belt, sets gradually reducing device, turn-ups closing device, turnover device, hoisting device and full-jet machine V belt device in the direction of advance of conveyer belt, is equipped with two infrared sensing devices that can detect jar body between two devices adjacent along the conveyer belt direction, and all infrared sensing devices are connected to the controller, and each process mutually independent conveyer belt that sets up is connected to the controller.

Adopt two infrared induction device, one of them can respond to whether next process jar body has the condition of jam, and another infrared induction can respond to whether subsequent jar body has been held back or has prolonged the transportation interval.

Further, the infrared sensing device is divided into an infrared emitter and an infrared receiver, which are both oriented to the conveyor belt, and the relative position is adapted, and the set height cannot exceed the height of the tank body and is not lower than the height of the conveyor belt.

The infrared sensing device is divided into an infrared emitter and an infrared receiver, which face the conveyor belt, the set height accords with the range which can be cut off by the tank body, namely, the highest height cannot exceed the height of the tank body, the lowest height cannot be lower than the height of the conveyor belt, through the design of infrared sensing, whether the subsequent process has generated blockage can be judged by the frequency of cutting off the infrared rays by the tank body through the infrared sensing device close to the current process, then information is transmitted to the controller, the controller controls the controller to adopt an 89C51 singlechip, and the controller controls the conveyor belt of the previous process to reduce the transmission rate or stop transmission.

The diameter reducing device comprises a can entering star plate, a diameter reducing machine and a can exiting star plate.

The pot entering star plate, the reducing machine and the pot exiting star plate are all round disc surfaces and are driven by a rotating shaft, and a plurality of concave storage openings matched with the side surfaces of the pot body are formed in the edges of the round disc surfaces of the pot entering star plate, the reducing machine and the pot exiting star plate, and embedded magnets are arranged on the inner walls of the concave storage openings.

Further, the turning device comprises at least three supports for fixing the supporting rods and at least four supporting rods, and the supporting rods are spirally wound along the inner wall of the support on the basis that the tank body is reserved and passes through the gaps.

The cost of the structure of the device is 50-60 yuan, if the realized function adopts electronic equipment, the assistance of a turning-over mechanical arm is needed, the cost is 50000-150000 yuan, and by adopting the wrapping design, firstly, the device is not easy to damage due to simple structure and only simple rigid connection, secondly, even if the device is damaged, only a little replacement cost is needed, and according to the different lengths, 5-8 tank bodies can be provided for turning over at the same time, and the efficiency is also larger than that of the mechanical arm.

Further, for each strut, the strut ends at the inlet and outlet of the turn-over device are wrapped 180 ° relative to the space enclosed by the inner wall of the bracket.

Further, the full-spray triangular belt device comprises a full-spray shaft which can extend into the tank body to spray paint, a paint spraying opening is formed in the full-spray shaft, and the full-spray shaft is connected with the motor through a triangular belt with a trapezoid cross section.

The existing triangular belt generally adopts a rectangular design, a hub winds in a clamping groove on a full spraying shaft which is matched with the triangular belt, and in the process of driving the full spraying shaft to rotate, four corners of the triangular belt are subjected to the influence of friction force due to being coated, so that the abrasion is quite serious, 1-2 triangular belts are generally required to be replaced in one day, the triangular belt with a trapezoid cross section is adopted, and one narrower end face of the trapezoid is wound towards the clamping groove, so that the stress is distributed on the inclined edge of the trapezoid, the service life of the triangular belt is greatly prolonged, and the triangular belt can be practically used for 15-20 days after being replaced generally once by adopting the design.

Further, the conveyor belt between two adjacent devices along the conveying direction of the conveyor belt is independently arranged and is connected with an independent motor.

The utility model provides a turn-ups closing device of jar body production line, including the unequally spaced screw rod that is located the one side along the conveyer belt that sets up of turn-ups closing device entry, unequally spaced screw rod stretches into inside the turn-ups closing device, the unequally spaced screw rod tip that is located inside the turn-ups closing device is equipped with the entry star for the opposite side of its place conveyer belt, the one side that the entry star kept away from the conveyer belt is equipped with the flanger that suits with it, the flanger is equipped with the transfer star that suits with it in the place that the flanger is not in the place of being close to of entry star, there is the lid ware in one side of transfer star, the lid ware is the lid ware that falls with it for the opposite side of transfer star, along the direction of rotation of transfer star, be located behind the lid ware, be equipped with the capper that passes star dish cooperation, the mouth star of export dish that the mouth is close to the one side of turn-ups closing device export of mouth is equipped with it cooperation, export star is with next process conveyer belt place of being close to, there is next process conveyer belt one side extension star import mouth bottom just to export star top axle of jar that the jar body.

The design of the top shaft is adopted, and the tank body is adsorbed on the tank discharging star plate, even if the tank body reaches the conveying belt, the tank body cannot fall off directly, and the magnetic force is larger than the tank discharging star plate unless the tank body is designed on the conveying belt, however, the design is too high in cost, the tank body is stripped from the tank discharging star plate by adopting the design of the top shaft, and the top shaft has a radian extending to the conveying belt, so that the tank body can be guided to a certain extent, and the tank body can timely enter the conveying belt of the next procedure.

Further, the inlet star plate, the flanging machine, the transfer star plate, the sealing machine and the outlet star plate are all round disc surfaces and are driven by a rotating shaft, the edges of the round disc surfaces of the inlet star plate, the flanging machine, the transfer star plate, the sealing machine and the outlet star plate are all provided with a plurality of concave storage openings matched with the side surfaces of the tank body, the inner wall of each concave storage opening is provided with an embedded magnet, and the magnetic force of the magnet increases progressively according to the sequence of the tank body passing through five devices.

The magnetic force increasing mode is adopted, and the equipment of the part is arranged in a closed shell, so that if other means are adopted, the operation and maintenance are troublesome, the structure is simple through the magnetic force increasing mode, the cost is not increased too much due to the fact that the adopted magnets are not too many, and the equipment can be adsorbed to a subsequent device through larger magnetic force.

Further, the threaded portions of the unequally spaced screws are disposed along the direction of advance of the conveyor belt, and the portion located in the conveyor belt can abut against the can body.

By adopting the design, the gap of the threads of the unequally-spaced screw can be just matched with the tank body, so that the tank body can be driven by the unequally-spaced screw, and can generate a speed difference with a conveyor belt, so that the unequally-spaced screw is separated from the conveyor belt and is more easily adsorbed by the magnet on the star plate.

Working principle: the tank body for the production line is a tank body which is cut into small pieces and welded by a large sheet of finished iron of a plate shearing machine, then is subjected to the procedures of powder internal coating, external coating and drying solidification, is close to a diameter reducing device, is separated from a conveyor belt under the action of a non-equidistant screw rod at an inlet of the diameter reducing device, enables the tank body to have a partial gap under the action of threads, is adsorbed under the action of magnetic force of a tank inlet star plate, and the tank body is driven to rotate by rotation of the tank inlet star plate, reaches the diameter reducing machine under the action of stronger magnetic force, rotates after one diameter reduction, and carries out the adsorption of the next tank body, and simultaneously, the tank body close to the tank outlet star plate is adsorbed under the action of the tank outlet star plate, the tank outlet star plate rotates to drive the tank body to rotate, is separated from the tank outlet star plate under the action of a top shaft and arrives at the front conveyor belt of the flanging sealing device along the extending direction of the top shaft, after the tank body is adsorbed by the flanging machine, the tank body rotates to reach a transfer star plate, the transfer star plate rotates to a position close to a cover conveyer, the cover conveyer grabs the tank body and rotates to a cover falling device, the cover falling device places a cover on the top of the tank body, the cover conveyer continuously drives to a position close to the transfer star plate, the tank body is loosened, the tank body is adsorbed by the transfer star plate and enters a sealing machine along with the transfer star plate, the sealing machine rotates to an outlet star plate after sealing is completed and is adsorbed by the outlet star plate, under the same principle, the tank body enters a front conveyor belt of a turnover machine, the position of the turnover machine does not need the conveyor belt, the tank body enters a supporting rod gap of the turnover machine under the action of inertia, moves forwards under the thrust of the subsequent tank body, enables one side of the cover to be downwards, reaches an outlet, then enters a cleaning machine, cleaning operation is performed on the cleaning machine, and top sealing is performed again, and then the tank body is moved to a full-spray triangular belt under the action of a lifting device, the final baking operation is carried out after the paint spraying operation is finished on the full-spray triangular belt, namely, all the procedures of the tank body are finished, and the tank body can be put in storage after inspection.

The beneficial effects are that: compared with the prior art, the invention has the advantages that: by adopting full-automatic production, the controller can be realized by adopting an 89C51 singlechip due to simple command needing to be controlled, the cost of realizing full automation of the production line is saved, meanwhile, the yield of the production line is still kept at a higher level, the tank body is not easy to produce backlog on the production line, and the connection among the process steps is also coherent.

Drawings

FIG. 1 is a block diagram of the structure of the present invention;

FIG. 2 is a schematic structural view of a flanging capping device of the present invention;

FIG. 3 is a schematic view of a turning device according to the present invention;

fig. 4 is a schematic structural view of the full-jet triangular belt of the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

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

Example 1

The utility model provides a jar body production line, includes conveyer belt 1, sets gradually reducing device 2, turn-ups closing device 3, turnover device 4, hoisting device 5 and full-spray machine V belt device 6 in the direction of advance of conveyer belt 1, is equipped with two infrared sensing device 7 that can detect jar body between two adjacent devices along conveyer belt 1 direction, and all infrared sensing device 7 are connected to controller 8, and conveyer belt 1 that each process mutual independence set up is connected to controller 8.

The infrared induction device 7 is divided into an infrared emitter and an infrared receiver, the infrared induction device is arranged on two sides of the conveying belt and faces the conveying belt, the set height accords with the range which can be cut off by the tank body, namely, the highest height cannot exceed the height of the tank body, the lowest height cannot be lower than the height of the conveying belt, through the design of infrared induction, whether the subsequent process is blocked or not can be judged by the frequency of the infrared rays cut off by the tank body through the infrared induction device close to the current process, then information is transmitted to the controller, the controller is controlled to adopt an 89C51 single chip microcomputer, and the controller controls the conveying belt of the previous process to reduce the transmission rate or stop conveying.

The turning device 4 comprises at least three brackets 23 for fixing the supporting rods and at least four supporting rods 24, and the supporting rods 24 are spirally wound along the inner wall of the brackets 23 on the basis that the tank 13 is reserved and passes through the gaps.

For each strut 24, the ends of the strut 24 at the inlet and outlet of the turn-over device are wrapped 180 ° relative to the space enclosed by the inner wall of the support 23.

The diameter reducing device 2 comprises a can entering star plate, a diameter reducing machine and a can exiting star plate.

The full-spray V-belt device 6 comprises a full-spray shaft (not shown) which can extend into the tank 13 for spraying paint, a paint spraying opening is formed in the full-spray shaft, and the full-spray shaft is connected with a motor through a V-belt 27 with a trapezoid cross section.

The conveyor belt 1 between two adjacent devices in the conveying direction of the conveyor belt 1 is independently provided and connected to an independent motor (not shown).

Example 2

The utility model provides a turn-ups closing device 3 of jar body production line, including the unequally-spaced screw rod 9 that is located the one side of conveyer belt 1 that edge was put of turn-ups closing device 3 entry, unequally-spaced screw rod 9 stretches into turn-ups closing device 3 inside, the unequally-spaced screw rod 9 tip that is located turn-ups closing device 3 is equipped with entry star 16 with the opposite side of conveyer belt that its is located the position, the one side that entry star 16 kept away from conveyer belt 1 is equipped with the flanger 17 of adaptation therewith, the part that the flanger 17 is not kept away from entry star 16 is equipped with the transfer star 18 of adaptation therewith, there is a cover transfer 19 on one side of transfer star 18, the other side that the cover transfer 19 is for the cover falling 20 of cooperation therewith with respect to transfer star 18, along the direction of rotation of transfer star 18, behind the cover transfer 19, be equipped with the capper 21 of cooperation with transfer star 18, one side that the capper 21 is close to turn-ups closing device 3 exit star 22 of cooperation therewith, export star 22 is kept away from conveyer belt 1, there is a next process conveyer belt 1 one side to extend star 22 just to be over the axle 14 of export star 22 of jar 13 just to the bottom of conveying star 13.

The inlet star plate 16, the flanging machine 17, the transfer star plate 18, the sealing machine 21 and the outlet star plate 22 are all round disc surfaces and are driven by a rotating shaft, the edges of the round disc surfaces of the inlet star plate 16, the flanging machine 17, the transfer star plate 18, the sealing machine 21 and the outlet star plate 22 are all provided with a plurality of concave containing openings 15 which are matched with the side surfaces of the tank body 13, the inner wall of each concave containing opening 15 is provided with an embedded magnet, and the magnetic force of the magnet increases progressively according to the sequence of the tank body 13 passing through five devices.

The threaded portions of the unequally spaced screws 9 are arranged in the direction of advance of the conveyor belt 1, and the portion located in the conveyor belt 1 can be just against the can 13.

Example 3

The tank body for the production line is a tank body which is cut into small pieces and welded by a plate shearing machine, then is subjected to the procedures of powder internal coating, external coating and drying solidification, the tank body 13 is close to the reducing device 2, is separated from the conveying belt 1 under the action of the non-equidistant screw rods 9 at the inlet of the reducing device 2, enables the tank body 13 to have partial gaps under the action of threads, is adsorbed under the action of magnetic force of a tank inlet star plate, the tank body 13 is driven to rotate by the rotation of the tank inlet star plate, reaches the reducing machine under the action of stronger magnetic force, rotates after one-time diameter reduction is finished, and is adsorbed by the next tank body 13, and simultaneously, under the action of a tank outlet star plate, the tank body 13 close to the tank outlet star plate is adsorbed, the tank body 13 is driven to rotate by the rotation of the tank outlet star plate, is separated from the tank outlet star plate under the action of the top shaft 14 and is driven to the front conveying belt 1 of the flanging sealing device 3 along the extending direction of the top shaft 14, the same principle is that after the can 13 is absorbed by the flanging machine 17, the can body 13 rotates to reach the transfer star plate 18, the transfer star plate 18 rotates to a position close to the cover conveyer 19, the cover conveyer 19 grabs the can body 13 and rotates to the cover falling device 20, the cover falling device 20 places the cover on the top of the can body 13, the cover conveyer 19 continues to drive to a position close to the transfer star plate 18, the can body 13 is loosened, the can body 13 is absorbed by the transfer star plate 18 and goes to the sealing machine 21 along with the transfer star plate 18, the sealing machine 21 rotates to the outlet star plate 22 to be absorbed by the outlet star plate 22 after sealing is completed, under the same principle, the can body 13 enters the front conveyor belt 1 of the turnover machine 4, the position of the turnover machine 4 does not need the conveyor belt 1, the can body 13 enters the gaps of the support rods 24 of the turnover machine 4 under the action of inertia and moves forward and turns over under the thrust of the follow-up can body 13, one side of the sealing cover is downward to reach an outlet, then the sealing cover enters a cleaning machine (not shown), the cleaning machine is used for cleaning, the top sealing cover is carried out again, then the sealing cover enters a full-spray triangular belt 6 under the action of a lifting device 5, the final baking operation is carried out after the paint spraying operation is finished on the full-spray triangular belt 6, namely, all working procedures of the tank body 13 are finished, and the sealing cover can be put in storage after inspection.

Claims

1. The utility model provides a jar body production line, includes the conveyer belt, its characterized in that: the diameter reducing device, the flanging sealing device, the turning device, the lifting device and the full-jet machine triangular belt device are sequentially arranged in the advancing direction of the conveying belt, at least two infrared sensing devices arranged along the conveying belt are arranged on one side of the conveying belt in the inlet direction of the flanging sealing device, all the infrared sensing devices are connected to a controller, the controller is connected with the conveying belt which is mutually and independently arranged in each working procedure, the flanging sealing device comprises unequally-spaced screw rods which are arranged on one side of the conveying belt and are positioned at the inlet of the flanging sealing device, the unequally-spaced screw rods extend into the flanging sealing device, an inlet star is arranged on the other side of the end part of the unequally-spaced screw rods which is positioned in the flanging sealing device, an inlet star is arranged on one side of the inlet star, which is far away from the conveying belt, a transfer star is arranged on the adjacent part of the flanging machine, which is not matched with the inlet star, a cover conveyer is arranged on one side of the transfer star plate, the other side of the cover conveyer relative to the transfer star plate is a cover falling device matched with the transfer star plate, a sealing machine matched with the transfer star plate is arranged behind the cover conveyer along the rotation direction of the transfer star plate, an outlet star plate matched with the sealing machine is arranged on one side of the sealing machine close to the outlet of the transfer star plate, the outlet star plate is abutted with a next process conveyor belt, one side of the next process conveyor belt extends to the bottom of the inlet star plate to be opposite to the top shaft of a tank body conveyed by the outlet star plate, the inlet star plate, the flanging machine, the transfer star plate, the sealing machine and the outlet star plate are all round disk surfaces and are driven by a rotating shaft, the edges of the round disk surfaces of the inlet star plate, the flanging machine, the transfer star plate, the sealing machine and the outlet star plate are all provided with a plurality of concave containing ports matched with the side surfaces of the tank body, the inner walls of the concave containing ports are provided with embedded magnets according to the sequence of the tank body passing through five devices, the magnetic force of the magnet increases progressively.

2. The tank production line according to claim 1, characterized in that: the infrared sensing device is divided into an infrared emitter and an infrared receiver, which are both oriented to the conveyor belt, and are adapted to the relative positions, and the set height cannot exceed the height of the tank body and is not lower than the height of the conveyor belt.

3. The tank production line according to claim 1, characterized in that: the turning device comprises at least three supports for fixing the supporting rods and at least four supporting rods, and the supporting rods are spirally wound along the inner wall of the support on the basis that the tank body is reserved and passes through the gaps.

4. A tank production line according to claim 3, characterized in that: for each strut, the strut ends at the inlet and outlet of the turn-over device are 180 ° wrapped relative to the space enclosed by the inner wall of the bracket.

5. The tank production line according to claim 1, characterized in that: the full-spray triangular belt device comprises a full-spray shaft which can extend into the tank body to spray paint, a paint spraying opening is formed in the full-spray shaft, and the full-spray shaft is connected with a triangular belt with a trapezoid cross section through a motor.

6. The tank production line according to any one of claims 1 to 5, characterized in that: the conveyor belt between two adjacent devices along the conveying direction of the conveyor belt is independently arranged and is connected with an independent motor.

7. The tank production line according to claim 1, characterized in that: the screw thread portion of unequally spaced screw rod sets up along the conveyer belt direction of advance, and the part that lies in the conveyer belt can support the jar body just.