CN114919941B - Conveying device for optical cable bundle tube plate - Google Patents

Abstract

The application discloses a conveyer of optical cable beam tube dish includes: a plurality of guide rails which are in butt joint in sequence, wherein each guide rail is movably provided with a movable supporting plate; the driving mechanism is used for driving the movable supporting plate to reciprocate on the corresponding guide rail; the transfer platform is arranged on the tray through the locking mechanism and is used for accommodating the beam tube tray; and the electromagnetic pushing device is used for switching the transfer platform from one movable supporting plate to the other movable supporting plate. According to the method, the conveying direction of the transfer platform can be changed by arranging the plurality of guide rails, so that the reasonable utilization of factory building space is ensured; the locking mechanism can lock and unlock the transfer platform, and the electromagnetic pushing device can switch the transfer platform from one movable supporting plate to the other movable supporting plate, so that the guide rail switching operation is realized, and the transfer platform with the beam tube plate is conveyed to the corresponding position. The conveying device can realize automatic conveying, and effectively lighten the labor intensity of workers.

Description

Conveying device for optical cable bundle tube plate

Technical Field

The invention relates to the field of optical cable production, in particular to a method and a device for transporting an optical cable beam tube plate.

Background

The existing optical cable double-disc wire-collecting clamping and conveying mode adopts a manual mode, an empty beam tube disc is conveyed onto a clamping rotary station of the beam tube wire-collecting from a storage area, then a disc tool is lifted through a manual button, and the empty disc is clamped through a clamping cylinder. The beam tube plate is conveyed in a manual mode, so that the efficiency is low, and when the plate is clamped, the other plate is in an operation state, personnel are close to rotary operation equipment, and certain potential safety hazards exist.

Disclosure of Invention

The invention aims at the problems and overcomes at least one defect, and provides a method and a device for transporting an optical cable beam tube disc, which can realize automatic transportation of the beam tube disc.

The technical scheme adopted by the invention is as follows:

the utility model provides a transportation method of optical cable beam tube dish, is through the activity layer board that the activity set up on the guide rail with the beam tube dish carry to clamping rotation station on, wherein, the beam tube dish is settled on moving the platform, and the beam tube dish passes through moving the platform to be fixed on the activity layer board, and the beam tube dish is settled behind moving the platform, and the difference in height of the central line of beam tube dish clamping portion and the upper top axle central line of clamping rotation station is 6~8mm.

The transfer platform can be conveniently and rapidly conveyed to the clamping rotary station through the guide rail and the movable supporting plate, so that the labor intensity of workers is reduced; the height difference between the center line of the clamping part of the tube plate to be clamped and the center line of the top shaft on the clamping rotary station is 6-8 mm, compared with the existing carrier, the height difference is in a proper range capable of clamping and releasing, so that lifting operation on the tube plate is not needed, the machining efficiency is improved, the safety of operators can be ensured, and the automatic logistics butt joint of products among working procedures can be realized by using the method.

Optionally, the guide rails are multiple, each guide rail is connected in sequence, one guide rail extends to the empty disc area of the tube bundling disc, and the other guide rail extends to the clamping rotating station; the movable supporting plates are movably arranged on the guide rails, and the transfer platform moves from the movable supporting plate of one guide rail to the movable supporting plate of the other guide rail through the electromagnetic pushing device; the movable supporting plate is driven by a chain, a conveyor belt or a rodless cylinder to reciprocate on the guide rail; the transfer platform realizes the locking and unlocking operation with the movable supporting plate through the locking mechanism.

The conveying direction of the transfer platform can be changed by arranging a plurality of guide rails, so that the reasonable utilization of factory building space is ensured.

The application also discloses a conveyer of optical cable beam tube dish, include:

a plurality of guide rails which are in butt joint in sequence, wherein each guide rail is movably provided with a movable supporting plate;

the driving mechanism is used for driving the movable supporting plate to reciprocate on the corresponding guide rail;

the transfer platform is arranged on the supporting plate through the locking mechanism and is used for accommodating the beam tube plate;

and the electromagnetic pushing device is used for switching the transfer platform from one movable supporting plate to the other movable supporting plate.

The conveying direction of the transfer platform can be changed by arranging a plurality of guide rails, so that the reasonable utilization of factory building space is ensured; the locking mechanism can lock and unlock the transfer platform, and the electromagnetic pushing device can switch the transfer platform from one movable supporting plate to the other movable supporting plate, so that the guide rail switching operation is realized, and the transfer platform with the beam tube plate is conveyed to the corresponding position. The conveying device can realize automatic conveying, and effectively lighten the labor intensity of workers.

Optionally, the conveying device is used for conveying the beam tube plate to the clamping rotary station, and when the beam tube plate is arranged on the transfer station, the height difference between the center line of the clamping part of the beam tube plate and the center line of the top shaft on the clamping rotary station is 6-8 mm.

The height difference between the center line of the tube bundle disc clamping part and the center line of the top shaft on the clamping rotary station is 6-8 mm, compared with the prior carrying tool, the height difference can be in a proper range capable of clamping and releasing, so that lifting operation on the tube bundle disc is not needed, the processing efficiency is improved, the safety of operators can be ensured, and the automatic logistics butt joint of products among working procedures can be realized by using the conveying device.

Optionally, the locking mechanism includes:

the elastic pin assembly is arranged on the transfer platform and comprises a pin and a spring for pushing the pin to move outwards;

the positioning through hole is arranged on the movable supporting plate and is used for being matched with the elastic pin assembly, and when the positioning hole is aligned with the pin, the spring pushes the pin to extend into the positioning hole to realize positioning;

and the unlocking piece is used for pushing the pin to enable the pin to be separated from the positioning through hole, and is an unlocking cylinder or an electromagnet.

The locking function can be realized through the cooperation of elastic pin subassembly and location through-hole, can push away the pin from the location through-hole through the unlatching piece to realize the unblock function.

Optionally, the locking mechanism further includes:

the limiting plate is arranged on the side edge of the movable supporting plate and used for limiting the moving position of the transfer platform when the transfer platform is transferred;

the rotating wheels are rotatably arranged on two sides of the transfer platform and are matched with the corresponding limiting plates.

Through the cooperation of limiting plate and rotation wheel, can realize the reliable transfer of carrying the platform, and carry the platform and can be better with the cooperation of movable supporting plate, move along with movable supporting plate.

Optionally, the electromagnetic pushing device includes:

the magnetic piece is fixed on the transfer platform;

the transfer cylinder is arranged at the joint of the two guide rails, an electromagnet is fixed on a piston rod of the transfer cylinder, the electromagnet is connected with a switch circuit, and the electromagnet is matched with the magnetic part.

The magnetism actuation of magnetic part and electro-magnet is realized through the break-make of switch circuit, and when switch circuit was circular telegram, the piston rod of transfer cylinder can drive electro-magnet and magnetic part actuation to drive and move the platform, after moving the platform in place that moves, switch circuit outage, electro-magnet and magnetic part disconnection actuation, the piston rod resets at this moment can. Through the cooperation of magnetic part, electro-magnet and transfer cylinder, can realize the switching of moving and carrying the platform between two movable supporting plates.

Optionally, the driving mechanism is a rodless cylinder, the cylinder body of the rodless cylinder is arranged in parallel with the corresponding track, and the piston of the rodless cylinder is fixed with the corresponding movable supporting plate.

Optionally, the driving mechanism includes:

at least two sprockets;

the chain is arranged on the chain wheel, and the corresponding movable supporting plate is connected with the chain and driven to move by the chain;

and the driving motor is used for driving the chain wheel to rotate and driving the chain to move.

Optionally, the guide rail has three, is first guide rail, second guide rail and third guide rail in proper order, and the first end of first guide rail extends to the empty disc district of restraint pipe dish, and the second end of first guide rail is docked with the first end of second guide rail, and the second end of second guide rail is docked with the first end of third guide rail, and the second end of third guide rail extends to clamping rotation station, and two guide rails mutually perpendicular of butt joint.

Optionally, the driving mechanism of the first guide rail includes:

at least two sprockets;

the chain is arranged on the chain wheel, and the corresponding movable supporting plate is connected with the chain and driven to move by the chain;

and the driving motor is used for driving the chain wheel to rotate and driving the chain to move.

Optionally, the driving mechanism of the second guide rail and the driving mechanism of the third guide rail are rodless cylinders, the cylinder bodies of the rodless cylinders are arranged in parallel with the corresponding tracks, and the pistons of the rodless cylinders are fixed with the corresponding movable supporting plates.

The beneficial effects of the invention are as follows: the conveying direction of the transfer platform can be changed by arranging a plurality of guide rails, so that the reasonable utilization of factory building space is ensured; the locking mechanism can lock and unlock the transfer platform, and the electromagnetic pushing device can switch the transfer platform from one movable supporting plate to the other movable supporting plate, so that the guide rail switching operation is realized, and the transfer platform with the beam tube plate is conveyed to the corresponding position. The conveying device can realize automatic conveying, and effectively lighten the labor intensity of workers.

Drawings

FIG. 1 is a schematic diagram of a transport device for a cable drum;

FIG. 2 is a schematic diagram of a transfer station switching between two movable pallets;

FIG. 3 is a schematic view of another angle at which the transfer station switches between two movable pallets;

fig. 4 is a schematic view of a transfer station.

The reference numerals in the drawings are as follows:

1. a first guide rail; 2. a second guide rail; 3. a third guide rail; 4. a movable supporting plate; 5. a transfer platform; 6. a tube bundling disc; 7. a rodless cylinder; 8. a driving motor; 9. a sprocket; 10. a chain; 11. a clamping part; 12. an electromagnetic pushing device; 13. a limiting plate; 14. a rotating wheel; 15. a magnetic member; 16. an electromagnet; 17. a transfer cylinder; 18. an unlocking member; 19. positioning the through hole; 20. a spring pin assembly; 21. a mounting hole; 22. a pin; 23. an anti-falling part; 24. a spring; 25. and a cover plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a transportation method of optical cable beam tube dish, is through the activity layer board that the activity set up on the guide rail with the beam tube dish carry to clamping rotation station on, wherein, the beam tube dish is settled on moving the platform, and the beam tube dish passes through moving the platform to be fixed on the activity layer board, and the beam tube dish is settled behind moving the platform, and the difference in height of the central line of beam tube dish clamping portion and the upper top axle central line of clamping rotation station is 6~8mm.

In the embodiment, a plurality of guide rails are provided, each guide rail is connected in sequence, one guide rail extends to an empty disc area of the tube bundling disc, and the other guide rail extends to a clamping rotating station; the movable supporting plates are movably arranged on the guide rails, and the transfer platform moves from the movable supporting plate of one guide rail to the movable supporting plate of the other guide rail through the electromagnetic pushing device; the movable supporting plate is driven by a chain, a conveyor belt or a rodless cylinder to reciprocate on the guide rail; the transfer platform realizes the locking and unlocking operation with the movable supporting plate through the locking mechanism.

The transfer platform can be conveniently and rapidly conveyed to the clamping rotary station through the guide rail and the movable supporting plate, so that the labor intensity of workers is reduced; the height difference between the center line of the clamping part of the tube clamping disc to be clamped and the center line of the top shaft on the clamping rotary station is 6-8 mm, compared with the existing carrier, the height difference is in a proper range capable of clamping and disengaging, so that lifting operation on the tube clamping disc is not needed, the machining efficiency is improved, and the safety of operators can be guaranteed. The conveying direction of the transfer platform can be changed by arranging a plurality of guide rails, so that the reasonable utilization of factory building space is ensured.

As shown in fig. 1, 2 and 3, the present embodiment further discloses a transporting device for implementing the method of the optical cable bundle tube disc, where the transporting device includes:

a plurality of guide rails which are in butt joint in sequence, wherein each guide rail is movably provided with a movable supporting plate 4;

the driving mechanism is used for driving the movable supporting plate 4 to reciprocate on the corresponding guide rail;

the transfer platform 5 is arranged on the supporting plate through a locking mechanism, and the transfer platform 5 is used for accommodating the beam tube plate 6;

and an electromagnetic pushing device 12 for switching the transfer platform 5 from one movable pallet 4 to another movable pallet 4.

The conveying direction of the transfer platform 5 can be changed by arranging a plurality of guide rails, so that the reasonable utilization of factory building space is ensured; the locking and unlocking of the transfer platform 5 can be realized through the locking mechanism, the transfer platform 5 can be switched from one movable supporting plate 4 to the other movable supporting plate 4 through the electromagnetic pushing device 12, and the switching operation of the guide rail is realized, so that the transfer platform 5 with the beam tube disc 6 is conveyed to the corresponding position. The conveying device can realize automatic conveying, and effectively lighten the labor intensity of workers.

In this embodiment, the transporting device is used for transporting the beam tube plate 6 to the clamping rotating station, and when the beam tube plate 6 is placed on the transfer platform 5, the height difference between the center line of the clamping portion 11 of the beam tube plate 6 and the center line of the top shaft on the clamping rotating station is 6-8 mm. The height difference between the center line of the clamping part 11 of the beam tube disc 6 and the center line of the top shaft on the clamping rotary station is 6-8 mm, compared with the existing carrier, the height difference is in a proper range capable of clamping and disengaging, so that lifting operation on the beam tube disc 6 is not needed, the machining efficiency is improved, and the safety of operators can be ensured.

As shown in fig. 2, 3 and 4, in the present embodiment, the locking mechanism includes:

an elastic pin assembly 20 provided on the transfer table 5, the elastic pin assembly 20 including a pin 22 and a spring 24 pushing the pin 22 to move outward;

a positioning through hole 19 is arranged on the movable supporting plate 4 and is used for being matched with the elastic pin assembly 20, and when the positioning hole is aligned with the pin 22, the spring 24 pushes the pin 22 to extend into the positioning hole to realize positioning;

unlocking member 18 is used for pushing pin 22 to enable pin 22 to be separated from positioning through hole 19, and unlocking member 18 is an unlocking cylinder or electromagnet 16.

The locking function can be realized through the cooperation of the elastic pin assembly 20 and the positioning through hole 19, and the pin 22 can be pushed away from the positioning through hole 19 through the unlocking piece 18, so that the unlocking function is realized. In this embodiment, the transfer platform 5 has a mounting hole 21 and a cover plate 25 covering the mounting hole 21, the pin 22 and the spring 24 are disposed in the mounting hole 21, one end of the spring 24 abuts against the pin 22, and the other end abuts against the cover plate 25; the end of the pin 22, which is abutted against the spring 24, is provided with an anti-falling part 23, and one side of the mounting hole 21, which is far away from the cover plate 25, is provided with a limiting ring, and the limiting ring is matched with the anti-falling part 23 to prevent the pin 22 from being completely separated from the mounting hole 21.

As shown in fig. 2, in the present embodiment, the locking mechanism further includes:

a limiting plate 13 disposed at a side of the movable pallet 4 for limiting a moving position of the transfer table 5 when the transfer table 5 is transferred;

the rotating wheels 14 are rotatably arranged on two sides of the transfer platform 5, and the rotating wheels 14 are matched with the corresponding limiting plates 13.

Through the cooperation of limiting plate 13 and rotation wheel 14, can realize the reliable transfer of carrying platform 5, and carry platform 5 can be better with movable layer board 4 cooperation, move along with movable layer board 4.

As shown in fig. 2, in the present embodiment, the electromagnetic pushing device 12 includes:

a magnetic member 15 fixed to the transfer stage 5;

the transfer cylinder 17 is arranged at the joint of the two guide rails, an electromagnet 16 is fixed on a piston rod of the transfer cylinder 17, the electromagnet is connected with a switch circuit, and the electromagnet 16 is matched with the magnetic piece 15.

The magnetic attraction of the magnetic part 15 and the electromagnet 16 is realized through the on-off of a switch circuit, when the switch circuit is electrified, the piston rod of the transfer cylinder 17 can drive the electromagnet 16 to be attracted with the magnetic part 15, so that the transfer table 5 is driven to move, when the transfer table 5 moves in place, the switch circuit is powered off, the electromagnet 16 is disconnected from the magnetic part 15, and the piston rod is reset at the moment. By the cooperation of the magnetic member 15, the electromagnet 16, and the transfer cylinder 17, the transfer table 5 can be switched between the two movable pallets 4.

In this embodiment, the number of the guide rails is three, namely, a first guide rail 1, a second guide rail 2 and a third guide rail 3 in sequence, wherein a first end of the first guide rail 1 extends to an empty disc area of the tube-binding disc 6, a second end of the first guide rail 1 is in butt joint with a first end of the second guide rail 2, a second end of the second guide rail 2 is in butt joint with a first end of the third guide rail 3, a second end of the third guide rail 3 extends to a clamping rotation station, and two mutually-butted guide rails are mutually perpendicular.

In the present embodiment, the driving mechanism of the first rail 1 includes:

at least two sprockets 9;

a chain 10 which is arranged on the chain wheel 9, and the corresponding movable supporting plate 4 is connected with the chain 10 and driven to move by the chain 10;

and the driving motor 8 is used for driving the chain wheel 9 to rotate and driving the chain 10 to move.

In this embodiment, the driving mechanism of the second guide rail 2 and the driving mechanism of the third guide rail 3 are respectively a rodless cylinder 7, the cylinder body of the rodless cylinder is parallel to the corresponding track, and the piston of the rodless cylinder is fixed to the corresponding movable supporting plate 4.

In other embodiments, the drive mechanism for each rail may take other existing drive forms.

The working principle of the transporting device of this embodiment is as follows:

empty bundle tube plate inflow: the beam tube disc is firstly positioned on a transfer platform of an empty disc starting station, the transfer platform is limited on a movable supporting plate through a locking mechanism, a driving motor drives a chain to rotate, so that the movable supporting plate of a first guide rail is driven to move towards a second guide rail, after the beam tube disc moves in place, an unlocking piece pushes a pin to enable the pin to be separated from a positioning through hole to realize unlocking operation, an electromagnetic pushing device moves the transfer platform from the movable supporting plate of the first guide rail to the movable supporting plate of the second guide rail, and after the beam tube disc moves in place, the pin stretches into the positioning through hole of the corresponding movable supporting plate to realize automatic locking; the rodless cylinder works to convey the transfer platform to the other end, the locking mechanism is unlocked, the transfer platform is moved to the movable supporting plate of the third guide rail through the electromagnetic pushing device, finally, the transfer platform is conveyed to the clamping rotary station through the rodless cylinder, and clamping work can be carried out by utilizing the height difference between the transfer platform and the center line of the jacking shaft without lifting the beam tube plate.

Full bundle tube disk outflow: after the beam tube plate is full, the beam tube plate automatically falls onto the transfer platform by utilizing the height difference between the transfer platform and the center line of the top shaft, and then the beam tube plate is transferred to a full plate unloading designated station by the transfer platform and the rodless cylinder.

The device of this embodiment can realize that empty dish is automatic from appointed port entering, and full dish is automatic to go out the dish to appointed port to the whole process need not artifical the participation to can dock with automatic transport commodity circulation line through MES system.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover all equivalent structures as modifications within the scope of the invention, either directly or indirectly, as may be contemplated by the present invention.

Claims (6)

1. A transport device for a fiber optic cable harness spool, comprising:

a plurality of guide rails which are in butt joint in sequence, wherein each guide rail is movably provided with a movable supporting plate;

the driving mechanism is used for driving the movable supporting plate to reciprocate on the corresponding guide rail;

the transfer platform is arranged on the movable supporting plate through the locking mechanism and is used for accommodating the beam tube plate;

the electromagnetic pushing device is used for switching the transfer platform from one movable supporting plate to the other movable supporting plate;

the locking mechanism includes:

the elastic pin assembly is arranged on the transfer platform and comprises a pin and a spring for pushing the pin to move outwards;

the positioning through hole is arranged on the movable supporting plate and is used for being matched with the elastic pin assembly, and when the positioning hole is aligned with the pin, the spring pushes the pin to extend into the positioning hole to realize positioning;

the unlocking piece is used for pushing the pin to separate the pin from the positioning through hole, and is an unlocking cylinder or an electromagnet;

the electromagnetic pushing device comprises:

the magnetic piece is fixed on the transfer platform;

the transfer cylinder is arranged at the joint of the two guide rails, an electromagnet is fixed on a piston rod of the transfer cylinder, the electromagnet is connected with a switch circuit, and the electromagnet is matched with the magnetic part.

2. The transport device for optical cable bundle tube trays according to claim 1, wherein the transport device is used for transporting the bundle tube trays to a clamping rotating station, and when the bundle tube trays are arranged on a transfer platform, the height difference between the center line of the clamping part of the bundle tube trays and the center line of the top shaft on the clamping rotating station is 6-8 mm.

3. The transport apparatus for a fiber optic cable harness tray of claim 1, wherein the locking mechanism further comprises:

the limiting plate is arranged on the side edge of the movable supporting plate and used for limiting the moving position of the transfer platform when the transfer platform is transferred;

the rotating wheels are rotatably arranged on two sides of the transfer platform and are matched with the corresponding limiting plates.

4. The transport device for optical cable trays of claim 1, wherein the driving mechanism is a rodless cylinder, the cylinder body of the rodless cylinder is arranged in parallel with the corresponding track, and the piston of the rodless cylinder is fixed with the corresponding movable pallet.

5. The transport apparatus for a fiber optic cable harness tray of claim 1, wherein the drive mechanism comprises:

at least two sprockets;

the chain is arranged on the chain wheel, and the corresponding movable supporting plate is connected with the chain and driven to move by the chain;

and the driving motor is used for driving the chain wheel to rotate and driving the chain to move.

6. The transport device for optical cable bundling tube tray according to claim 1, wherein the three guide rails are sequentially a first guide rail, a second guide rail and a third guide rail, the first end of the first guide rail extends to the empty tray area of the bundling tube tray, the second end of the first guide rail is in butt joint with the first end of the second guide rail, the second end of the second guide rail is in butt joint with the first end of the third guide rail, the second end of the third guide rail extends to the clamping rotation station, and the two guide rails in butt joint are mutually perpendicular.