CN211545545U - Twisting zone conveying device and glass fiber automatic production system - Google Patents

Abstract

The utility model provides a twisting zone conveyor and fine automated production system of glass relates to glass fiber and makes technical field, has solved twisting zone and has still adopted the manual work to transport the silk car, the technical problem that intensity of labour is big, production efficiency is lower. The device comprises a stacking shuttle car and a layering platform, wherein the layering platform vertically divides a twisting area into at least two working areas, and the stacking shuttle car is arranged between the two adjacent working areas in a lifting manner; and each layer of working area is provided with a track, the track is provided with a loop shuttle or a stacking shuttle, and the loop shuttle can be connected with the stacking shuttle so that the yarn vehicles are transmitted between a plurality of platforms of at least two layers of working areas in the yarn twisting area. The device realizes the automatic conveying of the wire trolley in the twisting area, reduces the labor intensity and improves the production efficiency compared with the traditional manual conveying wire trolley; and the layering platform vertically separates the space of the twisting area into at least two working areas, so that the space utilization rate is greatly improved.

Description

Twisting zone conveying device and glass fiber automatic production system

Technical Field

The utility model belongs to the technical field of the glass fiber manufacturing technique and specifically relates to a twisting zone conveyor and fine automated production system of glass are related to.

Background

The twisting is a process of a glass fiber electronic cloth production line, and spun yarn (also called protofilament) is twisted to form a cop. The twisting area of the glass fiber production line generally adopts a manual wire-pulling cart to carry yarn balls, empty barrels, cop and empty tubes through a wire cart.

The applicant has found that the prior art has at least the following technical problems:

the manual wire drawing trolley pushing mode is high in labor intensity, low in production efficiency, low in space utilization rate, low in automation degree and disordered in information management.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a twisting zone conveyor and fine automated production system of glass to the twisting zone who exists among the solution prior art still adopts the manual work to transport the silk car, and intensity of labour is big, the lower technical problem of production efficiency. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a twisting zone conveying device, which comprises a stacking shuttle car and a layering platform, wherein the layering platform vertically divides the twisting zone into at least two working zones, and the stacking shuttle car is arranged between the adjacent two working zones in a liftable manner; and each layer of working area is provided with a track, the track is provided with a ring-through vehicle or a stacking shuttle vehicle, and the ring-through vehicle can be connected with the stacking shuttle vehicle, so that the yarn vehicles are transmitted between a plurality of platforms of at least two layers of working areas in the yarn twisting area.

Optionally, the layering platform vertically divides the twisting zone into a transfer zone and an upper working zone and a lower working zone of the twisting working zone.

Optionally, the track located in the transfer area comprises two annular closed tracks, and a plurality of the ring-through vehicles are arranged on the annular closed tracks.

Optionally, the two annular closed tracks are a protofilament looping track and a cop looping track respectively, a guide track is arranged between the protofilament looping track and the cop looping track, and the stacking shuttle car is lifted along the guide track.

Optionally, the raw filament looping track is connected with a raw filament car platform and an empty bobbin car platform, and the cop looping track is connected with an empty cop car platform and a cop car platform.

Optionally, the track in the twisting work area is a joining rail, a plurality of twisting area stations are arranged on two sides of the joining rail, and the stacking shuttle car can travel to any one of the twisting area stations along the joining rail.

Optionally, the stacking shuttle vehicle comprises a cargo carrying platform and a hoist, the hoist is in transmission connection with the cargo carrying platform, and the wire vehicle on the cargo carrying platform is conveyed to one of the two adjacent layers of working areas through the lifting of the cargo carrying platform.

Optionally, the twisting area platform, the twisting area station, the cargo carrying platform of the stacking shuttle car and the loop-through car are all provided with a transfer machine, and the yarn car is transported among the twisting area platform, the twisting area station, the cargo carrying platform and the loop-through car through the transfer machine.

The utility model provides a pair of fine automated production system of glass, including above arbitrary twisting zone conveyor.

The glass fiber automatic production system also comprises an electric control unit, and the electric control unit is electrically connected with the twisting zone conveying device.

The utility model provides a twisting zone conveying device and a glass fiber automatic production system, a layering platform of the twisting zone conveying device vertically divides the twisting zone space into at least two working zones, and a stacking shuttle car is arranged between the adjacent two working zones in a liftable manner; each layer of working area is provided with a track, the track is provided with a loop shuttle or a stacking shuttle, and the loop shuttle can be connected with the stacking shuttle to enable the yarn trolley to be transmitted among a plurality of platforms of at least two layers of working areas in the yarn twisting area, so that the automatic conveying of the yarn trolley in the yarn twisting area is realized, and compared with the traditional manual conveying of the yarn feeding trolley, the automatic conveying device reduces the labor intensity and improves the production efficiency; and the layering platform vertically separates the space of the twisting area into at least two working areas, so that the space utilization rate is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic front view of a stacking shuttle car of a conveying device in a twisting area according to an embodiment of the present invention;

FIG. 2 is a side elevational schematic view of the stacker shuttle;

FIG. 3 is a schematic illustration of the pallet of the stacker shuttle of FIG. 1 as it is lowered to one level;

FIG. 4 is a schematic top view of the twisting work area;

FIG. 5 is a schematic top view of the transfer zone;

fig. 6 is a schematic structural view of a chain transfer machine according to an embodiment of the present invention.

In figure 1, shuttle is stacked; 2. a twisting zone station; 3. looping through a vehicle; 31. an empty carrying cylinder ring-through vehicle; 32. carrying an empty pipe loop-through vehicle; 33. carrying a precursor ring-through vehicle; 34. carrying a bobbin yarn loop-through vehicle; 41. looping the original silk through the track; 42. the bobbin yarn circularly penetrates through the rail; 5. an empty canister station; 6. a protofilament car platform; 7. an empty pipe station; 8. a cop car station; 9. a frame; 10. a lifting mechanism; 11. a cargo carrying platform; 12. a transfer machine; 121. a conveyor chain; 122. guiding by a chain machine; 123. a motor; 13. an upper guide rail system; 14. an upper guide wheel set; 15. and (5) turning the silk into a car.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model provides a twisting area conveying device, which comprises a stacking shuttle car 1 and a layering platform, wherein the layering platform vertically divides the twisting area into at least two working areas, and the stacking shuttle car 1 is arranged between the adjacent two working areas in a liftable way; each layer of working area is provided with a track, the ring-through vehicles 3 or the stacking shuttle vehicles 1 are arranged on the tracks, and the ring-through vehicles 3 can be connected with the stacking shuttle vehicles 1, so that the yarn vehicles 15 are transmitted between a plurality of platforms of at least two layers of working areas of the yarn twisting area.

The layering platform vertically divides the space of the twisting area into at least two working areas, and the stacking shuttle car 1 is arranged between the two adjacent working areas in a lifting manner; each layer of working area is provided with a track, the ring-threading vehicles 3 or the stacking shuttle vehicles 1 are arranged on the tracks, and the ring-threading vehicles 3 can be connected with the stacking shuttle vehicles 1, so that the yarn vehicles 15 are transmitted among a plurality of platforms of at least two layers of working areas of the twisting area, and the automatic conveying of the yarn vehicles 15 in the twisting area is realized, and compared with the traditional manual conveying of the yarn feeding vehicles 15, the automatic conveying device reduces the labor intensity and improves the production efficiency; and the layering platform vertically separates the space of the twisting area into at least two working areas, so that the space utilization rate is greatly improved.

As an optional embodiment, the layering platform vertically divides the twisting area into a transfer area and an upper working area and a lower working area of the twisting working area.

The space can be more effectively utilized by layered arrangement, and the space utilization rate is improved. The yarn twisting machine is divided into a transfer area and a yarn twisting working area according to functions, the division is reasonable, and the yarn trolley 15 is conveyed more smoothly.

As an alternative embodiment, the track located in the transfer area includes two closed circular tracks, and a plurality of circular through-vehicles 3 are disposed on the closed circular tracks.

As an alternative embodiment, the two annular closed tracks are a filament looping track 41 and a cop looping track 42, respectively, a guide track is arranged between the filament looping track 41 and the cop looping track 42, and the stacking shuttle 1 is lifted and lowered along the guide track.

As an alternative embodiment, the filament looping track 41 links the filament car station 6 and the empty bobbin car station 5, and the cop looping track 42 links the empty bobbin car station 7 and the cop car station 8.

As an alternative embodiment, the track located in the twisting work area is a joining track, a plurality of twisting area stations 2 are arranged on two sides of the joining track, and the stacking shuttle car 1 can run to any twisting area station along the joining track.

The twisting work area comprises a plurality of twisting area stations 2, so that the ring penetrating vehicles 3 in a plurality of flow directions do not interfere with each other, and the linking rails are connected with the twisting area stations, so that linking and conveying are smoother.

As an alternative embodiment, as shown in fig. 1-3, the stacking shuttle 1 includes a cargo bed 11 and a hoist (lifting mechanism 10), the lifting mechanism 10 is in transmission connection with the cargo bed 11, and the wire trolley 15 on the cargo bed 11 is sent to one of the adjacent two working areas by the lifting of the cargo bed 11.

The lifting of the cargo carrying platform 11 is realized through the lifting mechanism 10, the conveying is convenient and fast, and the control is convenient.

As an alternative embodiment, the twisting zone station 2, the cargo bed 11 of the stacking shuttle 1 and the loop-through vehicle 3 are each provided with a transfer machine 12, and the yarn vehicles 15 are transported between the twisting zone station, the twisting zone station 2, the cargo bed 11 and the loop-through vehicle 3 by the transfer machines 12. The transfer unit 12 is configured as shown in fig. 6.

As shown in fig. 4 and 5, the tracks of the filament work area include a filament looping track 41 and a cop looping track 42, the filament looping track 41 is engageable with the filament car station 6 and the empty bobbin car station 5, and the cop looping track 42 is engageable with the empty bobbin car station 7 and the cop car station 8. Carry on yarn group silk car 15 back ring threading car by the precursor yarn platform 6 of connecting the precursor yarn storehouse and travel along precursor yarn ring threading track 41, to and twist with the corresponding station department that the working area needs the precursor yarn of twisting, stack shuttle 1 rises to this station by the working area of twisting, and filament car 15 is transferred to the year goods platform 11 on the stack shuttle 1, later descends to the working area of twisting, carries precursor yarn car 15 to twisting district station 2, and back precursor yarn car 15 is taken away and is gone to twist with the yarn and handle. After the twisting treatment, the empty bobbin yarn vehicle 15 is placed at the twisting area station 2 and then transferred to the cargo carrying platform 11 on the stacking shuttle vehicle 1, and under the action of the lifter, the cargo carrying platform 11 is lifted to the protofilament working area and conveyed to the empty bobbin vehicle platform 5 along the protofilament area platform. Cop that produces in the twisting work area is hung on silk car 15, transports to twisting district station 2 on, and yarn car 15 is taken over to stack shuttle 1, and load platform 11 rises to the protofilament work area, moves to the ring-through car on cop ring-through track 42 on, and this ring-through car goes to cop car platform 8 along cop ring-through track 42, and then the elevator sends the test yarn district in protofilament district. The empty bobbin thread vehicle 15 is sent to the empty bobbin thread vehicle platform 7 after the bobbin yarn is taken away, the empty bobbin thread vehicle 15 is transferred to the annular penetrating vehicle on the bobbin yarn annular penetrating rail 42, the annular penetrating vehicle carrying the empty bobbin thread vehicle 15 moves to the fixed station corresponding to the twisting area station 2, the cargo carrying platform 11 of the stacking shuttle vehicle 1 is lifted to the protofilament working area under the action of the lifter, the empty bobbin thread vehicle 15 is connected and then descends to the twisting area station 2, and a worker removes the empty bobbin thread vehicle 15.

The utility model provides a fine automated production system of glass, including above arbitrary twisting zone conveyor.

As an optional implementation mode, the automatic glass fiber production system further comprises an electric control unit, and the electric control unit is electrically connected with the twisting zone conveying device.

The electric control unit centrally controls and integrally schedules the starting and stopping of the devices (the hoister, the ring-through vehicle 3, the transfer machine 12 and the like) so that the whole glass fiber automatic production system comprising the twisting area conveying device can run efficiently.

The whole twisting area can be divided into several sections up and down, and each section is provided with a pile of shuttle cars 1. When the two-layer steel platform (transfer area) is in butt joint with the stacking shuttle car 1, the goods carrying platform 11 of the stacking shuttle car 1 can be directly in butt joint with the ring shuttle car, and a fixed platform can also be arranged on the two-layer steel platform, the ring shuttle car is in butt joint with the platform, and the platform is in butt joint with the stacking shuttle car.

The total flow of the twisting area is that the precursor car 15 moves from the precursor platform (connected precursor storehouse) on the two-layer steel platform to the empty ring and wears, moves to the two-layer steel platform fixed station above the region of the twisting area station 2 of the one layer of the required precursor, the cargo carrying platform 11 of the stacking shuttle car 1 rises to the two-layer precursor car 15, the cargo carrying platform 11 descends to the one layer, the precursor moves to the twisting area station 2, and the worker pulls the precursor car 15 to twist.

The empty bobbin car used up in the twisting treatment is placed on a twisting area station 2, the stacking shuttle car 1 is connected with the empty bobbin car, the goods carrying platform 11 is lifted to two layers, is transferred to the empty protofilament area to be circularly penetrated, is transferred to the empty bobbin car platform 5 and is transferred to the empty bobbin car platform 5, and the elevator is transferred to one layer to enter a bobbin washing area.

Cop produced in the twisting area is hung on a silk car 15 and transported to a twisting area station 2, a stacking shuttle car 1 takes over the cop car, a cargo platform 11 rises to two layers and is transferred to an empty cop area ring for wearing, the empty cop area ring is transferred to a cop car platform 8 and is transferred to the cop car platform 8, and a lifter is transported to one layer and enters a yarn inspection area.

After the cop is processed by the subsequent process, the empty cop vehicle is transported to an empty cop vehicle platform 7, an empty cop area is circularly penetrated to the platform to connect the empty cop vehicle, the circular penetration is moved to a two-layer steel platform fixing station above a twisting area station 2 area of one layer needing the empty cop, a cargo carrying platform 11 of a stacking shuttle vehicle 1 is lifted to the two-layer empty cop vehicle, the cargo carrying platform 11 is descended to one layer, the empty cop vehicle is transferred to the twisting area station 2, and a worker pulls the empty cop vehicle for use.

The utility model discloses a twisting zone workshop commodity circulation has realized the automation, and is digital. The labor intensity is reduced, the production efficiency is improved, the space utilization rate is increased, and the product cost is indirectly reduced.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The conveying device for the twisting area is characterized by comprising a stacking shuttle car and a layering platform, wherein the layering platform vertically divides the space of the twisting area into at least two working areas, and the stacking shuttle car is arranged between the two adjacent working areas in a lifting manner; and each layer of working area is provided with a track, the track is provided with a ring-through vehicle or a stacking shuttle vehicle, and the ring-through vehicle can be connected with the stacking shuttle vehicle, so that the yarn vehicles are transmitted between a plurality of platforms of at least two layers of working areas in the yarn twisting area.

2. The twisting zone conveying apparatus according to claim 1, wherein the layering platform spatially and vertically divides the twisting zone into a transfer zone and two working zones above and below the twisting working zone.

3. The twisting zone conveying device according to claim 2, wherein the track at the transfer zone comprises two endless closed tracks on which a plurality of the endless through vehicles are disposed.

4. The twisting zone conveying device according to claim 2, wherein the two endless closed tracks are a strand looping track and a cop looping track, respectively, a guide track is arranged between the strand looping track and the cop looping track, and the stacking shuttle car is lifted along the guide track.

5. The splicing area delivery apparatus of claim 4, wherein the filament looping track is connected to a precursor station and an empty bobbin station, and the cop looping track is connected to an empty bobbin station and a cop station.

6. The twisting zone conveying apparatus according to claim 2, wherein the track at the twisting work zone is a joining rail provided with a plurality of twisting zone stations on both sides thereof, and the stack shuttle vehicle can travel along the joining rail to any one of the twisting zone stations.

7. The twisting zone conveying device according to claim 1, wherein the stacking shuttle vehicle comprises a cargo carrying platform and a hoist, the hoist is in transmission connection with the cargo carrying platform, and the silk vehicle on the cargo carrying platform is conveyed to one of the two adjacent layers of working zones through the lifting of the cargo carrying platform.

8. The twisting zone conveying apparatus according to any one of claims 1 to 7, wherein the twisting zone platform, the twisting zone station, the cargo bed of the stacking shuttle car and the loop-through car are each provided with a transfer machine, and the yarn car is transported between the twisting zone platform, the twisting zone station, the cargo bed and the loop-through car by the transfer machine.

9. An automatic glass fiber production system, characterized by comprising the twisting zone conveying device according to any one of claims 1 to 8.

10. The automatic glass fiber production system of claim 9, further comprising an electronic control unit electrically connected to the twisting zone conveying device.

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