CN211945348U - Be used for painted polyester staple fiber conveyer of stoste - Google Patents

Abstract

The utility model relates to a painted polyester staple fiber production technical field of stoste especially relates to a be used for painted polyester staple fiber transfer device of stoste, including cutting equipment, collecting box, cooling box, vacuum pump and ejection of compact case, through setting up the cutting equipment in the top of collecting box, the discharge gate is linked together with the collecting box, the lateral wall fixed connection of the nearly lower extreme of one end and collecting box of conveying pipeline, the other end of conveying pipeline and the air intake fixed connection of vacuum pump, the lateral wall that ejection of compact case is nearly lower extreme links to each other with the air outlet of vacuum pump and is used for the staple fiber packing that will cut off. This design has solved the wind partly of fan production and has up blown from the collecting box, has hindered the decline of short-staple, reduces the short-staple and forwards the problem of efficiency, the utility model discloses simple structure is convenient for extensive popularization and application.

Description

Be used for painted polyester staple fiber conveyer of stoste

Technical Field

The utility model relates to a painted polyester staple fiber production technical field of stoste especially relates to a be used for painted polyester staple fiber conveyer of stoste.

Background

The dope-dyed polyester staple fiber is a fiber obtained by directly spinning after coloring a polyester solution, and the raw material coloring technology refers to a technology that the solution is fully and uniformly mixed with coloring substances in a spinning box body and then is directly produced into colored fibers through various working procedures. In the production process, the dope-dyed polyester staple fibers are cut by the cutting device, and because the staple fibers fall into the collecting box after being cut off, one part of wind generated by the fan acts on the powder feeding pipeline and is fed into the packing equipment for packing, and the other part of wind blows upwards from the collecting box, so that the reduction of the staple fibers is hindered, and the transfer efficiency of the staple fibers is reduced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problem that in the process that the stock solution coloring polyester staple fibers fall into the collecting box after being cut off, one part of wind generated by the fan acts on the powder feeding pipeline and is sent into the packing equipment for packing, and the other part of wind blows upwards from the collecting box, so that the reduction of the staple fibers is hindered, and the transfer efficiency of the staple fibers is reduced.

The utility model provides a technical scheme that its technical problem adopted is: a transfer device for stock solution coloring polyester staple fibers comprises

A cutting device, wherein a feed inlet is arranged on the cutting device,

a collecting box is arranged at the upper part of the box body,

a cooling box, wherein a cavity is arranged in the cooling box, a feeding pipeline is arranged in the cavity, two ends of the feeding pipeline extend out of the cooling box,

a vacuum pump, wherein the vacuum pump is respectively provided with an air inlet and an air outlet, the air outlet is provided with a flexible hose,

a discharging box, a discharging box and a discharging box,

the cutting equipment is arranged above the collecting box and communicated with the collecting box, one end of the feeding pipeline is fixedly connected with the side wall of the collecting box close to the lower end, the other end of the feeding pipeline is fixedly connected with an air inlet of the vacuum pump, and the side wall of the discharging box close to the lower end is connected with a flexible hose of the vacuum pump and is universal for packaging cut short fibers.

Specifically, be equipped with the bracing piece in the collecting box and be located the dispersion impeller on bracing piece top, the dispersion impeller is "hemisphere" setting. Through setting up the dispersion impeller can prevent that the short-staple from piling up too concentrated in the collecting box, reduces the space utilization of collecting box.

Specifically, the feeding pipe in the cooling box is arranged in a spiral shape, and the side wall of the cooling box is provided with a water through hole communicated with the cavity. Through being "heliciform" setting with the conveying pipe, reducible device's area has increased the contact time with cooling box liquid simultaneously, cools down the material effectively, avoids the short fiber because of the high-temperature adhesion.

Specifically, the top of ejection of compact case is equipped with the vent, be equipped with the filter screen in the ejection of compact case, the below of vent, the bottom of ejection of compact case is equipped with the discharge tube, the tip of discharge tube is equipped with sealing valve. Through setting up the filter screen, prevent that the short-staple from following vent department effusion, cause the raw materials extravagant.

Specifically, the junction of the nearly lower extreme lateral wall of ejection of compact case and the air outlet of vacuum pump is equipped with air mass flow sensor, ejection of compact bottom of the case portion is equipped with the backup pad, the lower surface of backup pad is equipped with the removal gyro wheel, a side fixedly connected with shake device of backup pad.

Specifically, the dithering device comprises

A motor, an output shaft of which is provided with a rotating disc, the top of the motor is provided with a processor,

a rotating rod, a fixed plate is rotatably connected on the rotating rod,

dwang and rolling disc fixed connection, one side fixed connection of fixed plate and backup pad, electric connection between air flow sensor, treater and the motor, the motor passes through dwang drive backup pad reciprocating motion. Through setting up the shake device, can effectively avoid the short-staple to pile up in filter screen department, reduce the conveying efficiency of equipment.

Specifically, the gas flow through air flow sensor when motor drive support plate reciprocating motion is 20m thick fruit. Can shake the play workbin according to the gas flow who flows through air flow sensor through setting up air flow sensor, reduce energy consumption effectively.

The utility model has the advantages that:

(1) the utility model provides a be used for painted polyester staple fiber grass-hopper of stoste, through the top with cutting equipment setting at the collecting box, the discharge gate is linked together with the collecting box, the lateral wall fixed connection of the nearly lower extreme of one end and collecting box of conveying pipeline, the other end of conveying pipeline and the air intake fixed connection of vacuum pump, the lateral wall that goes out the nearly lower extreme of workbin links to each other with the air outlet of vacuum pump and is generally used for the staple fiber packing that will cut off, can effectively blow from the collecting box up, the decline of staple fiber has been hindered, reduce the problem that the staple fiber forwarded efficiency.

(2) The utility model provides a be used for painted polyester staple fiber grass-hopper of stoste through will sending the powder pipeline at cooling box in the spiral setting, reducible device's area has increased the contact time with cooling box liquid simultaneously, cools down the material effectively, avoids the short fiber because of the high adhesion of temperature.

(3) The utility model provides a be used for painted polyester staple fiber grass-hopper of stoste sets up the shake device in the bottom of play workbin, shakes the play workbin through the air flow of flowing through air mass flow sensor, prevents that the staple fiber from piling up in filter screen department, reducing means's conveying efficiency.

Drawings

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

FIG. 1 is a schematic view of a transfer device for dope-dyed polyester staple fibers of the present invention;

fig. 2 is a schematic diagram of the mechanism of the dithering apparatus of fig. 1.

In the figure: 1. the cutting equipment comprises cutting equipment, 2 parts of a collecting box, 3 parts of a cooling box, 4 parts of a vacuum pump, 5 parts of a discharging box, 6 parts of an air flow sensor, 7 parts of a supporting plate, 8 parts of a shaking device, 11 parts of a feeding hole, 21 parts of a supporting rod, 22 parts of a dispersion disc, 31 parts of a cavity, 32 parts of a feeding pipeline, 33 parts of a water through hole, 41 parts of an air inlet, 42 parts of an air outlet, 43 parts of a flexible hose, 51 parts of an air vent, 52 parts of a filter screen, 53 parts of a discharging pipe, 54 parts of a sealing valve, 71 parts of a roller, 81 parts of a motor, 82 parts of a rotating rod, 811 parts of a.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, a transfer device for dope-dyed polyester staple fibers, a cutting device 1, wherein the cutting device 1 is provided with a feed inlet 11,

the collection tank 2 is provided with a collection chamber,

a cooling box 3, a cavity 31 is arranged in the cooling box 3, a feeding pipeline 32 is arranged in the cavity 31, two ends of the feeding pipeline 32 extend out of the cooling box 3,

the vacuum pump 4, the vacuum pump 4 is respectively provided with an air inlet 41 and an air outlet 42, the air outlet 42 is provided with a flexible hose 43,

a discharging box 5 is arranged at the bottom of the discharging box,

cutting equipment 1 sets up in the top of collecting box 2, and cutting equipment 1 is linked together with collecting box 2, the lateral wall fixed connection of the nearly lower extreme of one end and collecting box 2 of feeding pipe 32, and the other end of feeding pipe 32 and the air intake 41 fixed connection of vacuum pump 4, the lateral wall that goes out the nearly lower extreme of workbin 5 links to each other with the flexible hose 43 of vacuum pump 4 and is used for the short fiber packing that will cut off.

In this embodiment, the motor 81 is fixedly connected to the ground or the fixed plate.

In a specific embodiment, a support rod 21 and a dispersion tray 22 located at the top end of the support rod 21 are disposed in the collection box 2, and the dispersion tray 22 is in a "hemispherical" configuration.

In one embodiment, the feed pipes in the cooling chamber 3 are arranged in a "spiral" configuration, and the side walls of the cooling chamber 3 are provided with water ports 33 communicating with the cavity 31.

In one embodiment, a vent 51 is provided at the top of the discharging box 5, a filter screen 52 is provided inside the discharging box 5 and below the vent 51, a discharging pipe 53 is provided at the bottom of the discharging box 5, and a sealing valve 54 is provided at the end of the discharging pipe 53.

In a specific embodiment, an air flow sensor 6 is disposed at a connection position of a side wall of the discharging box 5 near the lower end and an air outlet 42 of the vacuum pump 4, a supporting plate 7 is disposed at the bottom of the discharging box 5, a moving roller 71 is disposed on a lower surface of the supporting plate 7, and a shaking device 8 is fixedly connected to one side surface of the supporting plate 7.

In one embodiment, the dithering means 8 comprises

A motor 81, a rotating disc 811 is arranged on the output shaft of the motor 81, a processor 812 is arranged on the top of the motor 81,

a rotating rod 82, a fixed plate 821 is rotatably connected on the rotating rod 82,

the rotating rod 82 is fixedly connected with the rotating disc 811, the fixing plate 821 is fixedly connected with one side of the supporting plate 7, the air flow sensor 6, the processor 812 and the motor 81 are electrically connected, and the motor 81 drives the supporting plate 7 to reciprocate through the rotating rod 82.

In one embodiment, the gas flow rate through air flow sensor 6 during the reciprocal movement of support plate 7 driven by motor 81 is 20m ethanol.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides a be used for painted polyester staple fiber transfer device of stoste which characterized in that: comprises that

A cutting device (1), wherein a feed inlet (11) is arranged on the cutting device (1),

a collecting box (2),

a cooling box (3), a cavity (31) is arranged in the cooling box (3), a feeding pipeline (32) is arranged in the cavity (31), two ends of the feeding pipeline (32) extend out of the cooling box (3),

a vacuum pump (4), an air inlet (41) and an air outlet (42) are respectively arranged on the vacuum pump (4), a flexible hose (43) is arranged at the air outlet (42),

a discharging box (5),

cutting equipment (1) sets up the top at collecting box (2), cutting equipment (1) is linked together with collecting box (2), the lateral wall fixed connection of the nearly lower extreme of one end and collecting box (2) of conveying pipeline (32), the other end of conveying pipeline (32) and air intake (41) fixed connection of vacuum pump (4), the lateral wall that goes out nearly lower extreme of workbin (5) links to each other with flexible hose (43) of vacuum pump (4) and is used for the short fiber packing that will cut off.

2. The apparatus as claimed in claim 1, wherein the apparatus further comprises: the collecting box (2) is internally provided with a support rod (21) and a dispersion disc (22) positioned at the top end of the support rod (21), and the dispersion disc (22) is arranged in a hemispherical shape.

3. The apparatus as claimed in claim 1, wherein the apparatus further comprises: the feeding pipe in the cooling box (3) is arranged in a spiral shape, and the side wall of the cooling box (3) is provided with a water through opening (33) communicated with the cavity (31).

4. The apparatus as claimed in claim 1, wherein the apparatus further comprises: the top of ejection of compact case (5) is equipped with vent (51), be equipped with filter screen (52) in ejection of compact case (5), the below of vent (51), the bottom of ejection of compact case (5) is equipped with discharge tube (53), the tip of discharge tube (53) is equipped with sealing valve (54).

5. The transfer device for dope dyed polyester staple fibers of claim 4, wherein: the utility model discloses a pneumatic vibration damper, including go out the discharge box (5), the junction of the lateral wall of nearly lower extreme of discharge box (5) and air outlet (42) of vacuum pump (4) is equipped with air mass flow sensor (6), discharge box (5) bottom is equipped with backup pad (7), the lower surface of backup pad (7) is equipped with removal gyro wheel (71), a side fixedly connected with shake device (8) of backup pad (7).

6. The transfer device for dope dyed polyester staple fibers of claim 5, wherein: the dithering means (8) comprising

A motor (81), an output shaft of the motor (81) is provided with a rotating disc (811), the top of the motor (81) is provided with a processor (812),

a rotating rod (82), a fixed plate (821) is rotatably connected on the rotating rod (82),

dwang (82) and rolling disc (811) fixed connection, one side fixed connection of fixed plate (821) and backup pad (7), electric connection between air flow sensor (6), treater (812) and motor (81), motor (81) are through dwang (82) drive backup pad (7) reciprocating motion.

7. The transfer device for dope dyed polyester staple fibers of claim 6, wherein: and when the motor (81) drives the support plate (7) to reciprocate, the gas flow passing through the air flow sensor (6) is 20m in dry labor.

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