CN113430660A - Chemical spinning processing device - Google Patents

Abstract

The invention relates to a spinning device, in particular to a chemical spinning processing device which comprises a raw material drying mechanism, an angle-adjustable drying box mechanism and a spinning mechanism, wherein the device can dry raw materials, the conveying efficiency of the device can be changed in an angle adjusting mode, the device can perform spinning and routing and finish the processing of smell, the device can prevent the discontinuous advancing of silk yarns after the silk is cut off, the raw material drying mechanism is connected with the angle-adjustable drying box mechanism, and the angle-adjustable drying box mechanism is connected with the spinning mechanism.

Description

Chemical spinning processing device

Technical Field

The invention relates to a spinning device, in particular to a chemical spinning processing device.

Background

In the processing of industrial chemicals, often can spout the processing to the material, spout the in-process of spouting, traditional spout the silk device and have following shortcoming:

1. the material taste in the spinning process needs to be treated independently to meet the requirement of environmental protection;

2. in the spinning process, the drying efficiency of the raw materials is low, and the drying time cannot be ensured and the drying efficiency is not high because the single thread is adopted in the conveying process;

3. in the spinning process, if the filaments are cut off, the spinning process is still carried out, so that the phenomena of short stacking and uneven spinning exist in the spinning process of the filaments;

4. in the spinning and cutting process, the phenomenon that the running of the silk thread is interrupted is easy to occur;

so a chemical spinning processing device is designed.

Disclosure of Invention

The technical problem mainly solved by the invention is to provide a chemical spinning processing device, which can dry raw materials, change the conveying efficiency in an angle adjusting mode, perform spinning and routing and finish the processing of smell, and prevent the running of silk threads from being interrupted after the silk threads are cut off.

The chemical spinning device comprises a raw material drying mechanism, an angle-adjustable drying box mechanism and a spinning mechanism, the raw material drying mechanism can dry raw materials, the conveying efficiency can be changed in an angle-adjustable mode, spinning and wiring can be performed by the device, odor treatment can be completed, and the device can prevent the occurrence of discontinuity of advancing of silk yarns after the silk is cut off.

The raw material drying mechanism is connected with the angle-adjustable drying box mechanism, and the angle-adjustable drying box mechanism is connected with the spinning mechanism;

the raw material drying mechanism comprises a driving motor, a first coupler, a first gear, a gear shaft, a first belt wheel, a triangular belt, a second belt wheel, a rotary material taking hopper, a material taking cavity with an inclined plane, an inclined opening, a conical hopper with a conical surface, a conveying screw, a hollow shaft, an opening, a filter element with a handle and a built-in wind wheel, wherein the driving motor is connected with the gear shaft through the first coupler, the first gear is connected with the gear shaft, the gear shaft is connected with the first belt wheel, the first belt wheel is in friction connection with the triangular belt, the triangular belt is in friction connection with the second belt wheel, the second belt wheel is connected with the conical hopper, the conical hopper with the plurality of rotary material taking hoppers are arranged on the conical hopper, the material taking cavity with the inclined plane and the inclined opening are arranged on the rotary material taking hopper, the material taking cavity with the inclined plane is communicated with the inclined opening, the conical hopper with the hollow shaft, the conveying screw is connected with the hollow shaft, the opening is arranged on the hollow shaft, the filter element with the handle is clamped in the conical hopper, the built-in wind wheel is connected with the bucket with the conical surface.

Furthermore, the angle-adjustable drying box mechanism comprises a servo motor, a second coupler, a first slide rail, a direction-changing movable seat, a pulley, a first matching groove, a second matching groove, a third matching groove, a drying box body, a hinged support, a gear box, a feeding hopper, an interlayer drying cylinder, a bent pipe, a drying discharging pipe, a soft discharging pipe, a first bearing seat, an auxiliary supporting bar, a rotary material turning seat with a partition plate, a filter element and a first lead screw, wherein the servo motor is connected with the first lead screw through the second coupler, the first lead screw is rotatably connected with the first slide rail, the direction-changing movable seat is slidably connected in the first slide rail, the direction-changing movable seat is rotatably connected with the pulley, the pulley is contacted with the drying box body, the drying box body is provided with the first matching groove, the second matching groove and the third matching groove, the drying box body is hinged with the hinged support, and the gear box is arranged on the drying box body, the drying cabinet body links to each other and communicates with the feeder hopper, interlayer drying cylinder links to each other with the drying cabinet body, interlayer drying cylinder links to each other and communicates with the bending tube, dry discharging pipe links to each other and communicates with interlayer drying cylinder, dry discharging pipe links to each other with soft discharging pipe, primary shaft bearing sets up on the drying cabinet body, the auxiliary stay bar links to each other with interlayer drying cylinder, it rotates to connect at the drying cabinet originally internally to take the baffle to rotate the material turning seat, the filter core block is in the bending tube, first lead screw and turn to and remove seat threaded connection, driving motor links to each other with the drying cabinet body, first gear and the rotation of taking the baffle material turning seat mesh mutually, first gear sets up in the gear box, the gear shaft rotates with the gear box to be connected, take conical surface to fight to rotate with primary shaft bearing and be connected, the hollow shaft rotates with interlayer drying cylinder to be connected, the hollow shaft rotates with the bending tube to be connected.

Furthermore, the spinning mechanism comprises a landing leg with a seat, a second sliding rail, a third coupling, a servo motor, a sliding support, a dowel bar, a passive force transmission arm, a fixed socket, a movable plug, a spinning seat, a spinning box, a fourth coupling, a spinning motor seat, a first spinning wheel, a second gear, a first gear with a shaft, a second gear with a shaft, a third gear, a second spinning wheel, a spinning feed inlet, a bellows, an air inlet, a sliding filter core, a fifth coupling, a spinning driving motor, a first chute, a second chute, a spinning hole, a spinning extrusion screw shaft, a second shaft bearing seat, a bent wire guide seat, a wire outlet groove, an air injection channel, a connecting pipe, a wind wheel and a second screw rod, wherein the landing leg with the seat is connected with the spinning box, the sliding support is connected in the first chute in a sliding way, the first chute is arranged on the second sliding rail, the servo motor is connected with the second screw rod through the third coupling, the second slide rail is connected with a servo motor, the second screw rod is rotationally connected with the second slide rail, the second screw rod is in threaded connection with a sliding support, the sliding support is connected with a transmission rod, the transmission rod is connected with a driven transmission arm, the driven transmission arm is connected with a movable plug, the movable plug is inserted into a fixed socket, the fixed socket is connected with a spinning base, the spinning base is connected with a spinning box, the lower end surface of the spinning base is provided with a second chute, the movable plug is slidably connected in the second chute, the spinning box is connected with a spinning motor base, the spinning motor base is connected with a spinning motor, the spinning motor is connected with a fourth coupler, the fourth coupler is connected with a spinning extrusion screw shaft, the spinning extrusion screw shaft is rotationally connected with the spinning box, a first spinning wheel is rotationally connected with the sliding support, the first spinning wheel is connected with a second gear, the second gear is meshed with a first belt shaft gear, the first belt gear is meshed with a second belt shaft gear, the first belt shaft gear and the second belt shaft gear are rotationally connected with a sliding support, the second belt shaft gear is meshed with a third gear, the third gear is connected with a second wire moving wheel, the second wire moving wheel is rotationally connected with the sliding support, a wire spraying feeding hole is arranged on a wire spraying box, the feeding hole is communicated with a soft discharging pipe, the air box is connected with the sliding support, an air inlet is arranged on the air box, a sliding filter element is clamped in the air box, a fifth coupler is used for connecting a wire moving driving motor and the second wire moving wheel, a plurality of wire spraying holes are arranged on a wire spraying seat, a wire spraying extrusion screw shaft is rotationally connected with a second shaft seat, the second shaft seat is connected with the wire spraying box, a bending wire seat is connected with a movable plug, wire outlet grooves are arranged on the bending wire seat, the number of the wire outlet grooves is equal to that of the wire spraying holes, the positions of the wire outlet grooves are corresponding to that of the wire spraying channels are communicated with the wire outlet grooves, and the spraying channels are arranged on the movable plug, the connecting pipe is communicated with the air injection channel, the connecting pipe is connected with the movable plug, the connecting pipe is connected and communicated with the air box, the wind wheel is arranged in the air box and connected with the first filament moving wheel, and the upper end face of the bent wire base is contacted with the filament spraying base.

Furthermore, the inclined plane of taking the inclined plane in the material cavity and the contained angle scope of pouring opening be 35-50 degrees.

Further, when the pulley in first cooperation inslot, the drying cabinet body keeps the level, when the pulley removed second cooperation inslot, the contained angle of drying cabinet body and horizontal plane was 7 degrees, when the pulley removed third cooperation inslot, the contained angle of drying cabinet body and horizontal plane was 14 degrees, above-mentioned angle change back, feeder hopper one end height became high.

Further, the materials sliding out of the pouring opening can enter the interlayer drying cylinder along the hopper with the conical surface.

Furthermore, when the movable plug is separated from the fixed socket, the spinning motor stops running.

Furthermore, the upper end surface of the wire spraying seat is attached with a heating material, so that heat can be generated.

The chemical spinning processing device has the beneficial effects that:

according to the chemical spinning processing device, raw materials can be dried, the conveying efficiency can be changed in an angle adjusting mode, spinning and routing can be performed by the device, odor treatment can be completed, and the device can prevent the running of silk threads from being interrupted after the silk threads are cut off.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of a first structure of a chemical spinning apparatus according to the present invention.

Fig. 2 is a second structural schematic diagram of a chemical spinning processing device of the present invention.

FIG. 3 is a schematic diagram of a third structure of a chemical spinning device according to the present invention.

FIG. 4 is a fourth structural diagram of a chemical spinning device according to the present invention.

Fig. 5 is a schematic diagram of a first structure of a raw material drying mechanism 1 of a chemical spinning processing device according to the present invention.

Fig. 6 is a second structural schematic diagram of the raw material drying mechanism 1 of the chemical spinning processing device of the present invention.

Fig. 7 is a third structural schematic diagram of the raw material drying mechanism 1 of the chemical spinning processing device of the present invention.

Fig. 8 is a schematic view of a first structure of an angle-adjustable drying box mechanism 2 of a chemical spinning processing device according to the present invention.

Fig. 9 is a second structural schematic diagram of the angle-adjustable drying box mechanism 2 of the chemical spinning processing device of the present invention.

Fig. 10 is a schematic diagram of a third structure of the angle-adjustable drying box mechanism 2 of the chemical spinning processing device of the present invention.

Fig. 11 is a fourth structural schematic diagram of the angle-adjustable drying box mechanism 2 of the chemical spinning processing device of the present invention.

Fig. 12 is a schematic view of a first structure of a spinning mechanism 3 of a chemical spinning processing device according to the present invention.

Fig. 13 is a second structural schematic diagram of the spinning mechanism 3 of the chemical spinning processing device of the present invention.

Fig. 14 is a schematic diagram of a third structure of the spinning mechanism 3 of the chemical spinning processing device of the present invention.

Fig. 15 is a fourth structural schematic diagram of the spinning mechanism 3 of the chemical spinning processing device of the present invention.

Fig. 16 is a fifth structural schematic diagram of the spinning mechanism 3 of the chemical spinning processing device of the present invention.

Fig. 17 is a sixth structural schematic diagram of the spinning mechanism 3 of the chemical spinning processing device of the present invention.

In the figure: a raw material drying mechanism 1; a drive motor 1-1; a first coupling 1-2; a first gear 1-3; gear shafts 1-4; a first pulley 1-5; 1-6 parts of a V-belt; a second pulley 1-7; rotating the material taking hopper 1-8; taking cavities 1-9 with inclined surfaces; 1-10 parts of a pouring opening; 1-11 of a bucket with a conical surface; conveying screws 1-12; 1-13 of a hollow shaft; openings 1-14; 1-15 parts of a filter element with a handle; 1-16 wind wheels are arranged inside; an angle-adjustable drying box mechanism 2; a servo motor 2-1; a second coupling 2-2; a first slide rail 2-3; changing direction of the movable seat 2-4; 2-5 of a pulley; a first mating groove 2-6; a second mating groove 2-7; 2-8 parts of a third matching groove; 2-9 parts of a drying box body; hinged supports 2-10; gear boxes 2-11; 2-12 parts of a feed hopper; 2-13 parts of interlayer drying cylinder; bending the pipe 2-14; drying the discharging pipe 2-15; 2-16 parts of a soft discharge pipe; a first bearing block 2-17; 2-18 parts of auxiliary supporting strips; 2-19 of a rotary material turning seat with a clapboard; 2-20 parts of a filter element; a first lead screw 2-21; a spinning mechanism 3; a support leg with a seat 3-1; a second slide rail 3-2; a third coupling 3-3; 3-4 of a servo motor; 3-5 of a sliding support; 3-6 of dowel bar; 3-7 parts of a passive transmission arm; 3-8 of a fixed socket; 3-9 parts of a movable plug; 3-10 parts of a wire spraying seat; 3-11 parts of a spinning box; a fourth coupling 3-12; 3-13 of a spinning motor; spinning motor bases 3-14; 3-15 parts of a first wire moving wheel; second gears 3-16; a first belt shaft gear 3-17; second belt shaft gears 3 to 18; third gear 3-19; 3-20 parts of a second wire feeding wheel; 3-21 parts of a spinning feed port; 3-22 of an air box; 3-23 of an air inlet; 3-24 of a sliding filter element; a fifth coupling 3-25; a wire-moving drive motor 3-26; first chutes 3-27; a second chute 3-28; 3-29 spinneret holes; spinning and extruding the spiral shaft by 3-30; a second bearing housing 3-31; 3-32 of a bent wire seat; outlet grooves 3-33; 3-34 parts of air injection channel; connecting pipes 3-35; 3-36 parts of wind wheel; second lead screws 3-37.

Detailed Description

The first embodiment is as follows:

the present invention relates to a spinning device, and more particularly, to a chemical spinning processing device, which includes a raw material drying mechanism 1, an angle-adjustable drying box mechanism 2, and a spinning mechanism 3, and the device can dry raw materials, change conveying efficiency by an angle-adjustable method, perform spinning and routing, and complete odor treatment, and prevent filament interruption after filament cutting.

The raw material drying mechanism 1 is connected with an angle-adjustable drying box mechanism 2, and the angle-adjustable drying box mechanism 2 is connected with a spinning mechanism 3;

the raw material drying mechanism 1 comprises a driving motor 1-1, a first coupling 1-2, a first gear 1-3, a gear shaft 1-4, a first belt wheel 1-5, a triangular belt 1-6, a second belt wheel 1-7, a rotary material taking hopper 1-8, a material taking cavity with an inclined surface 1-9, a dumping opening 1-10, a hopper with a conical surface 1-11, a conveying screw 1-12, a hollow shaft 1-13, an opening 1-14, a filter element with a handle 1-15 and a built-in wind wheel 1-16, wherein the driving motor 1-1 is connected with the gear shaft 1-4 through the first coupling 1-2, the first gear 1-3 is connected with the gear shaft 1-4, the gear shaft 1-4 is connected with the first belt wheel 1-5, the first belt wheel 1-5 is in friction connection with the triangular belt 1-6, the triangular belt 1-6 is in friction connection with a second belt wheel 1-7, the second belt wheel 1-7 is connected with a conical surface bucket 1-11, the conical surface bucket 1-11 is provided with a plurality of rotating material taking hoppers 1-8, the rotating material taking hoppers 1-8 are provided with inclined surface material taking cavities 1-9 and pouring openings 1-10, the inclined surface material taking cavities 1-9 are communicated with the pouring openings 1-10, the conical surface buckets 1-11 are connected and communicated with a hollow shaft 1-13, the hollow shaft 1-13 is connected with a conveying screw 1-12, the hollow shaft 1-13 is provided with openings 1-14, a filter element 1-15 with a handle is clamped in the conical surface bucket 1-11, and a built-in wind wheel 1-16 is connected with the conical surface bucket 1-11.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, where the angle-adjustable drying box mechanism 2 includes a servo motor 2-1, a second coupler 2-2, a first slide rail 2-3, a redirection moving seat 2-4, a pulley 2-5, a first matching groove 2-6, a second matching groove 2-7, a third matching groove 2-8, a drying box body 2-9, a hinged support 2-10, a gear box 2-11, a feed hopper 2-12, an interlayer drying cylinder 2-13, a bent pipe 2-14, a drying discharge pipe 2-15, a soft discharge pipe 2-16, a first bearing seat 2-17, an auxiliary support bar 2-18, a rotary material turning seat with a partition plate 2-19, a filter element 2-20, a second bearing seat 2-18, a second bearing seat 2-4, a second bearing seat 2-8, a third bearing seat 2-8, a second bearing seat 2-10, a hinge support bar 2-10, a gear box 2-11, a feed hopper 2-12, a partition plate 2-13, a bent pipe, a flexible discharge pipe 2-15, a flexible discharge pipe, a second bearing, a third bearing, a fourth bearing, a fifth bearing, a sixth bearing, a, A first lead screw 2-21, a servo motor 2-1 is connected with the first lead screw 2-21 through a second coupling 2-2, the first lead screw 2-21 is rotationally connected with a first slide rail 2-3, a redirection movable seat 2-4 is slidably connected in the first slide rail 2-3, the redirection movable seat 2-4 is rotationally connected with a pulley 2-5, the pulley 2-5 is contacted with a drying box body 2-9, a first matching groove 2-6, a second matching groove 2-7 and a third matching groove 2-8 are arranged on the drying box body 2-9, the drying box body 2-9 is hinged with a hinged support 2-10, a gear box 2-11 is arranged on the drying box body 2-9, the drying box body 2-9 is connected and communicated with a feed hopper 2-12, an interlayer drying cylinder 2-13 is connected with a drying box body 2-9, an interlayer drying cylinder 2-13 is connected with and communicated with a bending pipe 2-14, a drying discharging pipe 2-15 is connected with and communicated with an interlayer drying cylinder 2-13, a drying discharging pipe 2-15 is connected with a soft discharging pipe 2-16, a first bearing seat 2-17 is arranged on the drying box body 2-9, an auxiliary supporting strip 2-18 is connected with the drying box body 2-9, the auxiliary supporting strip 2-18 is connected with the interlayer drying cylinder 2-13, a rotary stirring seat 2-19 with a clapboard is rotationally connected in the drying box body 2-9, a filter element 2-20 is clamped in the bending pipe 2-14, a first lead screw 2-21 is in threaded connection with a redirection movable seat 2-4, and a driving motor 1-1 is connected with the drying box body 2-9, the first gear 1-3 is meshed with a rotary material turning seat 2-19 with a partition plate, the first gear 1-3 is arranged in a gear box 2-11, a gear shaft 1-4 is rotationally connected with the gear box 2-11, a conical hopper 1-11 with a conical surface is rotationally connected with a first bearing seat 2-17, a hollow shaft 1-13 is rotationally connected with an interlayer drying cylinder 2-13, the hollow shaft 1-13 is rotationally connected with a bending pipe 2-14, raw materials to be dried enter a drying box body 2-9 from a feed hopper 2-12, a driving motor 1-1 can drive a first coupling 1-2 to rotate when running, the first coupling 1-2 can drive the gear shaft 1-4 to rotate, the gear shaft 1-4 can drive the first gear 1-3 to rotate, the first gear 1-3 can drive the rotary material turning seat 2-19 with the partition plate to rotate, the rotating material turning seat 2-19 with the partition plate can continuously improve the rotation of the material through the partition plate per se and then fall down, the servo motor 2-1 can drive the second coupler 2-2 to rotate, the second coupler 2-2 can drive the first lead screw 2-21 to rotate, the first lead screw 2-21 can drive the direction-changing movable seat 2-4 to move, the direction-changing movable seat 2-4 can drive the pulley 2-5 to slide into the second matching groove 2-7, when the pulley slides into the second matching groove 2-7, the included angle between the drying box body 2-9 and the horizontal plane is 7 degrees, when the rotating material turning seat 2-19 with the partition plate rotates, the material can move towards the direction far away from the feed hopper 2-12 due to the inclination angle in the process of upwards turning and falling down, if the pulley 2-5 continues to move, the pulley slides into the third matching groove 2-8, and the included angle between the drying box body 2-9 and the horizontal plane is 14 degrees, the moving speed of the material becomes faster, the adjusting mode is selected according to the drying degree method of the raw materials, so that the material keeps a certain advancing speed in the process of being rotated, thrown and turned, the material is dried in a first level, when the material moves to the position of the rotating material taking hopper 1-8, the gear shaft 1-4 drives the first belt wheel 1-5 to rotate when rotating, the first belt wheel 1-5 drives the second belt wheel 1-7 to rotate through the V belt 1-6, the second belt wheel 1-7 drives the conical surface belt hopper 1-11 to rotate, and then drives the rotating material taking hopper 1-8 to perform circular motion, the rotating direction is anticlockwise seen from the hollow shaft 1-13 to the conical surface bucket 1-11, when the rotating material taking bucket 1-8 rotates, the material at a lower position is scraped into the inclined surface material taking cavity 1-9, when the rotating material taking bucket 1-8 rotates to the highest point, the material moves along the inclined surface material taking cavity 1-9, then is discharged from the discharge opening 1-10, then slides into the interlayer drying cylinder 2-13 along the conical surface bucket 1-11, when the conical surface bucket 1-11 rotates, the hollow shaft 1-13 drives the conveying screw 1-12 to rotate, the conveying screw 1-12 rotates to move the material falling into the interlayer drying cylinder 2-13 to the direction of the drying material discharge pipe 2-15, until the material is discharged into the spinning box 3-11 from the drying material discharge pipe 2-15 through the soft material discharge pipe 2-16, in the middle process, the built-in wind wheel 1-16 rotating along with the conical hopper 1-11 can form gas flow, outside air enters the conical hopper 1-11 after being filtered by the filter element 1-15 with the handle, then enters the hollow shaft 1-13, enters the interlayer drying cylinder 2-13 after being reversed by the bending pipe 2-14, then is blown into the drying box body 2-9 and finally is discharged from the feed hopper 2-12, in the middle process, the motion defense line of the wind is always opposite to the motion direction of the material, and the retention time of the material in the air is prolonged by matching with the turning effect and the rotary material taking effect, so that the drying effect is improved, the contact time and the length of the material and the air flow are prolonged in a limited space, the drying effect is fundamentally improved, when the device is not used for a long time, the servo motor 2-1 can be operated in the reverse direction to drive the pulley 2-5 to reset and slide into the first matching groove 2-6, so that each part can not bear component forces in multiple directions, and the service life is prolonged.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-17, and the spinning mechanism 3 includes a support leg 3-1 with a seat, a second slide rail 3-2, a third coupling 3-3, a servo motor 3-4, a sliding support 3-5, a force-transmitting rod 3-6, a passive force-transmitting arm 3-7, a fixed socket 3-8, a movable plug 3-9, a spinning seat 3-10, a spinning box 3-11, a fourth coupling 3-12, a spinning motor 3-13, a spinning motor seat 3-14, a first spinning wheel 3-15, a second gear 3-16, a first gear with a shaft 3-17, a second gear with a shaft 3-18, a third gear 3-19, a second spinning wheel 3-20, a spinning feed port 3-21, a first gear with a shaft 3-1, a second slide rail 3-2, a third gear 3-3, a third gear 3-19, a second spinning wheel 3-20, a spinning feed port 3-21, a second gear, a third gear, a, 3-22 parts of an air box, 3-23 parts of an air inlet, 3-24 parts of a sliding filter core, 3-25 parts of a fifth coupler, 3-26 parts of a wire moving driving motor, 3-27 parts of a first chute, 3-28 parts of a second chute, 3-29 parts of a spinneret orifice, 3-30 parts of a spinneret extrusion screw shaft, 3-31 parts of a second bearing seat, 3-32 parts of a bent wire guide seat, 3-33 parts of a wire outlet groove, 3-34 parts of a gas injection channel, 3-35 parts of a connecting pipe, 3-36 parts of a wind wheel and 3-37 parts of a second lead screw, 3-1 parts of supporting legs with seats are connected with 3-11 parts of the spinneret box, 3-5 parts of a sliding support are connected in the first chute 3-27 in a sliding way, 3-27 parts of the first chute are arranged on the second slide rail 3-2, 3-4 parts of a servo motor are connected with 3-37 parts of the second lead screw through a third coupler 3-3, the second slide rail 3-2 is connected with a servo motor 3-4, a second lead screw 3-37 is rotationally connected with the second slide rail 3-2, the second lead screw 3-37 is connected with a sliding support 3-5 through screw threads, the sliding support 3-5 is connected with a dowel bar 3-6, the dowel bar 3-6 is connected with a driven force transmission arm 3-7, the driven force transmission arm 3-7 is connected with a movable plug 3-9, the movable plug 3-9 is inserted into a fixed socket 3-8, the fixed socket 3-8 is connected with a spinneret base 3-10, the spinneret base 3-10 is connected with a spinneret box 3-11, the lower end face of the spinneret base 3-10 is provided with a second chute 3-28, the movable plug 3-9 is connected into the second chute 3-28 in a sliding manner, the spinneret base 3-11 is connected with a spinneret motor base 3-14, a spinning motor base 3-14 is connected with a spinning motor 3-13, the spinning motor 3-13 is connected with a fourth coupler 3-12, the fourth coupler 3-12 is connected with a spinning extrusion screw shaft 3-30, the spinning extrusion screw shaft 3-30 is rotationally connected with a spinning box 3-11, a first spinning wheel 3-15 is rotationally connected with a sliding support 3-5, the first spinning wheel 3-15 is connected with a second gear 3-16, the second gear 3-16 is meshed with a first belt shaft gear 3-17, the first belt shaft gear 3-17 is meshed with a second belt shaft gear 3-18, the first belt shaft gear 3-17 and the second belt shaft gear 3-18 are rotationally connected with the sliding support 3-5, the second belt shaft gear 3-18 is meshed with a third gear 3-19, the third gear 3-19 is connected with the second spinning wheel 3-20, the second spinning wheel 3-20 is rotatably connected with the sliding support 3-5, the spinning feed inlet 3-21 is arranged on the spinning box 3-11, the feed inlet 3-21 is communicated with the soft discharge pipe 2-16, the air box 3-22 is connected with the sliding support 3-5, the air inlet 3-23 is arranged on the air box 3-22, the sliding filter element 3-24 is clamped in the air box 3-22, the fifth coupler 3-25 connects the spinning driving motor 3-26 with the second spinning wheel 3-20, the plurality of spinning holes 3-29 are arranged on the spinning base 3-10, the spinning screw shaft extruding 3-30 is rotatably connected with the second bearing base 3-31, the second bearing base 3-31 is connected with the spinning box 3-11, the bending wire seat 3-32 is connected with the mobile plug 3-9, the wire outlet groove 3-33 is arranged on the bending wire seat 3-32, the wire outlet groove 3-33 is equal in number and corresponding in position to the spinneret orifice 3-29, the air injection channel 3-34 is communicated with the wire outlet groove 3-33, the air injection channel 3-34 is arranged on the mobile plug 3-9, the connecting pipe 3-35 is communicated with the air injection channel 3-34, the connecting pipe 3-35 is connected with the mobile plug 3-9, the connecting pipe 3-35 is connected and communicated with the air box 3-22, the wind wheel 3-36 is arranged in the air box 3-22, the wind wheel 3-36 is connected with the first spinning wheel 3-15, the upper end surface of the bending wire seat 3-32 is contacted with the spinneret seat 3-10, the fourth coupler 3-12 is driven to rotate by the operation of the spinneret motor 3-13, the fourth coupler 3-12 can drive the spinning extrusion screw shaft 3-30 to rotate, the spinning extrusion screw shaft 3-30 can drive the materials entering the spinning box 3-11 to move downwards, the materials can be melted under the heating action of the spinning seat 3-10 and then move along the spinning hole 3-29, so that the filaments are formed, the filaments continuously move downwards and enter the wire outlet groove 3-33, the fifth coupler 3-25 can be driven to rotate when the filament driving motor 3-26 operates, the fifth coupler 3-25 can drive the second filament wheel 3-20 to rotate, the rotation direction of the second filament wheel 3-20 is clockwise when viewed from the third gear 3-19 to the second filament wheel 3-20, and the third gear 3-19 can rotate through the second gear with shaft 3-18, The first belt shaft gear 3-17 and the second gear 3-16 drive the first wire wheel 3-15 to rotate, the first wire wheel 3-15 can drive the wind wheel 3-36 to rotate, the wind wheel 3-36 can rotate to form gas flow, outside air is filtered by the sliding filter element 3-24 from the air inlet 3-23 and then is discharged into the air injection channel 3-34 from the connecting pipe 3-35, then is blown into the wire outlet groove 3-33 to cool the sprayed wires, then the wind can be sucked in from the air inlet 3-23 again, thus having the functions of cooling and deodorizing, the wires are cooled and then are molded, and then can horizontally move along the wire outlet groove 3-33 to extrude and draw the first wire wheel 3-15 and the second wire wheel 3-20 which are rotated, and then accelerate to move, completing the movement of the silk thread; the device can prevent the yarn from being interrupted after the yarn is cut off, when the yarn needs to be cut off, the servo motor 3-4 operates to drive the third coupler 3-3 to rotate, the third coupler 3-3 can drive the second lead screw 3-37 to rotate, the second lead screw 3-37 rotates to drive the sliding support 3-5 to move, the sliding support 3-5 can drive the movable plug 3-9 to move, the movable plug 3-9 can drive the bent wire guide seat 3-32 and the yarn spraying seat 3-10 to slide relatively, so that the yarn is cut off, and the movable plug 3-9 and the fixed socket 3-8 are separated at the moment, so that the yarn spraying motor 3-13 stops rotating, the power for continuously spraying yarn disappears, and the phenomena of short-time stacking and uneven yarn spraying can be prevented, the process does not prevent the first wire moving wheel 3-15 and the second wire moving wheel 3-20 from continuing to move, so that the movement of the wires is prevented from being interrupted, and the first wire moving wheel 3-15 and the second wire moving wheel 3-20 also play a role of assisting in the cutting process.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, and the included angle between the inclined surface in the material taking cavity 1 to 9 with the inclined surface and the pouring opening 1 to 10 is 35 to 50 degrees.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, when the pulley 2-5 is in the first engaging groove 2-6, the drying box body 2-9 is kept horizontal, when the pulley 2-5 moves into the second engaging groove 2-7, the included angle between the drying box body 2-9 and the horizontal plane is 7 degrees, when the pulley 2-5 moves into the third engaging groove 2-8, the included angle between the drying box body 2-9 and the horizontal plane is 14 degrees, and after the above angle changes, the height of one end of the feeding hopper 2-12 becomes high.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, the material sliding out from the pouring opening 1 to 10 will enter the interlayer drying cylinder 2 to 13 along the conical hopper 1 to 11.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, in which the spinning motor 3 to 13 stops operating when the movable plug 3 to 9 is disengaged from the fixed socket 3 to 8.

The specific implementation mode is eight:

the present embodiment will be described with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment in which the upper end surfaces of the spinneret holders 3 to 10 are attached with a heating material to generate heat.

The working principle of the device is as follows: the device can dry raw materials, the conveying efficiency of the device can be changed by an angle adjusting mode, the raw materials to be dried enter the drying box body 2-9 from the feed hopper 2-12, the driving motor 1-1 can drive the first coupler 1-2 to rotate, the first coupler 1-2 can drive the gear shaft 1-4 to rotate, the gear shaft 1-4 can drive the first gear 1-3 to rotate, the first gear 1-3 can drive the material overturning seat 2-19 with the partition plate to rotate, the material overturning seat 2-19 with the partition plate can continuously rotate, then the material is lifted and falls down through the partition plate, the servo motor 2-1 can drive the second coupler 2-2 to rotate, and the second coupler 2-2 can drive the first lead screw 2-21 to rotate, the first lead screw 2-21 drives the direction-changing movable seat 2-4 to move, the direction-changing movable seat 2-4 drives the pulley 2-5 to slide into the second matching groove 2-7, when the direction-changing movable seat slides into the second matching groove 2-7, the included angle between the drying box body 2-9 and the horizontal plane is 7 degrees, when the rotating material-turning seat 2-19 with the partition plate rotates, the material moves towards the direction far away from the feed hopper 2-12 due to the inclination angle in the process of turning and falling, if the pulley 2-5 continues to move, the pulley slides into the third matching groove 2-8, the included angle between the drying box body 2-9 and the horizontal plane is 14 degrees, the moving speed of the material is faster, the adjusting mode is selected according to the drying degree method of the raw materials, so that the material keeps a certain advancing speed in the process of being rotated, thrown and turned, so that the material is dried in a first level, when the material moves to the position of the rotary material taking hopper 1-8, the gear shaft 1-4 can drive the first belt wheel 1-5 to rotate when rotating, the first belt wheel 1-5 can drive the second belt wheel 1-7 to rotate through the V-belt 1-6, the second belt wheel 1-7 can drive the conical surface hopper 1-11 to rotate, and then drive the rotary material taking hopper 1-8 to do circular motion, the rotating direction is anticlockwise seen from the hollow shaft 1-13 to the conical surface hopper 1-11, when the rotary material taking hopper 1-8 rotates, the material at a lower position can be scraped into the material taking cavity 1-9 with the inclined surface, when the rotary material taking hopper 1-8 rotates to the highest point, the material can move along the material taking cavity 1-9, then discharged from the pouring opening 1-10, and then slides into the interlayer drying cylinder 2-13 along the conical hopper 1-11, when the conical hopper 1-11 rotates, the hollow shaft 1-13 drives the conveying screw 1-12 to rotate, the conveying screw 1-12 rotates to move the material falling into the interlayer drying cylinder 2-13 towards the drying discharge pipe 2-15 until the material is discharged into the spinning box 3-11 from the drying discharge pipe 2-15 through the soft discharge pipe 2-16, during the middle process, the built-in wind wheel 1-16 rotating along with the conical hopper 1-11 forms gas flow, the external air is filtered by the filter element 1-15 with the handle and then enters the conical hopper 1-11 and then enters the hollow shaft 1-13, the device is reversed by a bending pipe 2-14, enters an interlayer drying cylinder 2-13, is blown into a drying box body 2-9 and is finally discharged from a feeding hopper 2-12, in the middle process, the movement prevention line of wind is always opposite to the movement direction of the materials, and the stay time of the materials in the air is prolonged by matching the turning effect and the rotating material taking effect, so that the drying effect is improved, the contact time and the length of the materials and the airflow are prolonged in a limited space, the drying effect is fundamentally improved, when the device is not used for a long time, the servo motor 2-1 can be reversely operated to drive a pulley 2-5 to reset and slide into a first matching groove 2-6, so that each part does not bear component force in multiple directions, and the service life is prolonged; the device can perform spinning and routing and finish the treatment of odor, the fourth coupler 3-12 is driven to rotate by the operation of a spinning motor 3-13, the fourth coupler 3-12 can drive a spinning extrusion screw shaft 3-30 to rotate, the spinning extrusion screw shaft 3-30 can drive materials entering a spinning box 3-11 to move downwards by the rotation, the materials are melted by the heating action of a spinning seat 3-10 and then move along a spinning hole 3-29, thus forming silk, the silk continuously moves downwards and enters a wire outlet groove 3-33, the fifth coupler 3-25 can be driven to rotate when a silk driving motor 3-26 is operated, the fifth coupler 3-25 can drive a second silk wheel 3-20 to rotate, the rotation direction of the second silk wheel 3-20 is clockwise seen from a third gear 3-19 to the second silk wheel 3-20, the third gear 3-19 rotates to drive the first wire wheel 3-15 to rotate through the transmission of the second belt shaft gear 3-18, the first belt shaft gear 3-17 and the second gear 3-16, the first wire wheel 3-15 drives the wind wheel 3-36 to rotate, the wind wheel 3-36 rotates to form air flow, outside air is discharged into the air spraying channel 3-34 from the connecting pipe 3-35 after being filtered by the sliding filter element 3-24 from the air inlet 3-23, then is blown into the wire outlet groove 3-33 to blow and cool the sprayed wires, then the air is sucked again from the air inlet 3-23, thus the cooling and odor removing effects are achieved, the wires are cooled to be formed, then move horizontally along the wire outlet groove 3-33 to be extruded and drawn by the first wire wheel 3-15 and the second wire wheel 3-20 which are rotated, then accelerating to move to finish the movement of the silk thread; the device can prevent the yarn from being interrupted after the yarn is cut off, when the yarn needs to be cut off, the servo motor 3-4 operates to drive the third coupler 3-3 to rotate, the third coupler 3-3 can drive the second lead screw 3-37 to rotate, the second lead screw 3-37 rotates to drive the sliding support 3-5 to move, the sliding support 3-5 can drive the movable plug 3-9 to move, the movable plug 3-9 can drive the bent wire guide seat 3-32 and the yarn spraying seat 3-10 to slide relatively, so that the yarn is cut off, and the movable plug 3-9 and the fixed socket 3-8 are separated at the moment, so that the yarn spraying motor 3-13 stops rotating, the power for continuously spraying yarn disappears, and the phenomena of short-time stacking and uneven yarn spraying can be prevented, the process does not prevent the first wire moving wheel 3-15 and the second wire moving wheel 3-20 from continuing to move, so that the movement of the wires is prevented from being interrupted, and the first wire moving wheel 3-15 and the second wire moving wheel 3-20 also play a role of assisting in the cutting process.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (8)

1. The utility model provides a chemical industry spouts a processingequipment, includes that raw materials drying mechanism (1), angularly adjustable type drying cabinet mechanism (2), spout a mechanism (3), its characterized in that: the raw material drying mechanism (1) is connected with the angle-adjustable drying box mechanism (2), and the angle-adjustable drying box mechanism (2) is connected with the spinning mechanism (3);

the raw material drying mechanism (1) comprises a driving motor (1-1), a first coupler (1-2), a first gear (1-3), a gear shaft (1-4), a first belt wheel (1-5), a triangular belt (1-6), a second belt wheel (1-7), a rotary material taking hopper (1-8), a material taking cavity (1-9) with an inclined surface, a dumping opening (1-10), a hopper (1-11) with a conical surface, a conveying screw (1-12), a hollow shaft (1-13), an opening (1-14), a filter element (1-15) with a handle and a built-in wind wheel (1-16), wherein the driving motor (1-1) is connected with the gear shaft (1-4) through the first coupler (1-2), and the first gear (1-3) is connected with the gear shaft (1-4), the gear shaft (1-4) is connected with a first belt wheel (1-5), the first belt wheel (1-5) is in friction connection with a triangular belt (1-6), the triangular belt (1-6) is in friction connection with a second belt wheel (1-7), the second belt wheel (1-7) is connected with a conical belt hopper (1-11), a plurality of rotary material taking hoppers (1-8) are arranged on the conical belt hopper (1-11), a material taking cavity (1-9) with an inclined surface and a dumping port (1-10) are arranged on the rotary material taking hopper (1-8), the material taking cavity (1-9) with the inclined surface is communicated with the dumping port (1-10), the conical belt hopper (1-11) is connected and communicated with a hollow shaft (1-13), a conveying screw (1-12) is connected on the hollow shaft (1-13), the hollow shaft (1-13) is provided with an opening (1-14), the filter element (1-15) with the handle is clamped in the conical hopper (1-11), and the built-in wind wheel (1-16) is connected with the conical hopper (1-11).

2. The chemical spinning processing device of claim 1, wherein: the angle-adjustable drying box mechanism (2) comprises a servo motor (2-1), a second coupler (2-2), a first sliding rail (2-3), a redirection moving seat (2-4), a pulley (2-5), a first matching groove (2-6), a second matching groove (2-7), a third matching groove (2-8), a drying box body (2-9), a hinged support (2-10), a gear box (2-11), a feeding hopper (2-12), an interlayer drying cylinder (2-13), a bent pipe (2-14), a drying discharging pipe (2-15), a soft discharging pipe (2-16), a first bearing seat (2-17), an auxiliary support bar (2-18), a rotary material turning seat with a partition plate (2-19), a filter element (2-20), A first lead screw (2-21), a servo motor (2-1) and the first lead screw (2-21) are connected through a second coupler (2-2), the first lead screw (2-21) is rotatably connected with a first slide rail (2-3), a direction-changing movable seat (2-4) is slidably connected in the first slide rail (2-3), the direction-changing movable seat (2-4) is rotatably connected with a pulley (2-5), the pulley (2-5) is contacted with a drying box body (2-9), the drying box body (2-9) is provided with a first matching groove (2-6), a second matching groove (2-7) and a third matching groove (2-8), the drying box body (2-9) is hinged with a hinged support (2-10), a gear box (2-11) is arranged on the drying box body (2-9), the drying box body (2-9) is connected and communicated with the feed hopper (2-12), the interlayer drying cylinder (2-13) is connected with the drying box body (2-9), the interlayer drying cylinder (2-13) is connected and communicated with the bending pipe (2-14), the drying discharge pipe (2-15) is connected and communicated with the interlayer drying cylinder (2-13), the drying discharge pipe (2-15) is connected with the soft discharge pipe (2-16), the first bearing seat (2-17) is arranged on the drying box body (2-9), the auxiliary support strip (2-18) is connected with the interlayer drying cylinder (2-13), the rotary material turning seat (2-19) with the partition plate is rotatably connected in the drying box body (2-9), the filter element (2-20) is clamped in the bent pipe (2-14), a first lead screw (2-21) is in threaded connection with a redirection moving seat (2-4), a driving motor (1-1) is connected with a drying box body (2-9), a first gear (1-3) is meshed with a rotating material turning seat (2-19) with a partition plate, the first gear (1-3) is arranged in a gear box (2-11), a gear shaft (1-4) is rotationally connected with the gear box (2-11), a hopper (1-11) with a conical surface is rotationally connected with a first bearing seat (2-17), a hollow shaft (1-13) is rotationally connected with an interlayer drying cylinder (2-13), and the hollow shaft (1-13) is rotationally connected with the bent pipe (2-14).

3. The chemical spinning processing device of claim 2, wherein: the spinning mechanism (3) comprises a support leg with a seat (3-1), a second sliding rail (3-2), a third coupling (3-3), a servo motor (3-4), a sliding support (3-5), a dowel bar (3-6), a driven transmission arm (3-7), a fixed socket (3-8), a movable plug (3-9), a spinning seat (3-10), a spinning box (3-11), a fourth coupling (3-12), a spinning motor (3-13), a spinning motor seat (3-14), a first spinning wheel (3-15), a second gear (3-16), a first shaft gear (3-17), a second shaft gear (3-18), a third gear (3-19), a second spinning wheel (3-20), Spinning feed inlets (3-21), bellows (3-22), air inlets (3-23), sliding filter cores (3-24), a fifth coupler (3-25), a wire-moving drive motor (3-26), a first chute (3-27), a second chute (3-28), spinning holes (3-29), spinning extrusion screw shafts (3-30), a second bearing seat (3-31), a bent wire guide seat (3-32), wire outlet grooves (3-33), air injection channels (3-34), connecting pipes (3-35), wind wheels (3-36) and second lead screws (3-37), support legs (3-1) with seats are connected with the spinning boxes (3-11), sliding supports (3-5) are connected in the first chutes (3-27) in a sliding manner, the first sliding groove (3-27) is arranged on the second sliding rail (3-2), the servo motor (3-4) is connected with the second lead screw (3-37) through the third coupler (3-3), the second sliding rail (3-2) is connected with the servo motor (3-4), the second lead screw (3-37) is rotatably connected with the second sliding rail (3-2), the second lead screw (3-37) is in threaded connection with the sliding support (3-5), the sliding support (3-5) is connected with the force transmission rod (3-6), the force transmission rod (3-6) is connected with the passive force transmission arm (3-7), the passive force transmission arm (3-7) is connected with the movable plug (3-9), the movable plug (3-9) is inserted into the fixed socket (3-8), the fixed socket (3-8) is connected with the wire spraying seat (3-10), the spinning seat (3-10) is connected with the spinning box (3-11), the lower end face of the spinning seat (3-10) is provided with a second chute (3-28), a movable plug (3-9) is connected in the second chute (3-28) in a sliding way, the spinning box (3-11) is connected with a spinning motor seat (3-14), the spinning motor seat (3-14) is connected with a spinning motor (3-13), the spinning motor (3-13) is connected with a fourth coupler (3-12), the fourth coupler (3-12) is connected with a spinning screw extruding shaft (3-30), the spinning screw extruding shaft (3-30) is connected with the spinning box (3-11) in a rotating way, a first spinning wheel (3-15) is connected with a sliding support (3-5) in a rotating way, and a first spinning wheel (3-15) is connected with a second gear (3-16), the second gears (3-16) are meshed with the first belt shaft gears (3-17), the first belt shaft gears (3-17) are meshed with the second belt shaft gears (3-18), the first belt shaft gears (3-17) and the second belt shaft gears (3-18) are rotatably connected with the sliding supports (3-5), the second belt shaft gears (3-18) are meshed with the third gears (3-19), the third gears (3-19) are connected with the second spinning wheels (3-20), the second spinning wheels (3-20) are rotatably connected with the sliding supports (3-5), spinning feed ports (3-21) are arranged on the spinning boxes (3-11), the feed ports (3-21) are communicated with the flexible air box (2-16), and the feed ports (3-22) are connected with the sliding supports (3-5), an air inlet (3-23) is arranged on the air box (3-22), the sliding filter element (3-24) is clamped in the air box (3-22), a fifth coupler (3-25) connects the filament moving driving motor (3-26) with the second filament moving wheel (3-20), a plurality of filament spraying holes (3-29) are arranged on the filament spraying base (3-10), the filament spraying extrusion screw shaft (3-30) is rotationally connected with the second bearing base (3-31), the second bearing base (3-31) is connected with the filament spraying box (3-11), the bent wire guiding base (3-32) is connected with the movable plug (3-9), the wire outlet groove (3-33) is arranged on the bent wire guiding base (3-32), and the number of the wire outlet groove (3-33) is equal to that of the filament spraying holes (3-29), The positions of the air injection channels are corresponding to each other, the air injection channels (3-34) are communicated with the wire outlet grooves (3-33), the air injection channels (3-34) are arranged on the movable plugs (3-9), the connecting pipes (3-35) are communicated with the air injection channels (3-34), the connecting pipes (3-35) are connected with the movable plugs (3-9), the connecting pipes (3-35) are connected and communicated with the air boxes (3-22), the wind wheels (3-36) are arranged in the air boxes (3-22), the wind wheels (3-36) are connected with the first wire moving wheels (3-15), and the upper end faces of the bent wire guide seats (3-32) are contacted with the wire injection seats (3-10).

4. The chemical spinning processing device of claim 1, wherein: the included angle range of the inclined plane in the material taking cavity (1-9) with the inclined plane and the pouring opening (1-10) is 35-50 degrees.

5. The chemical spinning processing device of claim 2, wherein: when the pulley (2-5) is in the first matching groove (2-6), the drying box body (2-9) is kept horizontal, when the pulley (2-5) moves into the second matching groove (2-7), the included angle between the drying box body (2-9) and the horizontal plane is 7 degrees, when the pulley (2-5) moves into the third matching groove (2-8), the included angle between the drying box body (2-9) and the horizontal plane is 14 degrees, and after the angle is changed, the height of one end of the feeding hopper (2-12) is increased.

6. The chemical spinning processing device of claim 2, wherein: the materials sliding out from the pouring opening (1-10) can enter the interlayer drying cylinder (2-13) along the conical hopper (1-11).

7. The chemical spinning processing device of claim 3, wherein: when the movable plug (3-9) is separated from the fixed socket (3-8), the spinning motor (3-13) stops running.

8. The chemical spinning processing device of claim 3, wherein: the upper end surfaces of the wire spraying seats (3-10) are attached with heating materials, so that heating can be performed.

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