CN109913962A - Colloid at silk equipment swaying wire equipment - Google Patents

Abstract

The present invention relates to a kind of colloids into the swaying wire equipment of silk equipment.It solves the prior art and designs the technical problems such as not reasonable.Including getting rid of silk seat, getting rid of a motor, motor shaft, feeding tube body and hot wind seat, there is heating component in hot wind seat, heating component is connected with hot wind guiding structure, motor shaft is arranged in hot wind seat together with feeding tube body and extends to below hot wind seat, motor shaft lower end be connected with it is corresponding with feeding tube body and it is circumferential have it is several get rid of wire hole get rid of wire tray body, it gets rid of wire tray body upper end and is fixed with the hot blasting structure being connected with motor shaft, hot wind seat lower end has hot wind derived type structure corresponding with hot blasting structure.Advantage is: further being stretched through hot-air system to fiber, while making its rapid draing, be not easy stick to each other together, heat shield is effectively prevented from colloidal solution solidification, it is not easy to which blocking, which is got rid of, gets rid of wire hole in wire tray, so that the filamentary fibers quality after preparation is higher.

Description

Colloid at silk equipment swaying wire equipment

Technical field

The invention belongs to materiel machining equipment technical fields, and in particular to a kind of colloid at silk equipment swaying wire equipment.

Background technique

Colloid is sol method at the most common preparation method of silk at present, this method include colloid preparation, fibrosis (get rid of silk or Blowing) and three main process of firing.Getting rid of a method is more common fiber-forming processes, i.e., carries out colloid into silk using centrifugal drying silk method Preparation；It is heat-treated after dry, filamentary fibers may finally be obtained.Existing get rid of when a method prepares filamentary fibers needs to lead to The high-speed rotation of motor is crossed to realize centrifugal drying silk, i.e., hollow spindle rotation is driven by belt by motor, by colloidal solution Be placed in the container for getting rid of wire tray top, container bottom with get rid of the hollow spindle of wire tray to just, colloidal solution is from the small of container bottom Hole with pole low flow rate strand or drop-wise flow to it is high-speed rotating get rid of in wire tray, solution is thrown away into fibre by means of centrifugal force.It is existing to get rid of silk dress Set that there is many deficiencies, for example, occupied area is larger, for the drive mechanisms such as belt there are certain loss, it is poor to get rid of an effect, by Get rid of that the fiber that wire hole is thrown away is easily broken off and the fiber that just throws away is relatively thick and is easy to be sticked together between each other.

Of the existing technology in order to solve the problems, such as, people have carried out long-term exploration, propose various solutions Scheme, for example, Chinese patent literature discloses a kind of ten thousand turns of centrifugation fiber-forming devices [application for preparing polycrystalline fibre for colloid method Number: CN200820032549.9]: mainly there are ten thousand rotating motors and get rid of wire tray composition, wherein the front end of ten thousand rotating motors is fixed on and gets rid of silk On seat board, the front end of electrical axis, which is stretched out, gets rid of a seat board other side, and with get rid of wire tray be connected it is integrated rotate, the tail of electrical axis The tail end shell of motor is stretched out at end, electrical axis be it is hollow, straight-through up and down, spinnability colloid is hollow by insertion electrical axis Lumen adds sebific duct to be continuously added to get rid of in wire tray, and the border side wall for getting rid of wire tray is furnished with aperture, can under ten thousand turns of high speed rotations Spin property colloid from aperture centrifugation throw away to form fiber, get rid of wire tray top install additional hot air ring, downwards blow out hot wind to fiber into Row drying.

Above scheme has saved sky by the way that sebific duct will be added directly to be threaded through in the hollow shaft of motor to a certain extent in this way Between, reduce the loss of drive mechanism, the program still remains: getting rid of that an effect is poor, by get rid of the fiber that wire hole is thrown away be easy it is disconnected It splits and the fiber just thrown away relatively slightly and is between each other easy the problems such as being sticked together.

Summary of the invention

Regarding the issue above, the present invention provides it is a kind of simple and reasonable, the good colloid of an effect is got rid of into silk The swaying wire equipment of equipment.

In order to achieve the above objectives, present invention employs following technical proposals: this colloid at silk equipment swaying wire equipment, including The motor that gets rid of got rid of on silk seat is set, and the motor shaft for getting rid of a motor is equipped in hollow shape and in the motor shaft Feeding tube body, which is characterized in that described gets rid of silk seat lower end equipped with hot wind seat, and has heating component in the hot wind seat, And the heating component is connected with hot wind guiding structure, the motor shaft is arranged in hot wind seat and extension together with feeding tube body Below to hot wind seat, motor shaft lower end be connected with it is corresponding with feeding tube body and it is circumferential have it is several get rid of wire hole get rid of wire tray Body, the wire tray body upper end of getting rid of are fixed with the hot blasting structure being connected with motor shaft, and the hot wind seat lower end tool There is hot wind derived type structure corresponding with hot blasting structure.

Wherein, high temperature colloidal solution is dropped in from motor shaft lower end by feeding tube body and is got rid of in wire tray, and motor shaft drive is got rid of Solution is thrown away into fibre from getting rid of by centrifugal force by wire tray high-speed rotation in wire hole, heating component is in hot wind seat and generates high temperature, Hot wind seat is directed wind by hot wind guiding structure and forms hot wind, and is guided hot wind to hot blasting by hot wind derived type structure Structure, simultaneously because hot wind can be blown equipped with hot blasting structure just from getting rid of on the fiber that wire hole is thrown away by getting rid of wire tray body upper end, Preliminary silk is further drawn into thinner fiber filament using hot wind, while making its rapid draing, is not easy stick to each other one It rises.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the heating component includes that setting is outside in hot wind seat week The hot air cavity of side, the hot air cavity is interior to be equipped with several heat insulations, is arranged with several heating wire on the heat insulation.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the hot wind guiding structure includes being arranged outside hot wind seat The blower of side, the blower is connected with fan driver, and the blower is connected by air-guiding aisle with hot air cavity.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the hot wind derived type structure includes setting in hot wind seat week Inwardly and the hot-air channel that passes through of arbor of powering, the hot-air channel bottom is fixed with leading with several wind blades Wind seat, and the air guiding seat and the corresponding setting of hot blasting structure, the air guiding seat and hot-air channel coaxial arrangement and In the motor axis channel that there is power supply arbor to pass through at air guiding seat center.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the motor shaft lower end is arranged in electric machine casing lower end In axis hole, the electric machine casing upper end has through hole corresponding with motor shaft upper end, and the motor shaft upper end is circumferential Outside and through hole week inwardly between be rotatedly connected, and the motor shaft upper end is beyond on the outside of through hole or the motor It is flushed on the outside of axis upper end and through hole.

In swaying wire equipment of the above-mentioned colloid at silk equipment, described feeding tube body one end is worn by motor shaft upper end respectively Enter, and the feeding tube body other end extends to motor shaft lower end, the motor shaft week inwardly with feeding tube body outer circumferential not Contact and motor shaft circumferentially rotate setting relative to feeding tube body, and the feeding tube body by location structure setting in motor On shell.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the location structure includes in bending and being crossed on electricity Positioning frame body on casing body, and the positioning frame body lower end two sides pass through mounting assembly respectively and are connected with electric machine casing, institute The positioning frame body upper center stated has the positioning seat passed through for feed pipe body, and leads between the positioning seat and feeding tube body Positioning component is crossed to be connected.By the way that feeding tube body to be threaded through in motor shaft, space has been saved in this way, while will by positioning component Feeding tube body is located on positioning frame body, and feeding tube body fixation will not generate shaking, and motor shaft and feeding tube body do not connect Touching will not rotate motor shaft when motor shaft circumferentially rotates and impact.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the mounting assembly includes being separately positioned on positioning frame body The mounting portion of lower end side, and the mounting portion is equipped with mounting hole, has on the electric machine casing opposite with mounting hole The matching hole answered, and the mounting hole is connected by fastener with matching hole；The positioning component includes that setting is positioning Location hole on seat, and the location hole has been connected through a screw thread positioning column, and the positioning column inner end is resisted against feeding On tube wall.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the wire tray body that gets rid of includes tubular wire swaying tube body, Described gets rid of wire hole distribution setting in wire swaying tube body lower end outer circumferential, and the wire swaying tube body lower end is closed by bottom cover, and There is the heat shield for being located at and getting rid of below wire hole, and the heat shield covers entire bottom cover inside bottom on the inside of the bottom cover. Preferably, heat shield here can be made of asbestos, by get rid of wire tray body bottom be arranged heat shield can prevent colloid Solution flows to when getting rid of wire tray bottom, and it is existing by moisture when high temperature to be easy evaporation by colloid under the influence of the combustion furnace for getting rid of wire tray bottom As, avoid colloidal solution from solidifying, be not easy blocking in this way and get rid of and get rid of wire hole in wire tray so that the filamentary fibers quality after preparation compared with It is high.

In swaying wire equipment of the above-mentioned colloid at silk equipment, the hot blasting structure includes being co-axially located to get rid of silk Cylinder upper end and the blowing impeller seat with several blowing blades, the blowing blade are uniformly set at blowing impeller seat Outer circumferential and each blowing blade, which are respectively positioned on, to be got rid of above wire hole, and the blowing impeller seat passes through impeller installing and motor Axis is connected, and the impeller installing includes the motor shaft mounting base that the center of blowing impeller seat is arranged in, the motor Axis is plugged in motor shaft mounting base and is connected by detachable structure with motor shaft mounting base.

Compared with prior art, the present invention has the advantages that

1, by hot-air system to just further stretching from getting rid of the fiber that wire hole is thrown away, while making its rapid draing, be not easy Stick to each other together so that preparation after filamentary fibers quality it is higher.

2, by caused by getting rid of wire tray bottom setting heat shield and efficiently reducing because of the influence for the combustion furnace for getting rid of wire tray bottom Colloid be easy Evaporation Phenomenon by moisture when high temperature, avoid colloidal solution from solidifying, it is not easy to which blocking gets rid of and gets rid of wire hole in wire tray.

3, by the way that feeding tube body to be threaded through in electric machine main shaft, space has been saved in this way, compact-sized, feeding tube body is fixed Setting is on positioning frame body, so that feeding tube body fixation will not generate shaking, and it is good that motor gets rid of an effect when rotating.

Detailed description of the invention

Fig. 1 is structure sectional view of the invention；

Fig. 2 is partial structural diagram of the invention；

Fig. 3 is the structural schematic diagram of the hot wind seat in the present invention；

Fig. 4 is the structural schematic diagram for getting rid of wire tray body in the present invention；

In figure, electric machine casing 1, motor shaft 11, through hole 111, stator module 12, rotor assembly 13, first bearing 14, axis Hole 15, positioning frame body 2, positioning seat 21, feeding tube body 3, feeding passage 31, positioning component 4, location hole 41, is determined at second bearing 16 Position column 42, mounting portion 51, mounting hole 52, fastener 53, rolling bearing 6, gets rid of wire tray body 7, gets rid of wire hole 71, blowing at mounting assembly 5 Impeller base 72, wire swaying tube body 73, bottom cover 74, heat shield 75, motor shaft mounting base 76, gets rid of silk seat 8, gets rid of silk electricity blowing blade 721 Machine 81, hot wind seat 82, heating component 83, hot air cavity 831, heat insulation 832, heating wire 833, hot wind guiding structure 84, blower 841, fan driver 842, air-guiding aisle 843, hot wind derived type structure 85, hot-air channel 851, wind blade 852, air guiding seat 853。

Specific embodiment

The present invention will be further described in detail with reference to the accompanying drawings and detailed description.

As shown in Figs 1-4, this colloid gets rid of a motor 81 on silk seat 8 including being arranged in get rid of at the swaying wire equipment of silk equipment, The motor shaft 11 of a motor 81 is got rid of in feeding tube body 3 is equipped in hollow shape and motor shaft 11, is led in feeding tube body 3 with feeding 8 lower end of silk seat is got rid of equipped with hot wind seat 82, and there is heating component 83, and heating component 83 is connected with heat in hot wind seat 82 in road 31 Wind guiding structure 84, motor shaft 11 is arranged in hot wind seat 82 together with feeding tube body 3 and extends to 82 lower section of hot wind seat, in motor shaft 11 lower ends be connected with it is corresponding with feeding tube body 3 and it is circumferential have it is several get rid of wire hole 71 get rid of wire tray body 7, get rid of 7 upper end of wire tray body It is fixed with the hot blasting structure being connected with motor shaft 11, and 82 lower end of hot wind seat is with corresponding with hot blasting structure Hot wind derived type structure 85.Wherein, high temperature colloidal solution is dropped in from 11 lower end of motor shaft by feeding tube body 3 and is got rid of in wire tray body 7, 7 high-speed rotation of wire tray body is got rid of in the drive of motor shaft 11, by centrifugal force solution is thrown away into fibre from getting rid of in wire hole 71, heating component exists In hot wind seat and high temperature is generated, hot wind seat 82 is directed wind by hot wind guiding structure 84 and forms hot wind, and is exported by hot wind Structure 85 guides hot wind to hot blasting structure, simultaneously because getting rid of 7 upper end of wire tray body can be by hot wind equipped with hot blasting structure It blows and, from getting rid of on the fiber that wire hole 71 is thrown away, preliminary silk is further drawn into thinner fiber filament using hot wind, simultaneously just Make its rapid draing, is not easy stick to each other together.

Specifically, heating component 83 here includes that the hot air cavity 831 of 82 outer circumferential of hot wind seat, hot air cavity is arranged in It is equipped with several heat insulations 832 in 831, is arranged with several heating wire 833 on heat insulation 832, it is preferable that heat insulation 832 here It being made of porcelain heat-barrier material, wherein hot wind guiding structure 84 here includes the blower 841 that 82 outside of hot wind seat is arranged in, Blower 841 is connected with fan driver 842, and blower 841 is connected by air-guiding aisle 843 with hot air cavity 831.Wherein, this In hot wind derived type structure 85 include hot wind seat being set 82 weeks inwardly and the hot-air channel 851 that passes through of arbor 11 of powering, it is hot 851 bottom of wind channel is fixed with the air guiding seat 853 with several wind blades 852, and air guiding seat 853 and hot blasting structure Corresponding setting, air guiding seat 853 and hot-air channel 851 are coaxially disposed and at 853 center of air guiding seat there is power supply arbor 11 to pass through 11 channel of motor shaft.Obviously, by fan driver 842 drive blower 841 rotation to be blowed in hot wind seat 82 to So that generating hot wind in hot air cavity 831 and being conducted downwards by hot-air channel 851, then pass through the gap between wind blade 852 Conduction downwards.

Further, 11 lower end of motor shaft here is arranged in the axis hole 15 of 1 lower end of electric machine casing, on electric machine casing 1 End has through hole 111 corresponding with 11 upper end of motor shaft, and 11 upper end outer circumferential of motor shaft and through hole 111 weeks are inwardly Between be rotatedly connected, and 11 upper end of motor shaft is neat beyond the outside of through hole 111 or 11 upper end of motor shaft and 111 outside of through hole It is flat.Preferably, here motor shaft 11 is circumferentially fixed rotor assembly 13, has inwardly within electric machine casing 1 week and rotor assembly 13 corresponding stator modules 12, in order to improve stability when motor shaft 11 rotates, 11 one end of motor shaft week here is outward Side and through hole 111 weeks inwardly between be equipped with first bearing 14, the positioned at 11 outer circumferential of motor shaft is equipped in axis hole 15 Two bearings 16 are equipped with rolling bearing 6 in motor shaft 11 weeks between 3 outer circumferential of feeding tube body inwardly, will by rolling bearing 6 Feeding tube body 3 and motor shaft 11 separate, and such 11 rotational stability of motor shaft is higher, and feeding tube body 3 will not be 11 turns to motor shaft It is dynamic to impact.

Preferably, 3 one end of feeding tube body here is penetrated by 11 upper end of motor shaft respectively, and 3 other end of feeding tube body prolongs 11 lower end of motor shaft is extended to, is not contacted with 3 outer circumferential of feeding tube body inwardly within motor shaft 11 weeks and motor shaft 11 is relative to sending Expects pipe body 3 circumferentially rotates setting, and feeding tube body 3 is arranged on electric machine casing 1 by location structure.

Further, location structure here include in bending and the positioning frame body 2 that is crossed on electric machine casing 1, And positioning 2 lower end two sides of frame body pass through mounting assembly 5 respectively and are connected with electric machine casing 1, positioning 2 upper center of frame body has feed The positioning seat 21 that expects pipe body 3 passes through, and be connected between positioning seat 21 and feeding tube body 3 by positioning component 4, by by feed pipe Body 3 is threaded through in motor shaft 11, has saved space in this way, while feeding tube body 3 is located in positioning frame body by positioning component 4 On 2,3 fixation of feeding tube body will not generate shaking, and motor shaft 11 and feeding tube body 3 do not contact, and turn when motor shaft 11 is circumferential Motor shaft 11 will not be rotated and be impacted when dynamic.

Wherein, mounting assembly 5 includes the mounting portion 51 for being separately positioned on positioning 2 lower end side of frame body, and on mounting portion 51 Equipped with mounting hole 52, on electric machine casing 1 have and the corresponding matching hole of mounting hole 52, and mounting hole 52 pass through 53 He of fastener Matching hole is connected；Positioning component 4 includes the location hole 41 being arranged on positioning seat 21, and location hole 41 has been connected through a screw thread and has determined Position column 42, and 42 inner end of positioning column is resisted against on 3 outer wall of feeding tube body.

The wire tray body 7 that gets rid of in the present embodiment includes tubular wire swaying tube body 73, gets rid of the distribution of wire hole 71 and is arranged in wire swaying tube 73 lower end outer circumferential of body, 73 lower end of wire swaying tube body are closed by bottom cover 74, and are had to be located on the inside of bottom cover 74 and be got rid of under wire hole 71 The heat shield 75 of side, and heat shield 75 covers entire 74 inside bottom of bottom cover.Preferably, heat shield 75 here can use stone Cotton is made, by when getting rid of 7 bottom of wire tray body and heat shield 75 is arranged can preventing from colloidal solution from flowing to getting rid of wire tray 7 bottom of body, by Colloid is easy Evaporation Phenomenon by moisture when high temperature under the influence of to the combustion furnace for getting rid of 7 bottom of wire tray body, and colloidal solution is avoided to solidify, It is not easy to block to get rid of in this way to get rid of wire hole 71 on wire tray body 7, so that the filamentary fibers quality after preparation is higher.

Preferably, hot blasting structure here includes being co-axially located at 73 upper end of wire swaying tube body and having several blowing leaves The blowing impeller seat 72 of piece 721, blowing blade 721 are uniformly set at 72 outer circumferential of blowing impeller seat and each blowing leaf Piece 721, which is respectively positioned on, gets rid of 71 top of wire hole, and blowing impeller seat 72 is connected by impeller installing with motor shaft 11, impeller installation knot Structure includes the motor shaft mounting base 76 that the center of blowing impeller seat 72 is arranged in, and motor shaft 11 is plugged in motor shaft mounting base 76 And it is connected by detachable structure with motor shaft mounting base 76.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Although electric machine casing 1, motor shaft 11, through hole 111, stator module 12, rotor assembly is used more herein 13, first bearing 14, axis hole 15, second bearing 16, positioning frame body 2, positioning seat 21, feeding tube body 3, feeding passage 31, positioning Component 4, positioning column 42, mounting assembly 5, mounting portion 51, mounting hole 52, fastener 53, rolling bearing 6, gets rid of wire tray at location hole 41 Body 7 gets rid of wire hole 71, blowing impeller seat 72, blowing blade 721, wire swaying tube body 73, bottom cover 74, heat shield 75, motor shaft mounting base 76, it gets rid of silk seat 8, get rid of a motor 81, hot wind seat 82, heating component 83, hot air cavity 831, heat insulation 832, heating wire 833, hot wind Guiding structure 84, blower 841, fan driver 842, air-guiding aisle 843, hot wind derived type structure 85, hot-air channel 851, wind-guiding The terms such as blade 852, air guiding seat 853, but it does not exclude the possibility of using other terms.The use of these items is only for It is more convenient to describe and explain essence of the invention；It is construed as any additional limitation all and is and spirit of that invention It disagrees.

Claims (10)

1. a kind of colloid is at the swaying wire equipment of silk equipment, a motor (81) are got rid of on silk seat (8) getting rid of including setting, described gets rid of The motor shaft (11) of silk motor (81) is equipped with feeding tube body (3) in hollow shape and in the motor shaft (11), and feature exists In, silk seat (8) lower end of getting rid of has heating component (83) equipped with hot wind seat (82), and in the hot wind seat (82), and The heating component (83) is connected with hot wind guiding structure (84), and the motor shaft (11) is worn together with feeding tube body (3) It in hot wind seat (82) and extends to below hot wind seat (82), is connected in motor shaft (11) lower end corresponding with feeding tube body (3) And it is circumferential have it is several get rid of getting rid of wire tray body (7) for wire hole (71), described wire tray body (7) upper end of getting rid of is fixed with and motor shaft (11) connected hot blasting structure, and there is hot wind corresponding with hot blasting structure to lead for hot wind seat (82) lower end Structure (85) out.

2. colloid according to claim 1 is at the swaying wire equipment of silk equipment, which is characterized in that the heating component (83) Including the hot air cavity (831) in hot wind seat (82) outer circumferential is arranged, several heat insulations are equipped in the hot air cavity (831) (832), several heating wire (833) are arranged on the heat insulation (832).

3. colloid according to claim 2 is at the swaying wire equipment of silk equipment, which is characterized in that the hot wind guiding structure It (84) include the blower (841) being arranged on the outside of hot wind seat (82), the blower (841) is connected with fan driver (842), And the blower (841) is connected by air-guiding aisle (843) with hot air cavity (831).

4. colloid according to claim 3 is at the swaying wire equipment of silk equipment, which is characterized in that the hot wind derived type structure (85) include setting hot wind seat (82) week inwardly and arbor (11) hot-air channel (851) for passing through of powering, the hot wind Channel (851) bottom is fixed with the air guiding seat (853) with several wind blades (852), and the air guiding seat (853) and The corresponding setting of hot blasting structure, the air guiding seat (853) and hot-air channel (851) are coaxially disposed and in air guiding seats (853) motor shaft (11) channel that there is power supply arbor (11) to pass through at center.

5. colloid according to claim 1 or 2 or 3 or 4 is at the swaying wire equipment of silk equipment, which is characterized in that the electricity Arbor (11) lower end is arranged in the axis hole (15) of electric machine casing (1) lower end, and described electric machine casing (1) upper end has and motor The corresponding through hole (111) in axis (11) upper end, the motor shaft (11) upper end outer circumferential and through hole (111) week are inwardly It is rotatedly connected between side, and motor shaft (11) upper end is beyond on the outside of through hole (111) or on the motor shaft (11) It is flushed on the outside of end and through hole (111).

6. colloid according to claim 5 is at the swaying wire equipment of silk equipment, which is characterized in that the feeding tube body (3) One end is penetrated by motor shaft (11) upper end respectively, and feeding tube body (3) other end extends to motor shaft (11) lower end, the electricity Arbor (11) week does not contact with feeding tube body (3) outer circumferential inwardly and motor shaft (11) is circumferential relative to feeding tube body (3) Rotation setting, and the feeding tube body (3) is arranged on electric machine casing (1) by location structure.

7. colloid according to claim 6 is at the swaying wire equipment of silk equipment, which is characterized in that the location structure includes In bending and the positioning frame body (2) that is crossed on electric machine casing (1), and described positioning frame body (2) the lower end two sides lead to respectively It crosses mounting assembly (5) to be connected with electric machine casing (1), positioning frame body (2) upper center has to be passed through for feed pipe body (3) Positioning seat (21), and between the positioning seat (21) and feeding tube body (3) by positioning component (4) be connected.

8. colloid according to claim 7 is at the swaying wire equipment of silk equipment, which is characterized in that the mounting assembly (5) Mounting portion (51) including being separately positioned on positioning frame body (2) lower end side, and the mounting portion (51) is equipped with mounting hole (52), have on the electric machine casing (1) and mounting hole (52) corresponding matching hole, and the mounting hole (52) passes through Fastener (53) is connected with matching hole；The positioning component (4) includes the location hole (41) being arranged on positioning seat (21), and The location hole (41) has been connected through a screw thread positioning column (42), and described positioning column (42) inner end is resisted against feeding tube body (3) on outer wall.

9. colloid according to claim 1 is at the swaying wire equipment of silk equipment, which is characterized in that described gets rid of wire tray body (7) Including tubular wire swaying tube body (73), described wire hole (71) distribution of getting rid of is arranged in wire swaying tube body (73) lower end outer circumferential, It is closed by bottom cover (74) wire swaying tube body (73) lower end.

10. colloid according to claim 9 is at the swaying wire equipment of silk equipment, which is characterized in that the hot blasting knot Structure includes being co-axially located at wire swaying tube body (73) upper end and the blowing impeller seat (72) with several blowings blade (721), described Blowing blade (721) be uniformly set at blowing impeller seat (72) outer circumferential and each blowing blade (721) is respectively positioned on It gets rid of above wire hole (71), the blowing impeller seat (72) is connected by impeller installing with motor shaft (11), the leaf Wheel mounting structure includes motor shaft mounting base (76) of the setting at the center of blowing impeller seat (72), and the motor shaft (11) is inserted It connects in motor shaft mounting base (76) and is connected by detachable structure with motor shaft mounting base (76).