CN113445140A

CN113445140A - Automatic production facility that catches of domestic textile fabric of jet-propelled

Info

Publication number: CN113445140A
Application number: CN202111022145.8A
Authority: CN
Inventors: 陈伟
Original assignee: Nantong Tongzhou Wotman Household Textile Co ltd
Current assignee: Nantong Tongzhou Wotman Household Textile Co ltd
Priority date: 2021-09-01
Filing date: 2021-09-01
Publication date: 2021-09-28
Anticipated expiration: 2041-09-01
Also published as: CN113445140B

Abstract

The invention discloses jet-propelled household textile fiber automatic capturing production equipment which comprises a base, wherein an airflow traction pipe, a high-pressure air injection mechanism, a hot-melting feeding mechanism and a capturing and take-up mechanism are respectively installed on the base, the capturing and take-up mechanism comprises two fixing plates symmetrically fixed on the base, a power rotating shaft and a reciprocating threaded pipe are respectively rotatably inserted in the two fixing plates, a fixing insertion barrel is slidably sleeved at one end, far away from the fixing plates, of the power rotating shaft, and a fixing insertion pipe is rotatably sleeved at one end, far away from the fixing plates, of the reciprocating threaded pipe. Realize high-pressure side fibre tensile production and the automatic fibre of seizure that adsorbs of negative pressure side through the air current circulation, receive the line through reciprocal horizontal drive and realize evenly receiving the line and quick assembly disassembly changes, realize rapid solidification and high temperature fusing through hot melt air current cooling, the operation is simpler and safe, and equipment structure is simpler, reduces labour power and equipment cost.

Description

Automatic production facility that catches of domestic textile fabric of jet-propelled

Technical Field

The invention relates to the field of production of household textile fibers, in particular to jet type automatic capturing production equipment for household textile fibers.

Background

The existing fiber production equipment needs manual traction and is wound on a take-up roller after fiber drawing, the difficulty of operation is increased, the safety is lower, and after the fiber is fully taken up, the take-up roller can be replaced by cutting off the stretched fiber by a shearing device or a mechanism in a matching way, so that the equipment structure is complex, the manufacturing and maintenance cost is higher, and the hot melting raw material cannot be cooled and solidified in time after heating is stopped, a small amount of hot melting raw material enters a drawing air pipe to cause air pipe blockage or influence the circulation of air flow of the air pipe, and the fiber performance is influenced by non-uniform stretching of the fiber.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, manual weft catching traction is needed, the operation is difficult and the safety is poor, fibers need to be cut by matching with shearing equipment, the structure is complex, the cost is increased, and hot melting raw materials cannot be cooled and solidified in time when the production is stopped, so that the hot melting raw materials enter an air pipe to cause blockage or the circulation is influenced, so that the fiber performance is influenced, and provide the jet-propelled household automatic textile fiber catching production equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an automatic production facility that catches of domestic textile fabric of jet-propelled, the on-line screen storage device comprises a base, install air current traction tube, high-pressure jet-propelled mechanism, hot melt feed mechanism and seizure admission mechanism on the base respectively, two fixed plates on the base are fixed including the symmetry to seizure admission mechanism rotate respectively on the fixed plate and insert and be equipped with power pivot and reciprocal screwed pipe, the one end slip cover that the fixed plate was kept away from in the power pivot is equipped with fixed inserted cylinder, the one end rotation cover that the fixed plate was kept away from to reciprocal screwed pipe is equipped with fixed intubate, install hollow receipts line roller between fixed inserted cylinder and the fixed intubate jointly, a plurality of seizure holes have evenly been seted up on the lateral wall of hollow receipts line roller.

Furthermore, be close to one of power pivot fixed mounting has the receipts line motor on the fixed plate keeps away from the lateral wall of hollow receipts line roller, receive the spindle fixed connection power pivot of line motor, be close to one of reciprocal screwed pipe fixed mounting has the cavity thread motor on the fixed plate is close to the lateral wall of hollow receipts line roller, reciprocal screwed pipe screw thread is inserted and is established and install in the cavity thread motor.

Further, the one end that the fixed plate was kept away from to power pivot extends to in the fixed section of thick bamboo of inserting and installs the limiting plate, the one end fixed mounting that the power pivot was kept away from to the limiting plate has a chucking spring, the one end that the limiting plate was kept away from to the chucking spring is fixed on the fixed inner wall of inserting the section of thick bamboo.

Furthermore, the power rotating shaft is connected with the fixed inserting barrel in a rotation-limited sliding mode, the reciprocating threaded pipe is connected with the fixed inserting pipe in a sliding-limited rotating mode, and the fixed inserting barrel, the fixed inserting pipe and the hollow wire winding roller are connected in a rotation-limited sliding mode.

Further, hot melt feed mechanism is including fixing the support frame on the base, the feeder hopper is installed to the upper end of support frame, the lower extreme of feeder hopper is inserted and is established and install row material pipe, it is equipped with the electric heating cover to arrange the fixed cover on the material pipe, insert on the lateral wall of air current traction pipe and establish and install the current-limiting mouthpiece, arrange the lower extreme of material pipe and insert and establish in the current-limiting mouthpiece.

Further, the high-pressure air injection mechanism comprises a high-pressure air pump fixed on the base, an air suction pipe and an air injection pipe are respectively installed on the high-pressure air pump, one end, far away from the high-pressure air pump, of the air injection pipe is hermetically inserted into one end, far away from the hollow wire take-up roller, of the air flow traction pipe, an electromagnetic three-way valve is installed at one end, far away from the high-pressure air pump, of the air suction pipe, and the electromagnetic three-way valve is fixed on the base.

Furthermore, a low-position air pipe and a high-position air pipe are respectively arranged on the electric heating sleeve, one end, far away from the electric heating sleeve, of the low-position air pipe is arranged on the electromagnetic three-way valve, and one end, far away from the electric heating sleeve, of the high-position air pipe is hermetically inserted on the air suction pipe.

Furthermore, one end of the reciprocating threaded pipe, which is far away from the hollow wire-collecting roller, is sealed and rotated to be inserted with an air guide pipe nozzle, one end of the air guide pipe nozzle, which is far away from the reciprocating threaded pipe, is sealed and provided with an air guide hose, and one end of the air guide hose, which is far away from the air guide pipe nozzle, is arranged on the electromagnetic three-way valve.

Has the advantages that: realize high-pressure side fibre tensile production and the automatic fibre of seizure that adsorbs of negative pressure side through the air current circulation, receive the line through reciprocal horizontal drive and realize evenly receiving the line and quick assembly disassembly changes, realize rapid solidification and high temperature fusing through hot melt air current cooling, the operation is simpler and safe, and equipment structure is simpler, reduces labour power and equipment cost.

Drawings

FIG. 1 is a schematic structural view of an automatic capturing and producing apparatus for jet-propelled home textile fibers according to the present invention;

FIG. 2 is an isometric view of an automatic jet-propelled textile fiber capture production facility in accordance with the present invention;

FIG. 3 is a partial schematic view of a catching and winding mechanism of an automatic jet textile fiber catching and manufacturing apparatus according to the present invention;

FIG. 4 is a partially cut-away schematic view of a hollow take-up roller and a fixed insertion cylinder of an automatic capturing and producing device for jet-propelled home textile fibers according to the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 1;

fig. 6 is an enlarged view of fig. 2 at B.

In the figure: the device comprises a base 1, an airflow traction pipe 2, a flow-limiting nozzle 21, a high-pressure air injection mechanism 3, a high-pressure air pump 31, an air suction pipe 32, an air injection pipe 33, an air guide nozzle 34, an electromagnetic three-way valve 35, an air guide hose 36, a hot-melting feeding mechanism 4, a supporting frame 41, a feeding hopper 42, a discharging pipe 43, an electric heating sleeve 44, a low-position air pipe 45, a high-position air pipe 46, a catching and wire-rewinding mechanism 5, a fixing plate 51, a power rotating shaft 52, a fixed inserting barrel 53, a limiting plate 54, a clamping spring 55, a reciprocating threaded pipe 56, a fixed inserting pipe 57, a hollow wire-rewinding roller 58, a catching hole 59, a wire-rewinding motor 6 and a hollow threaded motor 7.

Detailed Description

Referring to fig. 1-4, an automatic capturing production device for jet-propelled household textile fibers comprises a base 1, wherein an airflow traction tube 2, a high-pressure air injection mechanism 3, a hot-melting feeding mechanism 4 and a capturing take-up mechanism 5 are respectively installed on the base 1, the capturing take-up mechanism 5 comprises two fixing plates 51 symmetrically fixed on the base 1, a power rotating shaft 52 and a reciprocating threaded tube 56 are respectively rotatably inserted on the two fixing plates 51, a fixed inserting tube 53 is slidably sleeved at one end of the power rotating shaft 52 far away from the fixing plates 51, a fixed inserting tube 57 is rotatably sleeved at one end of the reciprocating threaded tube 56 far away from the fixing plates 51, a hollow take-up roller 58 is jointly installed between the fixed inserting tube 53 and the fixed inserting tube 57, and a plurality of capturing holes 59 are uniformly formed in the side wall of the hollow take-up roller 58;

the hot melting feeding mechanism 4 is used for hot melting the high molecular raw materials into a liquid state, the airflow traction pipe 2 can enable high-pressure airflow to uniformly and directionally flow, the liquid high molecular raw materials entering the inside are drawn and cooled to form fine fiber wires, the capturing take-up mechanism 5 is used for automatically capturing fiber ends drawn from the inside of the airflow traction pipe 2, and the high-pressure air injection mechanism 3 is used for providing directional high-pressure airflow in the airflow traction pipe 2 and capturing negative-pressure capturing airflow of the take-up mechanism 5;

the hollow wire collecting roller 58 is located at the outlet end of the airflow traction pipe 2, high-pressure airflow in the airflow traction pipe 2 stretches and melts the high-molecular raw materials to form fibers and then blows out from the outlet end, negative pressure in the hollow wire collecting roller 58 generates suction through the plurality of catching holes 59, so that the airflow flows towards the hollow wire collecting roller 58, the end of the fibers is close to the hollow wire collecting roller 58 under the influence of the airflow and is adsorbed on the surface of the hollow wire collecting roller 58, the automatic catching function is achieved, and manual traction and fixation are not needed.

Referring to fig. 3 and 4, a wire take-up motor 6 is fixedly mounted on a side wall of a fixing plate 51 close to a power rotating shaft 52 and far away from a hollow wire take-up roller 58, a shaft of the wire take-up motor 6 is fixedly connected with the power rotating shaft 52, a hollow threaded motor 7 is fixedly mounted on a side wall of the fixing plate 51 close to a reciprocating threaded pipe 56 and near to the hollow wire take-up roller 58, the reciprocating threaded pipe 56 is inserted and mounted in the hollow threaded motor 7 in a threaded manner, one end of the power rotating shaft 52 far away from the fixing plate 51 extends into a fixed insertion cylinder 53 and is provided with a limit plate 54, one end of the limit plate 54 far away from the power rotating shaft 52 is fixedly provided with a chucking spring 55, one end of the chucking spring 55 far away from the limit plate 54 is fixed on the inner wall of the fixed insertion cylinder 53, the power rotating shaft 52 is connected with the fixed insertion cylinder 53 in a rotation limiting manner, the reciprocating threaded pipe 56 is connected with the fixed insertion pipe 57 in a sliding manner, and the fixed insertion cylinder 53 is connected with the hollow wire take-up roller 58 in a rotation limiting manner;

the take-up motor 6 drives the power rotating shaft 52 to rotate, then the power rotating shaft 52 drives the hollow take-up roller 58 to rotate through the fixed inserting cylinder 53, and the rotating hollow take-up roller 58 can wind the fibers adsorbed on the surface to realize the automatic take-up function;

the reciprocating threaded pipe 56 horizontally reciprocates through threaded matching when the hollow threaded motor 7 rotates forwards and backwards, and the fixed insertion pipe 57 drives the hollow wire take-up roller 58 to reciprocate, so that the hollow wire take-up roller 58 can take up wires horizontally in a reciprocating manner, and the take-up wires are more uniform and smooth;

when the hollow wire take-up roller 58 horizontally reciprocates, the fixed barrel 53 horizontally reciprocates in a driving manner, so that the fixed barrel 53 and the power rotating shaft 52 move relatively, the clamping spring 55 is extruded through the limiting plate 54 to stretch and retract in a reciprocating manner, mutual interference between the horizontal reciprocating motion and the rotating motion is solved, the matching of the fixed barrel 53 and the power rotating shaft 52 is smoother, the fixed barrel 53 can be stopped, the hollow wire take-up roller 58 is pushed to be separated from the fixed inserting tube 57 to be detached from the fixed inserting tube 57, and the operation is more convenient.

Referring to fig. 2 and 5, the hot-melting feeding mechanism 4 includes a supporting frame 41 fixed on the base 1, a feeding hopper 42 is installed at the upper end of the supporting frame 41, a discharging pipe 43 is installed at the lower end of the feeding hopper 42 in an inserting manner, an electric heating jacket 44 is fixedly sleeved on the discharging pipe 43, a flow-limiting nozzle 21 is installed on the side wall of the airflow drawing pipe 2 in an inserting manner, and the lower end of the discharging pipe 43 is inserted in the flow-limiting nozzle 21;

the pipe diameter of the lower end of the flow-limiting pipe nozzle 21 is small, so that incompletely melted polymer raw materials cannot enter the airflow traction pipe 2, the reliability of fiber production by equipment is improved, and the blockage situation can be effectively avoided;

the macromolecule raw material is poured into the feed hopper 42 and falls into the discharge pipe 43 and is blocked by the flow limiting nozzle 21, the electrical heating jacket 44 heats and melts the macromolecule raw material in the discharge pipe 43, so that the macromolecule raw material can be stretched into fiber by airflow through the flow limiting nozzle 21;

when the electric heating jacket 44 is cooled, the molten polymer raw material in the discharge pipe 43 gradually loses the hot-melt temperature, the molten polymer raw material gradually solidifies, and when the electric heating jacket 44 is heated again, the solidified polymer raw material is remelted, thereby realizing the supply control of the molten polymer raw material.

Referring to fig. 2, 3 and 6, the high pressure air injection mechanism 3 includes a high pressure air pump 31 fixed on the base 1, an air suction pipe 32 and an air injection pipe 33 are respectively installed on the high pressure air pump 31, one end of the air injection pipe 33 far away from the high pressure air pump 31 is hermetically inserted at one end of the air flow traction pipe 2 far away from the hollow wire take-up roller 58, one end of the air suction pipe 32 far away from the high pressure air pump 31 is installed with an electromagnetic three-way valve 35, the electromagnetic three-way valve 35 is fixed on the base 1, a low-level air pipe 45 and a high-level air pipe 46 are respectively installed on the electric heating jacket 44, one end of the low-level air pipe 45 far away from the electric heating jacket 44 is installed on the electromagnetic three-way valve 35, one end of the high-level air pipe 46 far away from the electric heating jacket 44 is hermetically inserted on the air suction pipe 32, one end of the reciprocating threaded pipe 56 far away from the hollow wire take-up roller 58 is hermetically inserted with an air guide nozzle 34, one end of the air guide nozzle 34 far away from the reciprocating threaded pipe 56 is hermetically installed with an air guide hose 36, the end of the air guide hose 36 remote from the air guide nozzle 34 is mounted on the electromagnetic three-way valve 35;

the high-pressure air pump 31 sprays high-pressure air flow into the air flow traction tube 2 through the air spraying tube 33 to form directional high-speed horizontal air flow, and then the molten high-molecular raw material enters the air flow traction tube 2 through the flow-limiting nozzle 21 and is stretched by the high-speed air flow to form a fiber thin line and is cooled by the high-speed air flow, and the fiber is stretched and prolonged along with the continuous entering of the molten high-molecular raw material into the air flow traction tube 2, so that the production of the fiber thin line is realized;

the high-pressure air pump 31 sucks air at a high speed through the air suction pipe 32, the electromagnetic three-way valve 35, the air guide hose 36 and the air guide nozzle 34, negative pressure is generated in the reciprocating threaded pipe 56, the reciprocating threaded pipe 56 generates negative pressure in the hollow take-up roller 58 through the fixed insertion pipe 57, the hollow take-up roller 58 generates suction through the plurality of catching holes 59 to catch generated fibers, and the function of catching the negative pressure of the high-pressure air pump 31 is realized;

when the replacement of the hollow wire take-up roll 58 is suspended, the electromagnetic three-way valve 35 is switched to enable the high-pressure air pump 31 to suck air flow along the air guide nozzle 34, the air guide hose 36, the electromagnetic three-way valve 35, the low-position air pipe 45, the electric heating sleeve 44, the high-position air pipe 46 and the air suction pipe 32, so that the high-speed air flow is rapidly cooled through the electric heating sleeve 44, namely the molten high-molecular raw material is rapidly cooled and solidified at the discharge pipe 43, and the phenomenon that the molten high-molecular raw material continuously flows to influence the replacement of the hollow wire take-up roll 58 is avoided;

high pressure air pump 31 leads to the temperature to rise because of the contact heat transfer through the inspiratory high-speed air current of electric heating jacket 44, make the high-speed air current temperature of spouting into air current traction pipe 2 higher, then can make the melting polymer raw materials solidification speed that solidifies gradually in the current-limiting mouthpiece 21 slow down, make the volume that the melting polymer raw materials can reduce gradually and get into in the air current traction pipe 2, thereby when making melting polymer raw materials solidify completely, tensile fibre does not have the raw materials and supplyes and receive the hot air current drawing and automatic melting disconnection, realize automatic disconnection and receive the line, need not cutting equipment or mechanism, make equipment structure simpler, and the melting disconnection can not drag the fibre and influence fibrous performance, increase the fibrous reliability of equipment production.

Pouring raw materials into a feed hopper 42, then starting a high-pressure air pump 31, a take-up motor 6, a hollow thread motor 7 and an electric heating sleeve 44 in sequence, enabling the raw materials to fall into a discharge pipe 43 and be heated and melted into liquid by the electric heating sleeve 44, and enabling the liquid raw materials to enter an airflow traction pipe 2 through a flow limiting nozzle 21;

the high-pressure air pump 31 generates high-speed airflow in the airflow traction tube 2 through the air jet tube 33, the high-speed airflow stretches the liquid raw material entering the airflow traction tube 2 into fiber thin lines and cools the fiber thin lines, and the fiber thin lines are continuously lengthened and extend out of the tube opening of the airflow traction tube 2 along with the high-speed airflow along with the continuous entering of the liquid raw material;

the high-pressure air pump 31 generates suction in the reciprocating threaded pipe 56 through the air suction pipe 32, the electromagnetic three-way valve 35, the air guide hose 36 and the air guide nozzle 34, the reciprocating threaded pipe 56 generates suction in the hollow take-up roller 58 through the fixed insertion pipe 57, and the hollow take-up roller 58 absorbs the fiber end extending out of the air flow traction pipe 2 to the surface through the plurality of catching holes 59;

the take-up motor 6 enables the hollow take-up roller 58 to rotate through the power rotating shaft 52 and the fixed inserting cylinder 53 to realize winding and winding of the fiber thin wire, and the hollow thread motor 7 enables the hollow take-up roller 58 to horizontally reciprocate through the reciprocating threaded pipe 56 and the fixed inserting pipe 57 in a circulating forward and reverse rotation mode to realize uniform winding of the fiber thin wire;

when the hollow wire take-up roller 58 is full, stopping the electric heating sleeve 44 to prevent the raw materials from being hot-melted, then controlling the electromagnetic three-way valve 35 to switch, so that the high-pressure air pump 31 sucks air through the air suction pipe 32, the high-position air pipe 46, the electric heating sleeve 44, the low-position air pipe 45, the electromagnetic three-way valve 35, the air guide hose 36 and the air guide nozzle 34, rapidly cooling the electric heating sleeve 44 by the sucked high-speed air flow, rapidly solidifying the liquid raw materials at the discharge pipe 43, spraying the sucked high-temperature air flow into the air flow traction pipe 2 through the air injection pipe 33, slowly solidifying the liquid raw materials at the flow-limiting nozzle 21 by the high-temperature air flow, gradually reducing the amount of the liquid raw materials entering the air flow traction pipe 2, and fusing stretched fine fiber wires by the high-temperature air flow after the liquid raw materials in the flow-limiting nozzle 21 are solidified, so that the fine fiber wires can be completely collected by the hollow wire take-up roller 58;

the high-pressure air pump 31, the wire take-up motor 6 and the hollow thread motor 7 are stopped, then the hollow wire take-up roller 58 is pushed to the fixed inserting cylinder 53, the fixed inserting cylinder 53 compresses the clamping spring 55 to detach the hollow wire take-up roller 58 from the fixed inserting tube 57, and then the new hollow wire take-up roller 58 is clamped between the fixed inserting cylinder 53 and the fixed inserting tube 57, so that the quick disassembly and replacement are realized.

Claims

1. The utility model provides an automatic production facility that catches of domestic textile fabric of jet-propelled, includes base (1), its characterized in that, install air current traction tube (2), high-pressure jet mechanism (3), hot melt feed mechanism (4) and catch admission machine structure (5) on base (1) respectively, catch admission machine structure (5) including two fixed plates (51) that the symmetry was fixed on base (1), two rotate respectively on fixed plate (51) and insert and be equipped with power pivot (52) and reciprocal screwed pipe (56), the one end slip cover that fixed plate (51) were kept away from in power pivot (52) is equipped with fixed bobbin (53), the one end rotation cover that fixed plate (51) were kept away from in reciprocal screwed pipe (56) is equipped with fixed intubate (57), install hollow receipts line roller (58) between fixed bobbin (53) and the fixed intubate (57) jointly, a plurality of catching holes (59) are uniformly formed in the side wall of the hollow wire collecting roller (58).

2. The automatic capturing and producing device for the jet-propelled household textile fibers as claimed in claim 1, wherein a take-up motor (6) is fixedly mounted on the side wall, away from the hollow take-up roller (58), of one of the fixing plates (51) close to the power rotating shaft (52), the crankshaft of the take-up motor (6) is fixedly connected with the power rotating shaft (52), a hollow threaded motor (7) is fixedly mounted on the side wall, close to the hollow take-up roller (58), of one of the fixing plates (51) close to the reciprocating threaded pipe (56), and the reciprocating threaded pipe (56) is installed in the hollow threaded motor (7) in a threaded insertion manner.

3. The automatic jet-propelled home textile fiber capturing production equipment as claimed in claim 1, wherein one end of the power rotating shaft (52) far away from the fixing plate (51) extends into the fixed insertion cylinder (53) and is provided with a limiting plate (54), one end of the limiting plate (54) far away from the power rotating shaft (52) is fixedly provided with a chucking spring (55), and one end of the chucking spring (55) far away from the limiting plate (54) is fixed on the inner wall of the fixed insertion cylinder (53).

4. The automatic jet-propelled home textile fiber catching production device as claimed in claim 1, wherein the power rotating shaft (52) is connected with the fixed inserting cylinder (53) in a limited rotation sliding manner, the reciprocating threaded pipe (56) is connected with the fixed inserting pipe (57) in a limited rotation sliding manner, and the fixed inserting cylinder (53) and the fixed inserting pipe (57) are connected with the hollow take-up roller (58) in a limited rotation sliding manner.

5. The automatic jet home textile fiber capturing production equipment as claimed in claim 1, wherein the hot melting feeding mechanism (4) comprises a support frame (41) fixed on the base (1), a feed hopper (42) is installed at the upper end of the support frame (41), the lower end of the feed hopper (42) is inserted and installed with a discharge pipe (43), an electric heating sleeve (44) is fixedly sleeved on the discharge pipe (43), a flow-limiting nozzle (21) is installed on the side wall of the airflow traction pipe (2), and the lower end of the discharge pipe (43) is inserted and installed in the flow-limiting nozzle (21).

6. The automatic jet-propelled textile fiber capturing production equipment according to claim 5 is characterized in that the high-pressure jet mechanism (3) comprises a high-pressure air pump (31) fixed on the base (1), an air suction pipe (32) and a jet pipe (33) are respectively installed on the high-pressure air pump (31), one end, far away from the high-pressure air pump (31), of the jet pipe (33) is hermetically inserted into one end, far away from the hollow take-up roller (58), of the airflow traction pipe (2), an electromagnetic three-way valve (35) is installed at one end, far away from the high-pressure air pump (31), of the air suction pipe (32), and the electromagnetic three-way valve (35) is fixed on the base (1).

7. The automatic capturing and producing equipment for the jet-propelled household textile fibers as claimed in claim 6, wherein the electric heating jacket (44) is provided with a low-level air pipe (45) and a high-level air pipe (46), respectively, one end of the low-level air pipe (45) far away from the electric heating jacket (44) is arranged on the electromagnetic three-way valve (35), and one end of the high-level air pipe (46) far away from the electric heating jacket (44) is hermetically inserted on the air suction pipe (32).

8. The automatic jet home textile fiber catching and producing device as claimed in claim 6, wherein an air guide nozzle (34) is inserted into one end of the reciprocating threaded pipe (56) far away from the hollow take-up roller (58) in a sealing and rotating manner, an air guide hose (36) is mounted at one end of the air guide nozzle (34) far away from the reciprocating threaded pipe (56) in a sealing manner, and one end of the air guide hose (36) far away from the air guide nozzle (34) is mounted on the electromagnetic three-way valve (35).