CN115305610A

CN115305610A - Monofilament cooling device and cooling method for preparing moisture-absorbing and sweat-releasing stretch yarn

Info

Publication number: CN115305610A
Application number: CN202210849657.XA
Authority: CN
Inventors: 陶然; 潘勇勇; 付明娟
Original assignee: Suzhou Xiaoran New Material Co ltd
Current assignee: Suzhou Xiaoran New Material Co ltd
Priority date: 2022-07-19
Filing date: 2022-07-19
Publication date: 2022-11-08
Anticipated expiration: 2042-07-19
Also published as: CN115305610B

Abstract

The invention belongs to the technical field of stretch yarn production, and discloses a monofilament cooling device and a cooling method for preparing moisture-absorbing and sweat-releasing stretch yarns. According to the invention, the heat of peripheral air can be taken away by the evaporated water flow, so that the output of cold air is realized, the cold air directly acts on the elastic wires, the temperature of the air is lower than the room temperature, the temperature of the elastic wires can be effectively reduced, meanwhile, the water flow can also enter the hollow tube, the heat exchange operation is further carried out with the elastic wires by the flow of the water flow, the front side and the rear side of the elastic wires are simultaneously cooled, the temperature which is limited in cooling amplitude and cannot be sufficiently cooled due to the fact that the traditional device adopts a fan and cooling plate mode for cooling is avoided, the cooling speed is high, the cost is controllable, and the device is suitable for popularization.

Description

Monofilament cooling device and cooling method for preparing moisture-absorbing and sweat-releasing stretch yarn

Technical Field

The invention belongs to the technical field of stretch yarn production, and particularly relates to a monofilament cooling device and a cooling method for preparing moisture-absorbing and sweat-releasing stretch yarns.

Background

The false twist textured yarn is also called stretch yarn. The interlaced yarn of DTY is made by using POY as raw yarn and carrying out stretching and false twisting deformation processing. The elastic yarn has certain elasticity and contractibility, the elastic yarn can provide excellent elastic deformation due to excellent elasticity, so the elastic yarn is widely applied in the textile industry, the elastic yarn is often processed into various textiles in the textile industry, and part of the elastic yarn can be manufactured into underwear for use due to excellent absorption and ventilation performance.

Monofilament cooling device structure that uses among the prior art is comparatively simple, and generally let in the inside in cooling chamber with the elastic filament, the inside cooling plate that is the V style of calligraphy of cooling chamber, lead to the inside in cooling chamber with the outside air through the fan, the mode that utilizes the air heat transfer comes the elastic filament to carry out the heat transfer, though the cooling plate that adopts the V style of calligraphy can comparatively abundant utilization air realize the heat transfer operation, but because the leading-in air of fan is the room temperature, and the cooling plate is bulky, lead to being close to the elastic filament of cooling plate and can carrying out abundant cooling, and the elastic filament of keeping away from the cooling plate can't carry out abundant cooling, the cooling effect is relatively poor.

In the production process of the elastic yarn, a cooling device is generally placed at the tail end of an elastic yarn forming device, the elastic yarn forming device is basically formed by the elastic yarn forming device, the elastic yarn forming device can generally produce the elastic yarn with more specifications, however, when different elastic yarns are produced and need to be cooled, the elastic yarns need to be introduced into a cooling device, due to the fact that cooling is conducted in the air and cooling plate mode, cooling time cannot be adjusted according to the elastic yarns with different specifications to adjust cooling rate, too short or too long cooling time can affect the elasticity of the elastic yarns, and therefore optimal cooling cannot be achieved according to the elastic yarns with different specifications.

Disclosure of Invention

The invention aims to provide a monofilament cooling device and a cooling method thereof for preparing moisture-absorbing and sweat-releasing stretch yarns, so as to solve the problems in the background technology.

In order to achieve the above purpose, the invention provides the following technical scheme: a monofilament cooling device for preparing moisture-absorbing and sweat-releasing stretch yarns and a cooling method of the monofilament cooling device comprise an upper water tank, a lower water tank is arranged under the upper water tank, a water filling port is fixedly communicated with the top end of the upper water tank, a spray head is fixedly communicated with the position, close to the front side, of the bottom end of the upper water tank at equal distance, a water receiving port located under the spray head is formed in the top end of the lower water tank, circulating pipes are arranged on the back sides of the upper water tank and the lower water tank, the upper end and the lower end of each circulating pipe are fixedly communicated with the upper water tank and the lower water tank respectively, a check valve is arranged inside each circulating pipe, the direction of each valve is upwards communicated and downwards stopped, a circulating water pump is fixedly installed at the top end of the lower water tank and fixedly communicated with the circulating pipes, and conveying assemblies are arranged on the front sides of the upper water tank and the lower water tank.

As a further scheme of the invention, a fixing frame positioned at the rear ends of the spray head and the water receiving port is fixedly arranged between the upper water tank and the lower water tank, a fan is movably arranged in the fixing frame, and dust screens are fixedly arranged on the front side and the rear side of the fixing frame.

As a further scheme of the invention, the conveying assembly comprises two temporary storage tanks, the number of the temporary storage tanks is two, the two temporary storage tanks are symmetrical relatively, a water inlet pipe is fixedly communicated at the rear part of the top end of each temporary storage tank, and a water outlet pipe is fixedly communicated at the front part of the bottom end of each temporary storage tank.

As a further scheme of the invention, check valves are installed inside the water inlet pipe and the water outlet pipe, the directions of the valves are respectively inward communication and outward stop, and outward communication and outward stop, and the temporary storage box is in an S shape.

As a further scheme of the invention, a hollow pipe is movably arranged between the two temporary storage boxes in an S shape, the left end and the right end of the hollow pipe are movably connected with the temporary storage boxes, and impellers positioned in the temporary storage boxes are fixedly arranged at the left end and the right end of the hollow pipe.

Before using, accessible water filling port pours into cold water or frozen water into to the inside of upper water tank, and ensure that the elastic filament forms S type overall arrangement around rolling up on four hollow tubes, and open circulating water pump and fan, the rivers that lie in upper water tank inside this moment can be derived and free fall forms the water column through a plurality of shower nozzles owing to the action of gravity, and the water column that a plurality of shower nozzles were derived then can form the cascade and get into the inside of lower water tank of water receiving mouth of below final entering, the leading-in air of fan can pass the cascade simultaneously, and reduce ambient temperature through the cascade and act on the elastic filament of carrying the inside of subassembly, partial rivers can get into the inside of temporary storage box through the inlet tube simultaneously, and get into the inside of hollow tube, can cool down the elastic filament through the hollow tube outer wall through the rivers of hollow tube this moment, the rivers can get into the inside of lower water tank through the drain pipe simultaneously, and circulating water pump can be with the inside rivers of lower water tank again take out the inside of upper water tank through the circulating pipe and accomplish the circulation.

Flow through utilizing rivers forms the cascade, and utilize the air action that flows in rivers, make partial rivers evaporated, and the evaporation rivers can take away the heat of peripheral air and then realize the output of cold air, and utilize cold air direct action in the elastic filament, air temperature is less than the temperature that the room temperature can effectively reduce the elastic filament this moment, the rivers still can get into the inside of hollow tube simultaneously, the flow that utilizes rivers further carries out heat transfer operation with the elastic filament, both sides are cooled down simultaneously around the elastic filament, avoid traditional device to adopt the mode that the fan adds the cooling plate to cool down the limited and unable fully cooled temperature of cooling range that brings, cooling rate is very fast and cost is controllable, be fit for promoting.

As a further scheme of the invention, the hollow pipe is provided with limiting plates at positions close to the left end and the right end, the outer side surface of the hollow pipe is symmetrically provided with clamping blocks, and the two clamping blocks are positioned at the inner side surfaces of the two limiting plates.

As a further scheme of the invention, the outer side surface of the hollow tube is provided with a sliding groove at an equal angle, the inner side surface of the clamping block is fixedly provided with a sliding block at an equal angle, and the clamping block is movably clamped with the hollow tube through the sliding block.

When water flow enters the temporary storage box through the water inlet pipe, the temporary storage box is S-shaped in overall shape, the water flow naturally falls along an S-shaped path under the action of gravity, impact force generated by the naturally falling water flow can directly push the impeller to rotate so as to drive the hollow pipe to rotate, the elastic wire on the hollow pipe can be conveyed, the water flow speed can be controlled by controlling the gear of the circulating water pump, the rotation speed of the impeller can be correspondingly changed, and the conveying speed of the elastic wire can be changed.

Realize the rotation of hollow tube through the flow that utilizes rivers, and utilize a plurality of rotatory hollow tubes, carry out the transport of stretch yarn, and the velocity of water and the rotation speed of hollow tube are positive correlation, can accelerate velocity of water or reduce velocity of water easily through the gear of control circulating water pump, and then change the rotation speed of hollow tube, corresponding stretch yarn transfer rate will change when the rotation speed of hollow tube is changed, the time that the stretch yarn resided inside the conveying component can directly be made the change, and then change its dwell time according to the stretch yarn of different specifications and then make the stretch yarn of different specifications all can obtain the intensive cooling, avoid the problem that traditional device can't adjust cooling rate, make the adaptability of device stronger, use when being fit for large-scale production.

Before the use of device, can install around the winding up roller in the below that lies in the bottom threading groove, when the elastic filament passes through the hollow tube of four S-shaped distributions, because the continuous effect of rivers can drive the continuous rotation of hollow tube and then drive the motion of elastic filament, when the other end of elastic filament and around the winding up roller around rolling up, the elastic filament of motion state can promote to rotate around the winding up roller and then realize around the automatic of winding up roller around rolling up, accomplishes the cooling.

The rotation of hollow tube is realized through the flow that utilizes rivers to utilize the rotation of a plurality of hollow tubes to provide power for the elastic filament, and when its one end and when the winding roller is around rolling up when the elastic filament possesses power, can accomplish automatically the winding of elastic filament, avoid traditional device to need manual or mechanical mode to pull out it from cooling device, and the problem of easy winding and knoing in the cooling process, make it can accomplish automatically and prevent to tie a knot and need not extra power and assist, degree of automation is higher, production efficiency is showing and is improving.

As a further scheme of the invention, the front ends of the upper water tank and the lower water tank are fixedly provided with the extension frame, the front end of the extension frame is fixedly provided with the threading grooves, and the two threading grooves are respectively positioned at the upper end and the lower end of the conveying assembly.

A cooling method of a monofilament cooling device for preparing moisture-absorbing and sweat-releasing stretch yarns comprises the following steps:

s1: firstly, injecting clear water or ice water into the upper water tank through a water injection port, enabling the elastic threads to be cooled to pass through the threading grooves and be fed from the top end of the conveying assembly, and enabling the elastic threads to be wound on the outer side surfaces of the four hollow pipes and to penetrate out of the threading grooves at the bottom ends of the hollow pipes to finish preparation;

s2: the water flow is guided out from the spray head and enters the water receiving port at the lower part to finally enter the inner part of the lower water tank to form a water curtain, meanwhile, the fan is started to rotate so that air is quickly evaporated to reduce the surrounding heat when passing through the water curtain, the cooler air is output to act on the elastic wires, and meanwhile, the water flow entering the lower water tank is pumped by the circulating water pump and re-enters the inner part of the upper water tank through the circulating pipe to complete circulation;

s3: part of water flow enters the temporary storage box through the water inlet pipe and enters the hollow pipe through the temporary storage box, so that the elastic wires on the outer side surface of the hollow pipe are further cooled, the impeller is pushed to rotate when the water flow enters the temporary storage box, the hollow pipe is driven to rotate, the elastic wires are conveyed through the rotation of the hollow pipes, and final winding is finished;

s4: the water flow speed is controlled by controlling the power of the circulating water pump, the rotating speed of the hollow pipe is controlled by the water flow speed, the stay time of the elastic threads is controlled, the cooling effect is guaranteed, and the cooled elastic threads can be discharged through the threading grooves at the bottom end to complete cooling forming.

The invention has the following beneficial effects:

1. according to the invention, the water curtain is formed by utilizing the flow of water flow, the flowing air acts on the water flow, so that part of the water flow is evaporated, the evaporated water flow can take away the heat of the peripheral air, the output of cold air is realized, the cold air directly acts on the elastic wire, the temperature of the air is lower than the room temperature, the temperature of the elastic wire can be effectively reduced, meanwhile, the water flow can also enter the hollow pipe, the heat exchange operation is further carried out with the elastic wire by utilizing the flow of the water flow, the front side and the rear side of the elastic wire are simultaneously cooled, the temperature which is limited in cooling amplitude and cannot be sufficiently cooled due to the fact that the traditional device adopts a fan and cooling plate mode to carry out cooling is avoided, the cooling speed is high, the cost is controllable, and the device is suitable for popularization.

2. The hollow pipes rotate by utilizing the flow of water flow, the plurality of rotating hollow pipes are utilized to convey the elastic wires, the water flow speed is positively correlated with the rotation speed of the hollow pipes, the water flow speed can be easily accelerated or reduced by controlling the gear of the circulating water pump, and further the rotation speed of the hollow pipes is changed, when the rotation speed of the hollow pipes is changed, the corresponding conveying speed of the elastic wires can be changed, the time for the elastic wires to stay in the conveying assembly can be directly changed, and further the stay time of the elastic wires can be changed according to different specifications, so that the elastic wires of different specifications can be fully cooled, the problem that the cooling speed cannot be adjusted by a traditional device is solved, the device is high in adaptability, and the device is suitable for being used in large-scale production.

3. The invention realizes the rotation of the hollow pipes by utilizing the flow of water flow, provides power for the elastic yarn by utilizing the rotation of the hollow pipes, and automatically finishes the winding of the elastic yarn when one end of the elastic yarn has the power and the winding roller winds the elastic yarn, thereby avoiding the problems that the traditional device needs to be pulled out from a cooling device in a manual or mechanical mode and is easy to wind and knot in the cooling process, leading the elastic yarn to automatically finish the winding and prevent the knotting without the assistance of extra power, having higher automation degree and obviously improving the production efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a backside structure of the present invention;

FIG. 3 is a sectional view showing the inner structure of the upper and lower tanks according to the present invention;

FIG. 4 is an exploded view of the fan and the fixing frame of the present invention;

FIG. 5 is an isolated schematic view of the construction of the delivery assembly of the present invention;

FIG. 6 is a sectional view showing the internal structure of the temporary storage box according to the present invention;

FIG. 7 is an exploded view of the hollow tube and clamp block configuration of the present invention;

fig. 8 is a sectional view showing the inner structure of the hollow tube of the present invention.

In the figure: 1. a water feeding tank; 2. a lower water tank; 3. a water injection port; 4. a circulation pipe; 5. a circulating water pump; 6. a spray head; 7. a water receiving port; 8. a fixed mount; 9. a fan; 10. a dust screen; 11. an extension frame; 12. a threading slot; 13. a delivery assembly; 131. a temporary storage box; 132. a water inlet pipe; 133. a drain pipe; 134. a hollow tube; 135. a limiting plate; 136. an impeller; 137. a chute; 138. a clamping block; 139. a slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1 to 4, in the embodiment of the present invention, a monofilament cooling device for preparing moisture absorption and sweat releasing elastic yarns includes an upper water tank 1, a lower water tank 2 is disposed under the upper water tank 1, a water filling port 3 is fixedly communicated with the top end of the upper water tank 1, a spray head 6 is fixedly communicated with a position close to the front side of the bottom end of the upper water tank 1 at equal distance, a water receiving port 7 is disposed at the top end of the lower water tank 2 and located under the spray head 6, circulating pipes 4 are disposed on the back surfaces of the upper water tank 1 and the lower water tank 2, the upper end and the lower end of each circulating pipe 4 are respectively fixedly communicated with the upper water tank 1 and the lower water tank 2, a check valve is disposed inside the circulating pipe 4, the direction of the valve is upward communicated with the downward direction, a circulating water pump 5 is fixedly disposed on the top end of the lower water tank 2, the circulating pump 5 is fixedly communicated with the circulating pipe 4, conveying assemblies 13 are disposed on the front surfaces of the upper water tank 1 and the lower water tank 2, a fixing frame 8 disposed between the upper water tank 1 and the lower tank 2 is fixedly disposed with the fixing frame located behind the spray head 6 and the water port 7, a fixing frame 9 is disposed inside the fixing frame 8, and a fixing frame is disposed on both sides of the fixing frame 10.

As shown in fig. 5 to 8, the conveying assembly 13 includes two temporary storage tanks 131, the number of the temporary storage tanks 131 is two, the two temporary storage tanks 131 are symmetrical to each other, a water inlet pipe 132 is fixedly communicated with the rear of the top end of the temporary storage tank 131, a water outlet pipe 133 is fixedly communicated with the front of the bottom end of the temporary storage tank 131, one-way valves are respectively installed inside the water inlet pipe 132 and the water outlet pipe 133, the directions of the valves are respectively inward conducting, outward stopping, outward conducting and outward stopping, the temporary storage tanks 131 are S-shaped, a hollow pipe 134 is movably installed between the two temporary storage tanks 131 in the S-shaped manner, the left end and the right end of the hollow pipe 134 are movably connected with the temporary storage tanks 131, and impellers 136 located inside the temporary storage tanks 131 are fixedly installed at the left end and the right end of the hollow pipe 134.

The first embodiment:

before use, cold water or ice water can be injected into the upper water tank 1 through the water injection port 3, the elastic wire is ensured to be wound on the four hollow pipes 134 to form an S-shaped layout, the circulating water pump 5 and the fan 9 are started, at the moment, water flow in the upper water tank 1 can be guided out through the plurality of spray heads 6 under the action of gravity and freely falls to form water columns, water columns guided out by the plurality of spray heads 6 can form a water curtain and enter the water receiving port 7 below and finally enter the lower water tank 2, air guided in by the fan 9 can pass through the water curtain and reduce ambient temperature through the water curtain to act on the elastic wire in the conveying assembly 13, at the same time, part of water flow can enter the temporary storage tank 131 through the water inlet pipe 132 and enter the hollow pipes 134, at the moment, the water flow passing through the outer walls of the hollow pipes 134 can cool the elastic wire, at the same time, the water flow can enter the lower water tank 2 through the water outlet pipe 133, and the circulating water pump 5 can re-draw the water flow in the lower water tank 2 back to the interior of the upper water tank 1 through the water pipe 4 to complete circulation.

Flow through utilizing rivers forms the cascade, and utilize the air that flows to act on rivers, make partial rivers evaporated, and the heat of peripheral air can be taken away to the rivers that evaporate and then realize the output of cold air, and utilize cold air direct action in the stretch yarn, air temperature is less than the temperature that the room temperature can effectively reduce the stretch yarn this moment, the inside of hollow tube 134 still can get into to the rivers simultaneously, the flow that utilizes rivers is further to carry out heat transfer operation with the stretch yarn, cool down simultaneously to both sides around the stretch yarn, the cooling range that the mode of avoiding traditional device to adopt fan to add the cooling plate to cool down brought is limited and unable fully cooled temperature, the cooling rate is very fast and the cost is controllable, be fit for promoting.

As shown in fig. 7 and 8, the hollow tube 134 is provided with position-limiting plates 135 at positions close to the left and right ends, the outer side of the hollow tube 134 is symmetrically provided with clamping blocks 138, the two clamping blocks 138 are located at inner sides of the two position-limiting plates 135, the outer side of the hollow tube 134 is provided with sliding grooves 137 at equal angles, the inner side of the clamping blocks 138 is fixedly provided with sliding blocks 139 at equal angles, and the clamping blocks 138 are movably clamped with the hollow tube 134 through the sliding blocks 139.

Second embodiment:

when water flows into the temporary storage box 131 through the water inlet pipe 132, the temporary storage box 131 is S-shaped, the water flows naturally fall along an S-shaped path under the action of gravity, impact force generated by the naturally falling water flows directly pushes the impeller 136 to rotate, the hollow pipe 134 is driven to rotate, the elastic wires on the hollow pipe 134 can be conveyed, the water flow speed can be controlled by controlling gears of the circulating water pump 5, the rotation speed of the impeller 136 can be changed correspondingly, and the conveying speed of the elastic wires can be changed.

The hollow pipe 134 is rotated by utilizing the flowing of water flow, the elastic wires are conveyed by utilizing the plurality of rotating hollow pipes 134, the water flow speed is in positive correlation with the rotating speed of the hollow pipes 134, the water flow speed can be easily accelerated or reduced by controlling the gear of the circulating water pump 5, the rotating speed of the hollow pipes 134 is further changed, the corresponding elastic wire conveying speed can be changed when the rotating speed of the hollow pipes 134 is changed, the time for the elastic wires to stay inside the conveying assembly 13 can be directly changed, the stay time of the elastic wires can be changed according to different specifications, the elastic wires of different specifications can be fully cooled, the problem that the cooling rate cannot be adjusted by a traditional device is avoided, the device is high in adaptability, and the device is suitable for being used in large-scale production.

The third embodiment:

before the device is used, a winding roller can be arranged below the threading groove 12 at the bottom end, when elastic yarns pass through the four S-shaped distributed hollow pipes 134, the hollow pipes 134 can be driven to rotate continuously due to the continuous action of water flow so as to drive the elastic yarns to move, and when the other end of the elastic yarns and the winding roller are wound, the elastic yarns in a moving state can push the winding roller to rotate so as to realize automatic winding of the winding roller and finish cooling.

The rotation of the hollow pipes 134 is realized by the flow of water flow, the rotation of the hollow pipes 134 is utilized to provide power for the elastic wire, when the elastic wire is provided with the power, when one end of the elastic wire is wound by a winding roller, the winding of the elastic wire can be automatically completed, the traditional device is prevented from being pulled out of a cooling device in a manual or mechanical mode, the problems of easy winding and knotting in the cooling process are solved, the winding can be automatically completed, knotting is prevented, additional power is not needed for assisting, the automation degree is high, and the production efficiency is remarkably improved.

As shown in fig. 3, the front ends of the upper water tank 1 and the lower water tank 2 are both fixedly provided with an extension frame 11, the front end of the extension frame 11 is fixedly provided with a threading groove 12, and the two threading grooves 12 are respectively located at the upper end and the lower end of the conveying assembly 13.

In the cooling process of the stretch yarn, the stretch yarn needs to be threaded in from the threading groove 12 at the top end and finally threaded out through the threading groove 12 at the bottom end after passing through the four hollow tubes 134, so that the motion track of the stretch yarn is controllable, and the knotting phenomenon is prevented.

s1: firstly, clear water or ice water is injected into the upper water tank 1 through the water injection port 3, and the elastic threads to be cooled pass through the threading grooves 12 and are put into the conveying assembly 13 from the top end, and are wound on the outer side surfaces of the four hollow pipes 134 and penetrate out of the threading grooves 12 at the bottom end, so that preparation is completed;

s2: the water flow is guided out from the spray head 6 and enters the water receiving port 7 at the lower part to finally enter the inner part of the lower water tank 2 to form a water curtain, meanwhile, the fan 9 is started to rotate, so that air is quickly evaporated when passing through the water curtain to reduce the surrounding heat, relatively cold air is output to act on the elastic wires, and meanwhile, the water flow entering the lower water tank 2 is extracted by the circulating water pump 5 and reenters the inner part of the upper water tank 1 through the circulating pipe 4 to complete circulation;

s3: part of the water flow enters the temporary storage box 131 through the water inlet pipe 132 and enters the hollow pipe 134 through the temporary storage box 131, so as to further cool the elastic wires on the outer side surface of the hollow pipe 134, and the water flow can push the impeller 136 to rotate when entering the temporary storage box 131 so as to drive the hollow pipe 134 to rotate, so that the elastic wires are conveyed and finally wound through the rotation of the hollow pipes 134;

s4: the water flow speed is controlled by controlling the power of the circulating water pump 5, the rotating speed of the hollow pipe 134 is controlled by the water flow speed, the stay time of the stretch yarn is controlled to ensure the cooling effect, and the cooled stretch yarn can be discharged through the threading groove 12 at the bottom end to complete cooling forming.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a monofilament cooling device for preparation of moisture absorption perspiring stretch yarn, includes upper water tank (1), its characterized in that: be equipped with down water tank (2) under upper water tank (1), the fixed intercommunication in top of upper water tank (1) has water filling port (3), the fixed intercommunication of equidistance has shower nozzle (6) on the position that upper water tank (1) bottom is close to the front side, water receiving mouth (7) that are located under shower nozzle (6) are seted up on the top of lower water tank (2), the back of upper water tank (1) and lower water tank (2) is equipped with circulating pipe (4), the upper and lower both ends of circulating pipe (4) respectively with upper water tank (1) and lower water tank (2) fixed intercommunication, the direction that the internally mounted of circulating pipe (4) has check valve and valve is located upwards switches on and ends downwards, the top fixed mounting of lower water tank (2) has circulating water pump (5), circulating water pump (5) and the fixed intercommunication of circulating pipe (4), the front of upper water tank (1) and lower water tank (2) all is equipped with transport assembly (13).

2. The monofilament cooling device for moisture absorption and sweat releasing stretch yarn preparation according to claim 1, wherein: fixed mounting has mount (8) that are located shower nozzle (6) and water receiving mouth (7) rear end between upper water tank (1) and lower water tank (2), the inside movable mounting of mount (8) has fan (9), equal fixed mounting in both sides has dust screen (10) around mount (8).

3. The monofilament cooling device for moisture absorption and sweat releasing stretch yarn preparation according to claim 1, wherein: the conveying assembly (13) comprises two temporary storage boxes (131), the number of the temporary storage boxes (131) is two, the two temporary storage boxes (131) are symmetrical relatively, a water inlet pipe (132) is fixedly communicated at the rear of the top end of each temporary storage box (131), and a water outlet pipe (133) is fixedly communicated at the front of the bottom end of each temporary storage box (131).

4. A monofilament cooling device for moisture absorbable and breathable stretch yarn preparation according to claim 3, wherein: the inside of inlet tube (132) and drain pipe (133) all installs the check valve and the direction of valve is for inside switch-on and outside end and outside switch-on and outside end respectively, the shape of temporary storage box (131) is the S type.

5. A monofilament cooling device for moisture absorbable and breathable stretch yarn preparation according to claim 3, wherein: the S-shaped movable storage box is characterized in that a hollow pipe (134) is movably mounted between the two temporary storage boxes (131), the left end and the right end of the hollow pipe (134) are movably connected with the temporary storage boxes (131), and impellers (136) located in the temporary storage boxes (131) are fixedly mounted at the left end and the right end of the hollow pipe (134).

6. The monofilament cooling device for moisture absorption and sweat releasing stretch yarn preparation according to claim 5, wherein: limiting plates (135) are mounted on the positions, close to the left end and the right end, of the hollow pipe (134), clamping blocks (138) are symmetrically arranged on the outer side face of the hollow pipe (134), and the two clamping blocks (138) are located on the inner side faces of the two limiting plates (135).

7. The monofilament cooling device for moisture absorption and sweat releasing stretch yarn preparation according to claim 6, wherein: the outer side surface of the hollow pipe (134) is provided with a sliding groove (137) at an equal angle, the inner side surface of the clamping block (138) is fixedly provided with a sliding block (139) at an equal angle, and the clamping block (138) is movably clamped with the hollow pipe (134) through the sliding block (139).

8. The monofilament cooling device for moisture absorption and sweat releasing stretch yarn preparation according to claim 1, wherein: the equal fixed mounting in front end of upper water tank (1) and lower water tank (2) has extension frame (11), the front end fixed mounting of extension frame (11) has threading groove (12), two threading groove (12) are located the upper and lower both ends of conveyor components (13) respectively.

9. A method for cooling a monofilament cooling device for moisture absorbable and breathable elastic yarn according to any one of claims 1 to 8, wherein: comprises the following steps:

s1: firstly, clear water or ice water is injected into the upper water tank (1) through the water injection port (3), and the elastic yarn to be cooled passes through the threading groove (12) and is put into the conveying assembly (13) from the top end, and is wound on the outer side surfaces of the four hollow pipes (134) and penetrates out of the threading groove (12) at the bottom end, so that the preparation is completed;

s2: the water flow is guided out from the spray head (6) and enters the water receiving port (7) at the lower part to finally enter the lower water tank (2) to form a water curtain, meanwhile, the fan (9) is started to rotate, so that air is quickly evaporated when passing through the water curtain to reduce the ambient heat, colder air is output to act on the elastic wires, and meanwhile, the water flow entering the lower water tank (2) is extracted by the circulating water pump (5) and reenters the inner part of the upper water tank (1) through the circulating pipe (4) to complete circulation;

s3: part of water flow enters the temporary storage box (131) through the water inlet pipe (132) and enters the hollow pipe (134) through the temporary storage box (131), so that the elastic filaments on the outer side surface of the hollow pipe (134) are further cooled, the impeller (136) is pushed to rotate when the water flow enters the temporary storage box (131) so as to drive the hollow pipe (134) to rotate, the elastic filaments are conveyed through the rotation of the hollow pipes (134), and final winding is completed;

s4: the water flow speed is controlled by controlling the power of the circulating water pump (5), the rotating speed of the hollow pipe (134) is controlled by the water flow speed, the stay time of the elastic yarn is controlled, the cooling effect is guaranteed, and the cooled elastic yarn can be discharged through the threading groove (12) at the bottom end to complete cooling forming.