CN115434085A - Energy-saving dyeing device and dyeing method for yarn spinning - Google Patents

Abstract

The invention discloses an energy-saving dyeing device and method for yarn spinning. The invention can rapidly mix the dye liquor for dyeing textile yarns by installing the mixer and the mixing plate, when the dye liquor is proportioned, a certain amount of dye and liquid are placed in the mixing box according to the dye liquor proportioning, the output end of the first motor is rotated to drive the stirring shaft to rotate, the dye and the liquid in the mixer are stirred to be mixed, the output end of the micro motor is rotated to drive the mixing plate to rotate, when the mixing plate rotates, the bottom of the mixer can be stirred, further, the dye deposited at the bottom of the mixer can be stirred, further, the dye can be prevented from being deposited at the bottom of the mixer, and the purpose of rapidly mixing and reacting the dye can be achieved.

Description

Energy-saving dyeing device and dyeing method for yarn spinning

Technical Field

The invention relates to the technical field of dyeing devices, in particular to an energy-saving dyeing device and a dyeing method for yarn spinning.

Background

The yarn is a textile, a product with certain fineness is processed by various textile fibers, and is used for weaving, rope making, thread making, knitting, embroidery and the like, before the yarn is woven, the yarn needs to be dyed into a selected color by using a dyeing device, the dyed yarn is generally used for fabrics, sweaters or directly used yarns and the like, the yarn dyeing is a dyeing and weaving basis, a jet dyeing machine is a device for dyeing the yarn, the machine is simple, the maintenance is economical, the existing dyeing device for the energy-saving yarn weaving mostly needs to use a structure for mixing and proportioning dyes before dyeing the yarn, when the dyes are mixed and proportioned, the dyes which are not melted can be accumulated at the bottom of the mixing device, and the condition that the dyes are not completely melted can be caused, so that the structure can improve the rapid mixing reaction of the dyes, prevent the dyes from being deposited at the bottom of a mixer and being difficult to be rapidly mixed, and further improve the working efficiency.

The existing dyeing device has the following defects:

1. patent document CN212955701U discloses a jet skein dyeing machine, "including the box, box one side is provided with the opening, be provided with rotatable spray tube in the box, the box both sides are provided with the spout, it is provided with the skid to slide on the spout, it is provided with the sleeve pipe to rotate on the skid, intraductal wall with spray tube outer wall axial is provided with the guide way and the gib block of mutually supporting, be provided with on the sleeve pipe with the through-hole that the hydrojet hole of spray tube matches. However, the jet type hank dyeing machine of the above-mentioned publication mainly considers the improvement of dyeing efficiency and does not consider the problem of rapid mixing reaction of dyeing agents, so that it is necessary to develop a structure that can rapidly mix reaction of dyeing agents, thereby improving working efficiency;

2. patent document CN212670016U discloses a jet dyeing machine, "including a machine body, a dyeing chamber is disposed in the machine body, a cover plate for covering the dyeing chamber is hinged on the machine body, one side of the dyeing chamber facing the cover plate is horizontally and rotatably connected with a plurality of liquid spraying tubes, the dyeing chamber is fixedly connected with a solution tank, a liquid suction pump is mounted on the machine body, one end of a liquid inlet of the liquid suction pump is communicated and fixedly connected with the solution tank, the other end of the liquid suction pump is communicated and fixedly connected with a water pipe, one end of the water pipe far away from the liquid suction pump is communicated and fixedly connected with a plurality of branch pipes, the branch pipes are communicated and fixedly connected with the liquid spraying tubes, one end of the liquid spraying tubes close to the branch pipes is coaxially and fixedly connected with a sprocket, a first driving component for simultaneously driving the plurality of liquid spraying tubes to rotate is disposed on an outer wall of the machine body, the first driving component includes a first motor, a driving wheel and a sprocket, the driving wheel is rotatably connected to the machine body, the chain is simultaneously wound around the sprocket and the driving wheel, and an output shaft of the motor is coaxially and fixedly connected with the driving wheel, however, a jet dyeing machine of the above-mentioned publication documents mainly considers that the problem that the collection of broken yarns during the collection of broken yarns is necessary to cause the accumulation of the broken yarns is not considered;

3. patent document CN208328357U discloses a jet type hank dyeing machine, "this dyeing machine includes quick-witted case, hydrojet pipe one end is the free end, its characterized in that: still including removing the support frame, remove the support frame and include a supporting beam, actuating mechanism, seted up on the supporting beam and held in the palm the groove, actuating mechanism drives a supporting beam and removes between primary importance and second place, and a supporting beam is in primary importance department, and the hydrojet pipe free end is located holds in the palm the inslot, provides the holding power of hydrojet pipe free end by a supporting beam, and a supporting beam is in second place department, holds in the palm the groove and separates with the hydrojet pipe free end. The force of the liquid spraying pipe is uniform, so that the deformation of the liquid spraying pipe is effectively prevented; however, the jet type hank dyeing machine disclosed in the above publication mainly considers the fast hank loading and unloading and does not consider the problem of fast dehydration of dyed yarns for spinning, so it is necessary to develop a structure capable of fast dehydration of yarns, thereby facilitating the subsequent processing of yarns;

4. the patent document CN203284600U discloses an intermittent jet type dyeing machine, which comprises a frame, a dye vat and a plurality of spray pipes, wherein one end of each spray pipe is connected with a worm and gear transmission mechanism, the spray pipes are fixedly connected with worm gears, the frame is connected with a worm matched with the worm gears, one end of each worm is connected with a worm driving mechanism, the other end of each worm is connected with a driving worm gear in a transmission manner, and the driving worm gears are fixedly connected with turntables; the machine frame is connected with a shunting device, the end part of the spray pipe close to the worm wheel is communicated with the shunting device, the shunting device is connected with a liquid pump, a valve is connected on a pipeline between the liquid pump and the shunting device, a valve switch shaft is connected on the valve, a pull rod is connected on the valve switch shaft, one end of the pull rod is hinged on the valve switch shaft, and the other end of the pull rod is hinged on the edge of the rotary table; however, the intermittent jet dyeing machine of the above publication mainly considers that the dyeing quality is ensured, and does not consider the problem of quick drying of dyed yarn, so it is necessary to develop a structure capable of quickly drying yarn, and further, the dyed yarn can be quickly dried.

Disclosure of Invention

The invention aims to provide an energy-saving dyeing device and a dyeing method for yarn spinning, which aim to solve the problems of quick mixing reaction of dyes, collection of broken yarns, quick dehydration of dyed yarns for spinning and quick drying of dyed yarns in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving dyeing device for yarn spinning comprises a bottom plate, a mixer, a collector and an extruder, wherein a dyeing box is installed at the top of the bottom plate, and a dye solution tank is installed on the inner wall of the dyeing box;

the top of the mixer is provided with a sealing cover, the inner wall of the mixer is provided with a heat insulation layer, the inner wall of the mixer is provided with a plurality of groups of heating assemblies, the inner wall of the mixer is provided with a stirring shaft in a penetrating manner, the bottom of the stirring shaft is provided with two groups of long plates, and the inner walls of the long plates are provided with micro motors;

and a mixing plate is arranged at the output end of the micro motor.

Preferably, the power supply assembly is installed to the inner wall of mixing plate, and the link is installed to the bottom of blender, and a motor is installed to the inner wall of link, and the output fixed connection of the one end of (mixing) shaft and a motor.

Preferably, a protection box is installed at the top of the bottom plate, a water pump is installed on the inner wall of the protection box, a conveying pipe is installed at the output end of the water pump, multiple groups of supporting pipes are installed on the inner wall of the dyeing box, the outer wall of the conveying pipe is connected with the supporting pipes, multiple groups of holes are formed in the outer wall of the supporting pipes, a filter plate is installed on the inner wall of the dyeing tank, a water pump is installed on the inner wall of the dyeing tank, multiple groups of water flowing grooves are installed at the top of the inner wall of the dyeing box, the output end of the water pump is connected with the outer wall of the water flowing grooves through a pipeline, multiple groups of spray heads are installed at the bottom of the water flowing grooves, a sealing door is installed on the front face of the dyeing box, and multiple groups of observation windows are installed on the outer wall of the sealing door.

Preferably, the multiunit collector is installed at the top of filter plate, and two sets of No. two guard boxes are installed to the inner wall of collector, and a guide arm is installed to the inner wall of No. two guard boxes, and the outer wall of a guide arm is encircleed and is installed the carriage, and a motor is installed to the outer wall of carriage, and the output fixed mounting of a motor has the rolling axle, and a guard box is installed to the outer wall of collector, and a telescopic link is installed to the inner wall of a guard box, and the outer wall fixed connection of the one end of a telescopic link and carriage.

Preferably, the dye liquor groove is the inner wall bottom fixed connection of square groove bottom and dyeing case, and the appearance of heat preservation is cylindric to inlay and installs in the inside of blender, and the power supply subassembly is inlayed and is installed in the inside of long board, and power supply subassembly and micro motor electric connection, and the stay tube is cylindric pipeline, the inside fixed connection of one end and dyeing case, and the rolling axle is cylindric outer wall and encircles and install many sets of tooth.

Preferably, the multiunit spout is installed to the inner wall of dyeing case, the guide bar is installed to the inner wall of spout, the outer wall of guide bar encircles and installs the sliding ring, the squeezer is installed to the outer wall of sliding ring, two-way lead screw is installed to the inner wall of squeezer, the outer wall of two-way lead screw encircles and installs the pressure plate, no. two motors are installed to the outer wall of squeezer, and the one end of two-way lead screw and the output fixed connection of No. two motors, no. two guard boxes of multiunit are installed at the top of filter plate, no. two telescopic links are installed to the inner wall of No. two guard boxes, the top of No. two telescopic links and the bottom fixed connection of squeezer.

Preferably, three groups of heaters are installed at the top of the dyeing box, a filter screen is installed on the inner wall of each heater, a plurality of groups of fans are fixedly installed at the bottom of the inner wall of each heater, an exhaust pipe is installed at the output end of each fan, two groups of groove bodies are installed on the inner wall of each heater, and a plurality of groups of heating wires are installed on the inner wall of each groove body.

Preferably, the multiunit driver is installed to the inner wall of dyeing case, and No. three guard boxes are installed to the inner wall of driver, and No. three motors are installed to the inner wall of No. three guard boxes, and the output fixed mounting of No. three motors has the screw lead screw, and the outer wall of screw lead screw encircles and installs the slip ring, and two sets of deflectors are installed to the outer wall of slip ring, and the inner wall of deflector runs through and installs the stock, and the air channel is installed to the outer wall of slip ring, and the one end of exhaust pipe extends to the outer wall of air channel, and the multiunit fumarole is installed to the outer wall of air channel.

Preferably, the dyeing device comprises the following working steps:

s1, before dyeing yarns for spinning, when a dyeing agent is proportioned, a certain amount of dye and liquid are placed inside a mixing box according to the proportion of dye liquid, an output end of a motor is rotated to drive a stirring shaft to rotate, the dye and the liquid inside the mixer are stirred by the rotation of the stirring shaft to be mixed, when the dye is stirred, a heating assembly is made to work to heat the dye liquid on the inner wall of the mixer, the liquid is heated to a certain temperature, the dye and the liquid can be quickly subjected to mixing reaction, in order to prevent the dye which is not melted from depositing inside the mixer, a power supply assembly is made to provide energy for a micro motor, the output end of the micro motor rotates to drive a mixing plate to rotate, when the mixing plate rotates, the bottom of the mixer can be stirred, the dye deposited at the bottom of the mixer can be further stirred, the dye can be further prevented from depositing at the bottom of the mixer, the purpose of quickly mixing reaction of the dye can be achieved, the working efficiency is improved, and the yarns for spinning can be conveniently colored;

s2, after the yarn to be dyed is placed above the supporting tube, a first water pump works to convey dye mixed in the mixer to the inside of the supporting tube through a conveying tube, the dye is discharged to the outside of the yarn through holes, the yarn for spinning is dyed, the yarn enables dye liquor to drip into the dye liquor tank, a second water pump works to convey the dye liquor to the inside of a water flowing tank, the dye liquor entering the water flowing tank is sprayed to the outside of the yarn again through a spray head to be dyed, the yarn can be dyed more uniformly, the broken yarn can fall into a collector during dyeing of the yarn, a filter plate can prevent the yarn from entering the inside of the dye liquor tank, when the broken yarn is collected, an output end of a first motor rotates to drive a winding shaft to rotate, when the winding shaft rotates, the broken yarn entering the collector can be wound, meanwhile, a first telescopic rod works to drive a sliding frame to be in a horizontal sliding position on the outer wall of a first guide rod, when the sliding frame moves to drive the winding shaft to move, the yarn at different positions can be wound when the winding shaft moves, and the yarn can be collected, and the yarn can be prevented from being blocked by a spinning device for spinning purpose;

s3, after the yarns for spinning are dyed, when liquid contained in the yarns is separated, the output end of a second motor is rotated to drive a bidirectional screw rod to rotate, two groups of pressing plates can move close to each other when the bidirectional screw rod rotates, the yarns are clamped and extruded after the outer walls of the two groups of pressing plates move to the outer walls of the yarns, meanwhile, a second telescopic rod works to drive an extruder to move, the extruder drives the pressing plates to move when moving, the positions of dyed yarn battens can be extruded when the pressing plates move, and the liquid contained in the yarn can be rapidly separated from the yarns, so that the aim of rapidly reducing the dehydration of the yarns is fulfilled, and the dyed yarns can be conveniently processed and processed subsequently;

s4, after the dyed yarns for spinning are dehydrated, the heating wires work to generate heat to heat the groove body, after the groove body is heated, the fan works to enable external air to flow and enter the input end of the fan, the air flows through the groove body, the groove body can heat the air, the air after entering enters the fan, the fan enables hot air to be discharged into the exhaust pipe, the exhaust pipe enables wind power to enter the inside of the vent groove, the hot air entering the inside of the vent groove is blown to the outside of the yarns through the air jet holes, the yarns can be dried, meanwhile, the output end of the third motor rotates to drive the threaded lead screw to rotate, the threaded lead screw rotates to enable the sliding ring to move, the guide plate is driven to vertically slide on the outer wall of the long rod when the sliding ring moves to move, the vent groove is driven to move when the sliding ring moves, the vent groove can be used for drying different positions of the yarns when the vent groove moves, the purpose of rapidly drying the dyed yarns for spinning is achieved, and the working efficiency is improved.

Preferably, the step S1 further includes the steps of:

s11, after the interior of the mixer is sealed through the sealing cover, the dye temperature in the mixer can be sealed through the heat insulation layer, so that the dye temperature can be kept in a certain area for a long time, the dye temperature is not required to be heated frequently, and the purpose of saving energy is achieved;

in step S3, the method further includes the steps of:

s31, the extruder is driven to vertically slide on the outer wall of the guide rod when moving, and the extruder is guided when moving by the slide ring, so that the extruder can vertically move.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention can rapidly mix the dye solution for dyeing the textile yarns by installing the mixer and the mixing plate, when the dye solution is proportioned, a certain amount of dye and liquid are placed in the mixing box according to the dye solution proportioning, the output end of the first motor is rotated to drive the stirring shaft to rotate, the dye and the liquid in the mixer are stirred by the stirring shaft when the stirring shaft rotates, the dye and the liquid are mixed, when the dye is stirred, the heating assembly works to heat the dye solution on the inner wall of the mixer, the liquid is heated to a certain temperature, the dye and the liquid can be rapidly mixed and reacted, in order to prevent the dye which is not melted from depositing in the mixer, the power supply assembly provides energy for the micro motor, the output end of the micro motor rotates to drive the mixing plate to rotate, when the mixing plate rotates, the bottom of the mixer can be stirred, the dye deposited at the bottom of the mixer can be stirred, the dye can be prevented from depositing at the bottom of the mixer, the purpose of rapidly mixing and reacting the dye can be achieved, the working efficiency is improved, and the textile yarns can be conveniently colored;

2. the collecting device is provided with the collector and the winding shaft, and can collect broken yarns when the yarns are dyed, the broken yarns can fall into the collector during the yarn dyeing process, the filter plate can prevent the yarns from entering the dye liquor tank, when the broken yarns are collected, the output end of the first motor is rotated to drive the winding shaft to rotate, the broken yarns entering the collector can be wound when the winding shaft rotates, meanwhile, the first telescopic rod works to drive the sliding frame to be in the horizontal sliding position of the outer wall of the first guide rod, the sliding frame can drive the winding shaft to move, when the winding shaft moves, the yarns in different positions can be wound, the purpose of collecting the broken yarns is achieved, and the problem that the textile yarns are broken too much to cause pipeline blockage in the device can be prevented;

3. the spinning yarn dewatering device is provided with the pressing plates and the squeezer and can be used for quickly dewatering dyed yarns, when liquid contained in the yarns is separated after the yarns are dyed, the output end of the motor II is rotated to drive the bidirectional screw rod to rotate, the two groups of pressing plates can approach to move when the bidirectional screw rod rotates, the outer walls of the two groups of pressing plates move to the outer walls of the yarns and then clamp and extrude the yarns, the telescopic rod II works to drive the squeezer to move, the pressing plates are driven to move when the squeezer moves, and the dyed yarn lath positions can be squeezed when the pressing plates move, so that the liquid contained in the pressing plates can be quickly separated from the yarns, the aim of quickly reducing the yarn dewatering is fulfilled, and the dyed yarns can be conveniently treated and processed subsequently;

4. the yarn drying device can rapidly dry the dehydrated yarn for spinning by installing the driver and the heater, the yarn for spinning after dyeing is dehydrated, the heating wire works to generate heat to heat the groove body, the fan works to enable the outside air to flow and enter the input end of the fan after the groove body is heated, the groove body can heat the air after the air flows through the groove body, the fan enables the hot air to be discharged to the inside of the exhaust pipe after the air enters the inside of the fan, the exhaust pipe enables the wind power to enter the inside of the vent groove, the hot air entering the inside of the vent groove blows towards the outside of the yarn through the jet holes, the yarn can be dried, meanwhile, the output end of the third motor rotates to drive the threaded lead screw to rotate, the sliding ring moves to a position when the threaded lead screw rotates, the guide plate is driven to vertically slide on the outer wall of the long rod when the sliding ring moves to position, the sliding ring can vertically move to drive the vent groove to move, the vent groove can dry different positions of the yarn when the vent groove moves, the purpose of rapidly drying the yarn for spinning after dyeing is achieved, and the working efficiency of the yarn for spinning after dyeing is improved.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic diagram of the mixer of the present invention;

FIG. 4 is a schematic diagram of a pressing plate structure according to the present invention;

FIG. 5 is a schematic view of a collector configuration of the present invention;

FIG. 6 is a schematic view of the extruder of the present invention;

FIG. 7 is a schematic view of the structure of the driver of the present invention;

FIG. 8 is a schematic view of the vent slot structure of the present invention;

fig. 9 is a schematic flow chart of the present invention.

In the figure: 1. a base plate; 2. a dyeing box; 3. a mixer; 4. a sealing cover; 5. a heat-insulating layer; 6. a heating assembly; 7. a stirring shaft; 8. a connecting frame; 9. a first motor; 10. a long plate; 11. a power supply assembly; 12. a micro motor; 13. a mixing plate; 14. a first protective box; 15. a water pump I; 16. a delivery pipe; 17. supporting a tube; 18. a hole; 19. a dye bath; 20. filtering the plate; 21. a second water pump; 22. a launder; 23. a spray head; 24. a collector; 25. a second protective box; 26. a first guide rod; 27. a carriage; 28. a first motor; 29. a winding shaft; 30. a first protection box; 31. a first telescopic rod; 32. a guide bar; 33. a slip ring; 34. an extruder; 35. a bidirectional screw rod; 36. pressing a plate; 37. a motor II; 38. a second protection box; 39. a second telescopic rod; 40. a heater; 41. filtering with a screen; 42. a fan; 43. an exhaust duct; 44. a trough body; 45. heating wires; 46. a sealing door; 47. an observation window; 48. a driver; 49. a third protection box; 50. a motor No. three; 51. a threaded lead screw; 52. a slip ring; 53. a guide plate; 54. a long rod; 55. a vent channel; 56. a gas injection hole; 57. a chute.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 2 and fig. 9, an embodiment of the present invention: an energy-saving dyeing device for yarn spinning comprises a bottom plate 1, a mixer 3, a collector 24 and an extruder 34, wherein a dyeing box 2 is installed at the top of the bottom plate 1, the dyeing box 2 provides space for yarn dyeing for spinning, a dye tank 19 is installed on the inner wall of the dyeing box 2, the dye tank 19 is used for collecting dye liquor, a mixing plate 13 is installed at the output end of a micro motor 12, a first protection box 14 is installed at the top of the bottom plate 1, a first water pump 15 is installed on the inner wall of the first protection box 14, a conveying pipe 16 is installed at the output end of the first water pump 15, a plurality of groups of supporting pipes 17 are installed on the inner wall of the dyeing box 2, the outer wall of the conveying pipe 16 is connected with the supporting pipes 17, a plurality of groups of holes 18 are formed in the outer wall of the supporting pipes 17, a filter plate 20 is installed on the inner wall of the dye tank 19, a second water pump 21 is installed on the inner wall of the dye tank 19, a plurality of groups of water flowing grooves 22 are installed on the top of the inner wall of the dyeing box 2, the output end of the second water pump 21 is connected with the outer wall of the water flowing groove 22 through a pipeline, a plurality of groups of spray heads 23 are installed at the bottom of the water flowing groove 22, the first water pump 15 works to convey dye mixed in the mixer 3 to the inside of the supporting pipe 17 through the conveying pipe 16 and then is discharged to the outside of the yarn through the holes 18, so as to dye the yarn for textile, the yarn enables the dye solution to drip into the dye solution groove 19, the second water pump 21 works to convey the dye solution to the inside of the water flowing groove 22, the dye solution entering the water flowing groove 22 is sprayed to the outside of the yarn through the spray heads 23 again for dyeing, a sealing door 46 is installed on the front surface of the dyeing box 2, a plurality of groups of observation windows 47 are installed on the outer wall of the sealing door 46, the observation windows 47 are convenient for observing the inside of the dyeing box 2, the bottom of the square groove 19 is fixedly connected with the bottom of the inner wall of the dyeing box 2, the appearance of heat preservation 5 is cylindric to inlay and installs in the inside of blender 3, and power supply unit 11 inlays and installs in the inside of long board 10, and power supply unit 11 and micro motor 12 electric connection, and stay tube 17 is cylindric pipeline, the inside fixed connection of one end and dyeing box 2, and rolling axle 29 is cylindric outer wall and encircles and install many sets of tooth.

Please refer to fig. 2 and 3, a sealing cover 4 is installed on the top of a mixer 3, a heat insulating layer 5 is installed on the inner wall of the mixer 3, a plurality of groups of heating components 6 are installed on the inner wall of the mixer 3, a stirring shaft 7 is installed on the inner wall of the mixer 3 in a penetrating manner, two groups of long plates 10 are installed at the bottom of the stirring shaft 7, a micro motor 12 is installed on the inner wall of each long plate 10, a power supply component 11 is installed on the inner wall of a mixing plate 13, a connecting frame 8 is installed at the bottom of the mixer 3, a first motor 9 is installed on the inner wall of the connecting frame 8, one end of the stirring shaft 7 is fixedly connected with the output end of the first motor 9, when a dye is matched before yarns for textile, a certain amount of dye and liquid are placed in the mixing box according to a dye liquid ratio, the output end of the first motor 9 is rotated to drive the stirring shaft 7 to rotate, stirring shaft 7 stirs the inside dyestuff of blender 3 and liquid when rotating, make it mix, when stirring the dyestuff, make the dye solution of heating element 6 work to 3 inner walls of blender heat, after heating liquid to certain temperature, can make the dyestuff mix the reaction with the quick going on of liquid, for the inside that prevents not the dyestuff that melts and deposit in blender 3, make power supply unit 11 provide the energy for micro motor 12, micro motor 12's output rotates and drives mixing plate 13 and rotate, when mixing plate 13 rotates, can stir 3 bottom position of blender, and then can stir the dyestuff of deposit in blender 3 bottom, and then can prevent that the dyestuff deposit from in the bottom of blender 3, reach the purpose that makes the quick mixed reaction of dyestuff, and the work efficiency is improved, be convenient for color the yarn for weaving.

Referring to fig. 4 and 5, a plurality of sets of collectors 24 are mounted on the top of the filter plate 20, two sets of second protection boxes 25 are mounted on the inner walls of the collectors 24, first guide rods 26 are mounted on the inner walls of the second protection boxes 25, a sliding frame 27 is mounted on the outer walls of the first guide rods 26 in a surrounding manner, a first motor 28 is mounted on the outer walls of the sliding frame 27, a winding shaft 29 is fixedly mounted at an output end of the first motor 28, a first protection box 30 is mounted on the outer walls of the collectors 24, a first telescopic rod 31 is mounted on the inner walls of the first protection box 30, one end of the first telescopic rod 31 is fixedly connected with the outer walls of the sliding frame 27, when a broken yarn is collected, the output end of the first motor 28 rotates to drive the winding shaft 29 to rotate, when the winding shaft 29 rotates, the broken yarn entering the collectors 24 can be wound, meanwhile, the first telescopic rod 31 operates to drive the sliding frame 27 to horizontally slide on the outer walls of the first guide rods 26, when the sliding frame 27 moves, the winding shaft 29 moves, yarns at different positions can be wound when the winding shaft 29 moves, the broken yarn can be collected, and the yarn can be prevented from being blocked by a pipeline inside a spinning device.

Referring to fig. 6, a plurality of sets of sliding grooves 57 are installed on the inner wall of the dyeing box 2, guide rods 32 are installed on the inner wall of the sliding grooves 57, a sliding ring 33 is installed around the outer wall of the guide rods 32, an extruder 34 is installed on the outer wall of the sliding ring 33, a bidirectional screw 35 is installed on the inner wall of the extruder 34, a pressing plate 36 is installed around the outer wall of the bidirectional screw 35, a second motor 37 is installed on the outer wall of the extruder 34, one end of the bidirectional screw 35 is fixedly connected with the output end of the second motor 37, a plurality of sets of second protection boxes 38 are installed on the top of the filter plate 20, a second telescopic rod 39 is installed on the inner wall of the second protection box 38, the top end of the second telescopic rod 39 is fixedly connected with the bottom of the extruder 34, after dyeing of the yarns for weaving is finished, when liquid contained in the yarns is separated, the output end of the second motor 37 rotates to drive the bidirectional screw 35 to rotate, the two sets of pressing plates 36 move close to the outer walls of the yarns when the bidirectional screw 35 rotates, the outer walls of the two sets of pressing plates 36 move to the outer walls of the yarns, the outer walls of the two sets of the pressing plates 36 move to squeeze the yarns, the telescopic rods clamp the yarns, and squeeze the telescopic rods to squeeze the two sets of the pressing plates to squeeze the extruding plates to quickly squeeze the squeezing device 34, thereby to reduce the squeezing of the squeezing device for squeezing the squeezing device to squeeze the yarns after the yarns, and to squeeze the yarns, thereby facilitating the squeezing of the squeezing device to rapidly squeezing device to squeeze the squeezing device for rapidly squeezing device to squeeze the yarns.

Referring to fig. 7 and 8, three sets of heaters 40 are installed at the top of the dyeing box 2, a filter screen 41 is installed on the inner wall of each heater 40, a plurality of sets of fans 42 are fixedly installed at the bottom of the inner wall of each heater 40, an exhaust pipe 43 is installed at the output end of each fan 42, two sets of groove bodies 44 are installed on the inner wall of each heater 40, a plurality of sets of heating wires 45 are installed on the inner wall of each groove body 44, a plurality of sets of drivers 48 are installed on the inner wall of each dyeing box 2, a third protection box 49 is installed on the inner wall of each driver 48, a third motor 50 is installed on the inner wall of each third protection box 49, a threaded lead screw 51 is fixedly installed at the output end of each third motor 50, a sliding ring 52 is installed around the outer wall of each threaded lead screw 51, two sets of guide plates 53 are installed on the outer wall of each sliding ring 52, a long rod 54 is installed on the inner wall of each guide plate 53, a vent groove 55 is installed on the outer wall of each sliding ring 52, and one end of each exhaust pipe 43 extends to the outer wall of each vent groove 55, a plurality of groups of air injection holes 56 are arranged on the outer wall of the air groove 55, after the dyed yarns for spinning are dehydrated, the heating wire 45 works to generate heat to heat the groove body 44, after the groove body 44 is heated, the fan 42 works to enable the outside air to flow and enter the input end of the fan 42, after the air flows through the groove body 44, the groove body 44 can heat the air, after the air enters the fan 42, the fan 42 enables the hot air to be discharged to the inside of the exhaust pipe 43, the exhaust pipe 43 enables the wind power to enter the inside of the air groove 55, the hot air entering the inside of the air groove 55 is blown to the outside of the yarns through the air injection holes 56, the yarns can be dried, meanwhile, the output end of the third motor 50 is enabled to rotate to drive the threaded screw rod 51 to rotate, the sliding ring 52 is enabled to move when the threaded screw rod 51 rotates, the guide plate 53 is driven to vertically slide at the outer wall of the long rod 54 when the sliding ring 52 moves, can make the vertical migration position of slip ring 52, the slip ring 52 drives air channel 55 when removing and removes, can make air channel 55 carry out drying process to the position that the yarn is different when air channel 55 removes, reaches and carries out dry purpose to weaving yarn after dyeing fast, has improved work efficiency.

The dyeing device comprises the following working steps:

s1, before dyeing yarns for spinning, when a dyeing agent is proportioned, a certain amount of dye and liquid are placed in a mixing box according to dye liquor proportioning, an output end of a first motor 9 rotates to drive a stirring shaft 7 to rotate, the dye and the liquid in a mixer 3 are stirred when the stirring shaft 7 rotates to be mixed, when the dye is stirred, a heating assembly 6 works to heat the dye liquor on the inner wall of the mixer 3, the liquid is heated to a certain temperature, the dye and the liquid can be subjected to a rapid mixing reaction, in order to prevent the dye which is not melted from depositing in the mixer 3, a power supply assembly 11 is used for providing energy for a micro motor 12, the output end of the micro motor 12 rotates to drive a mixing plate 13 to rotate, when the mixing plate 13 rotates, the bottom position of the mixer 3 can be stirred, the dye deposited at the bottom of the mixer 3 can be further prevented from depositing at the bottom of the mixer 3, the purpose of the rapid mixing reaction of the dye is achieved, the working efficiency is improved, and the yarns for spinning are convenient to color the yarns for spinning;

s2, after the yarn to be dyed is placed above a supporting pipe 17, a first water pump 15 works to convey dye mixed in a mixer 3 to the inside of the supporting pipe 17 through a conveying pipe 16, the dye is discharged to the outside of the yarn through a hole 18, the yarn is dyed, the yarn drops dye liquid into a dye liquid groove 19, a second water pump 21 works to convey the dye liquid into a water flowing groove 22, the dye liquid entering the water flowing groove 22 is sprayed to the outside of the yarn again through a spray head 23 to dye the yarn, the yarn can be dyed more uniformly, the broken yarn falls into a collector 24 during dyeing of the yarn, a filter plate 20 can prevent the yarn from entering the inside of the dye liquid groove 19, when the broken yarn is collected, the output end of a first motor 28 rotates to drive a winding shaft 29 to rotate, when the winding shaft 29 rotates, the broken yarn entering the inside of the collector 24 can be wound, meanwhile, a first telescopic rod 31 works to drive a sliding frame 27 to be in a horizontal sliding position of the outer wall of a first guide rod 26, when the winding shaft 27 moves, the winding shaft 29 can drive the winding shaft 29 to move, and the winding shaft 29 can drive the winding shaft 29 to collect the broken yarn to achieve the purpose of preventing the yarn from being blocked when multiple winding shaft 29 is moved to collect the yarn, and multiple devices for blocking the textile equipment;

s3, after the textile yarns are dyed, when liquid contained in the yarns is separated, the output end of a second motor 37 is rotated to drive a two-way screw rod 35 to rotate, two groups of pressing plates 36 can move close to each other when the two-way screw rod 35 rotates, the yarns are clamped and extruded after the outer walls of the two groups of pressing plates 36 move to the outer walls of the yarns, meanwhile, a second telescopic rod 39 works to drive an extruder 34 to move, the extruder 34 drives the pressing plates 36 to move when moving, the positions of dyed yarn strips can be extruded when the pressing plates 36 move, the liquid contained in the yarn strips can be quickly separated from the yarns, the purpose of quickly reducing and dehydrating the yarns is achieved, and the dyed yarns can be conveniently processed and processed subsequently;

s4, after the dyed yarns for spinning are dehydrated, the heating wire 45 works to generate heat to heat the groove body 44, after the groove body 44 is heated, the fan 42 works to enable outside air to flow and enter the input end of the fan 42, the air flows through the groove body 44, the groove body 44 can heat the air, after the air enters the inside of the fan 42, the fan 42 enables hot air to be discharged to the inside of the exhaust pipe 43, the exhaust pipe 43 enables wind power to enter the inside of the vent groove 55, the hot air entering the inside of the vent groove 55 is blown to the outside of the yarns through the air jetting holes 56, the yarns can be dried, meanwhile, the output end of the third motor 50 rotates to drive the threaded screw rod 51 to rotate, the sliding ring 52 moves when the threaded screw rod 51 rotates, the guide plate 53 is driven to be in the vertical sliding position of the outer wall of the long rod 54 when the sliding ring 52 moves to drive the vent groove 55 to move, the vent groove 55 can be dried when the vent groove 55 moves to achieve the purpose of quickly drying the dyed yarns, and the purpose of spinning is improved.

In step S1, the method further includes the steps of:

s11, after the interior of the mixer 3 is sealed through the sealing cover 4, the dye temperature in the mixer 3 can be sealed through the heat-insulating layer 5, so that the temperature of the dye can be kept in a certain area for a long time, the dye does not need to be heated frequently, and the purpose of saving energy is achieved;

in step S3, the method further includes the steps of:

s31, when the squeezer 34 moves, the sliding ring 33 is driven to vertically slide on the outer wall of the guide rod 32, and when the sliding ring 33 moves, the squeezer 34 is guided, so that the squeezer 34 can vertically move.

The working principle is that firstly before dyeing yarns for spinning, when a dye agent is proportioned, a certain amount of dye and liquid are placed in a mixing box according to the dye liquor proportioning, the output end of a first motor 9 is rotated to drive a stirring shaft 7 to rotate, the dye and the liquid in the mixer 3 are stirred when the stirring shaft 7 rotates to be mixed, when the dye is stirred, a heating component 6 is operated to heat the dye liquor on the inner wall of the mixer 3, after the liquid is heated to a certain temperature, the dye and the liquid can be rapidly subjected to mixing reaction, in order to prevent the dye which is not melted from depositing in the mixer 3, a power supply component 11 is used for providing energy for a micro motor 12, the output end of the micro motor 12 is rotated to drive a mixing plate 13 to rotate, when the mixing plate 13 rotates, the bottom position of the mixer 3 can be stirred, the dye deposited at the bottom of the mixer 3 can be stirred, the dye can be prevented from being deposited at the bottom of the mixer 3, the purpose of fast mixing and reacting the dye is achieved, the working efficiency is improved, the textile yarns can be conveniently colored, the yarns to be dyed are placed above the supporting pipe 17, the first water pump 15 works to convey the dye mixed in the mixer 3 to the inside of the supporting pipe 17 through the conveying pipe 16 and then to be discharged to the outside of the yarns through the holes 18, the textile yarns are dyed, after the yarns drop the dye liquid into the dye liquid groove 19, the second water pump 21 works to convey the dye liquid into the water flowing groove 22, the dye liquid entering the water flowing groove 22 is sprayed to the outside of the yarns again through the spray head 23 for dyeing, the yarns can be dyed more uniformly, and the broken yarns can drop into the collector 24 during the yarn dyeing process, the filter plate 20 can prevent the yarn from entering the dye liquor tank 19, when the broken yarn is collected, the output end of the first motor 28 is rotated to drive the winding shaft 29 to rotate, when the winding shaft 29 rotates, the broken yarn entering the collector 24 can be wound, meanwhile, the first telescopic rod 31 is operated to drive the sliding frame 27 to be in the horizontal sliding position of the outer wall of the first guide rod 26, when the sliding frame 27 moves, the winding shaft 29 can be driven to move, when the winding shaft 29 moves, the yarn in different positions can be wound, the purpose of collecting the broken yarn can be achieved, the phenomenon that the textile yarn is broken too much to cause pipeline blockage inside the device can be prevented, when the textile yarn is dyed and liquid contained in the yarn is separated, the output end of the second motor 37 is rotated to drive the bidirectional screw rod 35 to rotate, and when the bidirectional screw rod 35 rotates, the two groups of pressing plates 36 can approach to move, after the outer walls of the two groups of pressing plates 36 move to the outer walls of the yarns, the yarns are clamped and extruded, meanwhile, the second telescopic rod 39 works to drive the extruder 34 to move, the extruder 34 is driven to move when moving, the dyed yarn strip positions can be extruded when the pressing plates 36 move, liquid contained in the dyed yarn strip positions can be quickly separated from the yarns, the aim of quickly reducing and dehydrating the yarns is achieved, the dyed yarns are conveniently treated and processed, after the dyed yarns for spinning are dehydrated, the heating wires 45 work to generate heat to heat the groove body 44, after the groove body 44 is heated, the fan 42 works to enable outside air to flow to enter the input end of the fan 42, after the air flows through the groove body 44, the groove body 44 can heat the air, and after the air enters the fan 42, the fan 42 discharges hot air to the inside of the exhaust pipe 43, the exhaust pipe 43 enables wind power to enter the inside of the vent groove 55, the hot air entering the inside of the vent groove 55 is blown to the outside of the yarn through the air injection holes 56, drying treatment can be carried out on the yarn, meanwhile, the output end of the third motor 50 is rotated to drive the threaded lead screw 51 to rotate, the sliding ring 52 is moved when the threaded lead screw 51 rotates, the guide plate 53 is driven to be at the vertical sliding position of the outer wall of the long rod 54 when the sliding ring 52 is moved, the sliding ring 52 is driven to be vertically moved, the vent groove 55 is driven to move when the vent groove 55 moves, drying treatment can be carried out on different positions of the yarn by the vent groove 55, the purpose of drying the dyed yarn for spinning is achieved quickly, and the working efficiency is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides an energy-saving yarn dyeing apparatus for weaving, includes bottom plate (1), blender (3), collector (24) and squeezer (34), its characterized in that: the top of the bottom plate (1) is provided with a dyeing box (2), and the inner wall of the dyeing box (2) is provided with a dye liquor groove (19);

the top of the mixer (3) is provided with a sealing cover (4), the inner wall of the mixer (3) is provided with a heat insulation layer (5), the inner wall of the mixer (3) is provided with a plurality of groups of heating assemblies (6), the inner wall of the mixer (3) is provided with a stirring shaft (7) in a penetrating manner, the bottom of the stirring shaft (7) is provided with two groups of long plates (10), and the inner wall of each long plate (10) is provided with a micro motor (12);

and a mixing plate (13) is arranged at the output end of the micro motor (12).

2. The dyeing apparatus for energy-saving yarn textile according to claim 1, characterized in that: power supply unit (11) are installed to the inner wall of mixing plate (13), and link (8) are installed to the bottom of blender (3), and motor (9) are installed to the inner wall of link (8), and the output fixed connection of the one end of (mixing) shaft (7) and motor (9).

3. The dyeing apparatus for spinning of energy-saving yarn as claimed in claim 1, wherein: protection box (14) are installed at the top of bottom plate (1), water pump (15) are installed to the inner wall of protection box (14), conveyer pipe (16) are installed to the output of water pump (15), multiunit stay tube (17) are installed to the inner wall of dyeing box (2), and the outer wall and the stay tube (17) of conveyer pipe (16) are connected, the outer wall of stay tube (17) is equipped with multiunit hole (18), filter plate (20) are installed to the inner wall of dye vat (19), water pump (21) are installed No. two to the inner wall of dye vat (19), multiunit tye (22) are installed at the inner wall top of dyeing box (2), and the output of No. two water pump (21) passes through the outer wall connection of pipeline with tye (22), multiunit shower nozzle (23) are installed to the bottom of tye (22), sealing door (46) are installed in the front of dyeing box (2), multiunit observation window (47) are installed to the outer wall of sealing door (46).

4. The dyeing apparatus for energy-saving yarn weaving as claimed in claim 3, wherein: multiunit collector (24) are installed at the top of filter plate (20), two sets of guard box (25) No. two are installed to the inner wall of collector (24), guide arm (26) are installed to the inner wall of guard box (25) No. two, carriage (27) are installed to the outer wall of guide arm (26) ring, motor (28) are installed to the outer wall of carriage (27), the output fixed mounting of motor (28) has rolling axle (29), guard box (30) are installed to the outer wall of collector (24), telescopic link (31) are installed to the inner wall of guard box (30), and the outer wall fixed connection of the one end of telescopic link (31) and carriage (27).

5. The dyeing apparatus for energy-saving yarn textile according to any one of claims 1 to 4, characterized in that: dye liquor groove (19) are the inner wall bottom fixed connection of square groove bottom and dyeing case (2), and the appearance of heat preservation (5) is cylindric to inlay installs in the inside of blender (3), and power supply unit (11) are inlayed and are installed in the inside of long board (10), and power supply unit (11) and micro motor (12) electric connection, and stay tube (17) are cylindric pipeline, the inside fixed connection of one end and dyeing case (2), and rolling axle (29) encircle for cylindric outer wall and install multiunit tooth.

6. The dyeing apparatus for energy-saving yarn textile according to claim 3, characterized in that: the inner wall of dyeing case (2) installs multiunit spout (57), guide bar (32) are installed to the inner wall of spout (57), the outer wall of guide bar (32) is encircleed and is installed sliding ring (33), squeezer (34) are installed to the outer wall of sliding ring (33), two-way lead screw (35) are installed to the inner wall of squeezer (34), the outer wall of two-way lead screw (35) is encircleed and is installed pressure applying plate (36), no. two motor (37) are installed to the outer wall of squeezer (34), and the one end of two-way lead screw (35) and the output fixed connection of No. two motor (37), no. two guard box of multiunit (38) are installed at the top of filter plate (20), no. two telescopic link (39) are installed to the inner wall of No. two guard box (38), the top of No. two telescopic link (39) and the bottom fixed connection of squeezer (34).

7. The dyeing apparatus for energy-saving yarn textile according to claim 6, characterized in that: three heater (40) of group are installed at the top of dyeing case (2), and filter screen (41) are installed to the inner wall of heater (40), and the inner wall bottom fixed mounting of heater (40) has multiunit fan (42), and exhaust pipe (43) are installed to the output of fan (42), and two sets of cell bodies (44) are installed to the inner wall of heater (40), and multiunit heater strip (45) are installed to the inner wall of cell body (44).

8. The dyeing apparatus for spinning of energy saving yarn as claimed in claim 7, wherein: multiunit driver (48) are installed to the inner wall of dyeing case (2), no. three guard box (49) are installed to the inner wall of driver (48), motor (50) No. three are installed to the inner wall of No. three guard box (49), the output fixed mounting of motor (50) No. three has screw lead screw (51), the outer wall of screw lead screw (51) encircles and installs sliding ring (52), two sets of deflector (53) are installed to the outer wall of sliding ring (52), the inner wall of deflector (53) runs through and installs stock (54), air channel (55) are installed to the outer wall of sliding ring (52), and the one end of exhaust pipe (43) extends to the outer wall of air channel (55), multiunit fumarole (56) are installed to the outer wall of air channel (55).

9. The dyeing method of the dyeing apparatus for energy-saving yarn weaving according to any one of claims 1 to 8, characterized in that the dyeing apparatus is operated as follows:

s1, firstly, before dyeing yarns for spinning, when a dyeing agent is matched, a certain amount of dye and liquid are placed in a mixing box according to dye liquor matching, then an output end of a first motor (9) is rotated to drive a stirring shaft (7) to rotate, when the stirring shaft (7) rotates, the dye and the liquid in the mixer (3) are stirred to be mixed, when the dye is stirred, a heating assembly (6) works to heat the dye liquor on the inner wall of the mixer (3), after the liquid is heated to a certain temperature, the dye and the liquid can be rapidly subjected to mixing reaction, in order to prevent unmelted dye from precipitating in the mixer (3), a power supply assembly (11) provides energy for a micro motor (12), the output end of the micro motor (12) rotates to drive the mixing plate (13) to rotate, when the mixing plate (13) rotates, the bottom position of the mixer (3) can be stirred, further the dye deposited at the bottom of the mixer (3) can be stirred, further, the dye can be prevented from being deposited at the bottom of the mixer (3), the dye can be prevented from being rapidly deposited at the bottom of the mixer, the dye reaction of the mixed yarn can be conveniently performed, and the dyeing agent can be quickly performed, so that the dyeing purpose of textile can be conveniently realized;

s2, after the yarn to be dyed is placed above a supporting pipe (17), a first water pump (15) works to convey dye mixed in a mixer (3) to the inside of the supporting pipe (17) through a conveying pipe (16), the dye is discharged to the outside of the yarn through a hole (18), the yarn for spinning is dyed, the yarn enables dye to drip into a dye solution tank (19), a second water pump (21) works to convey the dye to the inside of a water flowing groove (22), the dye entering into the water flowing groove (22) is sprayed to the outside of the yarn again through a spray head (23) to dye the yarn, the yarn can be dyed more uniformly, the broken yarn can fall into the inside of a collector (24) during dyeing of the yarn, a filter plate (20) can prevent the yarn from entering into the inside of the dye flowing groove (19), when the broken yarn is collected, the output end of a first motor (28) rotates to drive a winding shaft (29) to rotate, when the winding shaft (29) rotates, the outer wall of the broken yarn entering into the dye flowing groove (24) can drive a sliding frame (27) to move a sliding frame (27), and when the yarn collecting shaft (29) moves to a sliding frame (27), the device can prevent the pipeline inside the device from being blocked due to excessive breakage of the spinning yarns;

s3, after the yarns for spinning are dyed, when liquid contained in the yarns is separated, the output end of a second motor (37) is rotated to drive a two-way screw rod (35) to rotate, the two groups of pressing plates (36) can approach to move when the two-way screw rod (35) rotates, the outer walls of the two groups of pressing plates (36) move to the outer wall of the yarns and then clamp and extrude the yarns, meanwhile, a second telescopic rod (39) works to drive an extruder (34) to move, the extruder (34) drives the pressing plates (36) to move when moving, and the positions of dyed yarn strips can be extruded when the pressing plates (36) move, so that the liquid contained in the yarn strips can be quickly separated from the yarns, the aim of quickly reducing the dehydration of the yarns is fulfilled, and the dyed yarns can be conveniently processed and processed subsequently;

s4, after the dyed yarns for spinning are dehydrated, the heating wire (45) works to generate heat to heat the groove body (44), after the groove body (44) is heated, the fan (42) works to enable outside air to flow and enter the input end of the fan (42), after the air flows through the groove body (44), the groove body (44) can heat the air, after the air enters the fan (42), the fan (42) enables hot air to be exhausted to the inside of the exhaust pipe (43), the exhaust pipe (43) enables wind power to enter the inside of the ventilation groove (55), the hot air entering the inside of the ventilation groove (55) is blown to the outside of the yarns through the air injection holes (56), the yarns can be dried, meanwhile, the output end of the three-number motor (50) rotates to drive the screw thread (51) to rotate, the sliding ring (52) moves when the screw thread screw (51) rotates, the guiding plate (53) is driven to be in the vertical sliding position of the long rod (54) when the sliding ring (52) moves, the sliding ring (52) vertically moves when the sliding ring (52) moves, the sliding ring (52) moves to achieve the vertical sliding position, the sliding ring (52) when the sliding ring moves, the sliding ring (55) moves to be capable of the yarn for drying, and the yarn for drying, the yarn, the drying efficiency of the yarn after the yarn is improved when the yarn.

10. The dyeing method of the dyeing apparatus for energy-saving yarn weaving as claimed in claim 9, characterized in that in said step S1, the following steps are further included:

s11, after the interior of the mixer (3) is sealed through the sealing cover (4), the dye temperature in the mixer (3) can be sealed through the heat-insulating layer (5), so that the temperature of the dye can be kept in a certain area for a long time, the dye does not need to be heated frequently, and the purpose of saving energy is achieved;

in step S3, the method further includes the steps of:

s31, when the squeezer (34) moves, the sliding ring (33) is driven to vertically slide on the outer wall of the guide rod (32), and when the sliding ring (33) moves, the squeezer (34) is guided, so that the squeezer (34) can vertically move.

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