CN109737707B

CN109737707B - Chemical fiber drying device

Info

Publication number: CN109737707B
Application number: CN201811570564.3A
Authority: CN
Inventors: 徐璐玉; 章慧妍; 徐浩
Original assignee: Haian Rongxiang Chemical Fiber Co ltd
Current assignee: Haian Rongxiang Chemical Fiber Co ltd
Priority date: 2018-12-21
Filing date: 2018-12-21
Publication date: 2021-03-30
Anticipated expiration: 2038-12-21
Also published as: CN109737707A

Abstract

The invention belongs to the technical field of chemical fiber production equipment, and particularly relates to a chemical fiber drying device which comprises a conical tower body and a tower cover; the device also comprises a feed pipe, a discharge hole, an air inlet pipe, an air outlet pipe, an auxiliary unit, a motor and a controller; the controller is used for controlling the operation of the drying device; the upper part of the conical tower body is provided with a tower cover, and the side wall of the conical tower body is provided with a plurality of layers of air inlet pipes in a penetrating way; the intake pipe all with distribute on toper tower body circumferencial direction, through clockwork spring, cylinder, rope and the cooperation between the pivot, realized being rotatory under the drive of motor by tensile clockwork spring, cooperate with the toper tower body through the clockwork spring in the rotation to produce one and form an ascending vortex by high temperature gas, thereby slow down chemical fiber's falling speed greatly, make chemical fiber can stay longer time in the air, make chemical fiber by high temperature air drying more complete.

Description

Chemical fiber drying device

Technical Field

The invention belongs to the technical field of chemical fiber production equipment, and particularly relates to a chemical fiber drying device.

Background

The chemical fiber is a fiber with textile performance prepared by using a natural high molecular compound or an artificially synthesized high molecular compound as a raw material through the working procedures of preparing a spinning solution, spinning, post-treating and the like; with the global shift of chemical fiber production further to china, china has become the world's largest chemical fiber producer. The Chinese chemical fiber yield occupies more than 60% of the total global amount, and the status and the effect in the world chemical fiber industry are further improved; the post-processing of the chemical fiber also comprises the procedures of water washing, oiling, drying and the like.

Disclosure of Invention

In order to make up the defects of the prior art and solve the problems that the chemical fiber can not be dried fully because the falling speed of the chemical fiber is too high; the invention provides a chemical fiber drying device.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a chemical fiber drying device, which comprises a conical tower body and a tower cover; the device also comprises a feed pipe, a discharge hole, an air inlet pipe, an air outlet pipe, an auxiliary unit, a motor and a controller; the controller is used for controlling the operation of the drying device; the upper part of the conical tower body is provided with a tower cover, and the side wall of the conical tower body is provided with a plurality of layers of air inlet pipes in a penetrating way; the air inlet pipes are distributed in the circumferential direction of the conical tower body and used for filling high-temperature air into the conical tower body; the feeding pipes penetrate through the tower cover, and the plurality of feeding pipes are uniformly distributed in the circumferential direction of the tower cover; the auxiliary unit is arranged in the conical tower body and is used for auxiliary drying of the chemical fibers; the motor is arranged in the center of the upper side face of the tower cover and connected with the auxiliary unit, and the motor is used for providing power for the auxiliary unit; the air outlet pipe is arranged on the auxiliary unit and used for discharging high-temperature gas; two discharge ports are symmetrically arranged at the lower part of the side wall of the conical tower body; wherein the content of the first and second substances,

the auxiliary unit comprises a supporting plate, a clockwork spring, a rotating shaft, a rotating ring, a first connecting rod, a second connecting rod, a first hinge rod, a second hinge rod, a first spring, a rope, a fixed pulley, a cylinder, a sleeve, a one-way valve, a pressure release valve, a piston, a screw rod, a second spring and a winding drum; the center of the upper side surface of the supporting plate is fixedly connected with an output shaft of the motor, and a clockwork spring is arranged on the lower side surface of the supporting plate; the outer ring of the clockwork spring is fixedly connected with the supporting plate, and the inner ring of the clockwork spring is fixedly connected with the rotating shaft; the lower end of the rotating shaft is rotatably provided with a first connecting rod through a rotating ring; one end of the first hinge rod is hinged to each of two sides of the first connecting rod; the other end of the first hinge rod is hinged to one end of the second hinge rod; the other end of the second hinge rod is hinged to the second connecting rod, the second connecting rod is transversely arranged on the inner wall of the conical tower body, and the second hinge rod is connected with the first hinge rod through a first spring; the first spring is used for resetting the second hinge rod; through the matching among the first connecting rod, the second connecting rod, the first hinge rod and the second hinge rod, the second hinge rod drives the first connecting rod to move downwards when rotating downwards; the sleeve is arranged on the inner bottom wall of the conical tower body, and the cylinder is arranged on the upper side of the sleeve; the top wall of the cylinder is provided with a one-way valve and a pressure release valve respectively; the pressure release valve is communicated with the air outlet pipe and is used for releasing air in the cylinder; the one-way valve is used for filling gas in the conical tower body into the cylinder in a one-way mode; the piston is arranged on the inner wall of the cylinder in a sliding mode, the upper side face of the piston is connected with the top wall of the cylinder through a second spring, the second spring is used for resetting the piston, and one end of the screw rod is rotatably arranged on the lower side face of the piston; the other end of the screw penetrates through the bottom wall of the air cylinder to reach the inside of the sleeve and is fixedly connected with the bobbin, and the screw is used for driving the bobbin to move downwards and rotate simultaneously; the winding reel is wound and connected with one end of a rope, the other end of the rope is fixedly connected to the second hinge rod, the rope penetrates through a through hole formed in the side wall of the sleeve and is wound on the two fixed pulleys, and the rope is used for pulling the second hinge rod downwards.

Firstly, blowing high-temperature gas into the conical tower body through the gas inlet pipe, feeding through the gas inlet pipe, starting the motor, driving the support plate and the clockwork spring to rotate by the motor, and drying the chemical fibers by the high-temperature gas; along with the blowing-in of high-temperature gas, the gas in the conical tower body gradually enters the cylinder through the check valve, the pressure in the cylinder is gradually increased, the piston is pushed downwards by the gas, the screw rod is driven by the piston to drive the bobbin to rotate while moving downwards through the cooperation among the piston, the piston cylinder, the screw rod and the bobbin, so that the rope is wound on the bobbin, the rope gradually pulls the second hinge rod downwards, and the first hinge rod drives the first hinge rod to move downwards through the cooperation among the first connecting rod, the second connecting rod, the first hinge rod and the second hinge rod when the second hinge rod rotates downwards; the rotating shaft pulls the clockwork spring downwards through the matching of the first connecting rod, the rotating ring, the rotating shaft, the clockwork spring and the supporting plate, the clockwork spring is stretched to be conical, the rotating clockwork spring is matched with the conical tower body at the moment, high-temperature gas blown out from the air inlet pipe forms an upward vortex, the falling speed of chemical fibers is greatly reduced, the chemical fibers can stay in the air for a longer time, and the chemical fibers are dried more completely by high-temperature air; when the pressure in the cylinder reaches a certain degree, the gas in the cylinder is discharged out of the conical tower body through the gas outlet pipe by the pressure release valve, and the dried chemical fiber can be taken out from the discharge hole.

Preferably, the mouth of the air inlet pipe is inserted into the conical tower body in an upward inclined manner, so as to delay the falling time of the chemical fibers. The high-temperature gas blown in from the air inlet pipe can blow the chemical fibers upwards, so that the falling time of the chemical fibers is reduced, the chemical fibers can be dried by high-temperature air for a longer time, and the drying degree is increased.

Preferably, a plurality of falling holes are uniformly formed in the supporting plate, and the directions of the falling holes are irregularly arranged. When chemical fiber falls through the falling hole, the falling direction is irregular, the chemical fiber can be prevented from being accumulated together, the drying of the chemical fiber is influenced, and meanwhile, the falling hole can be prevented from being blocked due to the rising of high-temperature gas.

Preferably, an annular air bag is arranged in the through hole; the tether passes through the annular air bag. The annular air bag can be heated and expanded, so that the rope is limited and kept stable, the rope is prevented from being in direct contact friction with the sleeve, and the service life of the rope is prolonged.

Preferably, a telescopic rod is arranged on the rotating shaft; be provided with on the telescopic link and scrape the ring, scrape the ring and be used for scraping the chemical fiber of adhesion on the toper tower body inner wall down. Through scraping the cooperation between ring, telescopic link and pivot, scrape the ring and rotating on the toper tower body inner wall under the drive of pivot and sliding from top to bottom to scrape the chemical fiber of adhesion on the toper tower body inner wall, chemical fiber can be blown by the intake pipe mouth of pipe when being scraped the intake pipe mouth of pipe, carries out the drying.

Preferably, the scraping ring comprises scraping blocks and a third spring, and adjacent scraping blocks are connected through the third spring; the scraping block is fixedly connected with the telescopic rod. No. three springs are in by compression state all the time for scrape the piece and can support all the time on the inner wall of toper tower body, strike off the chemical fibre of adhesion on the toper tower body.

The invention has the following beneficial effects:

1. according to the chemical fiber drying device, the stretched spiral spring is driven to rotate by the motor through the matching of the spiral spring, the air cylinder, the rope and the rotating shaft, an upward vortex is formed by high-temperature gas through the matching of the spiral spring in rotation and the conical tower body, so that the falling speed of the chemical fiber is greatly reduced, the chemical fiber can stay in the air for a longer time, and the chemical fiber is dried more completely by the high-temperature air.

2. According to the chemical fiber drying device, the mouth of the air inlet pipe is arranged upwards, so that the blown high-temperature gas can blow the chemical fibers upwards, the falling time of the chemical fibers is reduced, the chemical fibers can be dried by the high-temperature air for a longer time, and the drying degree is increased.

3. According to the chemical fiber drying device, the scraping ring is arranged, so that the chemical fibers are driven by the rotating shaft to rotate on the inner wall of the conical tower body and slide up and down, the chemical fibers adhered to the inner wall of the conical tower body are scraped, and the chemical fibers can be blown up by the opening of the air inlet pipe when being scraped to the opening of the air inlet pipe, so that further drying is performed.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a front view of the present invention;

FIG. 2 is a front view of the spring of the present invention in a stretched condition;

FIG. 3 is a cross-sectional view of the support plate;

FIG. 4 is an enlarged view at A in FIG. 2;

FIG. 5 is a cross-sectional view B-B of FIG. 2;

in the figure: the device comprises a conical tower body 1, a tower cover 2, a feeding pipe 3, a discharging port 4, an air inlet pipe 5, an air outlet pipe 6, an auxiliary unit 7, a supporting plate 701, a clockwork spring 702, a rotating shaft 703, a rotating ring 704, a first connecting rod 705, a second connecting rod 706, a first hinged rod 707, a second hinged rod 708, a first spring 709, a rope 710, a fixed pulley 711, a cylinder 712, a sleeve 713, a one-way valve 714, a pressure release valve 715, a piston 716, a screw 717, a second spring 718, a winding drum 719, a falling hole 720, an annular air bag 721, a through hole 722, a telescopic rod 8, a scraping ring 9, a scraping block 91 and a third spring 92.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 5, the chemical fiber drying device of the present invention includes a conical tower body 1 and a tower cover 2; the device also comprises a feeding pipe 3, a discharge hole 4, an air inlet pipe 5, an air outlet pipe 6, an auxiliary unit 7, a motor and a controller; the controller is used for controlling the operation of the drying device; the upper part of the conical tower body 1 is provided with a tower cover 2, and the side wall of the conical tower body 1 is provided with a plurality of layers of air inlet pipes 5 in a penetrating way; the air inlet pipes 5 are distributed in the circumferential direction of the conical tower body 1, and the air inlet pipes 5 are used for filling high-temperature air into the conical tower body 1; the feeding pipes 3 penetrate through the tower cover 2, and the feeding pipes 3 are uniformly distributed in the circumferential direction of the tower cover 2; the auxiliary unit 7 is arranged inside the conical tower body 1, and the auxiliary unit 7 is used for auxiliary drying of chemical fibers; the motor is arranged in the center of the upper side face of the tower cover 2 and connected with the auxiliary unit 7, and the motor is used for providing power for the auxiliary unit 7; the air outlet pipe 6 is arranged on the auxiliary unit 7, and the air outlet pipe 6 is used for discharging high-temperature gas; two discharge ports 4 are symmetrically arranged at the lower part of the side wall of the conical tower body 1; wherein the content of the first and second substances,

the auxiliary unit 7 comprises a supporting plate 701, a clockwork spring 702, a rotating shaft 703, a rotating ring 704, a first connecting rod 705, a second connecting rod 706, a first hinge rod 707, a second hinge rod 708, a first spring 709, a rope 710, a fixed pulley 711, a cylinder 712, a sleeve 713, a one-way valve 714, a pressure relief valve 715, a piston 716, a screw 717, a second spring 718 and a winding drum 719; the center of the upper side face of the supporting plate 701 is fixedly connected with an output shaft of a motor, and a clockwork spring 702 is arranged on the lower side face of the supporting plate 701; the outer ring of the clockwork spring 702 is fixedly connected with the supporting plate 701, and the inner ring of the clockwork spring 702 is fixedly connected with the rotating shaft 703; the lower end of the rotating shaft 703 is rotatably provided with a first connecting rod 705 through a rotating ring 704; both sides of the first connecting rod 705 are hinged with one end of a first hinge rod 707; the other end of the first hinge rod 707 is hinged to one end of the second hinge rod 708; the other end of the second hinge rod 708 is hinged to the second connecting rod 706, the second connecting rod 706 is transversely arranged on the inner wall of the conical tower body 1, and the second hinge rod 708 is connected with the first hinge rod 707 through a first spring 709; the first spring 709 is used for resetting the second hinge rod 708; through the cooperation among the first connecting rod 705, the second connecting rod 706, the first hinge rod 707 and the second hinge rod 708, the second hinge rod 708 drives the first connecting rod 705 to move downwards when rotating downwards; the sleeve 713 is arranged on the inner bottom wall of the conical tower body 1, and the cylinder 712 is arranged on the upper side of the sleeve 713; the top wall of the cylinder 712 is respectively provided with a one-way valve 714 and a pressure relief valve 715; the pressure release valve 715 is communicated with the gas outlet pipe 6, and the pressure release valve 715 is used for releasing gas in the cylinder 712; the one-way valve 714 is used for filling gas in the conical tower body 1 into the cylinder 712 in a one-way manner; the piston 716 is arranged on the inner wall of the cylinder 712 in a sliding manner, the upper side surface of the piston 716 is connected with the top wall of the cylinder 712 through a second spring 718, the second spring 718 is used for resetting the piston 716, and the lower side surface of the piston 716 is rotatably provided with one end of a screw 717; the other end of the screw 717 penetrates through the bottom wall of the cylinder 712 to reach the inside of the sleeve 713 and is fixedly connected with the winding drum 719, and the screw 717 is used for driving the winding drum 719 to rotate while moving downwards; one end of a rope 710 is connected to the bobbin 719 in a winding manner, the other end of the rope 710 is fixedly connected to the second hinge rod 708, the rope 710 penetrates through a through hole 722 formed in the side wall of the sleeve 713 and is wound on the two fixed pulleys 711, and the rope 710 is used for pulling down the second hinge rod 708.

Firstly, high-temperature gas is blown into the conical tower body 1 through the gas inlet pipe 5, then the material is fed through the material inlet pipe 3, the motor is started, the motor drives the supporting plate 701 and the clockwork spring 702 to rotate, and the high-temperature gas blows chemical fibers to be dried; with the blowing of high-temperature gas, the gas in the conical tower body 1 gradually enters the cylinder 712 through the one-way valve 714, the pressure in the cylinder 712 gradually increases, the piston 716 is pushed downwards by the gas, and the piston 716, the cylinder of the piston 716, the screw 717 and the bobbin 719 are matched, so that the screw 717 is pushed by the piston 716 to drive the bobbin 719 to rotate while moving downwards, the rope 710 is wound on the bobbin 719, at the moment, the rope 710 gradually pulls the second hinge rod 708 downwards, and the second hinge rod 708 drives the first hinge rod 705 to move downwards when rotating downwards through the matching among the first connecting rod 705, the second connecting rod 706, the first hinge rod 707 and the second hinge rod 708; through the matching among the first connecting rod 705, the rotating ring 704, the rotating shaft 703, the clockwork spring 702 and the supporting plate 701, the rotating shaft 703 pulls the clockwork spring 702 downwards, the clockwork spring 702 is stretched to be conical, and the rotating clockwork spring 702 is matched with the conical tower body 1 at the moment, so that high-temperature gas blown out from the air inlet pipe 5 forms an upward vortex, thereby greatly slowing down the falling speed of chemical fibers, enabling the chemical fibers to stay in the air for a longer time and enabling the chemical fibers to be dried more completely by high-temperature air; when the pressure in the cylinder 712 reaches a certain level, the pressure relief valve 715 discharges the gas in the cylinder 712 out of the conical tower 1 through the gas outlet pipe 6, and the dried chemical fiber can be taken out from the discharge hole 4.

As an embodiment of the invention, the mouth of the air inlet pipe 5 is inserted into the conical tower body 1 in an upward inclined manner, so as to delay the falling time of the chemical fibers. The high-temperature gas blown in from the air inlet pipe 5 can blow the chemical fiber upwards, so that the falling time of the chemical fiber is reduced, the chemical fiber has longer time to be dried by high-temperature air, and the drying degree is increased.

As an embodiment of the present invention, a plurality of dropping holes 720 are uniformly formed in the supporting plate 701, and the directions of the dropping holes 720 are irregularly arranged. When the chemical fiber falls through the falling hole 720, the falling direction is irregular, the chemical fiber can be prevented from being accumulated together, the drying of the chemical fiber is influenced, and meanwhile, the high-temperature gas rises to avoid the blockage of the falling hole 720.

As an embodiment of the present invention, an annular air bag 721 is disposed in the through hole 722; the tether 710 passes through the annular air cell 721. The annular bladder 721 may be expanded by heat to restrain the tether 710, thereby stabilizing the tether 710 and increasing the life of the tether 710 by also avoiding direct contact friction between the tether 710 and the sleeve 713.

As an embodiment of the present invention, a telescopic rod 8 is disposed on the rotating shaft 703; be provided with on the telescopic link 8 and scrape off ring 9, scrape off ring 9 and be used for scraping off the chemical fiber of adhesion on the 1 inner wall of toper tower body. Through scraping the cooperation between ring 9, telescopic link 8 and pivot 703, scrape ring 9 and rotating on the inner wall of toper tower body 1 and sliding from top to bottom under the drive of pivot 703 to scrape the chemical fiber of adhesion on the inner wall of toper tower body 1, chemical fiber can be blown by the mouth of pipe of intake pipe 5 when being scraped the mouth of pipe of intake pipe 5, carries out the drying.

As an embodiment of the present invention, the scraping ring 9 includes scraping blocks 91 and third springs 92, and adjacent scraping blocks 91 are connected by the third springs 92; the scraping block 91 is fixedly connected with the telescopic rod 8. No. three spring 92 is in the compressed state all the time for scrape piece 91 and can support on the inner wall of toper tower body 1 all the time, strike off the chemical fibre of adhesion on the toper tower body 1.

When the device works, high-temperature gas is blown into the conical tower body 1 through the gas inlet pipe 5, then the high-temperature gas is fed through the feeding pipe 3, and the chemical fibers can be blown upwards by the high-temperature gas blown upwards through the gas inlet pipe 5, so that the falling time of the chemical fibers is reduced, the chemical fibers can be dried by high-temperature air for a longer time, and the drying degree is increased; starting a motor, driving the support plate 701 and the clockwork spring 702 to rotate by the motor, and drying the chemical fibers by high-temperature gas; with the blowing of high-temperature gas, the gas in the conical tower body 1 gradually enters the cylinder 712 through the one-way valve 714, the pressure in the cylinder 712 gradually increases, the piston 716 is pushed downwards by the gas, and the piston 716, the cylinder of the piston 716, the screw 717 and the bobbin 719 are matched, so that the screw 717 is pushed by the piston 716 to drive the bobbin 719 to rotate while moving downwards, the rope 710 is wound on the bobbin 719, at the moment, the rope 710 gradually pulls the second hinge rod 708 downwards, and the second hinge rod 708 drives the first hinge rod 705 to move downwards when rotating downwards through the matching among the first connecting rod 705, the second connecting rod 706, the first hinge rod 707 and the second hinge rod 708; through the matching among the first connecting rod 705, the rotating ring 704, the rotating shaft 703, the clockwork spring 702 and the supporting plate 701, the rotating shaft 703 pulls the clockwork spring 702 downwards, the clockwork spring 702 is stretched to be conical, at the moment, the rotating clockwork spring 702 is matched with the conical tower body 1, high-temperature gas blown out from the air inlet pipe 5 forms an upward vortex, so that the falling speed of chemical fibers is greatly reduced, the chemical fibers can stay in the air for a longer time, the chemical fibers are dried more completely by high-temperature air, the scraping ring 9 rotates and slides up and down on the inner wall of the conical tower body 1 under the driving of the rotating shaft 703, the chemical fibers adhered to the inner wall of the conical tower body 1 are scraped, and the chemical fibers can be blown up by the pipe orifice of the air inlet pipe 5 when being scraped to the pipe orifice; when the pressure in the cylinder 712 reaches a certain level, the pressure relief valve 715 discharges the gas in the cylinder 712 out of the conical tower 1 through the gas outlet pipe 6, and the dried chemical fiber can be taken out from the discharge hole 4.

The front, the back, the left, the right, the upper and the lower are all based on figure 1 in the attached drawings of the specification, according to the standard of the observation angle of a person, the side of the device facing an observer is defined as the front, the left side of the observer is defined as the left, and the like.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the scope of the present invention.

Finally, it should be pointed out that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention. All other embodiments obtained by a person skilled in the art without making any inventive step are within the scope of protection of the present invention.

Claims

1. A chemical fiber drying device comprises a conical tower body (1) and a tower cover (2); the method is characterized in that: the device also comprises a feeding pipe (3), a discharging hole (4), an air inlet pipe (5), an air outlet pipe (6), an auxiliary unit (7), a motor and a controller; the controller is used for controlling the operation of the drying device; the upper part of the conical tower body (1) is provided with a tower cover (2), and the side wall of the conical tower body (1) is provided with a plurality of layers of air inlet pipes (5) in a penetrating way; the air inlet pipes (5) are distributed in the circumferential direction of the conical tower body (1), and the air inlet pipes (5) are used for filling high-temperature air into the conical tower body (1); the feeding pipes (3) are arranged on the tower cover (2) in a penetrating mode, and the feeding pipes (3) are uniformly distributed in the circumferential direction of the tower cover (2); the auxiliary unit (7) is arranged inside the conical tower body (1), and the auxiliary unit (7) is used for auxiliary drying of the chemical fibers; the motor is arranged in the center of the upper side face of the tower cover (2), is connected with the auxiliary unit (7) and is used for providing power for the auxiliary unit (7); the air outlet pipe (6) is arranged on the auxiliary unit (7), and the air outlet pipe (6) is used for discharging high-temperature gas; two discharge ports (4) are symmetrically arranged at the lower part of the side wall of the conical tower body (1); wherein the content of the first and second substances,

the auxiliary unit (7) comprises a supporting plate (701), a spring (702), a rotating shaft (703), a rotating ring (704), a first connecting rod (705), a second connecting rod (706), a first hinged rod (707), a second hinged rod (708), a first spring (709), a rope (710), a fixed pulley (711), a cylinder (712), a sleeve (713), a one-way valve (714), a pressure release valve (715), a piston (716), a screw (717), a second spring (718) and a winding drum (719); the center of the upper side face of the support plate (701) is fixedly connected with an output shaft of the motor, and a clockwork spring (702) is arranged on the lower side face of the support plate (701); the outer ring of the clockwork spring (702) is fixedly connected with the support plate (701), and the inner ring of the clockwork spring (702) is fixedly connected on the rotating shaft (703); the lower end of the rotating shaft (703) is rotatably provided with a first connecting rod (705) through a rotating ring (704); both sides of the first connecting rod (705) are hinged with one end of a first hinge rod (707); the other end of the first hinge rod (707) is hinged to one end of the second hinge rod (708); the other end of the second hinge rod (708) is hinged to the second connecting rod (706), the second connecting rod (706) is transversely arranged on the inner wall of the conical tower body (1), and the second hinge rod (708) is connected with the first hinge rod (707) through a first spring (709); the first spring (709) is used for resetting the second hinge rod (708); through the matching among the first connecting rod (705), the second connecting rod (706), the first hinge rod (707) and the second hinge rod (708), the second hinge rod (708) drives the first connecting rod (705) to move downwards when rotating downwards; the sleeve (713) is arranged on the inner bottom wall of the conical tower body (1), and the cylinder (712) is arranged on the upper side of the sleeve (713); the top wall of the cylinder (712) is respectively provided with a one-way valve (714) and a pressure release valve (715); the pressure release valve (715) is communicated with the air outlet pipe (6), and the pressure release valve (715) is used for releasing air in the air cylinder (712); the one-way valve (714) is used for filling gas in the conical tower body (1) into the cylinder (712) in a one-way mode; the piston (716) is arranged on the inner wall of the cylinder (712) in a sliding mode, the upper side face of the piston (716) is connected with the top wall of the cylinder (712) through a second spring (718), the second spring (718) is used for resetting the piston (716), and the lower side face of the piston (716) is rotatably provided with one end of a screw rod (717); the other end of the screw (717) penetrates through the bottom wall of the air cylinder (712) to reach the inside of the sleeve (713) and is fixedly connected with the winding drum (719), and the screw (717) is used for driving the winding drum (719) to rotate while moving downwards; one end of a rope (710) is connected to the winding reel (719) in a winding mode, the other end of the rope (710) is fixedly connected to the second hinge rod (708), the rope (710) penetrates through a through hole (722) formed in the side wall of the sleeve (713) and is wound on the two fixed pulleys (711), and the rope (710) is used for pulling the second hinge rod (708) downwards;

the opening of the air inlet pipe (5) is inserted into the conical tower body (1) in an upward inclined manner and is used for delaying the falling time of the chemical fibers;

a plurality of dropping holes (720) are uniformly formed in the supporting plate (701), and the directions of the dropping holes (720) are irregularly arranged;

an annular air bag (721) is arranged in the through hole (722); the rope (710) passes through the annular air bag (721);

the rotating shaft (703) is provided with a telescopic rod (8); the telescopic rod (8) is provided with a scraping ring (9), and the scraping ring (9) is used for scraping chemical fibers adhered to the inner wall of the conical tower body (1);

the scraping ring (9) comprises scraping blocks (91) and third springs (92), and the adjacent scraping blocks (91) are connected through the third springs (92); the scraping block (91) is fixedly connected with the telescopic rod (8);

when the chemical fiber drying tower works, high-temperature gas is blown into the conical tower body (1) through the air inlet pipe (5), then the material is fed through the feeding pipe (3), the chemical fiber can be blown upwards by the high-temperature gas blown upwards through the air inlet pipe (5), so that the falling time of the chemical fiber is reduced, the chemical fiber can be dried by high-temperature air for a longer time, and the drying degree is increased; starting a motor, driving a support plate (701) and a clockwork spring (702) to rotate by the motor, and drying the chemical fibers by high-temperature gas; along with the blowing of high-temperature gas, the gas in the conical tower body (1) gradually enters a cylinder (712) through a one-way valve (714), the pressure in the cylinder (712) is gradually increased, a piston (716) is pushed downwards by the gas, through the cooperation among the piston (716), the cylinder, a screw (717) and a winding drum (719), the screw (717) drives the winding drum (719) to rotate while moving downwards under the pushing of the piston (716), so that a rope (710) is wound on the winding drum (719), at the moment, the rope (710) gradually pulls a second hinged rod (708) downwards, and through the cooperation among a first connecting rod (705), a second connecting rod (706), a first hinged rod (707) and the second hinged rod (708), the second hinged rod (708) drives the first connecting rod (705) to move downwards when rotating downwards; through the matching among the first connecting rod (705), the rotating ring (704), the rotating shaft (703), the clockwork spring (702) and the supporting plate (701), the rotating shaft (703) pulls the clockwork spring (702) downwards, the clockwork spring (702) is stretched to be conical, the rotating clockwork spring (702) is matched with the conical tower body (1) at the moment, high-temperature gas blown out from the air inlet pipe (5) forms an upward vortex, so that the falling speed of chemical fibers is greatly reduced, the chemical fibers can stay in the air for a longer time, the chemical fibers are dried by high-temperature air more completely, the scraping ring (9) rotates and slides up and down on the inner wall of the conical tower body (1) under the driving of the rotating shaft (703), the chemical fibers adhered to the inner wall of the conical tower body (1) are scraped, and the chemical fibers can be blown up by the pipe orifice of the air inlet pipe (5) when being scraped to the, further drying is carried out; when the pressure in the cylinder (712) reaches a certain degree, the gas in the cylinder (712) is discharged out of the conical tower body (1) through the gas outlet pipe (6) by the pressure release valve (715), and the dried chemical fiber can be taken out from the discharge hole (4).