CN117889632B - High-speed dryer for knitting equipment - Google Patents

Abstract

The invention relates to the technical field of dryers, and provides a high-speed dryer for knitting equipment, which comprises a box body and knitting fabrics, wherein a feed inlet and a discharge outlet for the knitting fabrics to enter and exit are formed in the side end face of the box body, sealing baffles which are symmetrically arranged up and down are arranged in the box body, and the box body is divided into a hot drying cavity and an air drying cavity through the sealing baffles. In the using process, the knitted fabric in the hot drying cavity is subjected to first hot air drying through hot air generated in the hot drying component, then is subjected to second heating through the two heating plates, then is absorbed by the dehumidifier in the air drying component to be converted into cold air, and the knitted fabric in the air drying cavity and after being heated is subjected to blow-drying and cooling through the cold air, so that the knitted fabric in a wet state can be effectively dried through the three-time drying effect, and the practicability of the dryer is improved.

Description

High-speed dryer for knitting equipment

Technical Field

The invention relates to the technical field of dryers, in particular to a high-speed dryer for knitting equipment.

Background

The raw cloth is full of moisture after being dyed, the moisture must be dried before the subsequent process flow is carried out, and the drying effect and the drying speed of the dryer on the raw cloth are related to the final productivity and the product quality.

In the prior art, chinese patent with publication number of CN214501982U discloses a kind of energy-saving high-speed dryer for knitting equipment, through the cooperation of bottom plate, the riser, the diaphragm, the locker, air heater and mobile device, make the device when using, can drive the second sheave through first motor and rotate, the belt makes first sheave and second sheave rotate simultaneously, first sheave drives first gear rotation, first gear drives the rack and moves left, the rack drives the montant and moves left, the montant drives the stock and moves left, when first gear and rack do not mesh, the spring drives the stock and moves right, and then realize the left and right movement to the air heater, and then can carry out abundant stoving to knitting equipment original paper, current energy-saving high-speed dryer for knitting equipment has been solved, can't carry out left and right movement to the air heater, and then can't carry out abundant stoving to knitting equipment original paper, and then influence the problem of stoving effect.

However, the prior art still has great disadvantages, such as:

The knitwear is required to be processed and manufactured through the knitting equipment, the knitting equipment is required to dry the knitwear after spinning is completed in the processing and manufacturing process, hot air exhausted by an air heater is adopted to dry the knitwear when the knitwear is dried, but after the knitwear is dried by hot air for a long time, the knitwear is in a wrinkled and fluffy state, so that the quality of the knitwear is affected, and the knitwear can be controlled not to be dried by hot air for a long time, but the drying effect of the knitwear cannot be guaranteed.

Disclosure of Invention

The present invention is directed to a high-speed dryer for knitting equipment, which solves the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The high-speed dryer for the knitting equipment comprises a box body and knitting fabrics, wherein a feed inlet and a discharge outlet for the knitting fabrics to enter and exit are formed in the side end face of the box body;

the inside of the box body is provided with sealing baffles which are arranged symmetrically up and down, the box body is divided into a hot dry cavity and an air dry cavity through the sealing baffles, a hot dry component is arranged in the hot dry cavity, and the knitted fabric is dried for the first time through the hot dry component;

Symmetrically arranged heating rods are arranged between the two sealing baffles, the knitted fabric is positioned between the two heating rods, and the second drying of the knitted fabric is realized through the two heating rods;

An air drying assembly is arranged in the air drying cavity, and the knitted fabric is dried for the third time through the air drying assembly;

the inside of the hot drying cavity and the inside of the air drying cavity are respectively provided with a vibration component, and the knitted fabric is in a wave motion state through the vibration components, so that the knitted fabric cannot be wrinkled after being dried;

The vibration assembly consists of an inflation assembly and a pushing assembly, the inflation assembly comprises a positioning transverse plate and a fixing transverse plate which are arranged on the box body, an electric push rod is fixedly arranged on the positioning transverse plate, and a lifting plate is fixedly arranged at the output end of the electric push rod;

the fixed transverse plate is fixedly provided with an inflator, the inflator is movably provided with a lifting rod, and one end of the lifting rod, which is far away from the inflator, is arranged on the lifting plate.

Preferably, the hot-air drying assembly comprises a support fixed plate, the support fixed plate is arranged on the box body, an air heater is fixedly arranged on the support fixed plate, the output end of the air heater is fixedly communicated with a connecting pipe, one end of the connecting pipe, which is far away from the air heater, is provided with a first flow guiding assembly, and the air heater blows hot air into the hot-air drying cavity to be uniformly blown onto the knitted fabric through the first flow guiding assembly.

Preferably, the air drying assembly comprises a dehumidifier installed on the box body, the input end of the dehumidifier is fixedly communicated with a first through pipe, the output end of the dehumidifier is fixedly communicated with a second through pipe, one end of the second through pipe, which is far away from the dehumidifier, is provided with a second flow guiding assembly, and cold air exhausted by the dehumidifier is blown into the air drying hot cavity through the second flow guiding assembly and uniformly blows onto the knitted fabric.

Preferably, the structure of the first diversion component and the structure of the second diversion component are the same, the first diversion component comprises two diversion pipes which are symmetrically arranged up and down and are rotatably arranged in the box body through a rotating shaft, the positions of the two diversion pipes are respectively located above and below the knitted fabric, the lower end face of the diversion pipe is communicated with an exhaust passage, a telescopic hose is communicated with the diversion pipe, and one end of the telescopic hose, far away from the diversion pipe, is communicated with the connecting pipe.

Preferably, the pushing assembly comprises a mounting cylinder mounted in the box body, a sliding block is slidably mounted in the mounting cylinder, a spring is fixedly mounted on the lower end face of the sliding block, one end, away from the sliding block, of the spring is mounted at the inner bottom of the mounting cylinder, a lifting ejector rod is fixedly mounted on the upper end face of the sliding block, and one end, away from the sliding block, of the lifting ejector rod extends to the outside of the mounting cylinder;

The mounting cylinder is communicated with a vent pipe, one end of the vent pipe, which is far away from the mounting cylinder, is communicated with the air outlet of the inflator, and a plurality of air delivery pipes are arranged on the vent pipe.

Preferably, the mounting cylinder is communicated with an exhaust pipe, and a pressure valve is mounted on the exhaust pipe.

Preferably, the lower end surface of the lifting plate is fixedly provided with a reciprocating rod, the reciprocating rod is fixedly provided with a driving tooth block, the rotating shaft is fixedly provided with a driven gear, the driving tooth block is meshed with the driven gear, and the driving tooth block drives the driven gear to swing through the reciprocating motion of the lifting rod, so that the flow guide pipe is driven to swing in the box body.

Preferably, sealing curtains which are arranged symmetrically up and down are arranged on the feeding hole and the discharging hole, and the position of the knitted fabric is located between the two sealing curtains.

Preferably, the one end that the axis of rotation kept away from the honeycomb duct is installed and is firm board, firm board installs the lateral surface at the box.

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

1. According to the invention, the knitted fabric in the hot drying cavity is subjected to first hot air drying through hot air generated in the hot drying component, then the knitted fabric is subjected to second heating through the two heating rods, then the vapor generated in the hot drying cavity is absorbed through the dehumidifier in the air drying component to be converted into cold air, the knitted fabric in the air drying cavity and heated is subjected to blow-drying and cooling through the cold air, and the knitted fabric in a wet state can be effectively dried through the three drying effects, so that the practicability of the dryer is improved;

2. According to the invention, the air flow generated by the inflator in the inflator assembly enters the mounting cylinder, the sliding block is pressed downwards by the increase of the air pressure in the mounting cylinder, when the air pressure in the mounting cylinder reaches a specified value, the air pressure in the mounting cylinder can be directly discharged by the instant opening of the pressure valve on the exhaust pipe, the sliding block in the mounting cylinder can instantly drive the lifting ejector rod to beat the knitted fabric through the elastic force of the spring, and when the knitted fabric is in a continuous beating process, the knitted fabric can be in a wave motion state, so that the knitted fabric has better effect when being dried by hot air or cold air;

3. According to the invention, when the electric push rod in the inflating assembly drives the lifting plate to reciprocate, the lifting rod drives the rotating shaft to rotate back and forth through the driving tooth block on the lifting rod and the driven gear on the rotating shaft, and then the rotating shaft synchronously drives the flow guide pipe to rotate, so that the flow guide pipe is in a back and forth swinging state, and air flow discharged by the flow guide pipe in the back and forth swinging state through the exhaust channel can be uniformly blown onto the knitted fabric, and the effects of hot air drying and cold air drying are further improved.

Drawings

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

FIG. 2 is a schematic diagram of the whole structure of the present invention;

FIG. 3 is a schematic view showing the internal structure of the case according to the present invention;

FIG. 4 is a schematic view of the structure of the heat drying assembly and the air drying assembly according to the present invention;

FIG. 5 is a schematic diagram of a vibration assembly according to the present invention;

Fig. 6 is a schematic view showing the internal structure of the mounting cylinder in the present invention.

In the figure: 1. a case; 2. knitting fabric; 3. a feed inlet; 4. a discharge port; 5. a sealing baffle; 6. a hot dry chamber; 7. air-drying the cavity; 8. a heating rod; 9. a bracket fixing plate; 10. an air heater; 11. a connecting pipe; 12. a dehumidifier; 13. a first through pipe; 14. a second through pipe; 15. a rotating shaft; 16. a flow guiding pipe; 17. a flexible hose; 18. positioning a transverse plate; 19. fixing the transverse plate; 20. an electric push rod; 21. a lifting plate; 22. an inflator; 23. a lifting rod; 24. a mounting cylinder; 25. a sliding block; 26. a spring; 27. lifting the ejector rod; 28. a vent pipe; 29. a gas pipe; 30. an exhaust pipe; 31. a pressure valve; 32. a reciprocating lever; 33. a driving tooth block; 34. a driven gear; 35. a sealing curtain; 36. a stabilizing plate; 37. an exhaust passage.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution:

example 1

Referring to fig. 1-3, a high-speed dryer for knitting equipment includes a box 1 and a knitted fabric 2, wherein a corresponding controller can be installed on the box 1, and electric elements on the box 1 are controlled by the controller, the technology is well known to those skilled in the art, and not specifically described herein, a feed inlet 3 and a discharge outlet 4 for the knitted fabric 2 to enter and exit are formed on the side end surface of the box 1, sealing curtains 35 which are symmetrically arranged up and down are arranged on the feed inlet 3 and the discharge outlet 4, hot air flow in a hot drying cavity 6 can be prevented from flowing out of the box 1 through the sealing curtains 35, heat energy consumption is avoided, and the position of the knitted fabric 2 is located between the two sealing curtains 35;

The inside of the box body 1 is provided with sealing baffles 5 which are vertically and symmetrically arranged, the box body 1 is divided into a hot drying cavity 6 and an air drying cavity 7 through the sealing baffles 5, a hot drying component is arranged in the hot drying cavity 6, the knitted fabric 2 is dried for the first time through the hot drying component, the hot drying component comprises a support fixed plate 9, the support fixed plate 9 is arranged on the box body 1, a hot air blower 10 is fixedly arranged on the support fixed plate 9, the output end of the hot air blower 10 is fixedly communicated with a connecting pipe 11, one end of the connecting pipe 11, far away from the hot air blower 10, is provided with a diversion component I, and hot air blown into the hot drying cavity 6 by the hot air blower 10 is uniformly blown onto the knitted fabric 2 through the diversion component I;

Symmetrically arranged heating rods 8 are arranged between the two sealing baffles 5, the upper end face and the lower end face of the knitted fabric 2 can be heated and dried through the heating rods 8, the knitted fabric 2 is wrinkled and fluffy due to hot air drying can be ironed through the heating rods 8, the knitted fabric 2 is positioned between the two heating rods 8, and the knitted fabric 2 is dried for the second time through the two heating rods 8;

An air drying assembly is arranged in the air drying cavity 7, the third drying of the knitted fabric 2 is realized through the air drying assembly, the air drying assembly comprises a dehumidifier 12 arranged on the box body 1, the damp air in the hot drying cavity 6 is pumped out through the dehumidifier 12, the drying in the hot drying cavity 6 is ensured, the input end of the dehumidifier 12 is fixedly communicated with a first through pipe 13, the output end of the dehumidifier 12 is fixedly communicated with a second through pipe 14, one end of the second through pipe 14, which is far away from the dehumidifier 12, is provided with a flow guide assembly II, and cold air discharged by the dehumidifier 12 is blown into the hot air drying cavity through the flow guide assembly II to be uniformly blown onto the knitted fabric 2;

The structure of the first diversion component and the structure of the second diversion component are the same, the first diversion component comprises two diversion pipes 16 which are symmetrically arranged up and down and are rotatably arranged in the box body 1 through a rotating shaft 15, a stabilizing plate 36 is arranged at one end of the rotating shaft 15, which is far away from the diversion pipes 16, the stabilizing plate 36 is arranged on the outer side surface of the box body 1, the shape of the stabilizing plate 36 is L-shaped, the positions of the two diversion pipes 16 are respectively located above and below the knitted fabric 2, the lower end surface of the diversion pipes 16 are communicated with an exhaust passage 37, the exhaust passage 37 is a square through pipe, a telescopic hose 17 is communicated with the diversion pipes 16, the circulation of air flow of the diversion pipes 16 in the swinging process is guaranteed through the telescopic hose 17, and one end, which is far away from the diversion pipes 16, of the telescopic hose 17 is communicated with the connecting pipe 11.

In this embodiment, the knitted fabric 2in the hot drying cavity 6 is dried by hot air generated in the hot drying component by first hot air, the knitted fabric 2 is heated by two heating rods 8 by second heat, then the vapor generated in the hot drying cavity 6 is absorbed by the dehumidifier 12 in the air drying component to be converted into cold air, the knitted fabric 2in the air drying cavity 7 and heated by cold air is dried and cooled, and the knitted fabric 2in a moist state can be effectively dried by three drying effects, so that the practicability of the dryer is improved.

Example two

Referring to fig. 1-2 and 5-6, in order to avoid the situation that the dried knitted fabric 2 is wrinkled and is dried unevenly on the basis of the first embodiment, vibration components are used for avoiding the phenomenon, vibration components are arranged in the hot drying cavity 6 and the air drying cavity 7, the knitted fabric 2 is in a wave motion state through the vibration components, and the phenomenon that the knitted fabric 2 is wrinkled after being dried is avoided;

The vibration assembly consists of an inflation assembly and a pushing assembly, the inflation assembly comprises a positioning transverse plate 18 and a fixed transverse plate 19 which are arranged on the box body 1, an electric push rod 20 is fixedly arranged on the positioning transverse plate 18, a lifting plate 21 is fixedly arranged at the output end of the electric push rod 20, an inflator 22 is fixedly arranged on the fixed transverse plate 19, the inner structure of the inflator 22 is the same as that of the inflator 22 in the prior art, the technology is well known to the person in the art, a detailed description is omitted here, a lifting rod 23 is movably arranged on the inflator 22, a movable piston is arranged in the inflator 22, the piston synchronously moves through the movement of the lifting rod 23, and one end, far away from the inflator 22, of the lifting rod 23 is arranged on the lifting plate 21;

The pushing assembly comprises a mounting cylinder 24 mounted in the box body 1, an exhaust pipe 30 is communicated with the mounting cylinder 24, a pressure valve 31 is mounted on the exhaust pipe 30, a sliding block 25 is mounted in the mounting cylinder 24 in a sliding mode, a spring 26 is fixedly mounted on the lower end face of the sliding block 25, one end of the spring 26, which is far away from the sliding block 25, is mounted at the inner bottom of the mounting cylinder 24, a lifting ejector rod 27 is fixedly mounted on the upper end face of the sliding block 25, one end, which is far away from the sliding block 25, of the lifting ejector rod 27 extends to the outside of the mounting cylinder 24, an air pipe 28 is communicated with the mounting cylinder 24, one end, which is far away from the mounting cylinder 24, of the air pipe 28 is communicated with an air outlet of the inflator 22, a plurality of air pipes 29 are mounted on the air pipe 28, and part of air flows generated by the inflator pipe 29 through the air pipes 22 to blow hot air in the hot air cavity 6 and the air drying cavity 7, so that the drying effect of the knitted fabric 2 is improved.

In this embodiment, the air flow generated by the inflator 22 in the inflator assembly enters the installation cylinder 24, the installation cylinder 24 is internally pressed down by the sliding block 25 through the increase of the air pressure, when the air pressure in the installation cylinder 24 reaches a specified value, the pressure valve 31 on the exhaust pipe 30 is instantly opened to directly discharge the air pressure in the installation cylinder 24, the sliding block 25 in the installation cylinder 24 instantly drives the lifting ejector rod 27 to hit the knitted fabric 2 through the elastic force of the spring 26, and when the knitted fabric 2 is in a continuous hitting process, the knitted fabric 2 is in a wave motion state, so that the knitted fabric 2 has better effect when being dried by hot air or cold air.

Example III

Referring to fig. 1-2 and fig. 5, in order to make the air exhausted from the air drying component and the air drying component through the air guiding pipe 16 blow onto the knitted fabric 2 uniformly, the effect is achieved by the engagement of the driving gear block 33 and the driven gear 34, the lower end surface of the lifting plate 21 is fixedly provided with the reciprocating rod 32, the driving gear block 33 is fixedly provided on the reciprocating rod 32, the driven gear 34 is fixedly provided on the rotating shaft 15, the driving gear block 33 is engaged with the driven gear 34, and the driving gear block 33 drives the driven gear 34 to swing through the reciprocating motion of the lifting rod 23, so as to drive the air guiding pipe 16 to swing in the box 1.

In this embodiment, when the electric push rod 20 in the air pumping assembly drives the lifting plate 21 to lift reciprocally, the lifting rod 23 drives the rotating shaft 15 to rotate back and forth through the driving gear block 33 on the lifting rod 23 and the driven gear 34 on the rotating shaft 15, and then the rotating shaft 15 synchronously drives the flow guide tube 16 to rotate, so that the flow guide tube 16 is in a back and forth swinging state, and the air flow discharged from the flow guide tube 16 in the back and forth swinging state through the air discharge channel 37 can be uniformly blown onto the knitted fabric 2, so that the effects of hot air drying and cold air drying are further improved.

Working principle:

When the novel hot air dryer is used, the knitted fabric 2 passes through the feed port 3 and the discharge port 4 of the box body 1 through the conventional conveying rollers, when the knitted fabric 2 passes through the hot air dryer cavity 6, hot air generated by the hot air dryer 10 can be introduced into the telescopic hose 17 through the connecting pipe 11 by hot air generated by the hot air dryer 10, hot air in the telescopic hose 17 can directly enter the guide pipe 16, and hot air can be directly blown onto the knitted fabric 2 through the exhaust passage 37 on the guide pipe 16, so that the knitted fabric 2 is dried for the first time;

When the knitted fabric 2 after the first drying passes through the two heating rods 8, the knitted fabric 2 is heated by the two heating rods 8, and the position where the knitted fabric 2 is wrinkled and fluffy due to hot air drying is ironed by the heating rods 8, so that the knitted fabric 2 is dried for the second time;

The wet air in the hot dry cavity 6 is pumped out through the first through pipe 13 by the dehumidifier 12, cold air exhausted by the dehumidifier enters the telescopic hose 17 through the second through pipe 14, cold air in the telescopic hose 17 enters the guide pipe 16, and the cold air is directly blown onto the knitted fabric 2 through the exhaust channel 37 on the guide pipe 16, so that third drying of the knitted fabric 2 is realized;

In the process of drying the knitted fabric 2, the lifting plate 21 is driven to lift by the electric push rod 20, the lifting plate 21 drives the piston on the lifting rod 23 to move in the inflator 22, gas generated by the inflator 22 enters the installation cylinder 24 through the vent pipe 28, when the air pressure in the installation cylinder 24 is increased, the sliding block 25 in the installation cylinder 24 downwards presses the spring 26, when the pressure in the installation cylinder 24 reaches a specified value, the pressure valve 31 on the exhaust pipe 30 is opened, the air pressure in the inner cavity of the installation cylinder 24 is instantly discharged, the sliding block 25 instantly drives the lifting push rod 27 to hit the knitted fabric 2 through the elastic force of the spring 26, and when the knitted fabric 2 is in a continuous hitting process, the knitted fabric 2 is in a wave motion state, so that the knitted fabric 2 has better effect when being dried by hot air or cold air;

When the electric push rod 20 drives the lifting plate 21 to reciprocate, the lifting plate 21 can drive the lifting rod 23 to reciprocate synchronously, the driving tooth block 33 on the lifting rod 23 is meshed with the driven gear 34 on the rotating shaft 15, the lifting rod 23 can drive the rotating shaft 15 to be in a state of rotating back and forth, and the rotating shaft 15 synchronously drives the guide pipe 16 to rotate, so that the guide pipe 16 is in a state of swinging back and forth, and air flow exhausted by the guide pipe 16 in a state of swinging back and forth through the exhaust channel 37 can be uniformly blown onto the knitted fabric 2, and the effects of hot air drying and cold air drying are further improved.

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

Claims (5)

1. The utility model provides a knitting equipment is with high-speed drying-machine, includes box (1) and knitted fabric (2), its characterized in that: a feed inlet (3) and a discharge outlet (4) for the knitted fabric (2) to enter and exit are formed in the side end face of the box body (1);

The inside of the box body (1) is provided with sealing baffles (5) which are arranged symmetrically up and down, the box body (1) is divided into a hot drying cavity (6) and an air drying cavity (7) through the sealing baffles (5), a hot drying component is arranged in the hot drying cavity (6), and the knitted fabric (2) is dried for the first time through the hot drying component;

Heating rods (8) which are symmetrically arranged are arranged between the two sealing baffles (5), the knitted fabric (2) is positioned between the two heating rods (8), and the knitted fabric (2) is dried for the second time through the two heating rods (8);

An air drying assembly is arranged in the air drying cavity (7), and the knitted fabric (2) is dried for the third time through the air drying assembly;

The inside of the hot drying cavity (6) and the inside of the air drying cavity (7) are respectively provided with a vibration component, and the knitted fabric (2) is in a wave motion state through the vibration components, so that the knitted fabric (2) cannot be wrinkled after being dried;

The vibration assembly consists of an inflation assembly and a pushing assembly, the inflation assembly comprises a positioning transverse plate (18) and a fixed transverse plate (19) which are arranged on the box body (1), an electric push rod (20) is fixedly arranged on the positioning transverse plate (18), and a lifting plate (21) is fixedly arranged at the output end of the electric push rod (20);

an inflator (22) is fixedly arranged on the fixed transverse plate (19), a lifting rod (23) is movably arranged on the inflator (22), and one end, far away from the inflator (22), of the lifting rod (23) is arranged on the lifting plate (21);

The hot-air drying assembly comprises a support fixed plate (9), the support fixed plate (9) is arranged on the box body (1), a hot air blower (10) is fixedly arranged on the support fixed plate (9), the output end of the hot air blower (10) is fixedly communicated with a connecting pipe (11), one end, far away from the hot air blower (10), of the connecting pipe (11) is provided with a first flow guiding assembly, and hot air blown into a hot-air drying hot cavity by the hot air blower (10) is uniformly blown onto the knitted fabric (2) through the first flow guiding assembly;

The air drying assembly comprises a dehumidifier (12) arranged on the box body (1), a first through pipe (13) is fixedly communicated with the input end of the dehumidifier (12), a second through pipe (14) is fixedly communicated with the output end of the dehumidifier (12), a second flow guiding assembly is arranged at one end, far away from the dehumidifier (12), of the second through pipe (14), and cold air exhausted by the dehumidifier (12) is blown into an air drying hot cavity through the second flow guiding assembly and uniformly blown onto the knitted fabric (2);

the structure of the first diversion component is the same as that of the second diversion component, the first diversion component comprises two diversion pipes (16) which are symmetrically arranged up and down and are rotatably arranged in the box body (1) through a rotating shaft (15), the positions of the two diversion pipes (16) are respectively positioned above and below the knitted fabric (2), the lower end face of the diversion pipe (16) is communicated with an exhaust channel (37), the diversion pipe (16) is communicated with a telescopic hose (17), and one end of the telescopic hose (17) far away from the diversion pipe (16) is communicated with a connecting pipe (11);

The lifting device is characterized in that a reciprocating rod (32) is fixedly arranged on the lower end face of the lifting plate (21), a driving tooth block (33) is fixedly arranged on the reciprocating rod (32), a driven gear (34) is fixedly arranged on the rotating shaft (15), the driving tooth block (33) is meshed with the driven gear (34), and the driving tooth block (33) drives the driven gear (34) to swing through the reciprocating motion of the lifting rod (23) so as to drive the flow guide pipe (16) to swing in the box body (1).

2. The high-speed dryer for knitting equipment according to claim 1, characterized in that: the pushing assembly comprises a mounting cylinder (24) mounted in the box body (1), a sliding block (25) is slidably mounted in the mounting cylinder (24), a spring (26) is fixedly mounted on the lower end face of the sliding block (25), one end, far away from the sliding block (25), of the spring (26) is mounted at the inner bottom of the mounting cylinder (24), a lifting ejector rod (27) is fixedly mounted on the upper end face of the sliding block (25), and one end, far away from the sliding block (25), of the lifting ejector rod (27) extends to the outside of the mounting cylinder (24);

The mounting cylinder (24) is communicated with a vent pipe (28), one end, away from the mounting cylinder (24), of the vent pipe (28) is communicated with the air outlet of the inflator (22), and a plurality of air delivery pipes (29) are arranged on the vent pipe (28).

3. The high-speed dryer for knitting equipment according to claim 2, characterized in that: an exhaust pipe (30) is communicated with the mounting cylinder (24), and a pressure valve (31) is mounted on the exhaust pipe (30).

4. The high-speed dryer for knitting equipment according to claim 1, characterized in that; sealing curtains (35) which are arranged symmetrically up and down are arranged on the feeding hole (3) and the discharging hole (4), and the position of the knitted fabric (2) is located between the two sealing curtains (35).

5. The high-speed dryer for knitting equipment according to claim 1, characterized in that; one end of the rotating shaft (15) far away from the guide pipe (16) is provided with a stabilizing plate (36), and the stabilizing plate (36) is arranged on the outer side surface of the box body (1).