CN211872330U

CN211872330U - Get rid of and take off extrusion formula sweater leveling mechanism

Info

Publication number: CN211872330U
Application number: CN201922431251.6U
Authority: CN
Inventors: 陈克勇
Original assignee: Anhui Jingwei Textile And Garments Co ltd
Current assignee: Anhui Jingwei Textile And Garments Co ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-11-06
Anticipated expiration: 2029-12-30

Abstract

The utility model discloses a throwing and removing extrusion type sweater leveling mechanism, which comprises a throwing and removing cylinder, wherein the bottom wall of the throwing and removing cylinder is sleeved with a rotating shaft through a bearing seat, the rotating shaft is provided with a driving blade, a wind shielding bottom plate, a clothes hanging bottle body, a fan blade and a smooth shaft sleeve, the clothes hanging bottle body is provided with a liquid storage tank, a ventilation inclined hole, a semicircular bump and a hanging arm short pipe, the smooth shaft sleeve is provided with a screw rod and a wind shielding top plate, and the screw rod is provided with a threaded pipe body and a; the throwing cylinder is provided with an exhaust chimney, a liquid discharge pipe, an air inlet pipe, a water vapor inlet pipe and a sealing door. The utility model generates external airflow pressure to the sweater by the transverse pressure and temperature gradient generated by high-speed vortex airflow for the first time, and generates internal airflow pressure to the sweater by the rotation of the fan blades, thereby forming a bidirectional airflow extrusion type hot ironing mode of throwing and removing extrusion; the bidirectional airflow squeezing ironing mode has the advantages that the mechanical friction is reduced to the minimum, the damage to the sweater is greatly reduced, and a new theoretical and structural support is provided for machine washing of wool fabrics such as the sweater and the like.

Description

Get rid of and take off extrusion formula sweater leveling mechanism

Technical Field

The utility model relates to a sweater production aftertreatment technical field especially relates to a get rid of and take off extrusion formula sweater leveling mechanism.

Background

The knitting structure, knitting density and microscopic state of internal fiber of the wool fabric (such as sweater) are determined along with the setting in the production process, and the setting treatment before leaving a factory is very important for the wool fabric.

Because the woolen yarns of the sweater cannot be ironed by heat, the existing sizing treatment mode generally comprises the following steps: 1) steaming at 80-90 deg.C with hot steam, 2) quickly drying with hot air at about 100 deg.C to semi-dry, and 3) naturally drying with micro-airflow. Especially, the speed of the last step of natural drying is difficult to control, so that the sweater is shaped inaccurately, and hidden troubles are buried for products. The phenomenon that part of the existing sweater is firstly hardened, wrinkles are generated, even the sweater is deteriorated and the like is also a disadvantage that the existing sweater product in the same batch is used for the same time.

Therefore, there is a need for an improvement in the manner in which existing wool fabrics are shaped.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a throwing and removing extrusion type sweater leveling mechanism.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a throwing-off extrusion type sweater leveling mechanism comprises a throwing-off cylinder, wherein the throwing-off cylinder is a vertical cylinder with the upper end and the lower end both sealed, the outer side wall of the throwing-off cylinder is connected with a sealing door through a hinge, the center of the bottom wall of the throwing-off cylinder is provided with a bearing seat, the bearing seat is sleeved with a rotating shaft, the rotating shaft is positioned in the throwing-off cylinder, the rotating shaft is sequentially sleeved with a driving blade, a wind shielding bottom plate, a clothes hanging bottle body and a smooth shaft sleeve from bottom to top, the driving blade is specifically a special-shaped sheet shape consisting of two right-angle edges and a spline curve, the two right-angle edges of the driving blade are respectively welded with the rotating shaft and the wind shielding bottom plate in a sealing mode, the wind shielding bottom plate is specifically a circular plate, the center of the;

the clothes hanging bottle body is in an inverted wine bottle shape, the bottom and the top of the clothes hanging bottle body are both in sealed sleeve joint with the rotating shaft, the bottom of the clothes hanging bottle body and the rotating shaft form a liquid storage tank, the side wall of the clothes hanging bottle body, which is positioned above the liquid storage tank, is provided with air-permeable inclined holes at equal intervals, the outer side wall of the clothes hanging bottle body, which is positioned above the liquid storage tank, is paved with semicircular convex points, the position of the rotating shaft, which is positioned above the liquid storage tank, is paved with fan blades, the fan blades are all positioned in the clothes hanging bottle body, the top of the outer side wall of the clothes hanging bottle body is provided with a threaded groove, a short hanging arm pipe is sleeved in the threaded groove, one end, which is sleeved in the threaded groove, is provided with an external thread, one end, which is far;

the top end of the rotating shaft is provided with a shaft shoulder part, the shaft shoulder part of the rotating shaft is clamped at the lower part of the smooth shaft sleeve, the inner wall of the upper part of the smooth shaft sleeve is provided with a thread groove, the upper part of the smooth shaft sleeve is sleeved with a screw rod through threads, the outer ring of the smooth shaft sleeve is fixedly sleeved with a wind shielding top plate, the wind shielding top plate is also a circular plate, the distance between the periphery of the wind shielding top plate and the inner wall of the spin-off cylinder is 3-5cm, the upper surface of the wind shielding top plate is fixedly connected to the top wall of the spin-off cylinder through a spring, the central position of the top wall of the spin-off cylinder is fixedly;

an exhaust chimney is further arranged on the top wall of the throwing-off cylinder, and an opening at the bottom end of the exhaust chimney, which is positioned inside the throwing-off cylinder, is positioned right above the middle part of the wind shielding top plate;

the bottom wall of the side wall of the throwing-off cylinder is provided with a liquid discharge pipe which is communicated with a liquid collecting barrel, an air inlet pipe is arranged above the liquid discharge pipe, the air inlet pipe extends into the surface of the driving blade, the outlet of one end of the air inlet pipe in the throwing-off cylinder is obliquely upward, an included angle between the air flow direction of one end of the air inlet pipe extending into the throwing-off cylinder and the surface of the driving blade is 45-75 degrees, one end of the air inlet pipe extending out of the throwing-off cylinder is connected with an air pump machine, the air pump machine is connected with an air heater through a pipeline, a steam inlet pipe is arranged above the air inlet pipe, the outlet of one end of the steam inlet pipe extending into the throwing-off cylinder is horizontal and faces the surface of the driving blade, the included angle between the air flow direction of one end of the steam inlet pipe extending into the throwing-off cylinder and the surface of the driving blade is 45-75 degrees, one end of the steam inlet pipe extending out of the throwing-.

Preferably, the four sides of sealing door and the opening part of getting rid of and taking off a section of thick bamboo lateral wall all fill up and are equipped with the sealing rubber circle, get rid of and take off a section of thick bamboo and sealing door and be vacuum intermediate layer stainless steel construction, adopt more sealed insulation construction, make the air current from getting rid of and taking off bobbin base portion to leading to the top, make main high-speed vortex air current along getting rid of and taking off a section of thick bamboo inside walking, form and be close torrent phenomenon, thereby produce horizontal pressure and temperature gradient, transversely get rid of with the flabellum production and take off power and join, thereby produce two-way air current extrusion to the sweater, this point is.

Preferably, the liquid storage tank at the bottom of the clothes hanging bottle body is filled with 5% acetic acid aqueous solution or 30% ammonia aqueous solution, then the sweater is placed in the throwing-off cylinder of the utility model, the sweater must be treated with finishing processes of finishing agent soaking or dipping, detergent cleaning and water rinsing, the wet sweater absorbing part of the finishing agent is obtained after finishing, then according to the components of the finishing agent, acidic acetic acid aqueous solution or alkaline ammonia aqueous solution is added in the liquid storage tank in advance to neutralize the alkaline or acidic cost of the finishing agent, thereby avoiding the pH value of the sweater fiber from being changed violently due to the failure of the components of the subsequent finishing agent, therefore, the treatment of the utility model belongs to the last step of setting treatment of the sweater and aims to eliminate all unfavorable factors which are easy to be changed by environment, so that the microstructure of the cellulose can not be changed reversibly after setting, and the timeliness of shaping is ensured.

Preferably, the fan blades are vertically arranged rectangular sheets, when the air flow in the air inlet pipe or the water vapor inlet pipe blows the driving blades to rotate at a high speed, the rotating shaft and the fan blades on the rotating shaft are driven to rotate, the fan blades are vertically arranged, so that the fan blades directly blow the sweater outside the clothes hanging bottle body, the blowing direction is a horizontal throwing-off force direction, and the air flow is thrown onto the sweater in a centrifugal force direction through the air-permeable inclined holes; on the other hand, the high-speed rotation of the driving blade also drives the air below the wind shielding bottom plate to generate a vortex effect, vortex-shaped airflow is blown to the upper part of the wind shielding bottom plate along the periphery of the wind shielding bottom plate and an annular space of the inner wall of the spin-off cylinder, so that the airflow pressure at the inner wall of the spin-off cylinder is far greater than the airflow pressure outside the clothes hanging bottle body, the airflow direction inside the clothes hanging bottle body is opposite to the airflow direction outside the clothes hanging bottle body, and the internal airflow and the external airflow are converged on the sweater, so that the squeezing effect of two airflows is realized, and then the centrifugal spin-off of the sweater is matched; the bidirectional airflow squeezing ironing mode has the advantages that the mechanical friction is reduced to the minimum, the damage to the sweater is greatly reduced, and a new theoretical and structural support is provided for machine washing of wool fabrics such as the sweater and the like.

Preferably, hang the arm nozzle stub and hang the clothing bottle material and specifically be high temperature resistant glass, hang the arm nozzle stub and hang the outer wall surface and the semicircle bump department of clothing bottle and be the smooth no burr state, avoid causing the scratch to the sweater.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses drive driving vane, rotation axis, the bottom plate that keeps out the wind, hang the clothing bottle and flabellum and carry out high-speed rotation through the air current for the first time, driving vane causes to get rid of the ascending air current that takes off the torrent state that is close to of section of thick bamboo wall department to produce horizontal inward pressure and temperature gradient, produce outside air pressure to the sweater on hanging the clothing bottle promptly, and the flabellum is rotatory to produce inside air pressure to the sweater on hanging the clothing bottle, outside air pressure and inside air pressure intersect on the sweater, and then produce the effect of two-way air current extrusion, the centrifugal of deuterogamying of sweater gets rid of, finally form get rid of the hot ironing mode of extrusion formula; the bidirectional airflow squeezing ironing mode has the advantages that the mechanical friction is reduced to the minimum, the damage to the sweater is greatly reduced, and a new theoretical and structural support is provided for machine washing of wool fabrics such as the sweater and the like.

2. The utility model discloses a hang the arm nozzle stub and hang the clothing bottle as the carrier of sweater, its frictional force is less with the sweater to get rid of at a high speed and take off power and can promote the sweater inflation, have the flattening effect on reinforcing sweater surface.

3. The utility model discloses a smooth axle sleeve, screw rod, screw thread body and lock nut are convenient for install the sweater fast and get rid of and take off a section of thick bamboo as the fixed mounting mechanism of rotation axis, further improve the utility model discloses a use simplicity provides more feasibility for the sweater machine washes.

Drawings

FIG. 1 is a schematic structural view of a swing-off extrusion sweater leveling mechanism provided by the utility model;

FIG. 2 is a schematic view of the mounting structure of a clothes hanging bottle body of the swing extrusion type sweater leveling mechanism of the present invention;

FIG. 3 is a partial enlarged view A of the mounting structure of the clothes hanging bottle body of the swing extrusion sweater leveling mechanism of the present invention;

in the figure: the clothes hanger comprises a throwing cylinder 1, a sealing door 2, a bearing seat 3, a rotating shaft 4, a driving blade 5, a wind shielding bottom plate 6, a clothes hanger body 7, a smooth shaft sleeve 8, semicircular salient points 9, fan blades 10, a threaded groove 11, a hanging arm short pipe 12, a screw 13, a wind shielding top plate 14, a spring 15, a threaded pipe body 16, a locknut 17, an exhaust chimney 18, a liquid discharge pipe 19, a liquid collecting barrel 20, an air inlet pipe 21, an air pump 22, an air heater 23, a water vapor inlet pipe 24, a water vapor pump 25, a steam generator 26 and a ventilation inclined hole 27.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a throwing extrusion type sweater leveling mechanism comprises a throwing barrel 1, wherein the throwing barrel 1 is a vertical cylinder with the upper end and the lower end sealed, the outer side wall of the throwing barrel 1 is connected with a sealing door 2 through a hinge, a bearing seat 3 is arranged at the center of the bottom wall of the throwing barrel 1, the bearing seat 3 is sleeved with a rotating shaft 4, the rotating shaft 4 is positioned in the throwing barrel 1, the rotating shaft 4 is sequentially sleeved with a driving blade 5, a wind shielding bottom plate 6, a clothes hanging bottle body 7 and a smooth shaft sleeve 8 from bottom to top, the driving blade 5 is specifically a special-shaped sheet formed by two right-angle edges and a spline curve, the two right-angle edges of the driving blade 5 are respectively welded with the rotating shaft 4 and the wind shielding bottom plate 6 in a sealing mode, the wind shielding bottom plate 6 is specifically a circular plate, the center of the wind shielding bottom plate 6 is sleeved on the rotating shaft 4 in a sealing mode, and the distance between the periphery of the wind shielding bottom plate 6 and the inner wall of the spin-off cylinder 1 is 3-; the clothes hanging bottle body 7 is in an inverted wine bottle shape, the bottom and the top of the clothes hanging bottle body 7 are both in sealed sleeve joint with the rotating shaft 4, the bottom of the clothes hanging bottle body 7 and the rotating shaft 4 form a liquid storage tank, the side wall, located above the liquid storage tank, of the clothes hanging bottle body 7 is provided with air-permeable inclined holes 27 at equal intervals, semicircular convex points 9 are paved on the outer side wall, located above the liquid storage tank, of the clothes hanging bottle body 7, fan blades 10 are paved on the position, located above the liquid storage tank, of the rotating shaft 4 at equal intervals, the fan blades 10 are located in the clothes hanging bottle body 7, the top of the outer side wall of the clothes hanging bottle body 7 is provided with a threaded groove 11, a hanging arm short pipe 12 is sleeved in the threaded groove 11, an external thread is arranged at one end, away from the threaded groove 11, of the hanging arm short pipe 12 is an opening end, the pipe wall of the hanging arm short; the top end of the rotating shaft 4 is provided with a shaft shoulder part, the shaft shoulder part of the rotating shaft 4 is clamped at the lower part of the smooth shaft sleeve 8, the inner wall of the upper part of the smooth shaft sleeve 8 is provided with a thread groove, the upper part of the smooth shaft sleeve 8 is sleeved with a screw 13 through threads, the outer ring of the smooth shaft sleeve 8 is fixedly sleeved with a wind shielding top plate 14, the wind shielding top plate 14 is also a circular plate, the distance between the periphery of the wind shielding top plate 14 and the inner wall of the spin-off cylinder 1 is 3-5cm, the upper surface of the wind shielding top plate 14 is fixedly connected to the top wall of the spin-off cylinder 1 through a spring 15, the central position of the top wall of the spin-off cylinder 1 is fixedly provided with a thread pipe body; an exhaust chimney 18 is further arranged on the top wall of the throwing-off cylinder 1, and an opening at the bottom end of the exhaust chimney 18, which is positioned inside the throwing-off cylinder 1, is positioned right above the middle part of the wind shielding top plate 14; a liquid discharge pipe 19 is arranged on the bottom wall of the side wall of the spin-off cylinder 1, the liquid discharge pipe 19 is communicated with a liquid collecting barrel 20, an air inlet pipe 21 is arranged above the liquid discharge pipe 19, an outlet at one end of the air inlet pipe 21 extending into the spin-off cylinder 1 is obliquely upward and faces the surface of the driving blade 5, an included angle between the airflow direction of an outlet at one end of the air inlet pipe 21 extending into the spin-off cylinder 1 and the surface of the driving blade 5 is 45-75 degrees, an air pump 22 is connected at one end of the air inlet pipe 21 extending out of the spin-off cylinder 1, the air pump 22 is connected with an air heater 23 through a pipeline, a steam inlet pipe 24 is arranged above the air inlet pipe 21, an outlet at one end of the steam inlet pipe 24 extending into the spin-off cylinder 1 is horizontal and faces the surface of the driving blade 5, an included angle between the airflow direction of an outlet at one end of the steam inlet pipe 24 extending into the spin-off cylinder 1 and the surface of the driving blade 5 is 45-75 degrees, and a steam pump 25, the steam pump 25 is connected to a steam generator 26 through a pipe.

Referring to fig. 1, the four sides of sealing door 2 all fill up with the opening part of getting rid of and taking off a section of thick bamboo 1 lateral wall and be equipped with the sealing rubber circle, get rid of and take off a section of thick bamboo 1 and sealing door 2 and be vacuum intermediate layer stainless steel construction, adopt more sealed insulation construction, make the air current from getting rid of and taking off a section of thick bamboo 1 bottom and leading to the top, make main high-speed vortex air current along getting rid of and taking off a section of thick bamboo 1 inside walking, form and be close torrent phenomenon, thereby produce horizontal pressure and temperature gradient, transversely get rid of with flabellum 10 production and take off power and join, thereby produce two-way air current extrusion to.

Referring to fig. 1, the liquid storage tank at the bottom of the clothes hanging bottle body 7 is filled with 5% acetic acid solution or 30% ammonia solution, and before the sweater is placed in the spin-off cylinder 1 of the present invention, the sweater must be treated by finishing agent soaking or dipping, detergent cleaning and water rinsing, and the wet sweater with absorbed part of finishing agent is obtained after finishing, then according to the composition of the finishing agent, acidic acetic acid solution or alkaline ammonia solution is added in advance in the liquid storage tank to neutralize the alkaline or acidic cost of the finishing agent, so as to avoid the pH value of the sweater fiber from being changed violently due to the failure of the subsequent finishing agent composition, therefore, the treatment of the present invention belongs to the last step of setting treatment of the sweater, and aims to eliminate all unfavorable factors which are easy to be changed by environment, so that the microstructure of the fiber can not be changed reversibly after setting, and the timeliness of shaping is ensured.

Referring to fig. 1, the fan blades 10 are vertically arranged rectangular thin sheets, when the air flow of the air inlet pipe 21 or the steam inlet pipe 24 blows the driving blades 5 to rotate at a high speed, the rotating shaft 4 and the fan blades 10 thereon are driven to rotate, the fan blades 10 are vertically arranged, so that the fan blades 10 directly blow the sweater outside the clothes hanging bottle body 7, the blowing direction is a horizontal throwing-off force direction, and the air flow is thrown onto the sweater along a centrifugal force direction through the air-permeable inclined holes 27; on the other hand, the high-speed rotation of the driving blade 5 also drives the air below the wind shielding bottom plate 6 to generate a vortex effect, vortex-shaped airflow is blown to the upper side of the wind shielding bottom plate 6 along the annular space of the periphery of the wind shielding bottom plate 6 and the inner wall of the spin-off cylinder 1 like vortex blades, so that the airflow pressure at the inner wall of the spin-off cylinder 1 is far greater than the airflow pressure outside the clothes hanging bottle body 7, the airflow direction inside the clothes hanging bottle body 7 is opposite to the airflow direction outside, and the internal airflow and external airflows are converged on the sweater, so that the extrusion effect of two airflows is realized, and the centrifugal spin-off of the sweater is matched, and finally a spin-off extrusion type; the bidirectional airflow squeezing ironing mode has the advantages that the mechanical friction is reduced to the minimum, the damage to the sweater is greatly reduced, and a new theoretical and structural support is provided for machine washing of wool fabrics such as the sweater and the like.

Referring to fig. 1-3, the hanging arm short pipe 12 and the clothes hanging bottle body 7 are made of high temperature resistant glass, and the outer wall surfaces of the hanging arm short pipe 12 and the clothes hanging bottle body 7 and the semicircular salient points 9 are in a smooth and burr-free state, so that the sweater is prevented from being scratched.

The utility model discloses a use example:

1) hot steam with the temperature of 85-105 ℃ is conveyed to the throwing-off cylinder 1 through a water vapor inlet pipe 24, the airflow flux is 1.8-2.0T, the airflow blows the driving blades 5 to rotate at high speed, the rotating shaft 4 and the fan blades 10 on the rotating shaft are driven to rotate, the internal airflow pressure on the sweater is generated, high-speed fluid is generated on the cylinder wall, and the transverse pressure gradient and the temperature gradient from the cylinder wall to the inside of the cylinder are generated, so that the external airflow pressure on the sweater is generated; the internal airflow pressure and the external airflow pressure are respectively crossed on the sweater, so that the effect of extruding two airflows is realized, and then centrifugal throwing and removing of the sweater are matched, and finally a throwing and removing extrusion type hot ironing mode is formed;

2) then, conveying dry hot air at 50-60 ℃ to the throwing cylinder 1 through an air inlet pipe 21, wherein the airflow flux is 1.8-2.0T, so that an extrusion throwing type drying effect is generated, the distance is similar to that in the step 1), and the semi-dry sweater with the water content of 30-40% can be obtained after lasting for 3-5 min;

3) then through the air inlet pipe 21, to getting rid of and taking off a section of thick bamboo 1 and carry normal atmospheric temperature dry air, the air current flux is 0.1-0.2T, the section of thick bamboo wall department does not have the air current that is close the torrent this moment, so can not produce the extrusion of two-way air current, still there is the exhaust passage of trace air current, including less power of getting rid of and taking off, make the sweater air-dry, when this process needs to last 0.6-1h, the design effect of sweater is the best, the surface is the most level and smooth, again through the water logging wash quick-drying after, the phenomenon that basically can not take place deformation and fold, the prerequisite of course is that the sweater is being put the utility model discloses a get rid of before taking off a section of thick bamboo 1, need be handled through the finishing agent to.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The throwing extrusion type sweater leveling mechanism comprises a throwing barrel (1) and is characterized in that the throwing barrel (1) is a vertical cylinder with sealed ends at the upper part and the lower part, the outer side wall of the throwing barrel (1) is connected with a sealing door (2) through a hinge, a bearing seat (3) is arranged at the center of the bottom wall of the throwing barrel (1), a rotating shaft (4) is sleeved on the bearing seat (3), the rotating shaft (4) is positioned in the throwing barrel (1), a driving blade (5), a wind shielding bottom plate (6), a clothes hanging bottle body (7) and a smooth shaft sleeve (8) are sequentially sleeved on the rotating shaft (4) from bottom to top, the driving blade (5) is specifically a special-shaped sheet formed by two right-angle edges and a spline curve, the two right-angle edges of the driving blade (5) are respectively welded with the rotating shaft (4) and the wind shielding bottom plate (6) in a sealing manner, the wind shielding bottom plate (6) is a circular plate, the center of the wind shielding bottom plate (6) is sleeved on the rotating shaft (4) in a sealing mode, and the distance between the periphery of the wind shielding bottom plate (6) and the inner wall of the throwing-off cylinder (1) is 3-5 cm;

the clothes hanging bottle body (7) is in an inverted wine bottle shape, the bottom and the top of the clothes hanging bottle body (7) are both in sealing sleeve joint with the rotating shaft (4), the bottom of the clothes hanging bottle body (7) and the rotating shaft (4) form a liquid storage tank, the side wall of the clothes hanging bottle body (7) above the liquid storage tank is equidistantly provided with air-permeable inclined holes (27), the outer side wall of the clothes hanging bottle body (7) above the liquid storage tank is paved with semicircular convex points (9), the position of the rotating shaft (4) above the liquid storage tank is equidistantly paved with fan blades (10), the fan blades (10) are both positioned in the clothes hanging bottle body (7), the top of the outer side wall of the clothes hanging bottle body (7) is provided with a threaded groove (11), a hanging arm short pipe (12) is sleeved in the threaded groove (11), one end of the hanging arm short pipe (12) sleeved in the threaded groove (11) is provided with an external thread, one end of the hanging arm short pipe (, the pipe wall of each hanging arm short pipe (12) is also provided with a ventilation inclined hole (27) and a semicircular salient point (9), and the two hanging arm short pipes (12) and one clothes hanging bottle body (7) are sleeved with a sweater;

the top end of the rotating shaft (4) is provided with a shaft shoulder part, the shaft shoulder part of the rotating shaft (4) is clamped at the lower part of the smooth shaft sleeve (8), the inner wall of the upper part of the smooth shaft sleeve (8) is provided with a thread groove, the upper part of the smooth shaft sleeve (8) is sleeved with a screw rod (13) through threads, the outer ring of the smooth shaft sleeve (8) is fixedly sleeved with a wind shielding top plate (14), the wind shielding top plate (14) is also a circular plate, the distance between the periphery of the wind shielding top plate (14) and the inner wall of the throwing-off cylinder (1) is 3-5cm, the upper surface of the wind shielding top plate (14) is fixedly connected to the top wall of the throwing-off cylinder (1) through a spring (15), a threaded pipe body (16) sleeved with the screw rod (13) is fixedly arranged at the central position of the top wall of the throwing cylinder (1), the part of the screw (13) extending out of the throwing cylinder (1) is sleeved with a locknut (17);

an exhaust chimney (18) is further arranged on the top wall of the throwing-off cylinder (1), and an opening at the bottom end of the exhaust chimney (18) in the throwing-off cylinder (1) is located right above the middle of the wind shielding top plate (14);

the bottom wall of the side wall of the throwing-off cylinder (1) is provided with a liquid discharge pipe (19), the liquid discharge pipe (19) is communicated with a liquid collecting barrel (20), an air inlet pipe (21) is arranged above the liquid discharge pipe (19), the air inlet pipe (21) extends into the surface of the driving blade (5) with one end of the outlet obliquely upward in the throwing-off cylinder (1), the included angle between the air inlet pipe (21) extending into the surface of the driving blade (5) and the one end of the outlet airflow direction in the throwing-off cylinder (1) and the surface of the driving blade (5) is 45-75 degrees, one end of the air inlet pipe (21) extending out of the throwing-off cylinder (1) is connected with an air pump machine (22), the air pump machine (22) is connected with an air heater (23) through a pipeline, a water vapor inlet pipe (24) is arranged above the air inlet pipe (21), one end of the water vapor inlet pipe (24) extending into the throwing-off cylinder (1) is horizontal and faces the surface of the driving blade (, the steam advances pipe (24) and stretches into to get rid of and takes off contained angle between one end export air current direction in a section of thick bamboo (1) and initiative blade (5) surface and be 45-75, steam advances pipe (24) and stretches out to get rid of and takes off the outer one end of section of thick bamboo (1) and be connected with steam pump machine (25), steam pump machine (25) have steam generator (26) through the pipe connection.

2. The throwing and releasing extrusion sweater leveling mechanism is characterized in that sealing rubber rings are padded at the four sides of the sealing door (2) and the opening of the side wall of the throwing and releasing barrel (1).

3. The throwing and squeezing type sweater leveling mechanism is characterized in that the throwing cylinder (1) and the sealing door (2) are both made of vacuum sandwich stainless steel structures.

4. The throwing-off and squeezing type sweater leveling mechanism is characterized in that a liquid storage tank at the bottom of the sweater bottle body (7) is filled with an acetic acid aqueous solution with the weight concentration of 5% or an ammonia water solution with the weight concentration of 30%.

5. A throw-off press sweater leveling mechanism as in claim 1, wherein said fan blades (10) are rectangular sheets laid upright.

6. The throwing-off squeezing type sweater leveling mechanism is characterized in that the hanging arm short pipe (12) and the clothes hanging bottle body (7) are made of high-temperature-resistant glass, and the outer wall surfaces of the hanging arm short pipe (12) and the clothes hanging bottle body (7) and the semicircular salient points (9) are smooth and burr-free.