CN112176589B - Wool yarn steam shaping system - Google Patents

Abstract

The invention discloses a wool yarn steam shaping system which comprises a shaping bin, a vacuum pump for extracting air in the shaping bin, a steam tank for storing steam and a carrying vehicle for carrying articles to be shaped, wherein the output end of the steam tank comprises a first conveying pipe and a second conveying pipe, the second conveying pipe is used for supplying steam to a steam driving device, a rotating support rotatably connected with the carrying vehicle is carried on the carrying vehicle, an inserting shaft is arranged at the front end of the rotating support, an output groove is formed in the butt joint position of the output end of the steam driving device and the inserting shaft, and when the inserting shaft is in butt joint with and inserted into the output groove, the steam driving device can drive the rotating support on the carrying vehicle to rotate. According to the invention, the rotating bracket on the carrying vehicle is driven by steam to carry the fabric to rotate, so that the shaping efficiency is improved, the shaping effect is optimized, and surplus steam is not wasted.

Description

Wool yarn steam shaping system

Technical Field

The invention relates to the technical field of vacuum steam setting, in particular to a wool yarn steam setting system.

Background

The extensive use of vacuum steam design case is in the fabric, especially the pure silk design that the pure silk was gone on after the technology such as twisting is carried out is used, current vacuum steam design case mostly all sets up one in a heating cylinder and carries the thing car that can horizontal motion, carry and place the silk spindle that needs design on the thing car, prior art's vacuum steam design case is because the silk spindle of putting into it is simple to pile up and place, this just has the heating inhomogeneous, the inhomogeneous these problems of humidification, the problem that finally leads to is that the design effect is poor, influence the processingquality of cloth, the problem of process time overlength is also brought to the structure of current vacuum steam design case simultaneously, the time that heat dissipation and heating need all is longer, production efficiency is not ideal. Although the carrying vehicle in part of the box body is driven by electric power, the carrying vehicle can rotate, and the shaping effect and efficiency of yarns, silk fabrics and the like can be improved to a certain degree, the electric power drive has potential safety hazards in the environment of negative pressure and full of steam for a long time, and short circuit is easily caused.

The yarn setting machine is mainly used for setting continuous silk threads with weaving conditions after combination and twisting, namely for setting chemical fibers, real silks, cashmere, yarns, curtains, wrinkled fabrics, printed cloth and the like. The twist is stabilized under certain pressure and temperature, the balanced untwisted silk thread is obtained, the processing of the subsequent procedures and the product quality are convenient to improve, the yarn is filled into the sealed container by the yarn setting machine, the air is extracted by the vacuum pump to ensure the negative pressure of the container, and the yarn is filled into steam for setting treatment, but the steam of the current setting machine is not uniform when being filled, the setting effect of the yarn is not ideal, and the steam generating device can have redundant steam in the steam storage tank to cause waste.

Disclosure of Invention

The invention aims to provide a wool yarn steam shaping system, which drives a rotating bracket on a carrying vehicle through steam to carry fabric to rotate, improves shaping efficiency, optimizes shaping effect and does not waste surplus steam.

The technical scheme adopted by the invention for solving the technical problem is that the wool yarn steam shaping system comprises a shaping bin, a vacuum pump for extracting air in the shaping bin, a steam tank for storing steam and a carrying vehicle for carrying an article to be shaped, and is characterized in that the output end of the steam tank comprises a first conveying pipe and a second conveying pipe, the second conveying pipe is used for supplying steam to a steam driving device, the carrying vehicle is provided with a rotating support rotatably connected with the carrying vehicle, the front end of the rotating support is provided with an inserting shaft, an output groove is formed in the butt joint position of the output end of the steam driving device and the inserting shaft, and when the inserting shaft is in butt joint with and inserted into the output groove, the steam driving device can drive the rotating support on the carrying vehicle to rotate.

Furthermore, the second conveyer pipe winds to the top in design storehouse evenly sets up a plurality of steam outlet, every steam outlet's switch all sets up independently.

Further, the steam tank further comprises an electromagnetic valve used for controlling the steam circulation of the first conveying pipe and the second conveying pipe.

Furthermore, the front end of the plug shaft is provided with a plug part, the plug part is a polygonal prism, the plug groove is a polygonal groove, and the number of the edges of the plug part and the number of the edges of the plug groove are the same and are more than two.

Furthermore, the rotating bracket comprises a first rotating disc, a second rotating disc and a carrying rod inserted between the first rotating disc and the second rotating disc, the first rotating disc is provided with the inserting shaft, the second rotating disc is provided with a fixed shaft, the middle part of the inserting shaft and the front end of the fixed shaft are provided with rotating parts, and when the inserting part of the inserting shaft is driven by the steam driving device, the rotating parts can rotate around the axial leads of the inserting shaft and the fixed shaft.

Furthermore, it corresponds to carry the thing car epaxial the rotation portion is provided with first bracing piece, corresponds fixed epaxial the rotation portion is provided with the second bracing piece, first bracing piece the second bracing piece all is provided with the rotating ring, works as every the rotation portion is located when rotating the ring, can the free rotation after receiving external drive, make rotate the support with it forms to rotate to carry the thing car and is connected.

Furthermore, reinforcing parts are arranged between the insertion shaft and the first rotating disc and between the fixed shaft and the second rotating disc, and the reinforcing parts can stop the transverse movement of the rotating bracket, so that the rotating part is always positioned in the rotating ring.

Furthermore, the first rotary table and the second rotary table are provided with inserting holes for inserting the carrying rods in a one-to-one correspondence manner.

Further, the bottom of the carrying vehicle is provided with a roller and a stop piece, the roller can freely roll on the ground or roll along a track and a channel of an upper bin rail, the track is provided with a stop structure which is matched with the stop piece and used for limiting a moving end point of the carrying vehicle, and the inserting shaft can be stably inserted into the output groove in a butt joint mode.

Further, the track set up in the inside in design storehouse, orbital being located the bin mouth department in design storehouse be provided with the track rotates the connection go up the storehouse rail, make go up the storehouse rail can rotate folding entering the inside in design storehouse with carry the promotion handle butt or the buckle of thing car.

The invention has the beneficial effects that:

1. the fabric wool yarn in to the vacuum environment is stereotyped to the steam that produces with steam generator, and the input port of steam corresponds the position setting that reaches in advance of carrying the thing car for steam can even entering, and in addition vacuum effect, can be fast, even be full of whole design storehouse. The steam input port can be provided with a plurality of positions, the steam input port is uniformly distributed, and different steam fluxes can be set according to requirements.

2. The steam generated by the steam generating device is conveyed to the steam driving device to drive the rotating support of the carrying vehicle, the output end of the steam driving device is a polygonal concave groove, the inserting part of the rotating support is a polygonal inserting prism, and the number of the sides of the polygon is an integer and is more than two; the position of output recess corresponds the setting with the grafting end that rotates the support on carrying the thing car for carry the thing car along the track to the design storehouse remove before orbital terminal point, the output recess just can be inserted to the grafting end, will rotate the grafting end grafting of support and get into the output groove in can realizing steam drive, easy and simple to handle. No high-voltage driving equipment is arranged in the whole bin, so that the vacuum degree is ensured; on one hand, the fresh steam can be used as a power source, and the overflowed steam can also be used for driving, so that resources can be fully utilized, and waste is avoided.

3. The front end of the inserting shaft of the rotating bracket is an inserting part, the middle part is a rotating part, and the rear end is a connecting part; the fixed axle front end of rotating bracket is rotation portion, the rear end is connecting portion, rotation portion pegs graft in the rotating ring on the bracing piece of year thing car, form and rotate the connection, make steam drive arrangement when rotating bracket through grafting portion drive, the rotating bracket who covers and have the wool yarn can rotate on two spinal branch vaulting poles of year thing car, slew velocity is decided by steam drive arrangement's drive, can adopt inertia to rotate and connect, when making drive power pause, rotating bracket still can rely on inertia to rotate to final the stop on the bracing piece.

4. A stop piece matching structure for limiting the final position is arranged between the bottom of the carrying vehicle and the track, so that the maximum advancing distance of the carrying vehicle on the track is limited, and the inserting depth of the inserting part can be further limited; the butt joint position of grafting portion can be injectd to the swivel becket on the bracing piece for swivel becket can stably combine with steam drive device's output groove, forms stable linkage effect.

5. The arrangement of the carrying rod between the first turntable and the second turntable of the rotating bracket can be changed according to actual requirements and is not limited to the position shown by the invention; when the wool yarns are wound, the rotating characteristic of the rotating bracket can be utilized to fully cover the whole rotating bracket; the object carrying rods with two proper intervals can be selected to be combined and wound, the interval between the two object carrying rods is fixed during winding, and the object carrying rods are inserted on the turntable after winding is finished.

6. The steam and water discharged by the steam driving device can be used as cooling liquid before the steamed yarns are taken out of the bin, and no additional cooling water is needed. The steam and water discharged by the steam driving device can be guided into the shaping bin, so that the constant temperature adjustment in the bin is facilitated.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are illustrative of some, but not all embodiments of the invention. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is a schematic structural diagram of a wool yarn steam setting system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a carrier vehicle and a rotating bracket of the wool yarn steam shaping system according to the embodiment of the invention;

FIG. 3 is a left side view of a first rotating disc of a wool yarn steam setting system according to an embodiment of the present invention;

FIG. 4 is a right side view of the first rotating disc of the wool yarn steam setting system according to the embodiment of the present invention;

fig. 5 is a schematic diagram of an embodiment of an output slot of a steam driving device according to an embodiment of the present invention.

In the figure: 1. rotating the bracket; 2. a sizing bin; 3. a carrying vehicle; 4. a steam driving device; 5. a vacuum pump; 6. a steam tank; 7. a plug shaft; 8. a fixed shaft; 9. a rotating ring; 10. a carrying rod; 11. a first turntable; 12. a second turntable; 13. a reinforcement; 21. a track; 22. a bin gate; 23. feeding the bin rail; 31. a first support bar; 32. a second support bar; 33. a stopper; 34. a roller; 35. pushing the handle; 41. an output slot; 61. a first delivery pipe; 62. a second delivery pipe; 63. an electromagnetic valve; 71. a rotating part; 72. a plug-in part.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention and the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is to be understood that the drawings in the following description are merely exemplary of the invention and that other drawings and embodiments can be derived by those skilled in the art without undue burden. The designation of the design orientation merely indicates the relative positional relationship between the respective members, not the absolute positional relationship.

In the embodiment of the present invention, the steam driving device 4 does not substantially require the internal structure of the steam driving device 4, and the steam driving device 4 belongs to the prior art that can be thought by those skilled in the art, so that detailed description is omitted here, and the embodiment of the present invention only defines the output end as the polygonal columnar groove, i.e., the output groove 41, to be able to be coupled to the inserting portion 72 on the inserting and connecting shaft 7, it is understood that the output end of the steam driving device 4 may also be a polygonal prism, and the corresponding inserting shaft 7 may be replaced by an inserting groove.

Referring to fig. 1, 2, 3, 4 and 5, in the embodiment of the present invention, a front port of a sizing bin 2 is configured to be openable, the sizing bin 2 is opened or closed through a bin door 22, and when the bin door 22 is closed, the sizing bin 2 is in a sealed state, so that a vacuum pump 5 can pump air out of the sizing bin 2 to achieve a standard vacuum degree required by production. The connection between the vacuum pump 5 and the shaping bin 2 can be sealed, so that the air cannot leak between the pipeline for sucking air and the bin wall of the shaping bin 2.

Set up in the storehouse 2 and be provided with track 21, track 21's inside can set up backstop structure, sets up stop part 33 on carrying thing car 3 for when carrying thing car 3 and moving on track 21, receive the restriction of stop part 33, the deepest degree of depth that gets into the storehouse 2 of finalizing the design is injectd in reasonable scope. A stop block can be arranged in a groove at the end position of the single rail 21; correspondingly, the object carrying vehicle 3 can enter the lower part of one end of the shaping bin 2 first, and the stop part 33 is arranged in front of the roller 34, so that the stop part 33 can firstly touch the stop block on the track 21, and the object carrying vehicle 3 can be stopped to continue moving towards the inside of the shaping bin 2. The degree of depth that carries thing car 3 and get into design storehouse 2 can satisfy the stable grafting of grafting end 7 that rotates support 1 and get into delivery chute 41 can for steam drive device 4 can drive and rotate support 1 and rotate, optimizes the yarn effect of evaporating.

Track 21 is provided with collapsible pivoted in the port department of design storehouse 2 and goes up storehouse rail 23, and when going up storehouse rail 23 and putting down, can help carrying thing car 3 to climb up and get into the inside of design storehouse 2, when going up storehouse rail 23 and packing up, can lean on to put on promoting handle 35. Preferably, a buckle structure (not shown) can be arranged on the pushing handle 35 and matched with the free end of the upper bin rail 23, and a stop structure is matched, so that the upper bin rail 23 can abut against the loading vehicle 3 in the bin and cannot slide out outwards.

The steam output end of the steam tank 6 may be divided into two pipes, i.e., a first delivery pipe 61 and a second delivery pipe 62, and an electromagnetic valve 63 may be disposed at the branching portion to control the steam circulation in the first delivery pipe 61 and the second delivery pipe 62.

Wherein the steam of the first duct 61 is directed to the inside of the sizing bin 2. First conveyer pipe 61 can extend to the top in design storehouse 2, and a plurality of steam access & exit can be seted up with first conveyer pipe 61 in design storehouse 2, and evenly distributed is on the bulkhead in design storehouse 2 of the top at the year thing position of rotating support 1 for steam is given vent to anger evenly, treats the design effect of design article and has better optimization effect, can fully design.

The steam in the second delivery pipe 62 is delivered to the steam driving device 4, and the steam driving device 4 converts the steam as a power source into a rotational driving force and outputs the rotational driving force. A steam driving means 4 may be provided inside the setting silo 2, and an output end of the steam driving means 4 may be provided as a polygonal recess type groove, i.e., an output groove 41. After inserting the grafting portion 72 butt joint of grafting axle 7 and inserting output slot 41, steam drive arrangement 4 just can drive and rotate support 1 and rotate on carrying the thing car 3 for treat that the shaping thing can more comprehensive contact steam, optimize the design effect.

It can be understood that the exhaust port of the steam driving device 4 can exhaust steam and water, and the temperature of the exhausted steam and water is obviously lower than that of the steam and condensed water in the sizing bin 2, so that the steam and water exhausted by the exhaust port can be reintroduced into the sizing bin 2, on one hand, the steam and water can be conveniently adjusted at a constant temperature in the bin, and on the other hand, the steam and water can be used as a cooling means in the bin discharging process.

It can be understood that the steam driving device 4 drives the rotating bracket 1 through steam, and the steam driving device can be completely realized through mechanical means in the sizing bin 2 without consuming electric power resources again. Meanwhile, in the shaping process, steam generated by the steam generating device is stored in the steam tank 6, no matter the surplus steam is used for driving the rotating support 1 to supply to the steam driving device 4 or the surplus generated steam is used for driving the rotating support 1 to supply to the steam driving device 4, no power equipment is needed in the shaping bin 2, the existing electric power driving shaping article rotating method of the shaping bin 2 is completely removed, no power device exists, and no potential safety hazard is generated. Meanwhile, the steam driving device 4 can be positioned outside the shaping bin 2 and enters the shaping bin 2 to rotate slowly only by driving the rotating shaft, so that the rotating support 1 is driven to rotate. The technique of negative pressure sealing of smooth rotating shafts is well within the skill of the art and is not described in detail herein.

The power source of the steam generator may be electric power, fuel combustion, geothermal energy, or energy conversion by thermal linkage, and the steam generator converts water into steam to store and use the steam.

In the embodiment of the invention, the rotary bracket 1 and the carrier vehicle 3 are in a rotary connection mode. The rotating support 1 comprises a first rotating disc 11, a second rotating disc 12 and a loading rod 10, two ends of the loading rod 10 are respectively inserted into the first rotating disc 11 and the second rotating disc 12, and the inserting holes in the first rotating disc 11 and the second rotating disc 12 are in one-to-one correspondence, so that the loading rod 10 is in a horizontal state, and when a shaping object is carried, the loading rod is not easy to slide off, and can stably receive steam and shape. It can be understood that the arrangement of the insertion holes can be set according to actual production requirements, when the object carrying rods 10 are inserted, all the insertion holes are not required to be inserted with the object carrying rods 10, and at least more than two object carrying rods 10 with enough space can be ensured to complete the assembly of the rotating bracket 1. When the object to be shaped is wound, more than two carrying rods 10 with enough space are also selected for winding. Also wound around a carrier rod 10 on the entire rotating stand 1.

The opposite sides of the first rotary table 11 and the second rotary table 12 are provided with inserting holes, and the back side of the first rotary table 11 is provided with an inserting shaft 7, wherein the inserting shaft 7 comprises an inserting part 72 at the front end, a rotating part 71 at the middle part and a connecting part at the tail end; the second rotating disk 12 is provided with a fixed shaft 8, and the fixed shaft 8 includes a rotating portion 71 at the front end and a connecting portion at the rear end. The diameters of the first rotating disc 11 and the second rotating disc 12 are the same, and the inserting shaft 7 and the fixed shaft 8 are both located at the circle center position. The plug shaft 7 and the fixed shaft 8 are fixedly connected with the reinforcing piece 13 of the rotary disc through a connecting part, so that the rotating bracket 1 can rotate around the axial lead of the plug shaft 7 and the fixed shaft 8.

The loading vehicle 3 is provided with a first support rod 31 matching with the rotating part 71 of the insertion shaft 7, and the first support rod 31 is provided with a rotating ring 9, so that the rotating part 7 of the insertion shaft 7 can freely rotate in the rotating ring 9. The carrier vehicle 3 is provided with a second support rod 32 in cooperation with the rotating part 71 of the fixed shaft 8, and the second support rod 32 is provided with a rotating ring 9, so that the rotating part 7 of the fixed shaft 8 can be positioned in the rotating ring 9 to rotate freely. The two ends of the rotating bracket 1 are respectively inserted on the supporting rods, so that the rotating bracket 1 can be rotated freely. The reinforcing member 13 has a certain thickness, and can limit the transverse movement of the rotating bracket 1 after being inserted into the supporting rod, so as to ensure that the part of the insertion shaft 7 located in the rotating ring 9 is always the rotating part 71 of the insertion shaft 7, and the part of the fixed shaft 8 located in the rotating ring 9 is always the rotating part 71 of the fixed shaft 8, and cannot fall off randomly.

It can be understood that the inserting portion 72 of the inserting shaft 7 penetrates through the rotating ring 9, and whether the inserting portion 72 of the inserting shaft 7 can be abutted to the output slot 41 or not can be determined by adjusting the height of the supporting rod, similarly, the inserting portion 72 can be set to be a polygonal prism, the number of sides is the same as the number of sides of the output slot 41, the number of sides is an integer and the number of sides is greater than two, the sizes can be matched, after the inserting portion 72 is abutted to the output slot 41, the rotating bracket 1 can be stably driven to rotate, and the rotating speed is determined by a driving device. When the driving device stops driving, the rotating bracket 1 can still continue to rotate for a period of time by means of inertia and finally stops; or when the driving device stops driving, the rotating bracket 1 is synchronously driven to stop rotating until the inserting part 72 exits the output slot 41.

Based on the device, when the wool yarn steam setting system is operated, the object to be set needs to be wound on the carrying rod 10, and the winding mode and the requirement can be considered according to the actual production requirement. Will rotate support 1 and carry 3 support rotation connections of thing car, make the load to wait to stereotype the rotation support 1 of article and can rotate on carrying thing car 3, will carry thing car 3 and promote to the inside of design storehouse 2 through last storehouse rail 23, it needs to notice this moment, grafting portion 72 inserts with the butt joint of delivery outlet 41, make steam drive device 4 can pass through delivery outlet 41 drive rotation support 1, when carrying thing car 3 and reaching the limited position of stopper 33, the antedisplacement of carrying thing car 3 stops, can accomplish the buckle with last storehouse rail 23 and the buckle structure that promotes handle 35, thereby the butt carries thing car 3, the position of fixed thing car 3 in design storehouse 2 of carrying, close door 22, air to reaching the production standard in the design storehouse 2 through vacuum pump 5 extraction, control solenoid valve 63 opens first conveyer pipe 61 to the even steam of carrying in the design storehouse 2, carry out the relevant flow of design operation, can control solenoid valve 63 to open second conveyer pipe 62 simultaneously and carry steam to steam drive device 4 and rotate, make and wait to wait that the design article can all-round contact steam, optimize the design effect. And finally, after the shaping operation is finished, opening the bin door 22, putting down the upper bin rail 23, releasing the fixed limit of the carrying vehicle 3, pulling out the carrying vehicle 3, releasing the shaped article, and obtaining the shaped wool yarn product.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a component of 8230means that the element does not exclude the presence of another like element in a process, method, article, or apparatus that comprises the element.

The foregoing is a further detailed description of the invention in connection with specific preferred embodiments and it is not intended to limit the invention to the specific embodiments described. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (10)

1. A wool yarn steam shaping system, which comprises a shaping bin (2), a vacuum pump (5) for extracting air in the shaping bin (2), a steam tank (6) for storing steam, and a carrying vehicle (3) for carrying articles to be shaped, characterized in that the output end of the steam tank (6) comprises a first delivery pipe (61) and a second delivery pipe (62), the second duct (62) is used to supply steam to the steam drive (4), a rotating bracket (1) which is rotatably connected with the carrying vehicle (3) is carried on the carrying vehicle (3), the rotating bracket (1) comprises a first rotating disk (11), a second rotating disk (12) and a carrying rod (10) inserted between the first rotating disk (11) and the second rotating disk (12), at least more than two loading rods (10) with enough space are inserted between the first rotary disc (11) and the second rotary disc (12), the front end of the rotating bracket (1) is provided with an inserting shaft (7), an output groove (41) is arranged at the butt joint position of the output end of the steam driving device (4) and the plug-in shaft (7), when the plug-in shaft (7) is inserted into the output groove (41) in a butt joint way, the steam driving device (4) can drive the rotating support (1) on the loading vehicle (3) to rotate.

2. A wool yarn steam setting system according to claim 1, wherein the first conveying pipe (61) is provided with a plurality of steam outlets uniformly around the top of the setting bin (2), and the switch of each steam outlet is independently arranged.

3. A wool yarn steam setting system according to claim 1, wherein the steam tank (6) further comprises an electromagnetic valve (63) for controlling the steam circulation of the first delivery pipe (61) and the second delivery pipe (62).

4. The wool yarn steam shaping system according to claim 1, wherein a plug-in part (72) is arranged at the front end of the plug-in shaft (7), the plug-in part (72) is a polygonal prism, the output groove (41) is a polygonal groove, and the number of the sides of the plug-in part (72) and the output groove (41) is the same and is more than two.

5. A wool yarn steam shaping system according to claim 1, wherein the first rotary table (11) is provided with the plug shaft (7), the second rotary table is provided with a fixed shaft (8), the middle part of the plug shaft (7) and the front end of the fixed shaft (8) are provided with rotating parts (71), and when the plug part (72) of the plug shaft (7) is driven by the steam driving device (4), the rotating bracket (1) can rotate around the axial line of the plug shaft (7) and the fixed shaft (8).

6. A wool yarn steam shaping system according to claim 5, wherein the carrying vehicle (3) is provided with a first support rod (31) corresponding to the rotating part (71) on the inserting shaft (7), a second support rod (32) corresponding to the rotating part (71) on the fixed shaft (8), the first support rod (31) and the second support rod (32) are both provided with a rotating ring (9), and when each rotating part (71) is located in the rotating ring (9), the rotating part can rotate freely under the drive of external force, so that the rotating bracket (1) and the carrying vehicle (3) form a rotating connection.

7. Wool yarn steam sizing system according to claim 6, characterised in that between the plug-in shaft (7) and the first rotating disc (11) and between the stationary shaft (8) and the second rotating disc (12) there are reinforcements (13), which reinforcements (13) can stop the rotating bracket (1) from moving laterally, so that the rotating part (71) is always inside the rotating ring (9).

8. A wool yarn steam shaping system according to claim 5, wherein the first rotary disc (11) and the second rotary disc (12) are provided with inserting holes for inserting the carrying rods (10) in a one-to-one correspondence manner.

9. Wool yarn steam shaping system according to claim 1, characterized in that the carrier vehicle (3) is provided at its bottom with rollers (34), stoppers (33), the rollers (34) being able to roll freely on the ground or along the channels of a track (21), an upper bin rail (23), the track (21) being provided with a stopper structure cooperating with the stoppers (33) for defining the end point of movement of the carrier vehicle (3), so that the spiale shaft (7) can be stably inserted into the output slot (41) in a butt joint.

10. The wool yarn steam shaping system according to claim 9, wherein the rail (21) is arranged inside the shaping bin (2), and the upper bin rail (23) rotatably connected with the rail (21) is arranged at a bin opening of the shaping bin (2) of the rail (21), so that the upper bin rail (23) can be rotatably folded into the inside of the shaping bin (2) to abut against or be buckled with a pushing handle (35) of the carrier vehicle (3).

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