CN111721096B - Multi-roller drying device for drying cotton textiles - Google Patents

Abstract

The invention provides a multi-roller drying device for drying cotton fabrics, which comprises a low-consumption drying box for drying the cotton fabrics, supporting legs for supporting the low-consumption drying box, a releasing and ironing transmission mechanism for transmitting the dried cotton fabrics and a hot air conduction mechanism for transmitting wind power, wherein the bottom of the low-consumption drying box is fixedly connected with the supporting legs, and the surface of the low-consumption drying box is provided with a feeding hole, and relates to the field of textiles. This multi-roll axle drying device based on cotton textile fabric is dried and is used exists high energy consumption according to current cotton textile fabric in the drying process, low efficiency problem, design out and carry out dehydration and press the special structure of exhibition to the cloth in transmission process, thereby the effectual general drying device that has solved is difficult to carry out low energy consumption to the great cotton fabric of water content, the stoving of low damage, the used electric energy output power of stoving is great, and cotton textile fabric dehydration in earlier stage and follow-up ironing also can increase energy consumption output, and is inefficient, the high problem of energy consumption.

Description

Multi-roller drying device for drying cotton textiles

Technical Field

The invention relates to the technical field of spinning, in particular to a multi-roller drying device for drying cotton fabrics.

Background

In the field of textile processing, some cotton fabrics need to output larger power when being dried, and generate stronger wind power or even high heat to dry moisture, which leads to the increase of energy consumption, the cotton fabrics have stronger water absorption capacity, the moisture is difficult to separate in the transmission process, and the cotton fabrics are easy to swing and twist under the action of strong wind when passing through a transmission roller shaft, even to wrinkle, the cotton fabrics are easy to wrinkle, and secondary ironing is needed for cleaning the wrinkles, the current drying device for the cotton fabrics is the same as a common textile fabric drying device, only adjustment is carried out on power, or the flow direction of internal wind power is adjusted, some cotton fabrics are clamped, and then drying is carried out through a drying area, so that the effect of preventing large-area wrinkles can be achieved, for example, the clamping device for drying the cotton fabrics provided by CN201822048088.0, the device involves the effect of even stoving, but introduce in this application perhaps can play the effect that prevents the fold, but cotton fabric is just difficult to dehydration stoving by the part of centre gripping, and the shrinkage that rises with heat, cotton fabric water content is big, contractility is big, tear the damage easily, this kind of mode is also inadvisable, general drying device is difficult to carry out low energy consumption to the great cotton fabric of water content, the stoving of low damage, the used electric energy output power of stoving is great, and cotton textile fabric dewatering in earlier stage and follow-up ironing also can increase energy consumption output, low efficiency, the energy consumption is high, so need a many roller drying device based on cotton textile fabric stoving usefulness.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a multi-roller drying device for drying cotton fabrics, which solves the problems that the common drying device is difficult to perform low-energy consumption and low-damage drying on the cotton fabrics with larger water content, the electric energy output power for drying is larger, the energy consumption output can be increased due to early dehydration and subsequent ironing of the cotton fabrics, the efficiency is low, and the energy consumption is high.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a multiroll axle drying device based on cotton fabric stoving usefulness, including the low consumption stoving case that is used for drying cotton fabric, the supporting leg that is used for supporting the low consumption stoving case, be used for transmitting the hot-blast conduction mechanism that takes off of the cotton fabric of being dried and presses transmission device and be used for transmitting wind-force, the bottom fixedly connected with supporting leg of low consumption stoving case, the feed inlet has been seted up on the surface of low consumption stoving case, the discharge gate has been seted up on the surface of low consumption stoving case, feed inlet and discharge gate are the symmetric distribution for the line of symmetry with the central line on low consumption stoving case surface, take off and press transmission device and hot-blast conduction mechanism and all set up on the low consumption stoving case.

Preferably, the ironing and removing transmission mechanism comprises a driving motor for generating transmission power, a first twisting roller shaft, a second twisting roller shaft, a driving guide rotating shaft, two curve guide rotating shafts and an ironing and unfolding output rotating shaft, the driving motor is fixedly installed on the low-consumption drying box, a plurality of pairs of bearings which are symmetrically distributed along the surface central line of the low-consumption drying box are arranged on the low-consumption drying box, two ends of the first twisting roller shaft and the second twisting roller shaft, the driving guide rotating shaft, the two curve guide rotating shafts and the ironing and unfolding output rotating shaft are fixedly connected with the inner ring of the bearing on the low-consumption drying box, one end of the first twisting roller shaft is fixedly connected with a driven gear, one end of the second twisting roller shaft is fixedly connected with a driving gear, the surface of the driven gear is meshed with the surface of the driving gear, and the output shaft of the driving motor is fixedly connected with the surface of the driving guide rotating shaft through a coupler, the surface of the active guide rotating shaft is sleeved with a transmission belt, and the surface of one end of the second twisted roll shaft, the surfaces of the two curve guide rotating shafts and the surface of one ironing output rotating shaft are all sleeved with the inner side surface of the transmission belt.

Preferably, a bearing is arranged below the driving motor on the surface of the low-consumption drying box, a stretching rotating shaft is fixedly connected to an inner ring of the bearing, and the surface of the stretching rotating shaft is sleeved with the inner side surface of the transmission belt.

Preferably, the diameter of the part of the first twist roller shaft positioned in the low-consumption drying box is gradually increased from left to right, the diameter of the part of the second twisted roller shaft positioned in the low-consumption drying box is gradually reduced from left to right, the diameter of the left side of the portion of the first twisted roller shaft located inside the low-consumption drying box is the same as the diameter of the right side of the portion of the second twisted roller shaft located inside the low-consumption drying box, the diameter of the right side of the portion of the first twisted roller shaft located inside the low-consumption drying box is the same as the diameter of the left side of the portion of the second twisted roller shaft located inside the low-consumption drying box, the surface of the first twisting roller shaft is provided with a plurality of left twisting grooves which are distributed in parallel, the surface of the second twisting roller shaft is provided with a plurality of right twisting grooves which are distributed in parallel, the left twisting groove and the right twisting groove are opposite in inclination direction, and the first twisting roller shaft and the second twisting roller shaft are opposite in rotation direction.

Preferably, the axes of the active guiding rotating shaft, the first twisting roller shaft, the second twisting roller shaft and the ironing output rotating shaft are positioned on the same horizontal plane, one of the two curve guiding rotating shafts is positioned above the active guiding rotating shaft, the other one of the two curve guiding rotating shafts is positioned below the active guiding rotating shaft, the two curve guiding rotating shafts and the ironing output rotating shaft are distributed in a staggered manner, the two curve guiding rotating shafts are positioned between the active guiding rotating shaft and the ironing output rotating shaft, a plurality of left ironing grooves distributed in parallel are respectively formed in the surfaces of the active guiding rotating shaft, the two curve guiding rotating shafts and the ironing output rotating shaft, a plurality of right ironing grooves distributed in parallel are respectively formed in the surfaces of the active guiding rotating shaft, the two curve guiding rotating shafts and the ironing output rotating shaft, and a dividing part is arranged between the left ironing groove and the right ironing groove on the same shaft, the surface of segmentation part is smooth shape, the epaxial segmentation part of initiative guide pivot is close to the right side of initiative guide pivot, two epaxial segmentation part of curve guide is compared and is shifted to the left side gradually in initiative guide pivot, it is located the middle part of ironing and spreading output pivot to iron the epaxial segmentation part of exhibition output.

Preferably, the hot air conducting mechanism comprises an air blower, a wind power output pipe, a communicating pipe, a ventilating slot, a left air spraying opening and a right air spraying opening, the air blower is fixedly arranged at the bottom of the low-consumption drying box, the wind power output pipe is sleeved at the output end of the air blower, the communicating pipe is fixedly connected with the surface of the low-consumption drying box, bearings corresponding to the active guide rotating shaft, the two curve guide rotating shafts and the ironing output rotating shaft are arranged on the communicating pipe, the active guide rotating shaft, the two curve guide rotating shafts and the ironing output rotating shaft are all sleeved with the surface of the communicating pipe through the bearings, the ventilating slot is respectively arranged inside the active guide rotating shaft, the two curve guide rotating shafts and the ironing output rotating shaft, the inside of the communicating pipe is communicated with the inside of the ventilating slot, an electric heating rod is fixedly arranged inside the ventilating slot, and an electric switch is fixedly arranged on the surface of the low-consumption drying box, the output end of the electric switch is electrically connected with the input end of the motor hot rod, the inner wall of the leftward ironing and unfolding groove is provided with a leftward air injection opening communicated with the ventilation groove, the inner wall of the rightward ironing and unfolding groove is provided with a rightward air injection opening communicated with the ventilation groove, the inner wall of the leftward air injection opening is inclined leftwards, and the inner wall of the rightward air injection opening is inclined rightwards.

Preferably, the surface of the low-consumption drying box is hinged with a sealing operation plate, the surface of the sealing operation plate is fixedly provided with a buckle lock, the surface of the sealing operation plate is fixedly connected with the surface of the low-consumption drying box through the buckle lock, and the bottom of the low-consumption drying box is provided with a drainage air outlet.

(III) advantageous effects

(1) According to the invention, by arranging the ironing transmission mechanism, the two sides of the cotton textile cloth are uniformly closed and twisted by the twisting structures in opposite directions in the transmission process of the cotton textile cloth, so that water can be fully extruded out, then the twisted cloth is gradually loosened until the cloth is spread, and the two sides are gradually and uniformly spread without clamping.

(2) According to the invention, by arranging the hot air conduction mechanism, when the hot air heats the cloth, two types of wind power with opposite directions are generated at the bottom of the cloth, and the cloth is shaken and flapped under the action of the inner walls of different ironing and unfolding grooves, so that the phenomenon that the long-time axial surface of the cloth is scalded can be avoided, and the cloth is promoted to be unfolded and ironed.

(3) According to the invention, by arranging the two curve guide rotating shafts, the cloth can be dried and wind-force gathered at the upper side surface and the lower side surface of the cloth, so that the hot air drying efficiency is improved.

(4) According to the invention, a special structure capable of dewatering and ironing the cloth in the transmission process is designed according to the problems of high energy consumption and low efficiency of the existing cotton textile cloth in the drying process, so that the problems that the common drying device is difficult to dry the cotton fabric with high water content with low energy consumption and low damage, the electric energy output power for drying is high, the energy consumption output is increased due to early dewatering and subsequent ironing of the cotton textile cloth, the efficiency is low, and the energy consumption is high are effectively solved.

Drawings

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

FIG. 2 is a rear view of the structure of the low-consumption drying box according to the present invention;

FIG. 3 is a structural sectional view of a low-consumption drying box according to the present invention;

FIG. 4 is a front view of the ironing output shaft of the present invention;

fig. 5 is a front view showing a second construction of the twisted roller according to the present invention.

Wherein, 1 low-consumption drying box, 2 supporting legs, 3 take-off and ironing transmission mechanisms, 31 driving motors, 32 first twisting roll shafts, 33 second twisting roll shafts, 34 driving guide rotating shafts, 35 curve guide rotating shafts, 36 ironing and unfolding output rotating shafts, 37 driven gears, 38 driving gears, 39 transmission belts, 310 stretching rotating shafts, 311 leftward twisting grooves, 312 rightward twisting grooves, 313 leftward ironing and unfolding grooves, 314 rightward ironing and unfolding grooves, 315 dividing parts, 4 hot air conduction mechanisms, 41 blowers, 42 wind power output pipes, 43 communicating pipes, 44 ventilation grooves, 45 leftward air injection holes, 46 rightward air injection holes, 47 electric heating rods, 48, 5 electric switches, 6 water discharge outlets, 6 feed inlets, 7 discharge outlets, 8 sealing operation plates and 9 latches.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-5, an embodiment of the present invention provides a multi-roller drying device for drying cotton fabrics, comprising a low-consumption drying box 1 for drying cotton fabrics, support legs 2 for supporting the low-consumption drying box 1, a ironing and transferring mechanism 3 for transferring the dried cotton fabrics, and a hot air conducting mechanism 4 for transferring wind power, wherein the bottom of the low-consumption drying box 1 is fixedly connected with the support legs 2, the surface of the low-consumption drying box 1 is provided with a feed inlet 6, the surface of the low-consumption drying box 1 is provided with a discharge outlet 7, the feed inlet 6 and the discharge outlet 7 are symmetrically distributed on the low-consumption drying box 1 with the center line of the surface of the low-consumption drying box 1 as a symmetric line, the ironing and transferring mechanism 3 and the hot air conducting mechanism 4 are both arranged on the low-consumption drying box 1, the surface of the low-consumption drying box 1 is hinged with a sealing operation plate 8, the surface of the sealing operation plate 8 is fixedly provided with a buckle 9, the surface of the sealing operation plate 8 is fixedly connected with the surface of the low-consumption drying box 1 through a lock catch 9, and the bottom of the low-consumption drying box 1 is provided with a drainage air outlet 5.

The iron releasing and transmitting mechanism 3 comprises a driving motor 31 for generating conveying power, a first twisting roller shaft 32, a second twisting roller shaft 33, a driving guide rotating shaft 34, two curve guide rotating shafts 35 and an ironing output rotating shaft 36, wherein the driving motor 31 is fixedly arranged on the low-consumption drying box 1, a plurality of pairs of bearings which are symmetrically distributed on the surface center line of the low-consumption drying box 1 are arranged on the low-consumption drying box 1, two ends of the first twisting roller shaft 32 and the second twisting roller shaft 33, the driving guide rotating shaft 34, the two curve guide rotating shafts 35 and the ironing output rotating shaft 36 are fixedly connected with the inner ring of the bearing on the low-consumption drying box 1, one end of the first twisting roller shaft 32 is fixedly connected with a driven gear 37, one end of the second twisting roller shaft 33 is fixedly connected with a driving gear 38, the surface of the driven gear 37 is meshed with the surface of the driving gear 38, the output shaft of the driving motor 31 is fixedly connected with the surface of the driving guide rotating shaft 34 through a coupler, a transmission belt 39 is sleeved on the surface of the active guide rotating shaft 34, the surface of one end of the second twisted roller shaft 33, the surfaces of the two curve guide rotating shafts 35 and the surface of the ironing output rotating shaft 36 are all sleeved on the inner side surface of the transmission belt 39, a bearing is arranged on the surface of the low-consumption drying box 1 below the driving motor 31, the inner ring of the bearing is fixedly connected with a stretching rotating shaft 310, the surface of the stretching rotating shaft 310 is sleeved on the inner side surface of the transmission belt 39, the diameter of the part of the first twisted roller shaft 32 located inside the low-consumption drying box 1 is gradually increased from left to right, the diameter of the part of the second twisted roller shaft 33 located inside the low-consumption drying box 1 is gradually decreased from left to right, the diameter of the left side of the part of the first twisted roller shaft 32 located inside the low-consumption drying box 1 is the same as the diameter of the right side of the part of the second twisted roller shaft 33 located inside the low-consumption drying box 1, and the diameter of the right side of the part of the first twisted roller shaft 32 located inside the low-consumption drying box 1 is the second twisted roller shaft 33 located inside the low-consumption drying box 1 The diameters of the left sides of the inner parts of the dry box 1 are the same, the surface of the first twist roller shaft 32 is provided with a plurality of left twist grooves 311 which are distributed in parallel, the surface of the second twist roller shaft 33 is provided with a plurality of right twist grooves 312 which are distributed in parallel, the inclination directions of the left twist grooves 311 and the right twist grooves 312 are opposite, the rotation directions of the first twist roller shaft 32 and the second twist roller shaft 33 are opposite, the axes of the active guide rotating shaft 34, the first twist roller shaft 32, the second twist roller shaft 33 and the ironing output rotating shaft 36 are positioned on the same horizontal plane, one of the two curve guide rotating shafts 35 is positioned above the active guide rotating shaft 34, the other is positioned below the active guide rotating shaft 34, the two curve guide rotating shafts 35 and the ironing output rotating shaft 36 are distributed in a staggered way, the two curve guide rotating shafts 35 are positioned between the active guide rotating shaft 34 and the ironing output rotating shaft 36, the surface of the active guide rotating shaft 34, the surfaces of the two curve guide rotating shafts 35 and the ironing output rotating shaft 36 are all provided with a plurality of leftward ironing grooves 313 distributed in parallel, the surface of the active guide rotating shaft 34, the surfaces of the two curve guide rotating shafts 35 and the ironing output rotating shaft 36 are all provided with a plurality of rightward ironing grooves 314 distributed in parallel, a dividing part 315 is arranged between the leftward ironing grooves 313 and the rightward ironing grooves 314 on the same shaft, the surface of the dividing part 315 is in a smooth shape, the dividing part 315 on the active guide rotating shaft 34 is close to the right side of the active guide rotating shaft 34, the dividing parts 315 on the two curve guide rotating shafts 35 are gradually shifted to the left side compared with the active guide rotating shaft 34, and the dividing part 315 on the ironing output rotating shaft 36 is located in the middle of the ironing output rotating shaft 36.

The hot air conducting mechanism 4 comprises an air blower 41, a wind power output pipe 42, a communicating pipe 43, a ventilating slot 44, a left air injection port 45 and a right air injection port 46, the air blower 41 is fixedly arranged at the bottom of the low-consumption drying box 1, the output end of the air blower 41 is sleeved with the wind power output pipe 42, the surface of the low-consumption drying box 1 is fixedly connected with the communicating pipe 43, the communicating pipe 43 is provided with bearings corresponding to the active guide rotating shaft 34, the two curve guide rotating shafts 35 and the ironing output rotating shaft 36, the active guide rotating shaft 34, the two curve guide rotating shafts 35 and the ironing output rotating shaft 36 are all sleeved with the surface of the communicating pipe 43 through bearings, the ventilating slot 44 is respectively arranged inside the active guide rotating shaft 34, the two curve guide rotating shafts 35 and the ironing output rotating shaft 36, the inside of the communicating pipe 43 is communicated with the inside of the ventilating slot 44, an electric heating rod 47 is fixedly arranged inside the ventilating slot 44, and an electric switch 48 is fixedly arranged on the surface of the low-consumption drying box 1, the output end of the electric switch 48 is electrically connected with the input end of the motor hot rod, the inner wall of the leftward ironing groove 313 is provided with a leftward air injection port 45 communicated with the ventilation groove 44, the inner wall of the rightward ironing groove 314 is provided with a rightward air injection port 46 communicated with the ventilation groove 44, the inner wall of the leftward air injection port 45 is inclined leftward, and the inner wall of the rightward air injection port 46 is inclined rightward.

When in use, the power supply is connected, the driving motor 31 and the blower 41 are started, each electric heating rod 47 is opened through the electric switch 48, the blower 41 generates wind power and blows the wind power to the inside of each ventilation groove 44 through the communicating pipe 43, then the wind power is blown to the inside of the low-consumption drying box 1 through each left air injection opening 45 and each right air injection opening 46 to preheat the inside of the low-consumption drying box 1, then the cloth is introduced into the inside of the low-consumption drying box 1 through the feed inlet 6, is sequentially lapped on the left twisting groove 311, the right twisting groove 312 and the right ironing groove 314 and is wound on the two curve guiding rotating shafts 35 to be led out from the bottom of the ironing output rotating shaft 36 and is led out through the discharge outlet 7 to be connected on the winding device, the driving motor 31 drives the driving guiding rotating shaft 34 to rotate, the driving belt 39 drives the second twisting roller shaft 33, the curve guiding rotating shaft 35 and the ironing output rotating shaft 36 to rotate in the same direction, the second twisting roller shaft 33 drives the first twisting roller shaft 32 to rotate in the reverse direction through the driven gear 37 and the driving gear 38, the cloth receives pulling force and the left and right sides are twisted and pushed, the cloth receives twisting and pushing to extrude a large amount of water, then the cloth is gradually unfolded under the action of the leftward ironing groove 313 and the rightward ironing groove 314 on the active guide rotating shaft 34 when passing through the active guide rotating shaft 34, then the leftward ironing groove 313 and the rightward ironing groove 314 on the curve guide rotating shaft 35 are more fully unfolded until the cloth can be evenly unfolded under the action of the ironing output rotating shaft 36, meanwhile, hot air is blown out through the leftward air injection port 45 and the rightward air injection port 46 and is enabled to flap and shake towards two sides under the action of the rightward ironing groove 314 and the partition 315, and the cloth is dried and unfolded until being unfolded.

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 an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims (5)

1. The utility model provides a multi-roll axle drying device based on cotton fabric article are dried and are used, includes the low consumption stoving case (1) that is used for drying cotton fabric article, is used for supporting leg (2) of low consumption stoving case (1), is used for carrying out the transmission and is dried cotton fabric article take off to press transport mechanism (3) and be used for transmitting hot-blast conduction mechanism (4) of wind-force, its characterized in that: the bottom of the low-consumption drying box (1) is fixedly connected with supporting legs (2), the surface of the low-consumption drying box (1) is provided with a feeding hole (6), the surface of the low-consumption drying box (1) is provided with a discharging hole (7), the feeding hole (6) and the discharging hole (7) are symmetrically distributed on the low-consumption drying box (1) by taking the central line on the surface of the low-consumption drying box (1) as a symmetrical line, the ironing transmission mechanism (3) and the hot air conduction mechanism (4) are both arranged on the low-consumption drying box (1), the ironing transmission mechanism (3) comprises a driving motor (31) for generating conveying power, a first twisting roller shaft (32), a second twisting roller shaft (33), a driving guide rotating shaft (34), two curve guide rotating shafts (35) and an ironing output rotating shaft (36), the driving motor (31) is fixedly installed on the low-consumption drying box (1), the low-consumption drying box (1) is provided with a plurality of pairs of bearings which are symmetrically distributed on the surface center line of the low-consumption drying box (1), the two ends of a first twisted roller shaft (32) and a second twisted roller shaft (33), a driving guide rotating shaft (34), two curve guide rotating shafts (35) and an ironing and unfolding output rotating shaft (36) are fixedly connected with the inner ring of the bearing on the low-consumption drying box (1), one end of the first twisted roller shaft (32) is fixedly connected with a driven gear (37), one end of the second twisted roller shaft (33) is fixedly connected with a driving gear (38), the surface of the driven gear (37) is meshed with the surface of the driving gear (38), the output shaft of a driving motor (31) is fixedly connected with the surface of the driving guide rotating shaft (34) through a coupler, and the surface of the driving guide rotating shaft (34) is sleeved with a transmission belt (39), the surface of one end of the second twisted roller shaft (33), the surfaces of the two curve guiding rotating shafts (35) and the surface of one ironing and unfolding output rotating shaft (36) are all sleeved with the inner side surface of a transmission belt (39), the diameter of the part, located inside the low-consumption drying box (1), of the first twisted roller shaft (32) is gradually increased from left to right, the diameter of the part, located inside the low-consumption drying box (1), of the second twisted roller shaft (33) is gradually decreased from left to right, the diameter of the left side of the part, located inside the low-consumption drying box (1), of the first twisted roller shaft (32) is the same as the diameter of the right side of the part, located inside the low-consumption drying box (1), of the second twisted roller shaft (33) is the same as the diameter of the left side of the part, located inside the low-consumption drying box (1), of the second twisted roller shaft (32), the surface of first distortion roller (32) sets up a plurality of parallel distribution to the left groove (311) of twisting, the surface of second distortion roller (33) sets up a plurality of parallel distribution's the right groove (312) of twisting, to the left groove (311) of twisting opposite with the slope direction of the right groove (312) of twisting, first distortion roller (32) and second distortion roller (33) direction of rotation are opposite.

2. The multi-roller drying device for drying cotton textiles according to claim 1, wherein: the surface of the low-consumption drying box (1) is provided with a bearing below the driving motor (31), the inner ring of the bearing is fixedly connected with a stretching rotating shaft (310), and the surface of the stretching rotating shaft (310) is sleeved with the inner side surface of the transmission belt (39).

3. The multi-roller drying device for drying cotton textiles according to claim 1, wherein: the axes of the active guide rotating shaft (34), the first twisted roller shaft (32), the second twisted roller shaft (33) and the ironing output rotating shaft (36) are positioned on the same horizontal plane, one of the curve guide rotating shafts (35) is positioned above the active guide rotating shaft (34), the other is positioned below the active guide rotating shaft (34), the active guide rotating shaft (34) and the two curve guide rotating shafts (35) and the ironing output rotating shaft (36) are distributed in a staggered manner, the two curve guide rotating shafts (35) are positioned between the active guide rotating shaft (34) and the ironing output rotating shaft (36), a plurality of leftward ironing grooves (313) which are distributed in parallel are formed in the surfaces of the active guide rotating shaft (34) and the two curve guide rotating shafts (35) and the ironing output rotating shaft (36), and the surfaces of the active guide rotating shaft (34), Two a plurality of parallel distribution's right side is pressed and is expanded groove (314) all seted up on the surface of curve direction pivot (35) and ironing output pivot (36), presses expansion groove (313) and right side to be provided with between the expansion groove (314) left side on the same axle and presses, the surface of division (315) is smooth shape, division (315) on initiative guide pivot (34) are close to the right side of initiative guide pivot (34), two division (315) on the curve direction pivot (35) are compared in initiative guide pivot (34) and are shifted to the left side gradually, division (315) on the ironing output pivot (36) are located the middle part of ironing output pivot (36).

4. The multi-roller drying device for drying cotton textiles according to claim 3, wherein: the hot air conducting mechanism (4) comprises an air blower (41), a wind power output pipe (42), a communicating pipe (43), a ventilating groove (44), a left air injection port (45) and a right air injection port (46), the air blower (41) is fixedly installed at the bottom of the low-consumption drying box (1), the wind power output pipe (42) is sleeved at the output end of the air blower (41), the communicating pipe (43) is fixedly connected to the surface of the low-consumption drying box (1), bearings corresponding to the active guide rotating shaft (34), the two curve guide rotating shafts (35) and the ironing output rotating shaft (36) are arranged on the communicating pipe (43), the active guide rotating shaft (34), the two curve guide rotating shafts (35) and the ironing output rotating shaft (36) are all sleeved with the surface of the communicating pipe (43) through bearings, the ventilating groove (44) is formed in the active guide rotating shaft (34), the two curve guide rotating shafts (35) and the ironing output rotating shaft (36), the inside of communicating pipe (43) and the inside intercommunication of ventilation groove (44), the inside fixed mounting of ventilation groove (44) has electrical heating rod (47), the fixed surface of low consumption stoving case (1) installs electric switch (48), the output of electric switch (48) is connected with the input electricity of motor heat rod, press the inner wall of exhibition groove (313) leftward and offer spray opening (45) left with ventilation groove (44) intercommunication, press the inner wall of exhibition groove (314) rightward and offer spray opening (46) right with ventilation groove (44) intercommunication, the inner wall of spray opening (45) leftward inclines to the left, the inner wall of spray opening (46) rightward inclines to the right.

5. The multi-roller drying device for drying cotton textiles according to claim 4, wherein: the surface of low consumption stoving case (1) articulates there is sealed operation panel (8), the fixed surface of sealed operation panel (8) installs padlock (9), the fixed surface of sealed operation panel (8) is connected with the fixed surface of low consumption stoving case (1) through padlock (9), drainage air exit (5) have been seted up to the bottom of low consumption stoving case (1).

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