CN114705017A

CN114705017A - Energy-saving weaving drying equipment

Info

Publication number: CN114705017A
Application number: CN202210348782.2A
Authority: CN
Inventors: 陈东
Original assignee: Nantong Beituo Industry And Trade Co ltd
Current assignee: Nantong Beituo Industry And Trade Co ltd
Priority date: 2022-04-01
Filing date: 2022-04-01
Publication date: 2022-07-05

Abstract

The invention discloses energy-saving textile drying equipment which comprises a drying box, wherein a partition plate is fixedly connected to the inner wall of the drying box, the partition plate divides the interior of the drying box into a drying chamber and a cooling chamber, a drying mechanism is installed in the drying chamber, the drying mechanism comprises a drying plate fixedly connected to the inner wall of the drying chamber, a hot air groove is formed in the drying plate, a plurality of hot air holes are formed in the inner wall of the hot air groove, a heat transfer pipe is fixedly connected to the side wall of the drying plate, a cooling leveling mechanism is installed in the cooling chamber, and the cooling leveling mechanism comprises a cooling box fixedly connected to the top in the drying chamber. The cooling and leveling mechanism can quickly cool and level the dried textile, so that the problem that the surface temperature of the dried textile is high and the next production process cannot be quickly carried out to influence the production efficiency is avoided.

Description

Energy-saving weaving drying equipment

Technical Field

The invention relates to the technical field of textile production and processing, in particular to energy-saving textile drying equipment.

Background

The textile is a product formed by processing and weaving textile fibers, is mainly used for producing products such as clothes, home decorations and the like, is an essential article in daily life of human beings at present, and needs to be dried in the production process.

Present fabrics drying equipment is in the use, and to the fabrics stoving back, the fabrics surface still has higher temperature to the fold can appear in the fabrics surface after the stoving, and present fabrics drying equipment lacks the device that cools off and the flattening to the fabrics after the stoving, makes the unable quick production processes that carry out of fabrics after the stoving, and the fold on the fabrics after the stoving can influence the pleasing to the eye of fabrics, and based on this, we provide an energy-saving weaving drying equipment.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides energy-saving textile drying equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

an energy-saving textile drying device comprises a drying box, wherein a partition board is fixedly connected to the inner wall of the drying box, the partition board divides the interior of the drying box into a drying chamber and a cooling chamber, a drying mechanism is installed in the drying chamber and comprises a drying board fixedly connected to the inner wall of the drying chamber, a hot air groove is formed in the drying board, a plurality of hot air holes are formed in the inner wall of the hot air groove, a heat transfer pipe is fixedly connected to the side wall of the drying board, a cooling leveling mechanism is installed in the cooling chamber and comprises a cooling box fixedly connected to the top of the interior of the cooling chamber, a thermoelectric refrigeration piece is fixedly connected to the inner wall of the cooling box, a first groove is formed in the upper end of the drying box, a thermistor is fixedly connected to the inner wall of the first groove, the thermistor is electrically connected with the thermoelectric refrigeration piece, and a spiral pipe is sleeved on the side wall of the thermistor, the spiral pipe passes through outlet duct and cooler bin intercommunication, the cooler bin inner wall rotates and is connected with first pole, first pole lateral wall fixedly connected with flattening roller, the cooling bath has been seted up in the flattening roller, a plurality of cold gas pockets have been seted up to the cooling bath inner wall, flattening roller lateral wall fixedly connected with second pole, the second groove has been seted up in the second pole, second groove and cooling bath intercommunication, the cooler bin inner wall passes through support fixed connection and has rotary joint, the second pole other end and rotary joint fixed connection, cooler bin lower extreme fixedly connected with air supply pipe, the air supply pipe other end and rotary joint fixed connection.

Further, install air feed mechanism on the stoving case, air feed mechanism is including seting up the third groove at the stoving case lower extreme, the sealed sliding connection of third inslot wall has the sliding plug, the third groove passes through breathing pipe and drying chamber intercommunication, the third groove passes through intake pipe and spiral pipe intercommunication.

Further, install a actuating mechanism in the third inslot, an actuating mechanism includes the slider of sliding connection at the third inslot wall, the slider is close to two third poles of the lateral wall symmetry fixedly connected with of sliding plug, two the third pole other end all with sliding plug fixed connection, the third inslot wall rotates and is connected with first reciprocal lead screw, first reciprocal lead screw lateral wall and slider threaded connection.

Further, a dewatering mechanism is installed in the drying chamber and comprises a fourth rod fixedly connected to the inner wall of the drying chamber, the other end of the fourth rod is rotatably connected with the side wall of the isolation plate, a moving block is slidably connected to the side wall of the fourth rod, and a water absorption sponge is fixedly connected to the upper end of the moving block.

Furthermore, a second driving mechanism is installed in the drying chamber, the second driving mechanism comprises a second reciprocating lead screw which is rotatably connected to the inner wall of the drying chamber, the other end of the second reciprocating lead screw is rotatably connected with the side wall of the isolation plate, the side wall of the second reciprocating lead screw is in threaded connection with a movable block, a first bevel gear is fixedly connected to the side wall of the second reciprocating lead screw, a fifth rod is rotatably connected to the inner wall of the drying chamber, a second bevel gear is fixedly connected to the side wall of the fifth rod, and the first bevel gear is in meshed connection with the second bevel gear.

Further, install conveying mechanism on the stoving case, conveying mechanism includes a plurality of mounting brackets of symmetry fixed connection at stoving case lateral wall, and is a plurality of the quantity of mounting bracket is 4, lies in two with one side the mounting bracket lateral wall rotates jointly and is connected with the sixth pole, sixth pole lateral wall fixedly connected with conveying roller, connect through the conveyer belt between the conveying roller, one of them the mounting bracket lateral wall passes through support fixedly connected with motor, one of them sixth pole one end run through the mounting bracket lateral wall and with motor output end fixed connection.

Further, motor output lateral wall fixedly connected with action wheel, first pole one end runs through stoving case lateral wall and fixedly connected with is first from the driving wheel, first reciprocal lead screw one end runs through stoving case lateral wall and fixedly connected with second from the driving wheel, the reciprocal lead screw one end of second runs through stoving case lateral wall and fixedly connected with third from the driving wheel, action wheel, first from driving wheel, second from connecting through the hold-in range between driving wheel and the third follow driving wheel.

Furthermore, check valves are installed on the inner walls of the air suction pipe and the air inlet pipe.

The invention has the following advantages:

1. by arranging the cooling leveling mechanism, the dried textile can be quickly cooled and leveled, the problem that the surface temperature of the dried textile is high and the next production process cannot be quickly carried out to influence the production efficiency is avoided, and meanwhile, the folds on the dried textile can be leveled, so that the attractiveness of the textile is prevented from being influenced;

2. the thermoelectric refrigerating piece can adjust the refrigerating effect according to the temperature of hot air introduced into the drying chamber by arranging the thermistor and the thermoelectric refrigerating piece, when different textiles are dried, the hot air with different temperatures is introduced into the hot air groove, and the thermoelectric refrigerating piece can also adjust the refrigerating effect according to the temperature of the hot air, so that the drying device is more intelligent;

3. through setting up dewatering mechanism, the in-process of drying in the drying chamber, moisture in the fabrics can become vapor, and these vapor can condense into the drop of water again at the stoving board lower extreme, and the sponge that absorbs water can absorb the drop of water that the stoving board lower extreme condenses, avoids the drop of water to drip on the fabrics, drenches the fabrics, reduces the drying efficiency of fabrics.

Drawings

FIG. 1 is a schematic perspective view of an energy-saving textile drying apparatus according to the present invention;

FIG. 2 is a schematic rear view of the structure of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the structure of FIG. 1;

FIG. 4 is a schematic cross-sectional view of the structure of FIG. 3 taken along line A-A;

FIG. 5 is a schematic cross-sectional view of the structure of FIG. 3 along line B-B;

FIG. 6 is a schematic cross-sectional view of the C-C oriented structure of FIG. 3;

FIG. 7 is an enlarged schematic view of the structure at D in FIG. 3;

FIG. 8 is an enlarged schematic view of the structure at E in FIG. 3;

fig. 9 is an enlarged schematic view of the structure at F in fig. 3.

In the figure: 1 drying box, 101 partition board, 102 drying chamber, 103 cooling chamber, 2 drying board, 201 hot air groove, 202 hot air hole, 203 heat transfer pipe, 3 cooling box, 301 thermoelectric cooling piece, 302 first groove, 303 thermistor, 304 spiral pipe, 305 air outlet pipe, 306 first rod, 307 leveling roller, 308 cooling groove, 309 cold air hole, 310 second rod, 311 second groove, 312 rotary joint, 313 air supply pipe, 314 first driven wheel, 4 third groove, 401 sliding plug, 402 air suction pipe, 403 air inlet pipe, 5 sliding block, 501 third rod, 502 first reciprocating lead screw, 503 second driven wheel, 6 fourth rod, 601 moving block, 602 water absorption sponge, 7 second reciprocating lead screw, 701 first bevel gear, 702 fifth rod, 703 second bevel gear, 704 third driven wheel, 8 mounting rack, 801 sixth rod, 802 conveying roller,

conveying belt

803, 804 motor, 805 driving wheel.

Detailed Description

Referring to fig. 1-9, an energy-saving textile drying device comprises a drying box 1, wherein a partition board 101 is fixedly connected to the inner wall of the drying box 1, the inside of the drying box 1 is divided into a drying chamber 102 and a cooling chamber 103 by the partition board 101, a drying mechanism is installed in the drying chamber 102 and comprises a drying board 2 fixedly connected to the inner wall of the drying chamber 102, a hot air groove 201 is formed in the drying board 2, a plurality of hot air holes 202 are formed in the inner wall of the hot air groove 201, a heat transfer pipe 203 is fixedly connected to the side wall of the drying board 2, and it needs to be noted that a heating device outside the other end of the heat transfer pipe 203 is connected.

Further, through starting outside heating equipment, make outside heating equipment pass through heat transfer pipe 203 and input steam to the hot gas groove 201 in, steam can be through hot air vent 202 blowout, dry the fabrics, because the fabrics humidity that just gets into drying chamber 102 is great, so hot air vent 202 distributes on drying plate 2 for turning left more intensive more, make more the steam that turns left spun more, can carry out quick stoving to the fabrics that just get into in drying chamber 102, make the quick evaporation of moisture, and the fabrics is more turned right and is removed, humidity just is less, spun steam quantity is also less this moment, make steam can make full use of, also avoid turning right steam too much more simultaneously and cause the damage to the fabrics.

The cooling leveling mechanism is installed in the cooling chamber 103, the cooling leveling mechanism comprises a cooling box 3 fixedly connected to the top of the cooling chamber 103, the inner wall of the cooling box 3 is fixedly connected with a thermoelectric refrigerating sheet 301, it should be noted that when the thermoelectric refrigerating sheet 301 is connected with direct current, two ends of a couple can absorb heat and release heat respectively, so as to realize refrigeration, for the prior art, details are not given herein, the upper end of the drying box 1 is provided with a first groove 302, the inner wall of the first groove 302 is fixedly connected with a thermistor 303, it should be noted that the thermistor 303 is an NTC type thermistor, when the temperature is higher, the resistance value of the NTC type thermistor is smaller, for the prior art, details are not given herein, the thermistor 303 is electrically connected with the thermoelectric refrigerating sheet 301, the side wall of the thermistor 303 is sleeved with a spiral pipe 304, the spiral pipe 304 is communicated with the cooling box 3 through an air outlet pipe 305, the inner wall of the cooling chamber 103 is rotatably connected with a first rod 306, first pole 306 lateral wall fixedly connected with flattening roller 307, it has cooling tank 308 to have seted up in flattening roller 307, a plurality of cold air holes 309 have been seted up to cooling tank 308 inner wall, flattening roller 307 lateral wall fixedly connected with second pole 310, it has second groove 311 to have seted up in the second pole 310, second groove 311 and cooling tank 308 intercommunication, cooling chamber 103 inner wall passes through support fixed connection and has rotary joint 312, the second pole 310 other end and rotary joint 312 fixed connection, 3 lower extreme fixedly connected with air supply pipe 313 of cooler bin, the air supply pipe 313 other end and rotary joint 312 fixed connection.

Install air feed mechanism on stoving case 1, air feed mechanism is including seting up in the third groove 4 of stoving case 1 lower extreme, the sealed sliding connection of third groove 4 inner wall has sliding plug 401, third groove 4 passes through breathing pipe 402 and drying chamber 102 intercommunication, third groove 4 passes through intake pipe 403 and communicates with spiral pipe 304, the check valve is all installed to breathing pipe 402 and intake pipe 403 inner wall, it needs to explain, the check valve of breathing pipe 402 inner wall installation only allows the steam in the drying chamber 102 to get into in the third groove 4, the check valve of intake pipe 403 inner wall installation only allows the steam in the third groove 4 to get into in the spiral pipe 304.

Install first actuating mechanism in the third groove 4, first actuating mechanism includes sliding connection at the slider 5 of third groove 4 inner wall, and slider 5 is close to two third poles 501 of the lateral wall symmetry fixedly connected with of sliding plug 401, and two third pole 501 other ends all with sliding plug 401 fixed connection, and the third groove 4 inner wall rotates and is connected with first reciprocal lead screw 502, first reciprocal lead screw 502 lateral wall and slider 5 threaded connection.

Install the dewatering mechanism in drying chamber 102, dewatering mechanism includes fixed connection at the fourth rod 6 of drying chamber 102 inner wall, and the 6 other end of fourth rod rotates with division board 101 lateral wall to be connected, and the 6 lateral wall sliding connection of fourth rod has movable block 601, and movable block 601 upper end fixedly connected with sponge 602 that absorbs water, sponge 602 upper end and the laminating setting of 2 lower extremes of drying plate absorb water.

The drying chamber 102 is internally provided with a second driving mechanism, the second driving mechanism comprises a second reciprocating lead screw 7 which is rotatably connected to the inner wall of the drying chamber 102, the other end of the second reciprocating lead screw 7 is rotatably connected with the side wall of the isolation plate 101, the side wall of the second reciprocating lead screw 7 is in threaded connection with a moving block 601, the side wall of the second reciprocating lead screw 7 is fixedly connected with a first bevel gear 701, the inner wall of the drying chamber 102 is rotatably connected with a fifth rod 702, the side wall of the fifth rod 702 is fixedly connected with a second bevel gear 703, and the first bevel gear 701 is meshed with the second bevel gear 703.

The fourth rod 6 is a limit rod, which limits the rotation position of the moving block 601 and prevents the moving block 601 from rotating together with the rotation of the second reciprocating screw 7.

Install conveying mechanism on stoving case 1, conveying mechanism includes a plurality of mounting brackets 8 of symmetry fixed connection at stoving case 1 lateral wall, the quantity of a plurality of mounting brackets 8 is 4, it is connected with sixth pole 801 to lie in jointly to rotate with two 8 lateral walls of mounting bracket of one side, sixth pole 801 lateral wall fixedly connected with conveying roller 802, connect through conveyer belt 803 between the conveying

roller

802, 8 lateral walls of one of them mounting bracket pass through support fixedly connected with motor 804, one of them sixth pole 801 one end run through the 8 lateral walls of mounting bracket and with motor 804 output fixed connection, it is required to explain, frame mouth has all been seted up to stoving case 1 lateral wall and division board 101 lateral wall, make things convenient for conveyer belt 803 to carry the fabrics through the frame mouth.

The motor 804, the thermistor 303 and the thermoelectric cooling plate 301 are connected in series, and when the motor 804 is started, the thermoelectric cooling plate 301 is also electrified.

The side wall of the output end of the motor 804 is fixedly connected with a driving wheel 805, one end of the first rod 306 penetrates through the side wall of the drying box 1 and is fixedly connected with a first driven wheel 314, one end of the first reciprocating lead screw 502 penetrates through the side wall of the drying box 1 and is fixedly connected with a second driven wheel 503, one end of the second reciprocating lead screw 7 penetrates through the side wall of the drying box 1 and is fixedly connected with a third driven wheel 704, and the driving wheel 805, the first driven wheel 314, the second driven wheel 503 and the third driven wheel 704 are connected through a synchronous belt.

Further, under the drive of the motor 804, the leveling roller 307 can be driven to rotate, so as to level the dried textile, and prevent wrinkles from being left on the dried textile and affecting the beauty of the textile.

Further, motor 804 rotates and can drive sliding plug 401 and slide, the hot gas pump in with drying chamber 102 is gone into in spiral pipe 304, hot gas in spiral pipe 304 can heat thermistor 303 this moment, thermistor 303 is heated the temperature rise resistance and can diminishes, make the electric current through thermoelectric refrigeration piece 301 can the grow, thermoelectric refrigeration piece 301's refrigeration effect can strengthen, make thermoelectric refrigeration piece 301 can carry out the regulation of refrigeration effect according to the hot gas temperature that lets in drying chamber 102, when drying to different fabrics, can let in the hot gas of different temperatures in the hot gas groove 201, thermoelectric refrigeration piece 301 also can carry out the regulation of refrigeration effect according to the temperature of hot gas this moment, it is more intelligent, hot gas in the spiral pipe 304 finally can get into 3 internal cooling of cooler bin, it becomes cold air to be hot gas. During air conditioning can get into cooling bath 308, by air conditioning hole 309 blowout at last, lower the temperature to the fabrics after the stoving, the fabrics surface temperature of avoiding after the stoving is higher, can't carry out production processes on next step fast, influences the efficiency of production.

Further, the in-process of drying in the drying chamber 102, moisture in the fabrics can become vapor, these vapor can condense into the drop of water again at the board 2 lower extreme of drying, the motor 804 rotates and can drive the reciprocal lead screw 7 of second and rotate for movable block 601 round trip movement, and then drive sponge 602 round trip movement absorbs, absorb the drop of water that the board 2 lower extreme of drying condenses, avoid the drop of water to drip on the fabrics, moisten the fabrics, reduce the drying efficiency of fabrics.

It should be noted that a through hole is formed in the side wall of the second driven wheel 503, which is close to the third groove 4, and when the sliding plug 401 slides back and forth on the inner wall of the third groove 4, the through hole can balance the pressure change in the third groove 4, so as to ensure that the sliding plug 401 can slide normally.

In the invention, firstly, external heating equipment is electrified and started, the heating equipment inputs hot air into the hot air groove 201 through the heat transfer pipe 203, the hot air is sprayed out from the hot air hole 202 to dry textiles on the conveying belt 803, meanwhile, the motor 804 is electrified, the motor 804 rotates to drive the sixth rod 801 to rotate, and further drive the conveying roller 802 to rotate, so that the conveying belt 803 horizontally moves from left to right to convey the textiles;

when the motor 804 is electrified, the thermoelectric cooling plate 301 is electrified, but the thermistor 303 is in a normal temperature state at the moment, the resistance value of the resistor is large, the current passing through the thermoelectric cooling plate 301 is very small, and the cooling effect of the thermoelectric cooling plate 301 is poor at the moment;

the motor 804 rotates to synchronously drive the driving wheel 805 to rotate, so as to drive the first driven wheel 314, the second driven wheel 503 and the third driven wheel 704 to rotate, the first driven wheel 314 rotates to drive the first rod 306 to rotate, and further drive the leveling roller 307 to rotate, so that the dried textile on the conveying belt 803 is leveled, and the phenomenon that the surface of the dried textile has wrinkles to affect the beauty of the textile is avoided;

meanwhile, the second driven wheel 503 rotates to drive the first reciprocating screw 502 to rotate, so as to drive the sliding block 5 to slide back and forth on the inner wall of the third slot 4, the sliding block 5 drives the sliding plug 401 to slide back and forth on the inner wall of the third slot 4 through the two third rods 501, under the action of the sliding plug 401, hot gas in the drying chamber 102 is pumped into the third slot 4 through the air suction pipe 402, hot gas in the third slot 4 is squeezed into the spiral pipe 304 through the air inlet pipe 403, at the moment, the hot gas in the spiral pipe 304 heats the thermistor 303, so that the resistance value of the thermistor 303 is reduced, further, the current passing through the thermoelectric cooling fin 301 is increased, so that the cooling effect of the thermoelectric cooling fin 301 is enhanced, so that the thermoelectric cooling fin 301 can automatically adjust the cooling efficiency according to the heat of the hot gas in the drying chamber 102, then the hot gas in the spiral pipe 304 enters the cooling box 3 through the air outlet pipe 305, and the thermoelectric cooling fin 301 in the cooling box 3 cools the hot gas, the hot air is changed into cold air, the cold air enters the second groove 311 through the air supply pipe 313, then enters the cooling groove 308, is finally sprayed out from the cold air hole 309, and is matched with the leveling roller 307 to perform leveling and cooling on the textile dried on the conveying belt 803, so that the dried textile can conveniently and quickly enter the next production process, and the production efficiency is improved;

in the drying process in the drying chamber 102, the moisture in the textile can become vapor, these vapors can condense into small water drops again at the lower end of the drying plate 2, the third driven wheel 704 rotates to drive the fifth rod 702 to rotate, the second bevel gear 703 rotates, the first bevel gear 701 is driven to rotate, and then the second reciprocating lead screw 7 is driven to rotate, so that the moving block 601 moves back and forth, and then the water-absorbing sponge 602 is driven to wipe the lower end of the drying plate 2, the small water drops condensed at the lower end of the drying plate 2 are absorbed, the small water drops are prevented from falling onto the textile on the conveying belt 803, the textile is wetted, and the drying efficiency of the textile is reduced.

Claims

1. The energy-saving textile drying equipment comprises a drying box (1) and is characterized in that a partition board (101) is fixedly connected to the inner wall of the drying box (1), the partition board (101) divides the inside of the drying box (1) into a drying chamber (102) and a cooling chamber (103), a drying mechanism is installed in the drying chamber (102), the drying mechanism comprises a drying board (2) fixedly connected to the inner wall of the drying chamber (102), a hot air groove (201) is formed in the drying board (2), a plurality of hot air holes (202) are formed in the inner wall of the hot air groove (201), a heat transmission pipe (203) is fixedly connected to the side wall of the drying board (2), a cooling leveling mechanism is installed in the cooling chamber (103), the cooling leveling mechanism comprises a cooling box (3) fixedly connected to the top of the cooling chamber (103), and a thermoelectric cooling sheet (301) is fixedly connected to the inner wall of the cooling box (3), the drying box is characterized in that a first groove (302) is formed in the upper end of the drying box (1), a thermistor (303) is fixedly connected to the inner wall of the first groove (302), the thermistor (303) is electrically connected with a thermoelectric refrigerating piece (301), a spiral pipe (304) is sleeved on the side wall of the thermistor (303), the spiral pipe (304) is communicated with the cooling box (3) through an air outlet pipe (305), the inner wall of the cooling chamber (103) is rotatably connected with a first rod (306), the side wall of the first rod (306) is fixedly connected with a leveling roller (307), a cooling groove (308) is formed in the leveling roller (307), a plurality of cold air holes (309) are formed in the inner wall of the cooling groove (308), a second rod (310) is fixedly connected to the side wall of the leveling roller (307), a second groove (311) is formed in the second rod (310), and the second groove (311) is communicated with the cooling groove (308), cooling chamber (103) inner wall has rotary joint (312) through support fixed connection, second pole (310) other end and rotary joint (312) fixed connection, cooler bin (3) lower extreme fixedly connected with air supply pipe (313), air supply pipe (313) other end and rotary joint (312) fixed connection.

2. The energy-saving textile drying equipment is characterized in that an air supply mechanism is mounted on the drying box (1), the air supply mechanism comprises a third groove (4) arranged at the lower end of the drying box (1), a sliding plug (401) is connected to the inner wall of the third groove (4) in a sealing and sliding manner, the third groove (4) is communicated with the drying chamber (102) through an air suction pipe (402), and the third groove (4) is communicated with the spiral pipe (304) through an air inlet pipe (403).

3. The energy-saving textile drying equipment according to claim 2, wherein a first driving mechanism is installed in the third groove (4), the first driving mechanism comprises a sliding block (5) which is slidably connected to the inner wall of the third groove (4), two third rods (501) are symmetrically and fixedly connected to the side wall of the sliding block (5) close to the sliding plug (401), the other ends of the two third rods (501) are fixedly connected to the sliding plug (401), a first reciprocating lead screw (502) is rotatably connected to the inner wall of the third groove (4), and the side wall of the first reciprocating lead screw (502) is in threaded connection with the sliding block (5).

4. The energy-saving textile drying device according to claim 3, wherein a water removing mechanism is installed in the drying chamber (102), the water removing mechanism comprises a fourth rod (6) fixedly connected to the inner wall of the drying chamber (102), the other end of the fourth rod (6) is rotatably connected to the side wall of the isolation plate (101), a moving block (601) is slidably connected to the side wall of the fourth rod (6), and a water absorbing sponge (602) is fixedly connected to the upper end of the moving block (601).

5. The energy-saving textile drying device according to claim 4, wherein a second driving mechanism is installed in the drying chamber (102), the second driving mechanism comprises a second reciprocating lead screw (7) rotatably connected to the inner wall of the drying chamber (102), the other end of the second reciprocating lead screw (7) is rotatably connected to the side wall of the isolation plate (101), the side wall of the second reciprocating lead screw (7) is in threaded connection with a moving block (601), a first bevel gear (701) is fixedly connected to the side wall of the second reciprocating lead screw (7), a fifth rod (702) is rotatably connected to the inner wall of the drying chamber (102), a second bevel gear (703) is fixedly connected to the side wall of the fifth rod (702), and the first bevel gear (701) is in meshed connection with the second bevel gear (703).

6. The energy-saving textile drying equipment according to claim 5, wherein a conveying mechanism is installed on the drying box (1), the conveying mechanism comprises a plurality of mounting frames (8) which are symmetrically and fixedly connected to the side wall of the drying box (1), the number of the mounting frames (8) is 4, two mounting frames (8) located on the same side are connected with a sixth rod (801) in a rotating mode together, conveying rollers (802) are fixedly connected to the side wall of the sixth rod (801), the conveying rollers (802) are connected through conveying belts (803), one side wall of each mounting frame (8) is fixedly connected with a motor (804) through a support, and one end of the sixth rod (801) penetrates through the side wall of the mounting frame (8) and is fixedly connected with the output end of the motor (804).

7. The energy-saving textile drying equipment as claimed in claim 6, wherein a driving wheel (805) is fixedly connected to the side wall of the output end of the motor (804), one end of the first rod (306) penetrates through the side wall of the drying box (1) and is fixedly connected with a first driven wheel (314), one end of the first reciprocating lead screw (502) penetrates through the side wall of the drying box (1) and is fixedly connected with a second driven wheel (503), one end of the second reciprocating lead screw (7) penetrates through the side wall of the drying box (1) and is fixedly connected with a third driven wheel (704), and the driving wheel (805), the first driven wheel (314), the second driven wheel (503) and the third driven wheel (704) are connected through a synchronous belt.

8. An energy-saving textile drying device as claimed in claim 2, characterized in that the inner walls of the air suction pipe (402) and the air inlet pipe (403) are provided with one-way valves.