CN112709029A - Energy-concerving and environment-protective type has intelligent printing and dyeing equipment of stoving function - Google Patents

Abstract

The invention provides energy-saving and environment-friendly intelligent printing and dyeing equipment with a drying function, which comprises a first bearing plate, wherein a feeding mechanism is fixedly arranged at the top of the first bearing plate, a printing and dyeing mechanism is fixedly connected to one side of the feeding mechanism, a second bearing plate is fixedly connected to one side of the first bearing plate, a drying mechanism is fixedly arranged at the top of the second bearing plate, a filtering mechanism is fixedly connected to the top end of the drying mechanism, a third bearing plate is fixedly connected to one side of the second bearing plate, and a winding mechanism is fixedly connected to the top of the third bearing plate, the invention comprises the following steps: through the stoving mechanism that is equipped with, the cloth of dying that will print and dye the completion is sent into the drying chamber inside that is equipped with the heating pipe, blows through the air-blower for the air-dry of cloth surface dye is dyed in the printing and dyeing, and the temperature sensor who is equipped with can monitor the temperature in the drying chamber at any time, and the filtering mechanism who is equipped with can filter the inside gas of drying chamber, prevents that the gas direct discharge in the drying chamber from causing the pollution to the environment.

Description

Energy-concerving and environment-protective type has intelligent printing and dyeing equipment of stoving function

Technical Field

The invention relates to the technical field of printing and dyeing equipment, in particular to energy-saving and environment-friendly intelligent printing and dyeing equipment with a drying function.

Background

Printing and dyeing is also known as dyeing and finishing, and refers to a process mainly comprising chemical treatment of textile materials, which is also commonly referred to as printing and dyeing in modern times. Dyeing and finishing are carried out together with spinning, weaving or knitting production to form the whole process of textile production. The dyeing and finishing comprises pretreatment, dyeing, printing and finishing. With the development of society and the increase of economy, the development of printing and dyeing manufacturing industry is faster and faster, and the printing and dyeing machine is more and more widely applied in the printing and dyeing manufacturing industry, and the printing and dyeing machine is made of all stainless steel, has the advantages of no noise, convenient speed regulation and the like by mechanical speed regulation, and is suitable for dyeing flax, cotton, rayon and blended seamless underwear, silk stockings, silk, plastics and the like. The dyeing liquid is stirred in the positive and negative directions of the blade, so that the dyed object is in a floating dyeing state, the dyeing is uniform, the permeability is strong, and the dyed object is not easy to damage. However, when the existing dyeing machine finishes printing and dyeing, because there is no equipment capable of drying the surface of the dyed cloth rapidly, the dyed cloth can be stained on the surface of the cloth rolled later due to the fact that the surface dye is not completely dried in the rolling process, so that the product is defective and cannot be used, and certain economic loss is caused.

Disclosure of Invention

The invention aims to provide energy-saving and environment-friendly intelligent printing and dyeing equipment with a drying function, and aims to solve the problems that printing and dyeing cannot be rapidly dried by traditional printing and dyeing equipment after printing and dyeing are finished, and printed and dyed cloth falls off or wrinkles occur in the traditional cloth rolling and printing and dyeing process.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an energy-concerving and environment-protective type has intelligent printing and dyeing equipment of stoving function, includes first loading board, the top fixed mounting of first loading board has feeding mechanism, one side fixedly connected with printing and dyeing mechanism of feeding mechanism, one side fixedly connected with second loading board of first loading board, the top fixed mounting of second loading board has stoving mechanism, the top fixedly connected with filter equipment of stoving mechanism, one side fixedly connected with third loading board of second loading board, the top fixedly connected with winding mechanism of third loading board, the equal fixedly connected with supporting leg in top of first loading board, second loading board and third loading board.

In order to facilitate the transport of the cloth to be printed and the cleaning of the surface, as a preferred embodiment of the invention: feeding mechanism includes four support columns of fixed mounting on first bearing plate surface, the middle part fixedly connected with bracing piece of support column, the brush roller is removed to one side fixedly connected with of bracing piece, the one end fixedly connected with flywheel of brush roller removes, the surface of flywheel is connected with first driving motor through belt transmission, remove bottom one side fixedly connected with guide roller of brush roller.

In order to dye and print the cloth to be printed and dyed, the invention adopts a preferable scheme that: the printing and dyeing mechanism comprises a protective cover fixedly connected with the supporting column, a supporting frame is arranged in the protective cover, a dye trough is fixedly arranged at the bottom of the supporting frame, a first dye bar is rotatably connected inside the dye trough, one end of the supporting frame is rotatably connected with a second dye rod, the first dye rod is in contact connection with the second dye rod, one end of the second dye bar is sleeved with a driven gear, the middle part of the support frame is rotatably connected with a printing roller, one end of the embossing roller is sleeved with a transmission gear, the other end of the supporting frame is rotatably connected with a cloth pressing roller, one end of the cloth pressing roller is sleeved with a driving gear, the bottom of the supporting frame is fixedly provided with a second driving motor, the output end of the second driving motor is fixedly connected with a power gear, the power gear is in transmission connection with a driving gear, and the driving gear is in rotation connection with a driven gear through a transmission gear.

In order to dry the printed and dyed cloth, the preferable scheme of the invention is as follows: drying mechanism include with protection casing one side fixed connection's drying chamber, the top of drying chamber is equipped with the ventiduct, the ventilation hole has been seted up to the bottom of ventiduct, connecting rod fixedly connected with heating pipe is passed through to the bottom of ventiduct, one side of ventiduct runs through the UNICOM and has the intake pipe, the one end fixedly connected with air inlet of intake pipe, the inside fixed mounting of air inlet has the filter screen, the top fixedly connected with blower motor of air inlet, the air inlet sets up on one side of the drying chamber and fixed connection in second bearing plate surface.

In order to monitor the temperature in the drying chamber, as a preferred scheme of the invention: drying mechanism still includes a plurality of setting rollers to fixed mounting in the drying chamber inner wall both sides, the inner wall fixed mounting of drying chamber has temperature sensor.

In order to filter the gas in the drying chamber, as a preferred scheme of the invention: the filter mechanism includes that one end runs through the rose box at drying chamber top, the inside fixed mounting of rose box has thin filtering layer, the top fixed mounting of thin filtering layer has activated carbon layer, activated carbon layer's top fixed mounting has the deodorization layer, the top fixedly connected with rectangle frame of rose box, the inside fixed mounting of rectangle frame has the ventilating board, the bottom fixedly connected with negative-pressure air fan of ventilating board, the top fixedly connected with air exit of rectangle frame.

In order to collect the dried printed and dyed cloth, as a preferred scheme of the invention: winding mechanism includes the square post of fixed connection at third loading board top both ends, the top through connection of square post has the dwang, the dwang is located square post inboard surface cover and is equipped with the winding drum, the one end fixedly connected with third driving motor of dwang, third driving motor passes through adapter sleeve fixed connection in square post one side

In order to filter out fine particles in the drying chamber air, as a preferred embodiment of the present invention: the diameter of the fine filtering layer is 0.6-0.8 μm.

In order to prevent the printed and dyed cloth from falling off from one end of the sizing roller in the drying process, the invention is a preferable scheme that: a plurality of rubber rings are sleeved on one end of the surface of the shaping roller.

In order to enable the equipment to work normally, the invention adopts the following preferable scheme: one side fixed mounting of first loading board has the PLC controller, first driving motor, second driving motor, blower motor, temperature sensor, negative-pressure air fan and third driving motor all with PLC controller electric connection, PLC controller and external power source electric connection.

Compared with the prior art, the energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function provided by the invention has the following beneficial effects:

1) the drying mechanism is arranged, the dyed cloth which is printed and dyed is sent into the drying chamber, the heating pipe arranged at the top of the drying chamber is electrified to heat and then blown by the air blower, and blown cold air is heated and then blown to the dyed cloth in the drying chamber, so that the air drying of the dye on the surface of the dyed cloth is accelerated, the temperature sensor can monitor the temperature in the drying chamber at any time, the temperature control can be carried out on the heating degree of different cloth materials, and the regulation by personnel is facilitated;

2) the gas in the drying chamber can be filtered through the filtering mechanism, and the harmful substances in the drying gas can be adsorbed and filtered through the multi-layer filtering layers, so that the direct discharge of the gas in the drying chamber is prevented from polluting the environment and damaging the bodies of field personnel;

3) through the coil stock mechanism that is equipped with, replaced traditional pendulum material to retrieve the mode of printing and dyeing cloth for the printing and dyeing cloth has been taked care of in the collection process in order, can not appear dyeing cloth and drop and cause the condition of pollution on ground, the packing and the use in the later stage of being convenient for, and efficiency is higher than traditional pendulum material recovery's mode, has improved production efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic view of a feed mechanism of the present invention;

FIG. 3 is a schematic view of a printing mechanism of the present invention;

FIG. 4 is a schematic view of a drying mechanism according to the present invention;

FIG. 5 is a schematic view of a drying mechanism according to the present invention;

FIG. 6 is a schematic view of a filter mechanism according to the present invention;

FIG. 7 is a schematic view of a winding mechanism of the present invention.

In the figure: 1. a first bearing plate; 2. a feeding mechanism; 21. a support pillar; 22. a support bar; 23. a deburring roller; 24. a flywheel; 25. a first drive motor; 26. a material guide roller; 3. a printing mechanism; 31. a protective cover; 32. a support frame; 33. a dye trough; 34. a first dye bar; 35. a second dye bar; 351. a driven gear; 36. a printing roller; 361. a transmission gear; 37. a cloth pressing roller; 371. a driving gear; 38. a second drive motor; 39. a power gear; 4. a second carrier plate; 5. a drying mechanism; 51. a drying chamber; 52. an air duct; 53. a vent hole; 54. heating a tube; 55. an air inlet pipe; 56. an air inlet; 57. a blower motor; 58. a shaping roller; 581. a rubber ring; 59. a temperature sensor; 6. a filtering mechanism; 61. a filter box; 62. a fine filtration layer; 63. an activated carbon layer; 64. a deodorizing layer; 65. a rectangular frame; 66. a ventilation board; 67. a negative pressure fan; 68. an air outlet; 7. a third bearing plate; 8. a winding mechanism; 81. a square column; 82. winding the roll; 83. a third drive motor; 84. connecting sleeves; 9. and (5) supporting legs.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments 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.

Example 1

Referring to fig. 1-7, the present invention provides the following technical solutions: the utility model provides an energy-concerving and environment-protective type has intelligent printing and dyeing equipment of stoving function, including first loading board 1, the top fixed mounting of first loading board 1 has feeding mechanism 2, one side fixedly connected with printing and dyeing mechanism 3 of feeding mechanism 2, one side fixedly connected with second loading board 4 of first loading board 1, the top fixed mounting of second loading board 4 has stoving mechanism 5, the top fixedly connected with filter mechanism 6 of stoving mechanism 5, one side fixedly connected with third loading board 7 of second loading board 4, the top fixedly connected with winding mechanism 8 of third loading board 7, first loading board 1, the equal fixedly connected with supporting leg 9 in top of second loading board 4 and third loading board 7.

In this embodiment: the feeding mechanism 2 comprises four support columns 21 fixedly mounted on the surface of the first bearing plate 1, a support rod 22 fixedly connected to the middle of the support column 21, a hair removing roller 23 fixedly connected to one side of the support rod 22, a flywheel 24 fixedly connected to one end of the hair removing roller 23, a first driving motor 25 connected to the surface of the flywheel 24 through belt transmission, and a material guiding roller 26 fixedly connected to one side of the bottom of the hair removing roller 23.

Specifically, the cloth to be printed is inserted from the middle of the guide roller 26 and is in contact connection with the guide roller 26, the cloth to be printed is inserted into the guide roller 26 and is in contact connection with the surface of the unhairing roller 23 after the cloth to be printed is inserted into the guide roller 26, the cloth to be printed passing through the surface of the unhairing roller 23 is connected with the printing mechanism 3 behind the unhairing roller, when the first driving motor 25 is electrified and operated, the first driving motor 25 transmits power to the flywheel 24 through a belt, the flywheel 24 rotates to drive the unhairing roller 23 fixedly connected with one end to rotate, the cloth to be printed is straightened and tightened by the guide roller 26 when passing through the middle of the guide roller 26, when the cloth to be printed passing through the guide roller 26 is transmitted to the surface of the unhairing roller 23, the unhairing roller 23 cleans impurities such as fine burr fibers on the surface of the cloth to be printed, the printing mechanism 3 behind prints conveniently, and the support column 21 and the support rod 22 provide a support effect for.

In this embodiment: printing and dyeing mechanism 3 includes the protection casing 31 with support column 21 fixed connection, the inside of protection casing 31 is equipped with support frame 32, the bottom fixed mounting of support frame 32 has dye groove 33, dye groove 33's inside is rotated and is connected with first dye stick 34, support frame 32's one end is rotated and is connected with second dye stick 35, first dye stick 34 and the contact of second dye stick 35 are connected, a pot head of second dye stick 35 is equipped with driven gear 351, support frame 32's middle part is rotated and is connected with embossing roll 36, embossing roll 36's a pot head is equipped with drive gear 361, support frame 32's the other end is rotated and is connected with compress cylinder 37, a pot head of compress cylinder 37 is equipped with driving gear 371, support frame 32's bottom fixed mounting has second driving motor 38, second driving motor 38's output fixed connection has power gear 39, power gear 39 is connected with the driving gear 371 transmission, driving gear 371 rotates through drive gear 361 and driven gear 351 and is.

Specifically, after the cloth to be printed is conveyed from the surface of the unhairing roller 23, the cloth to be printed is penetrated through the middle of the pressing roller 37 and the printing roller 36, when the second driving motor 38 is electrified and rotates, the second driving motor 38 drives the power gear 39 to rotate, the power gear 39 rotates to drive one end of the pressing roller 37 to be sleeved with the driving gear 371 to rotate, the driving gear 371 drives the transmission gear 361 sleeved on one end of the printing roller 36 to rotate, the transmission gear 361 drives one end of the second dye rod 35 to be sleeved with the driven gear 351 to rotate, the driven gear 351 operates to drive the first dye rod 34 in contact connection with the driven gear to operate, dye is injected into the dye groove 33 fixedly installed at the bottom of the support frame 32, the first dye rod 34 in the dye groove 33 operates to transfer the dye to the second dye rod 35, the second dye rod 35 transfers the dye to the printing roller 36 in contact with the dye, so that the dye is printed on the cloth to be printed in the middle of the pressing roller 37, and finishing printing and dyeing.

In this embodiment: drying mechanism 5 includes drying chamber 51 with protection casing 31 one side fixed connection, drying chamber 51's top is equipped with ventiduct 52, ventilation hole 53 has been seted up to ventiduct 52's bottom, connecting rod fixedly connected with heating pipe 54 is passed through to ventiduct 52's bottom, one side of ventiduct 52 is run through the UNICOM and is had intake pipe 55, the one end fixedly connected with air inlet 56 of intake pipe 55, the inside fixed mounting of air inlet 56 has the filter screen, the top fixedly connected with air-blast motor 57 of air inlet 56, air inlet 56 sets up on one side of drying chamber 51 and fixed connection in second loading board 4 surface.

Specifically, the printed and dyed fabric coming out of the printing and dyeing mechanism 3 enters the drying chamber 51, the heating pipe 54 fixedly connected with the bottom of the air duct 52 arranged at the top of the drying chamber is heated after being electrified, the air-blowing motor 57 runs to blow cold air flow into the air inlet pipe 55 from the air inlet 56, the filter screen arranged inside the air inlet 56 filters dust in the air, the surface of the heating pipe 54 is prevented from being brought into to cause fire due to combustion, the air in the air inlet pipe 55 enters the air duct 52 and then is blown out from the air vent 53, the air can be heated when the cold air passes through the heated heating pipe 54, hot air is blown to the surface of the printed and dyed fabric in the drying chamber 51, and the printed and dyed fabric is dried.

In this embodiment: the drying mechanism 5 further comprises a plurality of pairs of sizing rollers 58 fixedly mounted on two sides of the inner wall of the drying chamber 51, and a temperature sensor 59 is fixedly mounted on the inner wall of the drying chamber 51.

Specifically, the printing and dyeing cloth has been alternated from the middle part of the sizing roller 58, and the surface sizing is carried out on the printing and dyeing cloth after printing and dyeing, so that the surface wrinkles of the printing and dyeing cloth can be prevented from appearing, the temperature sensor 59 arranged inside the drying chamber 51 can monitor the temperature inside the drying chamber 51 in real time, the high-temperature shrinkage of the printing and dyeing cloth can be prevented, the product defect is caused, and meanwhile, the setting of the temperature sensor 59 can be regulated and controlled according to the drying temperature of the printing and dyeing cloth made of different materials.

In this embodiment: the filter mechanism 6 comprises a filter box 61 with one end penetrating through the top of the drying chamber 51, a fine filter layer 62 is fixedly arranged inside the filter box 61, an activated carbon layer 63 is fixedly arranged on the top of the fine filter layer 62, a deodorization layer 64 is fixedly arranged on the top of the activated carbon layer 63, a rectangular frame 65 is fixedly connected to the top of the filter box 61, a ventilating plate 66 is fixedly arranged inside the rectangular frame 65, a negative pressure fan 67 is fixedly connected to the bottom of the ventilating plate 66, and an air outlet 68 is fixedly connected to the top of the rectangular frame 65.

Specifically, when negative pressure fan 67 circular telegram operation with the inside hot drying gas of drying chamber 51 extract, hot drying gas is inside through rose box 61, filter the tiny floater in the gas through thin filtering layer 62 time, the gas after will filtering through activated carbon layer 63 adsorbs once more, reduce the poisoning molecular concentration in the gas, carry out neutralization with gaseous partial irritability gas when deodorization layer 64, reduce the gaseous irritability after the emission, rectangular frame 65 provides the support for negative pressure fan 67, gaseous after the filtration discharges from air exit 68, accomplish and filter.

In this embodiment: the winding mechanism 8 comprises square columns 81 fixedly connected to two ends of the top of the third bearing plate 7, a rotating rod is connected to the top of each square column 81 in a penetrating mode, the rotating rod is located on the inner side surface of each square column 81 and is provided with a winding drum 82 in a sleeved mode, one end of each rotating rod is fixedly connected with a third driving motor 83, and each third driving motor 83 is fixedly connected to one side of each square column 81 through a connecting sleeve 84.

Specifically, the printed and dyed cloth after drying comes out from one side of the drying chamber and is wound on the surface of the winding drum 82, the third driving motor 83 rotates to drive the rotating rod connected to the top of the square column 81, so that the winding drum 82 is driven to rotate to wind the printed and dyed cloth, and the connecting sleeve 84 fixes the third driving motor 83 on one side of the square column 81.

In this embodiment: the diameter of the fine filtration layer 62 is 0.6 μm to 0.8. mu.m.

Specifically, the diameter of the fine filtering layer 62 is 0.6-0.8 μm, so that fine fibers in air inside the drying chamber 51 can be filtered, and the fibers are prevented from being discharged and inhaled into the lungs of workers to cause industrial lungs.

In this embodiment: one end of the surface of the sizing roller 58 is sleeved with a plurality of rubber rings 581.

Specifically, one end of the surface of the setting roller 58 is sleeved with a plurality of rubber rings 581, so that the printed and dyed cloth is prevented from sliding off to one end of the setting roller 58 in the drying process and is involved in the machine to cause dangers such as shutdown and the like.

In this embodiment: one side fixed mounting of first loading board 1 has the PLC controller, first driving motor 25, second driving motor 38, blower motor 57, temperature sensor 59, negative-pressure air fan 67 and third driving motor 83 all with PLC controller electric connection, PLC controller and external power source electric connection.

Specifically, through controlling the PLC controller when the PLC controller is connected with external power supply, can control electrical equipment in the equipment, produce, when PLC controller and external power supply disconnection, printing and dyeing equipment stop work.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective type has intelligent printing and dyeing equipment of stoving function, includes first loading board (1), its characterized in that: the top fixed mounting of first loading board (1) has feeding mechanism (2), one side fixedly connected with printing and dyeing mechanism (3) of feeding mechanism (2), one side fixedly connected with second loading board (4) of first loading board (1), the top fixed mounting of second loading board (4) has stoving mechanism (5), the top fixedly connected with filter mechanism (6) of stoving mechanism (5), one side fixedly connected with third loading board (7) of second loading board (4), the top fixedly connected with winding mechanism (8) of third loading board (7), the equal fixedly connected with supporting leg (9) in top of first loading board (1), second loading board (4) and third loading board (7).

2. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 1, is characterized in that: feeding mechanism (2) include four spinal branch daggers (21) on fixed mounting first loading board (1) surface, the middle part fixedly connected with bracing piece (22) of support column (21), one side fixedly connected with of bracing piece (22) removes hair roller (23), the one end fixedly connected with flywheel (24) of removing hair roller (23), the surface of flywheel (24) is connected with first driving motor (25) through belt transmission, remove bottom one side fixedly connected with guide roller (26) of hair roller (23).

3. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 2, is characterized in that: the printing and dyeing mechanism (3) comprises a protective cover (31) fixedly connected with a support column (21), a support frame (32) is arranged inside the protective cover (31), a dye groove (33) is fixedly installed at the bottom of the support frame (32), a first dye rod (34) is connected to the dye groove (33) in a rotating mode, a second dye rod (35) is connected to one end of the support frame (32) in a rotating mode, the first dye rod (34) is in contact connection with the second dye rod (35), a driven gear (351) is sleeved at one end of the second dye rod (35), a printing roller (36) is connected to the middle of the support frame (32) in a rotating mode, a transmission gear (361) is sleeved at one end of the printing roller (36), a cloth pressing roller (37) is connected to the other end of the support frame (32) in a rotating mode, a driving gear (371) is sleeved at one end of the cloth pressing roller (37, the bottom fixed mounting of support frame (32) has second driving motor (38), the output fixedly connected with power gear (39) of second driving motor (38), power gear (39) are connected with driving gear (371) transmission, driving gear (371) are connected through drive gear (361) and driven gear (351) rotation.

4. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 3, is characterized in that: drying mechanism (5) include with protection casing (31) one side fixed connection's drying chamber (51), the top of drying chamber (51) is equipped with ventiduct (52), ventilation hole (53) have been seted up to the bottom of ventiduct (52), connecting rod fixedly connected with heating pipe (54) are passed through to the bottom of ventiduct (52), one side of ventiduct (52) is run through the UNICOM and is had intake pipe (55), the one end fixedly connected with air inlet (56) of intake pipe (55), the inside fixed mounting of air inlet (56) has the filter screen, the top fixedly connected with air-blast motor (57) of air inlet (56), air inlet (56) set up in drying chamber (51) one side and fixed connection in second loading board (4) surface.

5. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 4, is characterized in that: drying mechanism (5) still include a plurality of to the setting roller (58) of fixed mounting in drying chamber (51) inner wall both sides, the inner wall fixed mounting of drying chamber (51) has temperature sensor (59).

6. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 5, is characterized in that: filtering mechanism (6) include that one end runs through rose box (61) at drying chamber (51) top, the inside fixed mounting of rose box (61) has fine filtering layer (62), the top fixed mounting of fine filtering layer (62) has activated carbon layer (63), the top fixed mounting of activated carbon layer (63) has deodorant layer (64), the top fixedly connected with rectangle frame (65) of rose box (61), the inside fixed mounting of rectangle frame (65) has ventilating board (66), the bottom fixedly connected with negative pressure fan (67) of ventilating board (66), the top fixedly connected with air exit (68) of rectangle frame (65).

7. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 1, is characterized in that: winding mechanism (8) include square post (81) of fixed connection at third loading board (7) top both ends, the top through connection of square post (81) has the dwang, the dwang is located square post (81) inboard surface cover and is equipped with winding drum (82), the one end fixedly connected with third driving motor (83) of dwang, third driving motor (83) are through adapter sleeve (84) fixed connection in square post (81) one side.

8. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 6, is characterized in that: the diameter of the fine filtering layer (62) is 0.6-0.8 μm.

9. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 5, is characterized in that: one end of the surface of the shaping roller (58) is sleeved with a plurality of rubber rings (581).

10. The energy-saving and environment-friendly intelligent printing and dyeing equipment with the drying function as claimed in claim 2, is characterized in that: one side fixed mounting of first loading board (1) has the PLC controller, first driving motor (25), second driving motor (38), blower motor (57), temperature sensor (59), negative-pressure air fan (67) and third driving motor (83) all with PLC controller electric connection, PLC controller and external power supply electric connection.

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