CN115031514B - Printing and dyeing drying winding device - Google Patents

Abstract

The utility model relates to a textile printing and dyeing field especially relates to a printing and dyeing stoving coiling mechanism, the power distribution box comprises a box body, one side of box is equipped with the wind-up roll, the opposite side of box is equipped with the transfer roller, be equipped with drying mechanism in the box, drying mechanism includes the drying roller, the drying roller is installed in the box, and drying roller's axis is perpendicular with material direction of delivery's axis, be equipped with dehumidification mechanism on the box, still be equipped with the actuating mechanism who is used for driving dehumidification mechanism to go up and down on the box, actuating mechanism still is connected with the wind-up roll, still be equipped with the control mechanism who is used for controlling actuating mechanism work in the box, this application has improved when new fabric gets into the box and dries in the traditional mode, lead to humidity unstable, thereby appear drying quality not good problem, can reach the effect that reduces the fabric and appear quality problem.

Description

Printing and dyeing drying winding device

Technical Field

The application relates to the field of textile printing and dyeing, in particular to a printing and dyeing drying winding device.

Background

The printing and dyeing process refers to the general term for physical and chemical treatment of various textile materials in the production process, and comprises pretreatment, dyeing, printing and finishing processes of the textile materials. In the post-finishing procedure, high-temperature drying and shaping are important links, the requirements on temperature and humidity are strict, and if humidity or temperature control is unstable, quality problems of uneven texture and shrinkage of the produced fabric can be caused.

In the conventional printing and dyeing process, humidity is generally controlled by monitoring the humidity in the oven and then pumping the humidity in the oven out of the oven through a fan arranged at the top of the oven to achieve the effect of controlling the humidity in the oven.

However, when a batch of fabric is dried, the humidity of the oven is increased due to the humidity of the new fabric when the new fabric just enters the oven, and when the oven monitors that the humidity is changed, a certain time delay exists in the humidity adjustment, and a part of the new fabric is dried, so that the part of the dried fabric is easy to have uneven texture, thereby causing quality problems of the fabric.

Disclosure of Invention

In order to reduce quality problems of fabric, the application provides a printing and dyeing drying winding device.

The application provides a printing and dyeing stoving coiling mechanism adopts following technical scheme:

the utility model provides a printing and dyeing stoving coiling mechanism, includes the box, one side of box is equipped with the wind-up roll, the opposite side of box is equipped with the transfer roller, be equipped with stoving mechanism in the box, stoving mechanism includes the stoving roller, the stoving roller is installed in the box, just the axis of stoving roller is perpendicular with the axis of material direction of delivery, be equipped with dehumidification mechanism on the box, still be equipped with the actuating mechanism who is used for driving dehumidification mechanism to go up and down on the box, actuating mechanism still is connected with the wind-up roll, still be equipped with the control mechanism who is used for controlling actuating mechanism work in the box.

Through adopting above-mentioned technical scheme, after the material gets into the box, dries through drying mechanism, at the in-process of drying, through the humidity maintenance balance in the dehumidification mechanism control box to the quality problem appears in the material of being convenient for to reduce. When the new fabric enters the box, the humidity in the box just reaches the humidity in the working state again, so that the fabric can reach a better drying state, and the effect of reducing the quality problem of the fabric is achieved.

In a specific implementation manner, the control mechanism comprises a driving control assembly and a parking assembly, the driving control assembly comprises a control roller, a control rod I and a control rod II, a chute is formed in the inner wall of the box body along the vertical direction, the control roller is installed in the chute, the axis of the control roller is parallel to the axis of the drying roller, a reset piece I is installed in the chute, the reset piece I is connected with the control roller, a control groove I is further formed in the inner wall of the box body, the control groove I is parallel to the axis of the chute, the control groove I is communicated with the chute through a control groove II, the control rod I is installed in the control groove I, one end of the control rod I extends out of the top wall of the box body, a reset piece II is installed in the control groove II, the other end of the control rod is connected with the control roller through the reset piece II, the control rod II is installed on the top wall of the box body along the horizontal direction, the control rod II is connected with the control rod through a connecting piece, the control rod II is further connected with the driving assembly, the control rod II is installed on the box body and is further connected with the parking assembly.

Through adopting above-mentioned technical scheme, when the material of weaving enters into the box and passes through from the below of control roller to when twining to the wind-up roll, the wind-up roll rotates, thereby carries out the rolling to the material of weaving, makes the material of weaving upwards lift the control roller, makes the material of weaving last by the stoving roller stoving, and through the wind-up roll rolling, thereby convenient arrangement of material of weaving. When a batch of fabrics are dried, the control roller is not subjected to supporting force of the fabrics, and falls under the action of the first reset piece, so that the control roller drives the first control rod to lift through the second reset piece, the first control rod controls the second control rod to act through the connecting piece, the second control rod controls the driving mechanism to act, the dehumidifying mechanism is lowered, dehumidifying is carried out in the box, and meanwhile, the driving mechanism controls the winding roller to stop rotating. Through controlling dehumidification mechanism decline, take out the moisture of box below away, can improve the effect of taking out the moisture in the box away, improve the efficiency of dehumidification. When the driving mechanism controls the dehumidifying mechanism to descend, the driving mechanism controls the wind-up roller to stop rotating, so that an operator can conveniently take down the fabric on the wind-up roller, and the new fabric can be wound conveniently.

In a specific embodiment, the first reset element comprises a first spring, the first spring is installed in the chute, one end of the first spring is connected with the top wall of the chute, and the other end of the first spring is connected with the side wall of the control roller.

Through adopting above-mentioned technical scheme, when the wind-up roll carries out the rolling to the material of weaving, the control roll is under the effect of weaving the material, compresses tightly spring one to make spring one make the material of weaving be in the tensioning state through the control roll, so that the rolling of wind-up roll. After the fabric is coiled, the control roller falls under the action of the first spring, so that the control roller controls the first control rod to act through the second reset piece, the control rod drives the second control rod to act, and the driving mechanism is driven to stop rotating the winding roller, so that the fabric is convenient to discharge.

In a specific implementation manner, the second reset member comprises a second reset plate and a second spring, the second reset plate is installed in the second control groove, one end of the second reset plate is connected with the side wall of the control roller, the other end of the second reset plate is connected with one end of the first control rod located in the box body, the second spring is installed in the control groove and is close to one end of the first control rod, one end of the second spring is connected with the bottom wall of the second control groove, and the other end of the second spring is connected with the bottom wall of the second reset plate.

Through adopting above-mentioned technical scheme, when the wind-up roll is in operating condition, spring two is in the state of relaxing, after the material rolling of weaving is accomplished, the control roll falls under the effect of spring one to press the reset plate, make the reset plate drive control lever one lifting, thereby make control lever one control lever two action, so that control lever two passes through actuating mechanism and realizes controlling the wind-up roll and stop rotating, and control dehumidification mechanism action, thereby conveniently carry out the unloading to the material of weaving, and take out the action of wetting to the box. When new fabric enters the box body, and after the winding roller is wound after drying, the control roller loosens the reset plate, and the reset plate resets under the action of the second spring, so that the first control rod and the second control rod recover to the initial position, and the winding roller recovers to the winding state, so that the fabric is wound, and meanwhile, the dehumidifying mechanism returns to the initial position, so that dehumidification is continued, the humidity in the box body is kept in a stable state, and the quality problem of the fabric is reduced.

In a specific embodiment, the connecting member includes a connecting rod mounted on the top wall of the case, one end of the connecting rod being connected to one end of the first control rod located outside the case, and the other end being connected to a side wall of the second control rod.

Through adopting above-mentioned technical scheme, when the control lever rises, drive the connecting rod and rise for the connecting rod drives the control lever and moves in the direction that is close to dehumidification mechanism in two directions, thereby control actuating mechanism makes the wind-up roll stop rotating, and control dehumidification mechanism descends, thereby conveniently realizes the unloading of material and the action that dehumidification mechanism dehumidifies in to the box.

In a specific implementation manner, the parking assembly comprises a first parking block, a second parking block, a third parking block and a fourth parking block, wherein a first mounting seat is arranged on the top wall of the box body, the first mounting seat is positioned at one end of the second control rod, a first parking gear and a second parking gear are arranged in the first mounting seat, the first parking gear is meshed with the second parking gear, the first parking block is arranged on the side wall of the first parking gear, the second parking block is arranged on the side wall of the second parking gear, the first parking block and the second parking block are arranged in two, the first parking block and the second parking block are connected with a driving mechanism, the second parking block is connected with one end of the second control rod, a second mounting seat is arranged on the top wall of the box body, the second mounting seat is positioned at the other end of the second control rod, the third parking gear and the fourth parking gear are arranged in the second mounting seat, the third parking gear and the fourth parking gear are meshed, the third parking block is arranged on the side wall of the third parking gear, the fourth parking block is arranged on the side wall of the fourth parking gear, the third parking block and the fourth parking block is connected with the fourth parking block and the fourth parking block is connected with the third parking mechanism.

Through adopting above-mentioned technical scheme, when the wind-up roll accomplished the rolling action, the direction removal of the two wind-up rolls of control lever for two parking block two drive parking gear two rotates, thereby makes parking gear one rotate, thereby drives parking block one and rotates, thereby realizes the clamping action of parking block one and parking block two, thereby makes actuating mechanism control wind-up roll stop rotating. In the process of controlling the wind-up roll to stop rotating, the control rod drives the parking gear III to rotate through the parking block III, so that the parking gear III drives the parking gear IV to rotate, and the parking block IV is driven to move in a direction away from the parking block III, so that the parking block III and the parking block IV are opened, the driving mechanism can control the dehumidifying mechanism to descend, and moisture below the box body is conveniently pumped away, so that the humidity in the box body is controlled.

In a specific implementation manner, the driving mechanism comprises a motor, a rotating shaft, a first driving member, a first control board, a second driving member and a second control board, wherein the motor is installed on the top wall of the box body, the rotating shaft is installed on the top wall of the box body, the motor controls the rotating shaft to rotate, the first driving member is installed at one end of the rotating shaft, the first driving member is connected with the wind-up roller, the first control board is installed at the position, close to the first driving member, of the rotating shaft, and is located between the first parking block and the second parking block, the first control board is connected with the first driving member, the first parking block and the second parking block clamp the first control board, the second driving member is installed at the other end of the rotating shaft, the second driving member is connected with the dehumidifying mechanism, the second control board is installed on the rotating shaft, the second control board is located between the third parking block and the fourth parking block, the second control board is connected with the first driving member, and the fourth parking block clamps the second control board.

Through adopting above-mentioned technical scheme, through motor drive pivot rotation for the pivot drives a rotation of driving piece, and second control parking piece and parking piece two clamp control panel one, thereby makes driving piece one can control the wind-up roll and rotate, in order to realize the action of rolling. When the rotating shaft controls the wind-up roll to rotate, the control rod II controls the third parking block and the fourth parking block to be in an open state, so that the dehumidifying mechanism does not do lifting movement. When the wind-up roll finishes the winding action, the control rod II drives the first parking block and the second parking block to loosen the first control board under the action of the control rod I, so that the first control board rotates along with the rotating shaft, the first driving piece controls the wind-up roll to stop rotating, thereby facilitating the discharging action, and meanwhile, the control rod II controls the third parking block and the fourth parking block to clamp the second control board, so that the second driving piece drives the dehumidifying mechanism to realize the lifting action, and moisture below the box body can be pumped away.

In a specific implementation manner, the first driving piece comprises a first driving gear, a first transmission gear and a first driving sleeve, the first driving gear is coaxially installed at one end of the rotating shaft, the first transmission gear is installed on the first control board and meshed with the first driving gear, the first driving sleeve is installed on the top wall of the box body, the axle center of the first driving sleeve is located on the axis of the rotating shaft, the first gear teeth are installed on the inner wall of the first driving sleeve and meshed with the first transmission gear, and the first driving sleeve drives the winding roller to rotate.

Through adopting above-mentioned technical scheme, the pivot drives driving gear one and rotates, and when the control panel one was pressed from both sides tightly, driving gear one driven transmission gear one rotated in fixed position for driving gear one drives a drive cover one through the teeth of a cogwheel one and rotates, thereby realizes driving wind-up roll pivoted action, so that realizes the rolling action of wind-up roll. When the first control panel is loosened, the first transmission gear rotates around the first driving gear so as to drive the first control panel to rotate, and the first transmission gear walks along the first gear teeth so that the first driving sleeve does not rotate, thereby stopping the rotation of the winding roller, and facilitating the discharging treatment of the fabric on the winding roller by workers.

In a specific implementation manner, the second driving part comprises a second driving gear, a second transmission gear and a second driving sleeve, the second driving gear is coaxially arranged at one end of the rotating shaft away from the first driving gear, the second transmission gear is arranged on the second control board and meshed with the second driving gear, the second driving sleeve is arranged on the top wall of the box body, the axle center of the second driving sleeve is located on the axis of the rotating shaft, the second gear teeth are arranged on the inner wall of the second driving sleeve and meshed with the second transmission gear, a driving column is arranged at one end of the second driving sleeve away from the second gear teeth, and the driving column is connected with the dehumidifying mechanism.

Through adopting above-mentioned technical scheme, the pivot drives drive gear two and rotates, and when control panel two was pressed from both sides tightly, drive gear two drive transmission gear two rotated in fixed position for transmission gear two drives the rotation of drive cover two through tooth two, thereby drives dehumidification mechanism and realizes the action of going up and down, so that take out to the moisture of box inside below off. When the second control panel is loosened, the second driving gear drives the second transmission gear to rotate around the second driving gear, and the second transmission gear moves along the second gear teeth, so that the second control panel is driven to rotate, and at the moment, the dehumidification mechanism stops moving, so that the humidity in the box body is kept in a stable state.

In a specific implementation, the dehumidification mechanism includes dehumidification cover, fan and dehumidification pipe, the fan is installed on the box, the dehumidification pipe is installed to the air intake department of fan, the one end that the fan was kept away from to the dehumidification pipe extends to in the box, the dehumidification cover is installed in the box, the dehumidification cover passes through flexible pipe with the dehumidification pipe and links to each other, install the lifter on the roof of dehumidification cover, the one end that the dehumidification cover was kept away from to the lifter extends out of the box, just the one end that the lifter is located outside the box links to each other with the actuating cylinder.

Through adopting above-mentioned technical scheme, the fan dehumidifies in to the box through the dehumidification pipe, through passing through flexible pipe with dehumidification pipe and dehumidification cover and linking to each other for the dehumidification pipe can be through the dehumidification cover with the moisture exhaust box, and through setting up the dehumidification cover and increased the dehumidification area of fan, can reach the effect that improves the dehumidification efficiency, the humidity in the convenient control box. After a batch of fabric is rolled, the lifting rod is driven to descend through the driving mechanism, so that the lifting rod drives the dehumidifying cover to descend, moisture below the inside of the box body is pumped away, and the control effect of the humidity in the box body is conveniently improved.

In summary, the present application includes at least one of the following beneficial effects:

1. the utility model discloses a through setting up dehumidification mechanism, the humidity in the convenient control box of dehumidification mechanism to the humidity in the messenger box accords with the humidity when drying, thereby appears quality problems when conveniently reducing the fabric stoving.

2. This application is through setting up actuating mechanism, conveniently controls the wind-up roll through actuating mechanism and rotates to realize the action of rolling, and control dehumidification mechanism through actuating mechanism and go up and down, thereby can realize taking out the action of taking out to the moisture of the lower part in the box.

3. This application is through setting up control mechanism, conveniently through control mechanism control actuating mechanism work for control mechanism control actuating mechanism makes the wind-up roll stop when rotating, and control dehumidification mechanism descends, takes out the moisture in the box, thereby improves humidity control's efficiency.

Drawings

Fig. 1 is a schematic structural view of the drying and winding device of the present application.

Fig. 2 is a schematic structural view of a drying mechanism according to an embodiment of the present application.

Fig. 3 is a cross-sectional view of a first driver in an embodiment of the present application.

Fig. 4 is a cross-sectional view of a second driver in an embodiment of the present application.

Fig. 5 is a schematic diagram of a connection relationship between a driving post and a lifting rod in an embodiment of the present application.

Fig. 6 is a cross-sectional view of a case in an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a driving control assembly in an embodiment of the present application.

Fig. 8 is a schematic structural view of a connector according to an embodiment of the present application.

Fig. 9 is a schematic diagram of the installation relationship of the first parking block and the second parking block in the embodiment of the present application.

Fig. 10 is a schematic diagram of the installation relationship of the third parking lot and the fourth parking lot in the embodiment of the present application.

Reference numerals illustrate:

1. a case; 11. a chute; 12. a first control groove; 13. a second control groove; 2. a wind-up roll; 21. bevel gears II; 3. an unreeling roller; 4. a driving mechanism; 41. a motor; 411. a driving belt wheel; 412. a synchronous belt I; 42. a rotating shaft; 421. a transmission belt wheel; 43. a first control board; 44. a second control board; 45. a first driving member; 451. a first driving gear; 452. a first transmission gear; 453. gear teeth I; 454. a first driving sleeve; 455. a belt wheel I; 456. a belt wheel II; 457. a synchronous belt II; 458. bevel gears I; 46. a second driving piece; 461. a second driving gear; 462. a transmission gear II; 463. gear teeth II; 464. a second driving sleeve; 465. a drive column; 5. a dehumidifying mechanism; 51. a blower; 52. a dehumidifying tube; 53. a dehumidifying cover; 54. a telescopic tube; 55. a guide rod; 56. a lifting rod; 57. lifting rails; 6. a control mechanism; 61. a drive control assembly; 611. a control roller; 612. a slide block; 613. a first spring; 614. a reset plate; 615. a second spring; 616. a control lever I; 617. a limiting plate; 618. a third spring; 619. a connecting rod; 6110. a connecting rod; 6111. a mounting frame; 6112. a waist-shaped hole; 6113. a baffle; 6114. a second control rod; 6115. a first slide bar; 6116. a second slide bar; 62. a parking assembly; 621. a first mounting seat; 622. a first parking gear; 623. a second parking gear; 624. a first connecting plate; 625. a first parking block; 626. a second connecting plate; 627. a second parking block; 628. a first connecting groove; 629. a second mounting seat; 6210. a fourth parking gear; 6211. a connecting plate IV; 6212. a fourth parking block; 6213. a third parking gear; 6214. a connecting plate III; 6215. a second connecting groove; 6216. a third parking block; 7. a drying mechanism; 71. a drying roller; 8. and (3) a bracket.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses printing and dyeing stoving coiling mechanism, refer to fig. 1 and 2, including box 1, the feed end rotation that one side of box 1 was located the material of weaving is installed unreeling roller 3, and the discharge end rotation that the opposite side of box 1 was located the material of weaving is installed wind-up roller 2. A drying mechanism 7 is arranged in the box body 1, a dehumidifying mechanism 5 is arranged on the box body 1, and a driving mechanism 4 for controlling the rotation of the wind-up roll 2 and the lifting of the dehumidifying mechanism 5 is also arranged on the box body 1.

Referring to fig. 1 and 2, wet fabric is guided into the case 1 through the unreeling roller 3, dried through the drying mechanism 7 in the case 1, the driving mechanism 4 drives the reeling roller 2 to rotate, so that the dried fabric is reeled through the reeling roller 2, and the humidity in the case 1 is kept stable through the dehumidifying mechanism 5. After the winding work is completed, the driving mechanism 4 controls the dehumidifying mechanism 5 to descend, and the moisture below the inside of the box body 1 is pumped away, so that the humidity inside the box body 1 is slightly lower than the humidity during stable drying, and the humidity in the box body 1 can be recovered to an equilibrium state when new wet fabric enters the box body 1, so that the problem of poor drying quality of the fabric can be solved.

Referring to fig. 2, the drying mechanism 7 includes a plurality of drying rollers 71, the drying rollers 71 are installed in the case 1 in the traveling direction of the fabric, and the plurality of drying rollers 71 are staggered with each other. The fabric is transferred to the wind-up roll 2 along the drying roll 71, and the drying roll 71 dries the fabric as the fabric passes through the drying roll 71.

Referring to fig. 2, the dehumidifying mechanism 5 includes a blower 51, a dehumidifying cover 53 and a dehumidifying pipe 52, the blower 51 is fixedly installed on the top wall of the case 1, one end of the dehumidifying pipe 52 is connected to the air inlet of the blower 51, and the other end extends to the inside of the case 1 through the top wall of the case 1. The dehumidification cover 53 is installed in the box 1, and the dehumidification cover 53 links to each other through flexible pipe 54 with the one end that dehumidification pipe 52 kept away from fan 51, along vertical direction slidable mounting there being guide arm 55 on the roof of box 1, the one end of guide arm 55 extends to the inside and roof fixed connection with the dehumidification cover 53 of box 1, still fixed mounting has lifter 56 on the roof of dehumidification cover 53, the one end that the lifter 56 kept away from the dehumidification cover 53 extends out of box 1, and lifter 56 and box 1 sliding connection, the one end fixed mounting who lifter 56 is located the outside of box 1 has lifter 57, the axis of lifter 57 is perpendicular with the axis of lifter 56, lifter 57 links to each other with actuating mechanism 4.

Referring to fig. 2, the blower 51 draws moisture from the case 1 into the dehumidifying pipe 52 through the suction cap, and discharges the moisture from the air outlet of the blower 51. When the part below the inner part of the box body 1 needs to be dehumidified, the driving mechanism 4 is matched with the lifting rail 57 to act, so that the lifting rail 57 drives the lifting rod 56 to descend, and the lifting rod 56 drives the dehumidifying cover 53 to descend, thereby realizing the action of dehumidifying the lower part inside the box body 1.

Referring to fig. 2, the case 1 is further provided with a control mechanism 6, and the control mechanism 6 is connected to the driving mechanism 4. The driving mechanism 4 is controlled by the control mechanism 6 to drive the wind-up roll 2 to rotate, or the driving mechanism 4 is controlled by the control mechanism 6 to drive the dehumidification mechanism 5 to perform lifting action.

Referring to fig. 2 and 3, the driving mechanism 4 includes a motor 41, a rotating shaft 42, a first driving member 45, a first control board 43, a second control board 44 and a second driving member 46, a bracket 8 is fixedly mounted on the top wall of the box 1, the rotating shaft 42 is rotatably mounted on the bracket 8, and the axis of the rotating shaft 42 is parallel to the travelling path of the fabric. The motor 41 is fixedly arranged on the top wall of the box body 1, the output shaft of the motor 41 is coaxially provided with a driving belt wheel 411, the rotating shaft 42 is coaxially provided with a driving belt wheel 421, and the driving belt wheel 411 is connected with the driving belt wheel 421 through a synchronous belt 412. The first driving part 45 is arranged on the top wall of the box body 1 and is positioned at one end of the rotating shaft 42 close to the wind-up roll 2, the first driving part 45 is connected with the wind-up roll 2, the first control plate 43 is rotatably arranged at one end of the rotating shaft 42 close to the first driving part 45, the first control plate 43 is connected with the first driving part 45, and the first control plate 43 is also connected with the control mechanism 6.

Referring to fig. 2 and 3, the motor 41 drives the driving pulley 411 to rotate, so that the driving pulley 411 drives the driving pulley 421 to rotate through the synchronous belt one 412, thereby rotating the rotating shaft 42, and when the winding work starts, the control mechanism 6 positions the control board one 43, so that the rotating shaft 42 drives the driving piece one 45 to act, and the driving piece one 45 drives the winding roller 2 to rotate, thereby realizing the winding action. After the winding work of the winding roller 2 is completed, the control mechanism 6 releases the positioning of the first control board 43, so that the first control board 43 rotates under the drive of the rotating shaft 42, and the driving roller driven by the first driving piece 45 stops rotating at the moment, thereby facilitating the discharging treatment of the fabric on the winding roller 2.

Referring to fig. 2, the second driving member 46 is mounted on the top wall of the case 1 and is located at an end of the rotating shaft 42 away from the wind-up roller 2. The second control plate 44 is rotatably mounted on the end of the rotating shaft 42 away from the first control plate 43, and the second control plate 44 is connected to the second driving member 46, and the second control plate 44 is also connected to the control mechanism 6.

Referring to fig. 2, when the wind-up roll 2 is in operation, the control mechanism 6 makes the second control board 44 in a relaxed state, at this time, the second control board 44 is driven by the second driving member 46 to rotate, and the second driving member 46 does not act. After the winding work of the winding roller 2 is completed, the control mechanism 6 positions the second control board 44, so that the second control board 44 stops rotating, the rotating shaft 42 drives the second driving piece 46 to act, and the dehumidifying mechanism 5 is driven to realize lifting, so that moisture below the inside of the box body 1 is pumped away.

Referring to fig. 2 and 3, the first driving member 45 includes a first driving gear 451, a first transmission gear 452 and a first driving sleeve 454, the first driving gear 451 is coaxially installed at one end of the rotating shaft 42 near the winding roller 2, the first transmission gear 452 is rotatably installed on a side wall of the first control board 43, and the first transmission gear 452 is engaged with the first driving gear 451. The first driving sleeve 454 is rotatably mounted on the top wall of the box body 1, the rotation axis of the first driving sleeve 454 and the axis of the rotating shaft 42 are positioned on the same straight line, the first driving sleeve 454 is fixedly provided with a first gear 453 on the inner wall of one end, close to the rotating shaft 42, of the first driving sleeve 454, and the first gear 453 is meshed with the first transmission gear 452. One end of the first driving sleeve 454, which is close to the winding roller 2, is coaxially provided with a first belt pulley 455, a second belt pulley 456 is rotatably arranged on the side wall of the box body 1, and the first belt pulley 455 and the second belt pulley 456 are connected through a second synchronous belt 457. A bevel gear I458 is coaxially arranged on the belt wheel II 456, one end of the wind-up roll 2 is coaxially arranged and meshed with the bevel gear II 21, and the bevel gear I458 and the bevel gear II 21.

Referring to fig. 2 and 3, the rotation shaft 42 drives the first driving gear 451 to rotate, when the first control board 43 is positioned by the control mechanism 6, the first driving gear 451 drives the first transmission gear 452 to rotate, so that the first transmission gear 452 drives the first gear 453 to rotate, so that the first gear 453 drives the first driving sleeve 454 to rotate, so that the first driving sleeve 454 drives the first belt pulley 455 to rotate, so that the first belt pulley 455 drives the second belt pulley 456 to rotate through the second synchronous belt 457, so that the second belt pulley 456 drives the first bevel gear 458 to rotate, so that the first bevel gear 458 drives the second bevel gear 21 to rotate, and the winding roller 2 is driven to rotate. When the control mechanism 6 releases the positioning of the first control board 43, the force required by the first transmission gear 452 to drive the first driving sleeve 454 to rotate is greater than the force required by the first transmission gear 452 to rotate around the first driving gear 451, so that the first transmission gear 452 rotates around the first driving gear 451 and drives the first control board 43 to rotate, and the first transmission gear 452 walks along the first gear 453, and at the moment, the first driving sleeve 454 stops rotating, so that the winding roller 2 stops rotating.

Referring to fig. 2 and 4, the second driver 46 includes a second driving sleeve 464, a second driving gear 461 and a second driving gear 462, the second driving gear 461 is coaxially mounted at one end of the rotating shaft 42 far away from the winding roller 2, the second driving gear 462 is rotatably mounted on a side wall of the second control board 44, and the second driving gear 461 is meshed with the second driving gear 462. The second driving sleeve 464 is rotatably mounted on the top wall of the box body 1 and is located at one end of the rotating shaft 42 far away from the winding roller 2, the rotation axis of the second driving sleeve 464 and the axis of the rotating shaft 42 are located on the same straight line, the second gear teeth 463 are fixedly mounted on the side wall of one end of the second driving sleeve 464, which is close to the rotating shaft 42, and the second gear teeth 463 are meshed with the second transmission gear 462.

Referring to fig. 5, a driving post 465 is fixedly mounted on a side wall of one end of the second driving sleeve 464, which is far away from the second gear teeth 463, the driving post 465 is not aligned with the axis of the second driving sleeve 464, and the driving post 465 is slidably connected with the lifting rail 57.

Referring to fig. 2 and 4, when the first control board 43 is in the positioning state, the second control board 44 is in the releasing state, since the force required for the second transmission gear 462 to drive the second driving sleeve 464 to rotate is greater than the force required for the second transmission gear 462 to drive the second control board 44 to rotate, at this time, the second driving gear 461 rotates under the driving of the rotating shaft 42, so that the second transmission gear 462 rotates around the second driving gear 461, so that the second transmission gear 462 drives the second control board 44 to rotate, and the second driving sleeve 464 stops rotating, so that the driving post 465 stops moving, and the dehumidifying mechanism 5 is in the lifting stopping state.

Referring to fig. 2 and 4, when the first control board 43 is in the released state, the second control board 44 is in the positioning state under the action of the control mechanism 6, and at this time, the second driving gear 461 drives the second driving gear 462 to rotate, so that the second driving gear 462 drives the second gear 463 to rotate, and thus drives the second driving sleeve 464 to rotate.

Referring to fig. 2 and 5, when the second driving sleeve 464 rotates, the second driving sleeve 464 drives the driving column 465 to make an eccentric motion, so that the driving column 465 slides in the lifting rail 57 and drives the lifting rail 57 to move in a vertical direction, so that the lifting rail 57 drives the lifting rod 56 to lift, and the dehumidifying cover 53 is driven to lift, so as to control the dehumidifying mechanism 5 to lift.

Referring to fig. 6 and 7, the control mechanism 6 includes a driving control assembly 61 and a stopping assembly 62, the driving control assembly 61 includes a control roller 611, a first control rod 616 and a second control rod 6114, a chute 11 is formed on inner walls of two sides of the travelling direction of the fabric in the box 1 along the vertical direction, the chute 11 is located at one end of the box 1 close to the wind-up roller 2, two ends of the control roller 611 are rotatably provided with a sliding block 612, the sliding block 612 is slidably installed in the chute 11, the height of the control roller 611 is lower than that of the wind-up roller 2, the fabric passes below the control roller 611 and is wound on the wind-up roller 2 from above the wind-up roller 2, a first reset member is installed above the sliding block 612 in the chute 11, and the first reset member is connected with the sliding block 612.

Referring to fig. 6 and 7, a first control groove 12 is formed in the inner wall of the box 1, which is located at two sides of the fabric travelling direction and is close to the chute 11, the axis of the first control groove 12 is parallel to the axis of the chute 11, and the first control groove 12 is communicated with the chute 11 through a second control groove 13. The first control rod 616 is slidably mounted in the first control slot 12, and one end of the first control rod extends out of the top wall of the box 1, and the second control slot 13 is internally provided with a second reset member which connects the slide block 612 with the first control rod 616. A limiting block is fixedly arranged on the side wall of the first control rod 616, a third spring 618 is further arranged on the first control rod 616, one end of the third spring 618 is abutted against the top wall of the first control groove 12, and the other end of the third spring 618 is abutted against the top wall of the limiting block.

Referring to fig. 7, a second control lever 6114 is slidably mounted on the bracket 8, an axis of the second control lever 6114 is parallel to an axis of the rotating shaft 42, the second control lever 6114 is located below the rotating shaft 42, and the second control lever 6114 and the first control lever 616 are connected by a connecting member. The parking assembly 62 is mounted on the top wall of the case 1, and the second lever 6114, the first control board 43, and the second control board 44 are all connected to the parking assembly 62.

Referring to fig. 6 and 7, when the wind-up roller 2 is required to wind up the fabric, the control roller 611 lifts the control roller 611 under the action of the tension force of the fabric, so that the control roller 611 applies a force to the first reset member, at this time, the second reset member is in a loose state, the control lever 616 is under the action of the third spring 618, the control lever 6114 controls the stopping assembly 62 to position the control board one 43 through the connecting member, and the control board two 44 is in a loose state, so that the driving mechanism 4 drives the wind-up roller 2 to rotate, and the wind-up work is started.

Referring to fig. 6 and 7, after the wind-up roll 2 completes the winding work of a batch of fabric, the control roll 611 is not stressed by the tension of the fabric, at this time, the control roll 611 moves downwards under the action of the first reset element, so that the control roll 611 jacks up the first control rod 616 through the second reset element and compresses the third spring 618, the first control rod 616 drives the second control rod 6114 to move through the connecting element, the second control rod 6114 releases the positioning of the first control plate 43 through the parking assembly 62, positions the second control plate 44, stops the rotation of the wind-up roll 2, and controls the lifting of the dehumidification mechanism 5.

Referring to fig. 6 and 7, when the dehumidifying mechanism 5 is raised again to the highest point position, new fabric is drawn onto the wind-up roll 2 in a manner conventional in the art, which is not described herein. After the fabric is pulled onto the wind-up roll 2, the control roll 611 is stressed again by the tension force of the fabric, so that the control roll 611 is lifted, the second reset element is reset, the first control rod 616 is reset under the action of the third spring 618, the first control rod 616 drives the second control rod 6114 to move through the connecting element, the first control plate 43 is in a state of being positioned by the parking assembly 62 again, the second control plate 44 is in a releasing state, the wind-up roll 2 is rotated, and the dehumidifying mechanism 5 stops lifting.

Referring to fig. 7, the first reset member includes a first spring 613, the first spring 613 is installed in the chute 11, and one end of the first spring 613 abuts against the top wall of the chute 11, and the other end abuts against the top wall of the slider 612. When the control roller 611 is lifted, the control roller 611 drives the slider 612 to move upwards, so that the slider 612 compresses the first spring 613, and when the control roller 611 is not stressed, the first spring 613 is restored to a relaxed state, so as to drive the slider 612 to move downwards, and drive the control roller 611 to descend.

Referring to fig. 7, the second reset member includes a second reset plate 614 and a second spring 615, the reset plate 614 is rotatably mounted in the second control slot 13, one end of the reset plate 614 abuts against the bottom wall of the slider 612, and the other end abuts against the end of the first control rod 616 away from the second control rod 6114. The second spring 615 is installed in the second control slot 13 near one end of the first control rod 616, one end of the second spring 615 is fixedly connected with the bottom wall of the second control slot 13, and the other end is fixedly connected with the bottom wall of the reset plate 614.

Referring to fig. 7, when the slider 612 falls under the action of the first spring 613, the slider 612 presses one end of the reset plate 614 so that the other end of the reset plate 614 is lifted, thereby lifting up the first control lever 616 and putting the second spring 615 in a stretched state. When the slider 612 is lifted again under the driving of the control roller 611, the slider 612 is separated from the reset plate 614, and the reset plate 614 is restored to the initial position under the action of the second spring 615, so that the first control lever 616 is also restored to the initial position.

Referring to fig. 7 and 8, the connecting piece includes a connecting rod 6110, two first control rods 616 located outside the box 1 are connected through a connecting rod 619, a mounting frame 6111 is fixedly installed on the top wall of the box 1, a waist-shaped hole 6112 is formed in the side wall of the connecting rod 6110, the connecting rod 6110 is rotatably installed on the mounting frame 6111 through the waist-shaped hole 6112, one end of the connecting rod 6110 is rotatably connected with the connecting rod 619, the other end of the connecting rod 6110 is rotatably connected with a baffle 6113, and one end, far away from the connecting rod 6110, of the baffle 6113 is fixedly connected with the side wall of the second control rod 6114.

Referring to fig. 7 and 8, when the first control lever 616 is lifted, the first control lever 616 drives the connecting rod 619 to move upwards, thereby driving the connecting rod 6110 to rotate upwards, so that the connecting rod 6110 is in a horizontal state, and the connecting rod 6110 drives the second control lever 6114 to move towards the second control plate 44 through the baffle 6113, so that the second control lever 6114 releases the positioning of the first control plate 43 through the parking assembly 62, and simultaneously positions the second control plate 44. When the first control rod 616 is reset, the first control rod 616 drives the connecting rod 6110 to rotate downwards, so that one end of the connecting rod 6110 far away from the connecting rod 619 pulls the second control rod 6114 to move away from the second control plate 44 through the baffle 6113, the second control rod 6114 positions the first control plate 43 through the parking assembly 62, and meanwhile, the positioning of the second control plate 44 is released through the parking assembly 62.

Referring to fig. 9 and 10, the parking assembly 62 includes a first parking block 625, a second parking block 627, a third parking block and a fourth parking block 6212, a first mounting seat 621 is fixedly mounted on the top wall of the case 1 near the first control board 43, a first parking gear 622 and a second parking gear 623 are rotatably mounted on the first mounting seat 621, the first parking gear 622 and the second parking gear 623 are meshed, and the axes of the first parking gear 622 and the second parking gear 623 are perpendicular to the axis of the second control lever 6114. The first parking block 625 is fixedly arranged on the side wall of the first parking gear 622 through the first connecting plate 624, the second parking block 627 is fixedly arranged on the side wall of the second parking gear 623 through the second connecting plate 626, the first parking block 625 and the second parking block 627 are respectively positioned on two sides of the first control plate 43, the side wall of the first parking block 625, which is close to the second parking block 627, is abutted against the side wall of one side of the first control plate 43, and the side wall of the second parking block 627, which is close to the first parking block 625, is abutted against the side wall of the other side of the first control plate 43. A first connecting groove 628 is formed in the side wall of the second connecting plate 626 along the vertical direction, a first sliding rod 6115 is fixedly arranged at one end, close to the first connecting groove 628, of the second control rod 6114, and the first sliding rod 6115 is slidably arranged in the first connecting groove 628.

Referring to fig. 10, a second base is fixedly mounted on the top wall of the box body 1 near the second control plate 44, a third parking gear 6213 and a fourth parking gear 6210 are rotatably mounted on the second base, the third parking gear 6213 is meshed with the fourth parking gear 6210, the axes of the third parking gear 6213 and the fourth parking gear 6210 are perpendicular to the axis of the second control rod 6114, a third parking block is fixedly mounted on the side wall of the third parking gear 6213 through a third connecting plate 6214, a fourth parking block 6212 is fixedly mounted on the side wall of the fourth parking gear 6210 through a fourth connecting plate 6211, the third parking block and the fourth parking block 6212 are respectively located on two sides of the second control plate 44, the side wall of the third parking block adjacent to the fourth parking block 6212 is in contact with the side wall of one side of the second control plate 44, and the side wall of the fourth parking block 6212 adjacent to the third parking block is in contact with the side wall of the other side of the second control plate 44. A second connecting groove 6215 is formed in the side wall of the third connecting plate 6214 along the vertical direction, a second sliding rod 6116 is fixedly arranged at one end, close to the second connecting groove 6215, of the second control rod 6114, and the second sliding rod 6116 is slidably arranged in the second connecting groove 6215.

Referring to fig. 9 and 10, when the fabric is rolled, the second control rod 6114 pulls the third connecting plate 6214 to rotate through the second sliding rod 6116, so that the third connecting plate 6214 drives the parking block to rotate in a direction away from the fourth parking block 6212, the third connecting plate 6214 drives the third parking gear 6213 to rotate, so as to drive the fourth parking gear 6210 to rotate, the fourth parking gear 6210 drives the fourth parking block 6212 to rotate in a direction away from the third parking block, and accordingly the third parking block and the fourth parking block 6212 release the second control plate 44, the second control plate 44 can rotate under the driving of the driving mechanism 4, and the dehumidifying mechanism 5 stops lifting. Meanwhile, the control rod II 6114 pushes the connecting plate II 626 to rotate towards the first parking block 625 through the sliding rod I6115, so that the second parking block 627 is driven to rotate towards the first parking block 625, meanwhile, the connecting plate II 626 drives the second parking gear 623 to rotate, so that the first parking gear 622 is driven to rotate, the connecting plate I624 is driven to rotate towards the direction close to the second parking block 627, the first parking block 625 rotates towards the second parking block 627, the first parking block 625 and the second parking block 627 clamp the control plate I43, the control plate I43 stops rotating, and the driving mechanism 4 drives the winding roller 2 to rotate, so that winding is achieved.

Referring to fig. 9 and 10, after the fabric is wound, the first control lever 616 pushes the second control lever 6114 away from the first control plate 43 through the connecting rod 6110, so that the second control lever 6114 pulls the second connecting plate 626 to rotate through the first sliding rod 6115, thereby driving the second parking gear 623 to rotate, and the second parking gear 623 drives the first parking gear 622 to rotate, so that the first parking block 625 and the second parking block 627 release the first control plate 43, and the driving mechanism 4 drives the first control plate 43 to rotate, so that the winding roller 2 stops rotating. Meanwhile, the second control rod 6114 pushes the third connecting plate 6214 to rotate through the second sliding rod 6116, so that the third connecting plate 6214 drives the third parking gear 6213 to rotate, the third parking gear 6213 drives the fourth parking gear 6210 to rotate, the fourth parking gear 6210 drives the fourth parking block 6212 to rotate through the fourth connecting plate 6211, the third parking block and the fourth parking block 6212 clamp the second control plate 44, the second control plate 44 stops rotating, and the dehumidifying mechanism 5 stops lifting.

The working principle of the embodiment of the application is as follows: when the fabric is in the winding state, the control roller 611 compresses the first spring 613 under the tension of the fabric, at this time, the reset plate 614 is in a relaxed state, and the first control rod 616 tightens the connecting rod 619 under the action of the third spring 618, so that the second control rod 6114 controls the first parking block 625 and the second parking block 627 to clamp the first control plate 43, and the driving mechanism 4 drives the winding roller 2 to rotate, thereby winding the fabric. At the same time, the second control lever 6114 controls the third and fourth parking blocks 6212 to release the second control plate 44 so that the dehumidifying mechanism 5 does not perform the lifting operation.

When a batch of fabric is dried and wound, the control roller 611 falls under the action of the first spring 613, and the reset plate 614 is pressed down, so that the reset plate 614 jacks up the first control rod 616, the first control rod 616 pushes the second control rod 6114 towards the direction of the second control plate 44 through the connecting rod 6110, the second control rod 6114 controls the first stopping block 625 and the second stopping block 627 to loosen the first control plate 43, the winding roller 2 stops rotating, and accordingly the fabric on the winding roller 2 is conveniently fed. Meanwhile, the second control rod 6114 controls the third parking block and the fourth parking block 6212 to clamp the second control plate 44, so that the dehumidifying mechanism 5 is driven by the driving mechanism 4 to lift, and the dehumidifying mechanism 5 pumps moisture below the inner part of the box body 1, so that the humidity in the box body 1 is slightly lower than the humidity at the time of drying setting.

When the dehumidifying mechanism 5 returns to the highest point, new fabric is drawn into the box 1, the humidity in the box 1 returns to balance again through the humidity of the fabric, when the fabric is drawn onto the wind-up roller 2, the control roller 611 is stressed to rise, the control rod one 616 is reset under the action of the spring three 618, and the control rod two 6114 is pulled to move through the connecting rod 6110, so that the control rod two 6114 controls the parking block one 625 and the parking block two 627 to clamp the control plate one 43 again, the wind-up roller 2 rotates under the drive of the driving mechanism 4, the fabric is wound up, and meanwhile, the control rod two 6114 controls the parking block three and the parking block four 6212 to loosen the control plate two 44, so that the driving mechanism 4 does not drive the dehumidifying mechanism 5 to rise and fall.

The foregoing is a preferred embodiment of the present application, and is not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application are covered by the protection scope of this application.

Claims (2)

1. The utility model provides a printing and dyeing stoving coiling mechanism, includes box (1), one side of box (1) is equipped with wind-up roll (2), the opposite side of box (1) is equipped with the transfer roller, its characterized in that: the drying mechanism (7) is arranged in the box body (1), the drying mechanism (7) comprises a drying roller (71), the drying roller (71) is arranged in the box body (1), the axis of the drying roller (71) is perpendicular to the axis of the material conveying direction, the box body (1) is provided with a dehumidification mechanism (5), the humidity in the box body (1) is controlled to keep balanced through the dehumidification mechanism (5), the box body (1) is also provided with a driving mechanism (4) for driving the dehumidification mechanism (5) to lift, the driving mechanism (4) is also connected with a wind-up roller (2), the box body (1) is also provided with a control mechanism (6) for controlling the driving mechanism (4) to work, the control mechanism (6) comprises a driving control component (61) and a stopping component (62), the driving control component (61) comprises a control roller (611), a control rod I (616) and a control rod II (6114), a sliding groove (11) is formed in the inner wall of the box body (1) along the vertical direction, the control roller (611) is arranged in the control roller (11), the control roller I is arranged in the control roller (611) and is connected with the reset roller (611) in the reset roller (11) in parallel to the reset roller (71), the inner wall of the box body (1) is also provided with a first control groove (12), the first control groove (12) is parallel to the axis of the sliding groove (11), the first control groove (12) is communicated with the sliding groove (11) through a second control groove (13), the first control rod (616) is arranged in the first control groove (12), one end of the first control rod (616) extends out of the top wall of the box body (1), a second reset piece is arranged in the second control groove (13), the other end of the first control rod (616) is connected with the control roller (611) through the second reset piece, the second control rod (6114) is arranged on the top wall of the box body (1) along the horizontal direction, the second control rod (6114) is connected with the first control rod (616) through a connecting piece, the second control rod (6114) is also connected with the driving mechanism (4), the parking component (62) is arranged on the box body (1), the other end of the second control rod (6114) is connected with the second control rod (13), the other end of the first control rod (6114) is connected with the first spring (613) through the first reset spring (613), the first spring (613) is connected with the first spring (613) and the second spring (613) is arranged in the side wall (613), the two reset pieces comprise a reset plate (614) and a second spring (615), the reset plate (614) is arranged in the second control groove (13), one end of the reset plate (614) is connected with the side wall of the control roller (611), the other end of the reset plate is connected with one end of the first control rod (616) positioned in the box body (1), the second spring (615) is arranged at one end, close to the first control rod (616), in the control groove, one end of the second spring (615) is connected with the bottom wall of the second control groove (13), the other end of the second spring (615) is connected with the bottom wall of the reset plate (614), the connecting piece comprises a connecting rod (6110), the connecting rod (6110) is arranged on the top wall of the box body (1), one end of the connecting rod (6110) is connected with one end, positioned outside the first control rod (616), the other end of the connecting rod is connected with the side wall of the second control rod (6114), the parking component (62) comprises a first parking block (625), a second parking block (627), a third parking block and a fourth parking block (6212), the first gear (621) is arranged on the box body (623), a second gear (623) is arranged on the top wall (623), and the first gear (623) is meshed with the second gear (623) and the second gear (623) is arranged in the first gear seat (623, the first parking block (625) is arranged on the side wall of the first parking gear (622), the second parking block (627) is arranged on the side wall of the second parking gear (623), the first parking block (625) and the second parking block (627) are oppositely arranged, the first parking block (625) and the second parking block (627) are both connected with the driving mechanism (4), the second parking block (627) is connected with one end of the second control rod (6114), the second mounting block (629) is arranged on the top wall of the box body (1), the second mounting block (629) is positioned at the other end of the second control rod (6114), the third parking gear (6213) and the fourth parking gear (6210) are arranged in the second mounting block (629) in a meshed mode, the third parking block (6213) is arranged on the side wall of the third parking gear (6213), the fourth parking block (6212) is arranged on the side wall of the fourth parking gear (6210), and the third parking block (6212) and the fourth motor (6212) are oppositely arranged on the first parking block (6213), the fourth motor (6214), the fourth parking block (6213) and the fourth motor (624) are connected with the driving mechanism (42), the fourth motor (62) and the fourth motor (62) are arranged on the driving mechanism (42), the motor (41) is arranged on the top wall of the box body (1), the rotating shaft (42) is arranged on the top wall of the box body (1), the motor (41) controls the rotating shaft (42) to rotate, the driving piece I (45) is arranged at one end of the rotating shaft (42), the driving piece I (45) is connected with the winding roller (2), the control board I (43) is arranged on the rotating shaft (42) near the driving piece I (45), the control board I (43) is arranged between the parking block I (625) and the parking block II (627), the control board I (43) is connected with the driving piece I (45), the parking block I (625) and the parking block II (627) clamp the control board I (43), the driving piece II (46) is arranged at the other end of the rotating shaft (42), the driving piece II (46) is connected with the dehumidifying mechanism (5), the control board II (44) is arranged on the rotating shaft (42), the control board II (44) is arranged between the parking block III (625) and the parking block III (12) and the parking block II (62) and the driving piece III (45) are connected with the parking block II (45), the first driving gear (451) is coaxially arranged at one end of the rotating shaft (42), the first driving gear (452) is arranged on the first control board (43) and meshed with the first driving gear (451), the first driving gear (454) is arranged on the top wall of the first box body (1), the axle center of the first driving sleeve (454) is positioned on the axis of the rotating shaft (42), the first gear teeth (453) are arranged on the inner wall of the first driving sleeve (454), the first gear teeth (453) are meshed with the first driving gear (452), the first driving sleeve (454) drives the winding roller (2) to rotate, the second driving member (46) comprises a second driving gear (461), a second driving gear (462) and a second driving sleeve (464), the second driving gear (461) is coaxially arranged at one end of the rotating shaft (42) far away from the first driving gear (451), the second driving gear (462) is arranged on the second control board (44), the second driving gear (462) is meshed with the second driving gear (464), the axle center of the second driving sleeve (463) is arranged on the inner wall of the second box body (463), the second driving gear (463) is meshed with the second gear (464), and one end of the second driving sleeve (464) far away from the second gear tooth (463) is provided with a driving column (465), and the driving column (465) is connected with the dehumidifying mechanism (5).

2. The printing and dyeing drying and winding device according to claim 1, wherein: the dehumidification mechanism (5) comprises a dehumidification cover (53), a fan (51) and a dehumidification pipe (52), the fan (51) is arranged on the box body (1), the dehumidification pipe (52) is arranged at an air inlet of the fan (51), one end of the dehumidification pipe (52), which is far away from the fan (51), extends into the box body (1), the dehumidification cover (53) is arranged in the box body (1), the dehumidification cover (53) is connected with the dehumidification pipe (52) through a telescopic pipe (54), a lifting rod (56) is arranged on the top wall of the dehumidification cover (53), one end of the lifting rod (56), which is far away from the dehumidification cover (53), extends out of the box body (1), and one end of the lifting rod (56), which is located outside the box body (1), is connected with a driving column (465).