阅读说明：本技术 一种基于湿巾生产用的生产加工装置 (Production processingequipment based on wet piece of cloth production usefulness ) 是由 杨小军 于 2021-09-04 设计创作，主要内容包括：本发明公开了一种基于湿巾生产用的生产加工装置,涉及湿巾生产技术领域。本发明包括加工支架,加工支架的顶端从一侧到另一侧依次固定连接有收卷轮、热压定型结构、复合加工导轮结构和放料轮,放料轮用于自动化湿巾布料的放料,复合加工导轮结构用于多功能处理引导放料出的湿巾布料。本发明通过复合加工导轮结构的设计,使得装置便于完成对湿巾生产过程中进行引导输送的同时,完成对湿巾纸体的除菌和对湿巾纸进行自动化混合液体的加湿喷洒,通过自动化一体的设计,提高湿巾的生产效率,降低生产成本,且通过热压定型结构的设计,使得装置便于完成对湿巾的自动化加热压印同步去除多余湿度的同时,完成对湿巾的热压定型后续裁切加工。(The invention discloses a production processing device for producing wet tissues, and relates to the technical field of wet tissue production. The automatic wet tissue cloth feeding device comprises a processing support, wherein a winding wheel, a hot-pressing shaping structure, a composite processing guide wheel structure and a feeding wheel are fixedly connected to the top end of the processing support from one side to the other side in sequence, the feeding wheel is used for feeding automatic wet tissue cloth, and the composite processing guide wheel structure is used for performing multifunctional processing on the wet tissue cloth guided to be discharged. The device is convenient to perform guide conveying in the wet tissue production process, and simultaneously performs degerming on the wet tissue body and automatic humidification and spraying of mixed liquid on the wet tissue body.)

1. The utility model provides a production processingequipment based on wet piece of cloth production usefulness, includes processing support (1), its characterized in that: the wet tissue processing device is characterized in that a winding wheel (2), a hot-pressing shaping structure (5), a composite processing guide wheel structure (4) and a discharging wheel (3) are fixedly connected to the top end of the processing support (1) from one side to the other side in sequence, the discharging wheel (3) is used for discharging an automatic wet tissue fabric, the composite processing guide wheel structure (4) is used for multifunctional processing of the wet tissue fabric discharged through guiding, the hot-pressing shaping structure (5) is used for carrying out thermal shaping on the wet tissue fabric processed by the composite processing guide wheel structure (4), and the winding wheel (2) is used for winding the wet tissue fabric after final processing.

2. The production processing device for producing wet tissues as claimed in claim 1, wherein: composite machining guide wheel structure (4) are including assistance-localization real-time board (6), initiative guide wheel module (7), driven guide wheel (8) and humidification spray pipe (9), inboard fixedly connected with initiative guide wheel module (7) on assistance-localization real-time board (6) top, the inboard rotation of assistance-localization real-time board (6) bottom is connected with driven guide wheel (8), the multi-functional generation module of one end fixedly connected with (10) of driven guide wheel (8), the other end fixedly connected with humidification spray pipe (9) of driven guide wheel (8).

3. The production processing device for producing wet tissues as claimed in claim 2, wherein: initiative guide wheel module (7) include first motor (11), direction pinch roller (12), electrically conductive year piece (13) and ultraviolet irradiation lamp (14), the output fixedly connected with direction pinch roller (12) of first motor (11), the material of direction pinch roller (12) is organic glass, the inboard fixedly connected with of direction pinch roller (12) is electrically conductive to be carried piece (13), the inboard fixedly connected with ultraviolet irradiation lamp (14) of electrically conductive year piece (13), the inboard coating of direction pinch roller (12) has nanometer titanium dioxide.

4. The production processing device for producing wet tissues as claimed in claim 2, wherein: the multifunctional generating module (10) comprises a mixing output module (15) and an atomization production module (16), and the output end of the mixing output module (15) is fixedly connected with the atomization production module (16).

5. The production processing device for producing wet tissues as claimed in claim 4, wherein: atomizing production module (16) is including deriving liquefaction pipe (17), output delivery pipe (18), atomizing output guide box (19), electrothermal tube (20), atomizing gas delivery pipe (21), delivery box (22) and wind-force fan (23), the one end of deriving liquefaction pipe (17) is connected with atomizing output guide box (19) through output delivery pipe (18), a plurality of electrothermal tube (20) of inboard fixedly connected with of atomizing output guide box (19), the one end of atomizing output guide box (19) is connected with delivery box (22) through atomizing gas delivery pipe (21), the inboard one end fixedly connected with wind-force fan (23) of delivery box (22).

6. The production processing device for producing wet tissues as claimed in claim 5, wherein: the hybrid output module (15) comprises a movable guide carrying block (24), a movable guide block (25), a second motor (26), a driving pulley (27), a driven driving wheel (28), a driving pinion (29), a divided guide gear (30), a driven pinion (31), a driving belt (32) and a guide driving pipe (33), wherein the movable guide carrying block (24) is fixedly connected with one side of the movable guide carrying block to extend the movable guide block (25), one side of the movable guide block (25) is fixedly connected with the second motor (26) through a screw, the driving pulley (27) is fixedly connected with the output end of the second motor (26), the driving belt (32) is sleeved on the outer side of the driving pulley (27), the driven driving wheel (28) is sleeved on the other side of the driving belt (32), and the driving pinion (29) is fixedly connected with one side of the driven driving wheel (28) far away from the second motor (26), the one end meshing of initiative pinion (29) is connected with divides lead gear (30), divide lead gear (30) and the inboard swing joint that moves lead year piece (24), the top and the other end of dividing lead gear (30) all mesh and be connected with driven pinion (31), it has a plurality of guide drive pipe (33) to move to lead to carry to piece (24) and keep away from one side welding that extends to move lead piece (25).

7. The production processing device for producing wet tissues as claimed in claim 6, wherein: the hybrid output module (15) further comprises a screw rod (34), a matched guide groove (35), a linkage pushing block (36), a liquid storage pipe (37), an extrusion push plate (38), a fusion guide pipe (39), a mixing box (40) and a discharge extrusion pipe (41), wherein the screw rod (34) is rotatably connected to the inner side of the guide driving pipe (33), one side of a driving pinion (29) and one side of a driven pinion (31) are fixedly connected with the screw rod (34), the matched guide groove (35) is respectively formed in the two sides of the guide driving pipe (33), the linkage pushing block (36) is connected to the outer side of the screw rod (34) through threads, the linkage pushing block (36) and the matched guide groove (35) are in clearance fit, the extrusion push plate (38) is welded to one side of the linkage pushing block (36), the liquid storage pipe (37) is welded to one side, far away from the movable guide carrying block (24), of the guide driving pipe (33), one side that guide drive pipe (33) was kept away from in liquid storage pipe (37) is connected with mixing box (40) through fusing guide tube (39), mixing box (40) are fixed in the one side that moves and lead year piece (24), one side fixedly connected with extrusion pipe (41) of leading year piece (24) are kept away from in mixing box (40).

8. The production processing device for producing wet tissues as claimed in claim 1, wherein: the hot-pressing shaping structure (5) comprises an auxiliary carrying block (42), a linkage sliding groove (43), a matching displacement sliding plate (44), a hydraulic piston cylinder (45), a movable guide pushing block (46), a turnover guide block (47), a closed electric heating plate (48) and a hinge (49), wherein the linkage sliding groove (43) is formed in the top end and the bottom end of the auxiliary carrying block (42), the matching displacement sliding plate (44) is connected to the inside of the linkage sliding groove (43) in a sliding manner, the hydraulic piston cylinder (45) is fixedly connected to one side of the matching displacement sliding plate (44) through a screw, the movable guide pushing block (46) is fixedly connected to the output end of the hydraulic piston cylinder (45), the two sides of the movable guide pushing block (46) are rotatably connected with the turnover guide block (47), the closed electric heating plate (48) is fixedly connected to one side of the turnover guide block (47), and the closed electric heating plate (48) is connected with the other closed electric heating plate (48) through the hinge (49), hinge (49) include center pin and cover sheet, the cover sheet rotates with the center pin to be connected, cover sheet and closed electric plate (48) fixed connection, the center pin carries on piece (42) fixed connection with the supplementary.

9. The production processing device for producing wet tissues as claimed in claim 8, wherein: and an electric heating resistance wire is fixed on the inner side of the closed electric heating plate (48).

Technical Field

The invention relates to the technical field of wet tissue production, in particular to a production processing device for producing wet tissues.

Background

Wet wipes are moist paper towels used to wipe skin. Wet wipes on the market can be roughly divided into two categories: the multifunctional wet tissue has the advantages that the multifunctional wet tissue is sterilized, the other articles cannot be sterilized, skin care ingredients are contained in the multifunctional wet tissue, and the multifunctional wet tissue can be used for moistening and maintaining the skin, and can be used for sterilizing and disinfecting other articles, so that a corresponding processing device is needed for producing the multifunctional wet tissue.

Disclosure of Invention

The invention aims to provide a production processing device for producing wet tissues, which aims to solve the existing problems that: the existing device is not convenient for forming multifunctional composite production and processing in the wet tissue processing process, and has low processing efficiency and higher cost.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a production processingequipment based on wet piece of cloth production usefulness, includes the processing support, the top of processing support is from one side fixedly connected with rolling wheel, hot pressing design structure, combined machining guide wheel structure and blowing wheel to the opposite side in proper order, the blowing wheel is used for the blowing of automatic wet piece of cloth, combined machining guide wheel structure is used for the wet piece of cloth that the multi-functional processing guide blowing goes out, hot pressing design structure is used for carrying out the heating power design to the wet piece of cloth after combined machining guide wheel structure handles, the rolling wheel is used for carrying out the rolling to the wet piece of cloth after final processing.

Preferably, the combined machining guide wheel structure comprises an auxiliary positioning plate, a driving guide wheel module, a driven guide wheel and a humidifying spray pipe, wherein the driving guide wheel module is fixedly connected to the inner side of the top end of the auxiliary positioning plate, the driven guide wheel is rotatably connected to the inner side of the bottom end of the auxiliary positioning plate, a multifunctional generation module is fixedly connected to one end of the driven guide wheel, and the humidifying spray pipe is fixedly connected to the other end of the driven guide wheel.

Preferably, the initiative guide wheel module includes first motor, direction pinch roller, electrically conductive carrier block and ultraviolet irradiation lamp, the output fixedly connected with direction pinch roller of first motor, the material of direction pinch roller is organic glass, the electrically conductive carrier block of inboard fixedly connected with of direction pinch roller, the inboard fixedly connected with ultraviolet irradiation lamp of electrically conductive carrier block, the inboard coating of direction pinch roller has nanometer titanium dioxide.

Accomplish the drive to the direction pinch roller through controlling first motor, make the direction pinch roller accomplish the rotation, the cooperation is from the automatic guide of guide wheel completion to wet piece of cloth, in-process at the guide carry on the piece through electrically conductive to the ultraviolet radiation lamp and supply power, the ultraviolet ray that utilizes the ultraviolet radiation lamp to send takes place catalytic reaction with the nanometer titanium dioxide in the direction pinch roller, form efficient light medium degerming, utilize light medium degerming to accomplish the physics degerming to wet piece of cloth, thereby guarantee the sterile condition of wet piece of cloth self.

Preferably, the multifunctional generating module comprises a mixing output module and an atomization production module, and the output end of the mixing output module is fixedly connected with the atomization production module.

Preferably, the atomizing production module is including deriving liquefaction pipe, output delivery pipe, atomizing output guide box, electrothermal tube, atomizing gas delivery pipe, delivery box and wind-force fan, the one end of deriving the liquefaction pipe is connected with the atomizing output guide box through the output delivery pipe, a plurality of electrothermal tubes of inboard fixedly connected with of atomizing output guide box, the one end of atomizing output guide box is connected with the delivery box through the atomizing gas delivery pipe, the inboard one end fixedly connected with wind-force fan of delivery box.

Preferably, the hybrid output module comprises a movable guide carrying block, an extension movable guide block, a second motor, a driving pulley, a driven driving wheel, a driving pinion, a branch guide gear, a driven pinion, a driving belt and a guide driving pipe, wherein one side of the movable guide carrying block is fixedly connected with the extension movable guide block, one side of the extension movable guide block is fixedly connected with the second motor through a screw, the output end of the second motor is fixedly connected with the driving pulley, the driving belt is sleeved on the outer side of the driving pulley, the driven driving wheel is sleeved on the other side of the driving belt, the driving pinion is fixedly connected with one side of the driven driving wheel far away from the second motor, one end of the driving pinion is meshed with the branch guide gear, the branch guide gear is movably connected with the inner side of the movable guide carrying block, and the top end and the other end of the branch guide gear are both meshed with the driven pinion, one side of the movable guide carrying block, which is far away from the extending movable guide block, is welded with a plurality of guide driving pipes.

Preferably, the mixing output module further comprises a screw, a matching guide groove, a linkage push guide block, a liquid storage pipe, an extrusion push plate, a fusion guide pipe, a mixing box and a discharge extrusion pipe, the inner side of the guide driving pipe is rotatably connected with a screw rod, one side of the driving pinion and one side of the driven pinion are both fixedly connected with the screw rod, the two sides of the guide driving pipe are both provided with guide grooves, the outer side of the screw is connected with a linkage push guide block through threads, the linkage push guide block is in clearance fit with the guide groove, one side of the linkage push guide block is welded with an extrusion push plate, a liquid storage pipe is welded on one side of the guide driving pipe, which is far away from the movable guide carrying block, a mixing box is connected on one side of the liquid storage pipe, which is far away from the guide driving pipe, through a fusion guide pipe, the mixing box is fixed on one side of the movable guide carrying block, and one side of the mixing box, which is far away from the movable guide carrying block, is fixedly connected with a discharge extrusion pipe.

The driving of the driving belt wheel is completed by controlling the second motor, the torque at the position of the driving belt wheel is transmitted to the driven driving wheel by using a transmission belt, so that the driven driving wheel drives the driving pinion to complete rotation, the driven pinion obtains the torque from the position of the branch guide gear and forms synchronous rotation with the driving pinion by using the meshed connection of the driving pinion and the branch guide gear and the meshed connection of the branch guide gear and the driven pinion, the screw rod is synchronously driven by using the driven pinion and the driving pinion to complete rotation, the linkage push guide block obtains the torque by using the threaded connection of the screw rod and the linkage push guide block, the torque at the position of the linkage push guide block is limited to form a derivation displacement by using the derivation displacement of the linkage push block to derive the sliding displacement of the extrusion push plate in the liquid storage pipe, and an air column is formed, the fragrant smell liquid and the alcohol of storing respectively in the stock solution pipe of difference are synchronous through fusing the inside that the guiding tube injected into the mixing box, make liquid fuse the back in the mixing box is inside, it is inside to derive to deriving the liquefaction intraduct through the discharge extrusion pipe, will derive the intraduct mixed liquid of liquefaction through the output guiding tube and derive to the inside of atomizing output guiding box, utilize the electrothermal tube to accomplish the heating gasification to deriving the liquid, utilize the atomizing gas guiding tube to derive the vapor of gasification to deriving the case, utilize the wind-force fan to spread vapor to driven guide wheel department, discharge to the wet piece of cloth surface through the humidification spray line, accomplish rapid heating, give wet piece of cloth humidity, fragrant smell and degerming wipe the performance.

Preferably, the hot-press shaping structure comprises an auxiliary carrying block, a linkage sliding chute, a matching movable displacement sliding plate, a hydraulic piston cylinder, a movable guide pushing block, a turnover guide block, a closed electric heating plate and a hinge, the top end and the bottom end of the auxiliary carrying block are both provided with linkage chutes, the interior of each linkage chute is connected with a matching displacement sliding plate in a sliding way, one side of the matched displacement sliding plate is fixedly connected with a hydraulic piston cylinder through a screw, the output end of the hydraulic piston cylinder is fixedly connected with a movable guide pushing block, the two sides of the movable guide push block are rotationally connected with the overturning guide block, one side of the overturning guide block is fixedly connected with a closed electric heating plate, the closed electric heating plate is connected with the other closed electric heating plate through a hinge, the hinge comprises a central shaft and a sleeve sheet, the sleeve piece is rotatably connected with the central shaft, the sleeve piece is fixedly connected with the closed electric heating plate, and the central shaft is fixedly connected with the auxiliary carrying block.

Preferably, an electric resistance wire is fixed on the inner side of the closed electric heating plate.

Make closed electric plate be in high hot state through the inside electric heat resistance silk of closed electric plate, extend the output through control hydraulic piston cylinder this moment, accomplish the derivation to moving the guide ejector pad, utilize the cooperation of moving guide ejector pad and upset guide to accomplish the extrusion to closed electric plate for closed electric plate atress is folded up, and it is spacing to avoid closed electric plate to fold up the in-process production, through the sliding displacement who moves displacement slide and linkage spout in coordination, the completion is to spacing cooperation operation.

Compared with the prior art, the invention has the beneficial effects that:

1. the device is convenient to perform guide conveying in the production process of the wet tissue, and simultaneously performs degerming on the wet tissue body and automatic humidification and spraying of mixed liquid on the wet tissue, and the production efficiency of the wet tissue is improved and the production cost is reduced through the automatic integrated design;

2. the device is convenient to finish automatic heating and stamping of the wet tissue and simultaneous removal of redundant humidity through the design of the hot-pressing shaping structure, and simultaneously finishes the hot-pressing shaping and subsequent cutting processing of the wet tissue.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a side view of the present invention in its entirety;

FIG. 3 is a schematic view of a partial structure of the composite machined guide wheel structure of the present invention;

FIG. 4 is a partial schematic view of the active guide wheel module of the present invention;

FIG. 5 is a schematic diagram of a partial structure of the multifunctional generating module of the present invention;

FIG. 6 is a schematic view of a partial structure of an atomization production module of the present invention;

FIG. 7 is a schematic diagram of a partial structure of the hybrid output module according to the present invention;

fig. 8 is a partial structural schematic view of the heat press molding structure of the present invention.

In the figure: 1. processing a bracket; 2. a winding wheel; 3. a discharge wheel; 4. compositely processing a guide wheel structure; 5. hot-pressing and shaping the structure; 6. an auxiliary positioning plate; 7. a driving guide wheel module; 8. a driven guide wheel; 9. a humidifying spray pipe; 10. a multifunctional generation module; 11. a first motor; 12. a guide pinch roller; 13. a conductive mounting block; 14. an ultraviolet irradiation lamp; 15. a hybrid output module; 16. an atomization production module; 17. leading out the liquefaction pipe; 18. an output delivery pipe; 19. an atomization output guide box; 20. an electric heating tube; 21. an atomized gas delivery pipe; 22. a lead-out box; 23. a wind power fan; 24. a movable guide carrying block; 25. extending the movable guide block; 26. a second motor; 27. a driving pulley; 28. a driven pulley; 29. a drive pinion; 30. a branch guide gear; 31. a driven pinion gear; 32. a transmission belt; 33. guiding the driving pipe; 34. a screw; 35. matching a guide groove; 36. a linkage push guide block; 37. a liquid storage pipe; 38. extruding the push plate; 39. fusing the guide tube; 40. a mixing box; 41. discharging the extruded tube; 42. an auxiliary mounting block; 43. a linkage chute; 44. a displacement sliding plate is matched; 45. a hydraulic piston cylinder; 46. a movable guide push block; 47. turning over the guide block; 48. closing the electric heating plate; 49. and (7) a hinge.

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.

Please refer to fig. 1-2:

the utility model provides a production processingequipment based on wet piece of cloth production usefulness, including processing support 1, processing support 1's top is from one side fixedly connected with wind-up wheel 2 to the opposite side in proper order, hot pressing fixed knot constructs 5, combined machining guide pulley structure 4 and blowing wheel 3, blowing wheel 3 is used for the blowing of automatic wet piece of cloth, combined machining guide pulley structure 4 is used for the wet piece of cloth that the blowing goes out of multi-functional processing guide, hot pressing fixed knot constructs 5 and is used for carrying out the thermal finalization to the wet piece of cloth after combined machining guide pulley structure 4 handles, wind-up wheel 2 is used for carrying out the rolling to the wet piece of cloth after final processing.

Please refer to fig. 3:

the composite machining guide wheel structure 4 comprises an auxiliary positioning plate 6, a driving guide wheel module 7, a driven guide wheel 8 and a humidifying spray pipe 9, wherein the driving guide wheel module 7 is fixedly connected to the inner side of the top end of the auxiliary positioning plate 6, the driven guide wheel 8 is rotatably connected to the inner side of the bottom end of the auxiliary positioning plate 6, one end of the driven guide wheel 8 is fixedly connected with a multifunctional generation module 10, and the other end of the driven guide wheel 8 is fixedly connected with the humidifying spray pipe 9;

please refer to fig. 4:

the active guide wheel module 7 comprises a first motor 11, a guide pressing wheel 12, a conductive carrying block 13 and an ultraviolet irradiation lamp 14, wherein the output end of the first motor 11 is fixedly connected with the guide pressing wheel 12, the guide pressing wheel 12 is made of organic glass, the conductive carrying block 13 is fixedly connected to the inner side of the guide pressing wheel 12, the ultraviolet irradiation lamp 14 is fixedly connected to the inner side of the conductive carrying block 13, and the inner side of the guide pressing wheel 12 is coated with nano titanium dioxide;

the first motor 11 is controlled to drive the guide pressing wheel 12, so that the guide pressing wheel 12 rotates, the driven guide wheel 8 is matched to complete automatic guide of the wet tissue cloth, power is supplied to the ultraviolet radiation lamp 14 through the conductive carrying block 13 in the guide process, the ultraviolet radiation emitted by the ultraviolet radiation lamp 14 and the nano titanium dioxide in the guide pressing wheel 12 are subjected to catalytic reaction to form efficient light medium sterilization, and the physical sterilization of the wet tissue cloth is completed through the light medium sterilization, so that the sterile state of the wet tissue cloth is ensured;

please refer to fig. 5:

the multifunctional generating module 10 comprises a mixing output module 15 and an atomization production module 16, wherein the output end of the mixing output module 15 is fixedly connected with the atomization production module 16;

please refer to fig. 6-7:

the atomization production module 16 comprises a guide liquefaction pipe 17, an output guide pipe 18, an atomization output guide box 19, electric heating pipes 20, an atomization gas guide pipe 21, a guide box 22 and a wind fan 23, wherein one end of the guide liquefaction pipe 17 is connected with the atomization output guide box 19 through the output guide pipe 18, the inner side of the atomization output guide box 19 is fixedly connected with the electric heating pipes 20, one end of the atomization output guide box 19 is connected with the guide box 22 through the atomization gas guide pipe 21, and one end of the inner side of the guide box 22 is fixedly connected with the wind fan 23;

the hybrid output module 15 comprises a movable guide carrying block 24, an extension movable guide block 25, a second motor 26, a driving pulley 27, a driven driving pulley 28, a driving pinion 29, a branch guide gear 30, a driven pinion 31, a driving belt 32 and a guide driving pipe 33, wherein one side of the movable guide carrying block 24 is fixedly connected with the extension movable guide block 25, one side of the extension movable guide block 25 is fixedly connected with the second motor 26 through a screw, the output end of the second motor 26 is fixedly connected with the driving pulley 27, the outer side of the driving pulley 27 is sleeved with the driving belt 32, the other side of the driving belt 32 is sleeved with the driven driving pulley 28, one side of the driven driving pulley 28, which is far away from the second motor 26, is fixedly connected with the driving pinion 29, one end of the driving pinion 29 is engaged with the branch guide gear 30, the branch guide gear 30 is movably connected with the inner side of the movable guide carrying block 24, the top end and the other end of the branch guide gear 30 are engaged with the driven pinion 31, a plurality of guide driving pipes 33 are welded on one side of the movable guide carrying block 24, which is far away from the extension movable guide block 25;

the mixing output module 15 also comprises a screw 34, a guide groove 35, a linkage push guide block 36, a liquid storage pipe 37, an extrusion push plate 38, a fusion guide pipe 39, a mixing box 40 and a discharge extrusion pipe 41, a screw 34 is rotatably connected to the inner side of the guide driving pipe 33, one side of the driving pinion 29 and one side of the driven pinion 31 are fixedly connected with the screw 34, matched guide grooves 35 are formed in two sides of the guide driving pipe 33, a linkage pushing block 36 is connected to the outer side of the screw 34 through threads, the linkage pushing block 36 and the matched guide grooves 35 are in clearance fit, an extrusion push plate 38 is welded to one side of the linkage pushing block 36, a liquid storage pipe 37 is welded to one side, away from the movable guide carrying block 24, of the guide driving pipe 33, one side, away from the guide driving pipe 33, of the liquid storage pipe 37 is connected with a mixing box 40 through a fusion guiding pipe 39, the mixing box 40 is fixed to one side of the movable guide carrying block 24, and a discharge extrusion pipe 41 is fixedly connected to one side, away from the movable guide carrying block 24, of the mixing box 40;

the driving of the driving pulley 27 is completed by controlling the second motor 26, the torque at the driving pulley 27 is transmitted to the driven driving pulley 28 by the driving belt 32, so that the driven driving pulley 28 drives the driving pinion 29 to complete the rotation, the driving pinion 29 and the branch guide gear 30 are meshed and connected, and the branch guide gear 30 and the driven pinion 31 are meshed and connected, so that the driven pinion 31 obtains the torque from the branch guide gear 30 and forms the synchronous rotation with the driving pinion 29, at this time, the driven pinion 31 and the driving pinion 29 synchronously drive the screw 34 to complete the rotation, the screw 34 and the linkage push guide block 36 are connected by the screw thread, so that the linkage push guide block 36 obtains the torque, the sliding connection of the linkage push guide block 36 and the matching guide groove 35 is utilized, so that the torque at the linkage push block 36 is limited to form the derivation displacement, the derivation displacement of the linkage push block 36 is utilized to derive the sliding displacement of the extrusion push plate 38 in the liquid storage pipe 37, forming an air column, synchronously injecting the fragrant liquid and alcohol respectively stored in different liquid storage pipes 37 into the mixing box 40 through a fusion guide pipe 39, leading the liquid into the leading-out liquefaction pipe 17 through a discharge extrusion pipe 41 after the liquid is fused in the mixing box 40, leading the mixed liquid led out of the liquefaction pipe 17 through an output leading-out pipe 18 into an atomization output leading box 19 through the output leading-out pipe 18, completing heating and gasification of the led-out liquid by using an electric heating pipe 20, leading out the gasified water vapor into a leading-out box 22 through an atomization gas leading-out pipe 21, diffusing the water vapor to a driven guide wheel 8 by using a wind fan 23, discharging the water vapor to the surface through a humidification spray pipe 9, completing rapid heating of the wet tissue, and endowing the wet tissue with humidity, fragrance and bacteria removal wiping performance;

please refer to fig. 8:

the hot-press shaping structure 5 comprises an auxiliary carrying block 42, a linkage sliding chute 43, a matching displacement sliding plate 44, a hydraulic piston cylinder 45, a movable guide pushing block 46, a turning guide block 47, a closed electric heating plate 48 and a hinge 49, the top end and the bottom end of the auxiliary carrying block 42 are both provided with linkage sliding chutes 43, the interior of each linkage sliding chute 43 is connected with a linkage displacement sliding plate 44 in a sliding manner, one side of each linkage displacement sliding plate 44 is fixedly connected with a hydraulic piston cylinder 45 through a screw, the output end of each hydraulic piston cylinder 45 is fixedly connected with a movable guide and push block 46, two sides of each movable guide and push block 46 are rotatably connected with an overturning guide block 47, one side of each overturning guide block 47 is fixedly connected with a closed electric heating plate 48, each closed electric heating plate 48 is connected with the other closed electric heating plate 48 through a hinge 49, each hinge 49 comprises a central shaft and a sleeve piece, each sleeve piece is rotatably connected with the central shaft, each sleeve piece is fixedly connected with the closed electric heating plate 4), and each central shaft is fixedly connected with the auxiliary carrying block 42;

an electric resistance wire is fixed to the inner side of the closed electric heating plate 48.

Make closed electric plate 48 be in high fever state through the inside electric resistance wire of closed electric plate 48, extend the output this moment through controlling hydraulic piston cylinder 45, accomplish the derivation to moving guide ejector pad 46, utilize the cooperation of moving guide ejector pad 46 and upset guide pad 47 to accomplish the extrusion to closed electric plate 48, make closed electric plate 48 atress fold up, it is spacing to avoid closed electric plate 48 to fold up the in-process production, through the sliding displacement of joining in marriage movable displacement slide 44 and linkage spout 43, accomplish to spacing cooperation operation, make the device be convenient for accomplish when getting rid of unnecessary humidity to the automatic heating impression synchronization of wet piece of cloth, accomplish the follow-up cutting process of the hot briquetting of wet piece of cloth.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.