阅读说明：本技术 一种口罩生产用多工位印花装置 (Multi-station printing device for mask production ) 是由 鲁艳芳 于 2021-08-10 设计创作，主要内容包括：本发明公开了一种口罩生产用多工位印花装置,涉及牙科治疗器械领域,其包括:安装架,所述安装架包括移动座、固定于移动座上的支撑杆、固定于支撑杆上端的矩形框、固定于两个矩形框之间的连接板、固定于连接板顶部的安装竖板,安装竖板上安装有对称设置的两个布料卷辊；输送干燥机构,所述输送干燥机构安装于安装架上,其用于对布料卷辊上的口罩布料进行输送。本发明中整个装置不仅能够在对布料进行印花前对其进行自动清洁,方便后续的印花工作,且印花后还能够对布料进行干燥,并在干燥后进行自动定长切割,而布料的清洁、干燥和切割工作相互联系,相辅相成,进而使得对布料的加工便利。(The invention discloses a multi-station printing device for mask production, which relates to the field of dental treatment instruments and comprises an installation frame, a printing device and a printing device, wherein the installation frame comprises a movable seat, a support rod fixed on the movable seat, rectangular frames fixed at the upper ends of the support rod, a connecting plate fixed between the two rectangular frames, and an installation vertical plate fixed at the top of the connecting plate, and two symmetrically arranged cloth winding rollers are installed on the installation vertical plate; and the conveying and drying mechanism is arranged on the mounting frame and is used for conveying the mask cloth on the cloth roller. The whole device can automatically clean the cloth before printing to facilitate subsequent printing work, the cloth can be dried after printing, and automatic fixed-length cutting is performed after drying, and the cleaning, drying and cutting work of the cloth are mutually linked and complement each other, so that the cloth is convenient to process.)

1. The utility model provides a gauze mask production is with multistation stamp device which characterized in that includes:

the mounting frame (1) comprises a moving seat (11), a support rod (12) fixed on the moving seat (11), a rectangular frame (13) fixed at the upper end of the support rod (12), a connecting plate (14) fixed between the two rectangular frames (13), and a mounting vertical plate (15) fixed at the top of the connecting plate (14), wherein two symmetrically arranged cloth winding rollers (6) are mounted on the mounting vertical plate (15);

the conveying and drying mechanism (2) is arranged on the mounting rack (1) and is used for conveying the mask cloth on the cloth roller (6) and printing and drying the mask cloth in the conveying process;

the cutting mechanism (3) is arranged on the mounting frame (1) and used for cutting the dried cloth, and is connected with the conveying and drying mechanism (2), and when the cutting mechanism (3) cuts the cloth, the conveying and drying mechanism (2) can transversely move under the action of the cutting mechanism (3) to dry the cloth;

the driving mechanism (4) is arranged on the mounting frame (1) and used for driving the cutting mechanism (3) to act to perform cutting work, and meanwhile, the driving mechanism (4) is also used for generating airflow to enter the conveying and drying mechanism (2) to dry the cloth;

the cleaning mechanism (5) is installed above the driving mechanism (4) and connected with the driving mechanism (4), the cleaning mechanism (5) is lifted and lowered to clean the cloth in a reciprocating mode under the action of the driving mechanism (4), and the cleaning mechanism (5) is connected with the conveying and drying mechanism (2).

2. The multi-station printing device for mask production according to claim 1, wherein the driving mechanism (4) comprises two longitudinally arranged fixed seats (41) fixed on the top of the movable seat (11), an air duct (42) is fixed between the two fixed seats (41), a rotating rod (43) is rotatably mounted in the air duct (42), and a cam (44) is fixed at one end of the rotating rod (43);

a driving pin (45) is fixed at the other end of the cam (44), one end of the rotating rod (43) far away from the cam (44) is in transmission connection with a driving motor (46) fixed on the corresponding fixed seat (41), and a plurality of fan blades (47) located in the air guide cylinder (42) are fixed on the rotating rod (43) along the length direction.

3. The multi-station printing device for mask production according to claim 2, wherein the conveying and drying mechanism (2) comprises two groups of transversely arranged lower conveying rollers (21) rotatably mounted in the rectangular frame (13), a printing roller (22) positioned between the two groups of lower conveying rollers (21), and an upper conveying roller (23) rotatably mounted on a mounting vertical plate (15), and cloth is conveyed on the lower conveying rollers (21), the printing roller (22), and the upper conveying roller (23);

a drying shell (25) which is covered on the cloth and can move transversely is arranged between the discharge end of the printing roller (22) and the lower transmission roller (21), a vertical first fixing pipe (26) is fixed and communicated at the bottom of the drying shell (25), and the lower end of the first fixing pipe (26) is communicated with an air outlet end of an electric heating box (27) fixed on the moving seat (11) through a pipeline;

the air inlet end of the electric heating box (27) is communicated with the front end of the air guide cylinder (42) through an air guide pipe (28), and the first fixing pipe (26) is connected with the cutting mechanism (3).

4. The multi-station printing device for mask production according to claim 3, wherein the cutting mechanism (3) comprises a tool holder (34) fixed at the bottom of the rectangular frame (13) and a T-shaped guide block (31), and a connecting plate (32) capable of moving transversely is slidably fitted at the lower end of the T-shaped guide block (31);

a cutting knife (33) for cutting the cloth is fixed on one side of the connecting plate (32) close to the corresponding knife holder (34), and a transverse lifting frame (36) is matched with the driving pin (45) in a sliding manner;

an obliquely arranged driving rod (35) is rotatably connected between one end, far away from the cutting knife (33), of the connecting plate (32) and the corresponding end of the lifting frame (36), and the first fixing pipe (26) is embedded and fixed on the corresponding connecting plate (32).

5. The multi-station printing device for mask production according to claim 4, wherein the cleaning mechanism (5) comprises a guide tube (51) fixed on the connecting plate (14), a vertical rod (52) is inserted in the guide tube (51) in a sliding manner, the lower end of the vertical rod (52) is fixed to the top of the lifting frame (36), second fixing tubes (55) are fixed to two sides of the upper end of the vertical rod (52), a cleaning box (56) which is covered on the cloth and can move vertically is fixed to one end, far away from the vertical rod (52), of each second fixing tube (55), and a fixing brush (59) is fixed to the inner wall of one side of the cleaning box (56);

the upper part of the cleaning box (56) is communicated with the drying shell (25) through a first vent pipe (24), the two second fixed pipes (55) are rotatably provided with the same rotating cross rod (57), the rotating cross rod (57) is rotatably connected with the upper end of the vertical rod (52), and the end part of the rotating cross rod (57) extends into the cleaning box (56) and is fixedly provided with a movable brush (58) corresponding to the fixed brush (59);

the lower part of the cleaning box (56) is communicated with a filter box (53) fixed on the front side of the connecting plate (14) through a second vent pipe (511), a dust removal filter element is fixed in the filter box (53), and an air return pipe (54) is communicated between the lower part of the filter box (53) and the rear end of the air guide cylinder (42).

6. The multi-station printing device for mask production according to claim 5, wherein the cleaning mechanism (5) further comprises a vertical rack (512) fixed on the mounting vertical plate (15), the rack (512) movably penetrates through the second fixing tube (55), and a gear ring (510) meshed with the rack (512) is fixedly sleeved on the rotating cross rod (57).

7. The multi-station printing device for producing the mouth mask is characterized in that the cleaning box (56) and the drying shell (25) are respectively provided with a through hole for cloth to pass through, and the diameters of the fixed brush (59) and the movable brush (58) are larger than the width of the cloth.

8. The multi-station printing device for mask production according to any one of claims 4 to 6, wherein the connecting plate (32) is provided with a sliding groove with a convex cross section, and the lower end of the T-shaped guide block (31) is provided with a limit slider which is in sliding fit with the sliding groove.

9. The multi-station printing device for mask production according to any one of claims 3 to 6, wherein a controller is fixed on the support rod (12), and an output end of the controller is electrically connected with the driving motor (46) and the electric heating box (27).

10. The multi-station printing device for mask production according to claim 4, wherein universal wheels are fixed at four corners of the bottom of the movable seat (11), and a collection basin located below the cutter holder (34) is fixed at the top of the movable seat (11).

Technical Field

The invention relates to the field of mask processing, in particular to a multi-station printing device for mask production.

Background

The mask is a sanitary article, generally refers to a device worn at the mouth and nose part for filtering air entering and exiting from the mouth and nose so as to prevent harmful gas, smell and spray from entering and exiting from the mouth and nose of a wearer, and is made of a piece of flannelette. At present add man-hour to some gauze masks, need carry out the stamp to gauze mask cloth to carry out the fixed length to it behind the stamp and cut into conventional gauze mask size, traditional stamp mode is that to carry out the stamp through the embossing roll.

However, traditional gauze mask processing is mostly processed through very long production line, it takes up an area of longer, lead to factory space utilization low, secondly, in the in-process of gauze mask processing, traditional equipment does not possess the clean function to the cloth, there is the dust also to influence stamp quality in the target, in addition, current equipment can't carry out automatic drying and automatic cutout to the cloth after the stamp, make the gauze mask cloth still need shift to other equipment in and process after the stamp, make and consume long time, machining efficiency is low, the machining effect is not good enough, it is convenient not to process enough, for this reason, we need a gauze mask production with the multistation device that stamps urgently.

Disclosure of Invention

Objects of the invention

In view of this, the invention aims to provide a multi-station printing device for mask production, so as to realize more efficient and safer processing.

(II) technical scheme

In order to achieve the technical purpose, the invention provides a multi-station printing device for mask production, which comprises the following steps:

a multi-station printing device for mask production comprises:

the mounting frame comprises a moving seat, a support rod fixed on the moving seat, rectangular frames fixed at the upper ends of the support rods, a connecting plate fixed between the two rectangular frames, and a mounting vertical plate fixed at the top of the connecting plate, wherein two symmetrically arranged cloth winding rollers are mounted on the mounting vertical plate;

the conveying and drying mechanism is arranged on the mounting frame and used for conveying the mask cloth on the cloth roller and printing and drying the mask cloth in the conveying process;

the cutting mechanism is arranged on the mounting frame and used for cutting the dried cloth and is connected with the conveying and drying mechanism, and when the cutting mechanism is used for cutting the cloth, the conveying and drying mechanism can transversely move under the action of the cutting mechanism to dry the cloth;

the driving mechanism is arranged on the mounting frame and used for driving the cutting mechanism to act to perform cutting work, and meanwhile, the driving mechanism is also used for generating air flow to enter the conveying and drying mechanism to dry the cloth;

the cleaning mechanism is arranged above the driving mechanism and connected with the driving mechanism, and is used for cleaning the cloth by reciprocating lifting under the action of the driving mechanism, and the cleaning mechanism is connected with the conveying and drying mechanism.

Preferably, the driving mechanism comprises two fixed seats which are longitudinally arranged and fixed on the top of the movable seat, an air duct is fixed between the two fixed seats, a rotating rod is rotatably installed in the air duct, and a cam is fixed at one end of the rotating rod;

the other end of the cam is fixed with a driving pin, one end of the rotating rod, which is far away from the cam, is in transmission connection with a driving motor fixed on the corresponding fixed seat, and a plurality of fan blades located in the air guide cylinder are fixed on the rotating rod along the length direction.

Preferably, the conveying and drying mechanism comprises two groups of transversely arranged lower conveying rollers rotatably mounted in the rectangular frame, an embossing roller positioned between the two groups of lower conveying rollers and an upper conveying roller rotatably mounted on the mounting vertical plate, and cloth is conveyed on the lower conveying rollers, the embossing roller and the upper conveying roller;

a drying shell which is covered on the cloth and can move transversely is arranged between the discharge end of the printing roller and the lower transmission roller, a vertical first fixed pipe is fixed and communicated at the bottom of the drying shell, and the lower end of the first fixed pipe is communicated with an air outlet end of an electric heating box fixed on the moving seat through a pipeline;

the air inlet end of the electric heating box is communicated with the front end of the air guide cylinder through an air guide pipe, and the first fixing pipe is connected with the cutting mechanism.

Preferably, the cutting mechanism comprises a cutter holder fixed at the bottom of the rectangular frame and a T-shaped guide block, and the lower end of the T-shaped guide block is in sliding fit with a connecting plate capable of moving transversely;

a cutting knife for cutting the cloth is fixed on one side of the connecting plate, which is close to the corresponding knife holder, and a transverse lifting frame is in sliding fit with the driving pin;

the cutting knife is characterized in that a driving rod which is obliquely arranged is rotatably connected between one end, away from the cutting knife, of the connecting plate and the corresponding end of the lifting frame, and the first fixing pipe is embedded and fixed on the corresponding connecting plate.

Preferably, the cleaning mechanism comprises a guide pipe fixed on the connecting plate, a vertical rod is inserted in the guide pipe in a sliding manner, the lower end of the vertical rod is fixed with the top of the lifting frame, second fixing pipes are fixed on two sides of the upper end of the vertical rod, a cleaning box which is covered on the cloth and can move vertically is fixed at one end of each second fixing pipe, which is far away from the vertical rod, and a fixing brush is fixed on the inner wall of one side of the cleaning box;

the upper part of the cleaning box is communicated with the corresponding drying shell through a first vent pipe, the two second fixed pipes are rotatably provided with the same rotating cross rod, the rotating cross rod is rotatably connected with the upper end of a vertical rod, and the end part of the rotating cross rod extends into the cleaning box and is fixedly provided with a movable brush corresponding to the fixed brush;

the lower part of the cleaning box is communicated with a filter box fixed on the front side of the connecting plate through a second vent pipe, a dust removal filter element is fixed in the filter box, and a vent pipe is communicated between the lower part of the filter box and the rear end of the air duct.

Preferably, the cleaning mechanism further comprises a vertical rack fixed on the installation vertical plate, the rack movably penetrates through the second fixing pipe, and a gear ring meshed with the rack is fixedly sleeved on the rotating cross rod.

Preferably, the cleaning box and the drying shell are both provided with through holes for cloth to pass through, and the diameters of the fixed brush and the movable brush are both larger than the width of the cloth.

Preferably, the connecting plate is provided with a sliding groove with a convex cross section, and the lower end of the T-shaped guide block is provided with a limiting sliding block which is in sliding fit in the sliding groove.

Preferably, a controller is fixed on the support rod, and the output end of the controller is electrically connected with the driving motor and the electric heating box.

Preferably, the four corners of the bottom of the movable seat are fixed with universal wheels, and the top of the movable seat is fixed with a collecting basin located below the cutter seat.

Compared with the prior art, this scheme possesses following beneficial effect:

whole device not only can carry out self-cleaning to it before carrying out the stamp to the cloth, convenient subsequent stamp work, and can also carry out the drying to the cloth after the stamp to carry out automatic fixed length cutting after the drying, and the cleanness of cloth, drying and cutting work intercommunicate, supplement each other, and then make the processing to the cloth convenient.

Whole device possesses two machining-position stations for machining efficiency to the cloth is high, is the twice machining efficiency of traditional equipment, in addition, has still reduced artificial participation, makes the processing security good, and whole device is not very long assembly line like traditional, and it is little to occupy the factory area, can improve the space utilization in factory.

Drawings

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

Fig. 1 is a schematic structural diagram of a multi-station printing device for mask production provided by the invention.

Fig. 2 is an enlarged schematic view of a structure in fig. 1.

FIG. 3 is a schematic view of the arrangement of the air guiding duct of the present invention.

Fig. 4 is a schematic front view of fig. 1.

Fig. 5 is a schematic view of the lifting frame structure of the present invention.

FIG. 6 is a schematic view of a T-shaped guide block of the present invention.

Description of the drawings: 1 mounting frame, 11 moving seat, 12 supporting rod, 13 rectangular frame, 14 connecting plate, 15 mounting riser, 2 conveying and drying mechanism, 21 lower conveying roller, 22 embossing roller, 23 upper conveying and conveying roller, 24 first vent pipe, 25 drying shell, 26 first fixing pipe, 27 electric heating box, 28 air guide pipe, 3 cutting mechanism, 31T-shaped guide block, 32 connecting plate, 33 cutting knife, 34 knife seat, 35 driving rod, 36 lifting frame, 4 driving mechanism, 41 fixing seat, 42 air guide cylinder, 43 rotating rod, 44 cam, 45 driving pin, 46 driving motor, 47 fan blade, 5 cleaning mechanism, 51 guide pipe, 52 vertical rod, 53 filter box, 54 air return pipe, 55 second fixing pipe, 56 cleaning box, 57 rotating cross rod, 58 movable brush, 59 fixing brush, 510 gear ring, 511 second vent pipe, 512 rack, 6 cloth winding roller.

Detailed Description

The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, identical or similar reference numerals indicate identical or similar parts and features. The drawings are only schematic representations of the concepts and principles of the embodiments of the disclosure, and do not necessarily show specific dimensions or proportions of the various embodiments of the disclosure. Certain features that are part of a particular figure may be exaggerated in order to illustrate relevant details or structures of embodiments of the present disclosure.

Referring to FIGS. 1-6:

example one

A multi-station printing device for mask production comprises:

the mounting bracket 1, mounting bracket 1 including remove seat 11, be fixed in the bracing piece 12 that removes on the seat 11, be fixed in the rectangle frame 13 of bracing piece 12 upper end, be fixed in connecting plate 14 between two rectangle frames 13, be fixed in the installation riser 15 at connecting plate 14 top, install two cloth winding up rollers 6 that the symmetry set up on the installation riser 15.

Carry drying mechanism 2, carry drying mechanism 2 and install on mounting bracket 1, it is used for carrying the gauze mask cloth on the cloth winding up roller 6 to carry out stamp and drying to the gauze mask cloth at the in-process of carrying.

Cutting mechanism 3, cutting mechanism 3 install on mounting bracket 1 and are used for cutting the cloth after the drying, and it is connected with transport drying mechanism 2, and when cutting mechanism 3 cut the cloth, transport drying mechanism 2 can lateral shifting dry the cloth under cutting mechanism 3's effect.

Actuating mechanism 4, actuating mechanism 4 installs on mounting bracket 1, and it is used for ordering about 3 actions of cutting mechanism and carries out cutting work, and simultaneously, actuating mechanism 4 still is used for producing the air current and enters into and carry drying mechanism 2 in to the cloth dry.

And the cleaning mechanism 5 is arranged above the driving mechanism 4 and is connected with the driving mechanism 4, under the action of the driving mechanism 4, the cleaning mechanism 5 is lifted and lowered back and forth to clean the cloth, and the cleaning mechanism 5 is connected with the conveying and drying mechanism 2.

In this embodiment, the driving mechanism 4 includes two fixed seats 41 fixed on the top of the movable seat 11 and arranged longitudinally, an air duct 42 is fixed between the two fixed seats 41, a rotating rod 43 is rotatably installed in the air duct 42, and a cam 44 is fixed at one end of the rotating rod 43;

a driving pin 45 is fixed at the other end of the cam 44, a driving motor 46 fixed on the corresponding fixed seat 41 is connected to one end of the rotating rod 43 far away from the cam 44 in a transmission manner, and a plurality of fan blades 47 positioned in the air duct 42 are fixed on the rotating rod 43 along the length direction.

It should be noted that the air duct 42 is cylindrical, and when the fan blades 47 rotate, the air duct 42 is engaged with the air duct 42, so that the air flow moving directionally can be generated in the air duct 42.

Example two

A multi-station printing device for mask production is characterized in that on the basis of the first embodiment, a conveying and drying mechanism 2 comprises two groups of transversely-arranged lower conveying rollers 21 rotatably mounted in a rectangular frame 13, a printing roller 22 positioned between the two groups of lower conveying rollers 21 and an upper conveying roller 23 rotatably mounted on a mounting vertical plate 15, and cloth is conveyed on the lower conveying rollers 21, the printing roller 22 and the upper conveying roller 23.

A drying shell 25 which is covered on the cloth and can move transversely is arranged between the discharge end of the printing roller 22 and the corresponding lower transmission roller 21, a vertical first fixing pipe 26 is fixed and communicated at the bottom of the drying shell 25, and the lower end of the first fixing pipe 26 is communicated with an air outlet end of an electric heating box 27 fixed on the movable seat 11 through a pipeline.

In the present embodiment, the intake end of the electric heating box 27 communicates with the front end of the air guide duct 42 through the air guide duct 28, and the first fixed pipe 26 is connected to the cutting mechanism 3. The support rod 12 is fixed with a controller, the controller is a current universal single chip microcomputer controller, the model of the controller is ATMEGA16, and the output end of the controller is electrically connected with the driving motor 46 and the electric heating box 27.

It should be noted that the lower transport roller 21 can transport and move the cloth, the embossing roller 22 can emboss the cloth, the lower transport roller 21 is a conventional technique, and is driven to rotate by a conventional driving motor installed at the rear side of the rectangular frame 13, and in this embodiment, is electrically connected to the output end of the controller.

EXAMPLE III

A multi-station printing device for mask production is disclosed, on the basis of the second embodiment, a cutting mechanism 3 comprises a cutter seat 34 fixed at the bottom of a rectangular frame 13 and a T-shaped guide block 31, and the lower end of the T-shaped guide block 31 is in sliding fit with a connecting plate 32 capable of moving transversely;

a cutting knife 33 for cutting the cloth is fixed on one side of the connecting plate 32 close to the corresponding knife holder 34, and a transverse lifting frame 36 is matched with the driving pin 45 in a sliding manner; an obliquely arranged driving rod 35 is rotatably connected between one end of the connecting plate 32 far away from the cutting knife 33 and the corresponding end of the lifting frame 36, and the first fixing tube 26 is embedded and fixed on the corresponding connecting plate 32.

In this embodiment, the connecting plate 32 is provided with a slide groove having a convex cross section, and the lower end of the T-shaped guide block 31 is provided with a stopper slide block which is slidably fitted in the slide groove. Universal wheels are fixed at four corners of the bottom of the movable seat 11, and a collecting basin located below the tool apron 34 is fixed at the top of the movable seat 11.

It should be noted that the lifting frame 36 is rectangular, and two ends of the lifting frame are provided with arc chamfers, and two ends of the lifting frame are fixed with a rotating shaft for rotationally connecting with the driving rod 35.

Example four

The utility model provides a mask production is with multistation stamp device, on the basis of embodiment three, clean mechanism 5 is including being fixed in the stand pipe 51 on the connecting plate 14, it has vertical montant 52 to slide the grafting in the stand pipe 51, the lower extreme of montant 52 is fixed with the top of drop frame 36, the both sides of montant 52 upper end all are fixed with the fixed pipe 55 of second, the fixed pipe 55 of second is kept away from the one end of montant 52 and is fixed with the cover and locates on the cloth and but vertical movement's clean case 56, be fixed with fixed brush 59 on the inner wall of one side of clean case 56.

The upper part of the cleaning box 56 is communicated with the corresponding drying shell 25 through the first vent pipe 24, the same rotating cross rod 57 is rotatably mounted in the two second fixed pipes 55, the rotating cross rod 57 is rotatably connected with the upper end of the vertical rod 52, and the end part of the rotating cross rod 57 extends into the cleaning box 56 and is fixed with a movable brush 58 corresponding to the fixed brush 59. Note that the fixed brush 59 and the movable brush 58 are both circular.

The lower part of the cleaning tank 56 is communicated with a filter tank 53 fixed on the front side of the connecting plate 14 through a second vent pipe 511, a dust removing filter element is fixed in the filter tank 53, and an air return pipe 54 is communicated between the lower part of the filter tank 53 and the rear end of the air guide cylinder 42.

In this embodiment, the cleaning mechanism 5 further includes a vertical rack 512 fixed on the installation vertical plate 15, the rack 512 movably penetrates through the second fixing tube 55, and a gear ring 510 engaged with the rack 512 is fixedly sleeved on the rotating cross rod 57. The cleaning box 56 and the drying casing 25 are provided with through holes for cloth to pass through, and the diameters of the fixed brush 59 and the movable brush 58 are larger than the width of the cloth.

The working principle is as follows: in the use process, the controller can be operated to control the driving motor 46 to work to drive the rotating rod 43 to rotate, at this time, the fan blade 47 and the cam 44 both rotate, and the lifting frame 36 is arranged to be lifted periodically under the action of the cam 44 and the driving pin 45.

The lifting frame 36 which can lift periodically can drive the vertical rod 52 to lift, the lifted vertical rod 52 can drive the second fixing tube 55 and the cleaning box 56 to lift, meanwhile, due to the fact that the gear ring 510 is meshed with the rack 512, when the rotating cross rod 57 and the gear ring 510 lift, the gear ring 510 and the rotating cross rod 57 can also rotate to drive the movable brush 58 to rotate, dust on the cloth can be brushed down through the movable brush 58 and the fixing brush 59 which are arranged, and then the cloth is cleaned.

And the flabellum 47 can produce the air current when rotating, at this moment, the muffler 54 is inhaled to make the dust that the brush of activity brush 58 and fixed brush 59 was brushed is inhaled in the cleaning box 56, can filter the dust in the air through the filter core in the filter box 53, and the gas after evolution is discharged in the electric heat box 27 and is heated under the effect of flabellum 47, and later, the gas after heating passes through first fixed pipe 26 and gets into dry casing 25 and dry the cloth that comes out from embossing roll 22, and later gas flows back in the cleaning box 56, gets into cleaning cycle.

In addition, when the lifting frame 36 goes up and down, the driving rod 35 that sets up can promote connecting plate 32 lateral shifting, and then makes cutting knife 33 remove the cloth to coming out from lower part transmission roller 21 and cut, and the cloth after the cutting falls into to collect the basin and collects, and at this in-process, lateral shifting's connecting plate 32 can drive dry casing 25 lateral shifting, and then makes its drying effect to the cloth good, and is dry even.

Whole device not only can carry out self-cleaning to the cloth when carrying out the seal to it, make things convenient for subsequent stamp work, and can also carry out the drying to the cloth behind the stamp, and carry out automatic fixed length cutting after the drying, and the cleanness of cloth, drying and cutting work are interrelated, supplement each other, and then make the processing to the cloth convenient, and whole device possesses two machining-position, make the machining efficiency to the cloth high, be the twice machining efficiency of traditional equipment, in addition, still reduced artificial participation, make the processing safety good, whole device is not the very long assembly line that tradition was like, it is little to occupy the factory area, can improve the space utilization of factory.

Exemplary embodiments of the proposed solution of the present disclosure have been described in detail above with reference to preferred embodiments, however, it will be understood by those skilled in the art that many variations and modifications may be made to the specific embodiments described above, and that many combinations of the various technical features and structures presented in the present disclosure may be made without departing from the concept of the present disclosure, without departing from the scope of the present disclosure, which is defined by the appended claims.