CN113510995B

CN113510995B - Printing and dyeing equipment and using method

Info

Publication number: CN113510995B
Application number: CN202110740706.1A
Authority: CN
Inventors: 李许领
Original assignee: Individual
Current assignee: Jiafang New Materials (Jiangsu) Co.,Ltd.
Priority date: 2020-08-11
Filing date: 2020-08-11
Publication date: 2024-01-12
Anticipated expiration: 2040-08-11
Also published as: CN113510995A; CN111993759B; CN111993759A

Abstract

The utility model provides printing and dyeing equipment and a using method thereof, relates to the technical field of clothing mark printing, and solves the problem that the linkage absorption and filtration of harmful gas during printing cannot be realized in a linkage manner in the up-down printing process; the wind drying of the pigment on the clothing mark cannot be realized in a linkage way in the up-down printing process; the purifying structure and the drying structure can not be combined with the fixing structure of the clothing mark organically. A printing and dyeing device comprises a main body seat and a rectangular plate; the main body seat is provided with a printing and dyeing structure, the main body seat is also provided with a purifying structure, and the main body seat is also provided with a drying structure. Because the outer wall of the spray head is in sliding connection with the two sliding rods B at the rear side, the two sliding rods B at the rear side are also sleeved with the two elastic pieces B, and the two elastic pieces B jointly form an elastic reset structure of the spray head, and the spray head is in an elastic shrinkage state when the printing and dyeing seat is used for printing and dyeing, so that normal printing and dyeing are not affected.

Description

Printing and dyeing equipment and using method

The application is a divisional application of printing and dyeing equipment with the application name of CN202010802146.3, and the application date is 11/08/2020.

Technical Field

The utility model belongs to the technical field of clothing mark printing, and particularly relates to printing and dyeing equipment and a using method thereof.

Background

The clothes refer to various types of shields made of materials by human beings, meanwhile, different clothes are worn on different occasions, the patterns are quite many, the clothes become indispensable things nowadays, the clothes are arranged first in China in the usual clothing and food residence, and corresponding marks are arranged on each piece of clothes.

The application number is as follows: the utility model discloses a printing and dyeing device for a knitted child garment production mark, which comprises a printing and dyeing device, a drying device and a conveying device, wherein a supporting plate is arranged in the middle of the printing and dyeing device, a connecting rod is arranged in the center of the supporting plate in a penetrating manner, a baffle plate and a beating plate are respectively arranged at the upper end and the lower end of the connecting rod, an extension spring is arranged between the beating plate and the supporting plate, a pair of rotating cams are arranged between the supporting plate and the baffle plate, the rotating cams are respectively connected with independent driving devices, a printing and dyeing cavity is arranged in the beating plate, a pipeline communicated with the printing and dyeing cavity is arranged in the connecting rod, the upper end of the pipeline is connected with a corrugated hose, the upper end of the corrugated hose is connected with a printing and dyeing liquid tank, the bottom of the beating plate is connected with a detachable printing and dyeing plate, and the drying device is arranged on one side of the printing and dyeing device. The utility model overcomes the defects of the prior art, has reasonable structure, convenient operation and automatic printing, dyeing and drying.

Garment logo printing equipment similar to the above application currently suffers from the following drawbacks:

one is that the purifying device of the existing device is always electrically driven, but can not realize linkage absorption and filtration of harmful gas in printing in a linkage way in the up-down printing process; moreover, the drying devices of the existing devices are often driven by electric power, and can not realize the wind drying of the pigment on the clothing mark in a linkage manner in the up-down printing process; finally, the purification structure and the drying structure of the existing device cannot be organically combined with the fixing structure of the clothing mark.

Accordingly, in view of the above, research and improvement are made on the existing structure and the existing defects, and a printing and dyeing apparatus is provided to achieve the purpose of having more practical value.

Disclosure of Invention

In order to solve the technical problems, the utility model provides printing and dyeing equipment for solving the problems that the purification device of the existing device is always electrically driven and can not realize linkage absorption and filtration of harmful gas in the printing in a linkage manner in the up-down printing process; moreover, the drying devices of the existing devices are often driven by electric power, and can not realize the wind drying of the pigment on the clothing mark in a linkage manner in the up-down printing process; finally, the purification structure and the drying structure of the existing device cannot be organically combined with the fixing structure of the clothing mark.

The utility model discloses a purpose and an effect of printing and dyeing equipment, which are achieved by the following specific technical means:

a printing and dyeing device comprises a main body seat; the main body seat is provided with a printing and dyeing structure, a purifying structure and a drying structure; the main body seat is provided with a stirring structure, and the main body seat is provided with a driving structure; a toggle head is arranged on the rectangular plate; the stirring structure comprises a connecting seat and a telescopic box, wherein the connecting seat is fixedly connected to the main body seat through a bolt, the telescopic box is rotationally connected to the connecting seat, and the bottom end surface of the telescopic box is contacted with the head end of the telescopic bottle B; when the toggle head moves downwards along with the rectangular plate, the toggle head contacts with the telescopic box, and when the toggle head moves upwards along with the rectangular plate, the hook on the toggle head contacts with the telescopic box, and the telescopic box is in a rotating state at the moment; the purifying structure comprises four sliding seats, sliding rods B and elastic pieces B, wherein the four sliding seats are welded on the printing and dyeing seat, and each sliding seat is connected with one sliding rod B in a sliding way; the two sliding rods B on the front side are welded with the air suction pipe, and the two sliding rods B on the front side are sleeved with an elastic piece B; the two elastic pieces B jointly form an elastic reset structure of the air suction pipe, and the air suction pipe is in an elastic shrinkage state when the printing and dyeing seat prints and dyes.

Furthermore, the printing and dyeing structure comprises a rectangular plate, sliding rods A, a printing and dyeing seat and an elastic piece A, wherein two sliding rods A are symmetrically welded on the bottom end surface of the rectangular plate, and the head ends of the two sliding rods A are fixedly connected with the top end surface of the printing and dyeing seat; the two sliding rods A are sleeved with an elastic piece A, the head ends of the two elastic pieces A are in surface contact with the top end of the main body seat, and the tail ends of the two elastic pieces A are in surface contact with the bottom end of the rectangular plate; the two elastic pieces A form an elastic resetting structure of the printing and dyeing seat together.

Further, the purifying structure comprises a telescopic bottle A, a purifying box and an exhaust pipe, wherein the purifying box is fixedly connected to the main body seat; the telescopic bottle A is fixedly connected to the main body seat, an exhaust pipe is connected to the telescopic bottle A, and the exhaust pipe is communicated with the purifying box.

Further, the purifying structure further comprises a conduit and an air suction pipe, wherein the conduit is connected to the telescopic bottle A, and the head end of the conduit is connected with the air suction pipe; the air suction pipe is of a cylindrical tubular structure, the outer wall of the air suction pipe is provided with air suction holes in an annular array shape, and the air suction holes in the annular array shape form an air suction expansion structure.

Further, the drying structure comprises a telescopic bottle B, a connecting pipe and a spray head, wherein the telescopic bottle B is fixedly connected to the main body seat, the telescopic bottle B is connected with a connecting pipe, and the head end of the connecting pipe is connected with the spray head; the spray head is of a cylindrical tubular structure, the outer wall of the spray head is provided with spray holes in an annular array shape, and the spray holes in the annular array shape form a spray diffusion structure of the spray head.

Further, the outer wall of the spray head is in sliding connection with two sliding rods B at the rear side, an elastic piece B is sleeved on the two sliding rods B at the rear side, the two elastic pieces B jointly form an elastic reset structure of the spray head, and the spray head is in an elastic shrinkage state when the printing and dyeing seat is used for printing and dyeing.

Further, the driving structure comprises a driving motor and a poking rod, wherein the driving motor is fixedly connected to the main body seat, and the poking rod is arranged on a rotating shaft of the driving motor; when the driving motor rotates, the toggle rod is in surface contact with the top end of the rectangular plate, the rectangular plate is in a continuous extrusion state, and the telescopic bottle A is also in a continuous extrusion state.

Furthermore, a check valve is arranged in the guide pipe and the exhaust pipe, the check valve in the guide pipe is in an opening state when the telescopic bottle A is extruded, and the check valve in the guide pipe is in an opening state when the telescopic bottle A is elastically reset, and the check valve in the exhaust pipe is in a closing state.

Compared with the prior art, the utility model has the following beneficial effects:

the purification structure and the drying structure are improved, the purification of gas can be realized in a linkage way when the upper and lower pressing type printing is improved, and the drying after printing can be realized in a linkage way, specifically as follows: firstly, two sliding rods A are symmetrically welded on the bottom end surface of a rectangular plate, and the head ends of the two sliding rods A are fixedly connected with the top end surface of a printing and dyeing seat; the two sliding rods A are sleeved with an elastic piece A, the head ends of the two elastic pieces A are in surface contact with the top end of the main body seat, and the tail ends of the two elastic pieces A are in surface contact with the bottom end of the rectangular plate; the two elastic pieces A form an elastic resetting structure of the printing and dyeing seat together; secondly, as the driving motor is fixedly connected to the main body seat, a toggle rod is arranged on the rotating shaft of the driving motor; when the driving motor rotates, the toggle rod is in contact with the top end surface of the rectangular plate, the rectangular plate is in a continuous extrusion state at the moment, and the telescopic bottle A is also in a continuous extrusion state at the moment; third, because the duct and the exhaust pipe are internally provided with one check valve, when the telescopic bottle A is extruded, the check valve in the duct is in an opening state, and when the telescopic bottle A is elastically reset, the check valve in the duct is in an opening state, and the check valve in the exhaust pipe is in a closing state; fourthly, the connecting seat is fixedly connected to the main body seat through bolts, a telescopic box is rotationally connected to the connecting seat, and the bottom end surface of the telescopic box is contacted with the head end of the telescopic bottle B; when the toggle head moves downwards along with the rectangular plate, the toggle head contacts with the telescopic box, and when the toggle head moves upwards along with the rectangular plate, the hook on the toggle head contacts with the telescopic box, and the telescopic box is in a rotating state at the moment, so that extrusion of the telescopic bottle B is realized, and then blowing drying is realized.

The air suction pipe with the improved purifying structure and the spray nozzle with the drying structure can realize simple fixation of the clothing mark through the air suction pipe and the spray nozzle by improving the printing and dyeing seat without influencing normal printing, and the method is as follows: firstly, two sliding rods B at the front side are welded with an air suction pipe, and an elastic piece B is sleeved on each sliding rod B at the front side; the two elastic pieces B form an elastic reset structure of the air suction pipe together, and the air suction pipe is in an elastic shrinkage state when the printing and dyeing seat prints and dyes, so that normal printing and dyeing is not affected; secondly, because the outer wall of the spray head is in sliding connection with the two sliding rods B at the rear side, the two sliding rods B at the rear side are sleeved with the elastic piece B, the two elastic pieces B jointly form an elastic reset structure of the spray head, and the spray head is in an elastic shrinkage state when the printing and dyeing seat prints and prints, so that normal printing and dyeing is not affected; thirdly, the air suction pipe and the spray head are contacted with the clothing mark when falling, so that the clothing mark can be simply fixed.

Drawings

Fig. 1 is an isometric view of the present utility model.

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

Fig. 3 is a schematic diagram of an isometric view of the utility model in another direction from fig. 1.

Fig. 4 is a schematic diagram of the front view of fig. 1 according to the present utility model.

Fig. 5 is an enlarged schematic view of the structure of fig. 4 at B according to the present utility model.

Fig. 6 is a schematic diagram of an isometric view of the present utility model in printing.

Fig. 7 is an enlarged schematic view of the structure of fig. 6 at C according to the present utility model.

Fig. 8 is an enlarged schematic view of the structure of fig. 6D according to the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a main body seat; 2. printing and dyeing structures; 201. a rectangular plate; 20101. a toggle head; 202. a sliding rod A; 203. a printing and dyeing seat; 204. an elastic member A; 3. a purifying structure; 301. a telescopic bottle A; 302. a purification box; 303. a conduit; 304. an air suction pipe; 305. a sliding seat; 306. a sliding rod B; 307. an elastic member B; 308. an exhaust pipe; 4. a drying structure; 401. a telescopic bottle B; 402. a connecting pipe; 403. a spray head; 5. a toggle structure; 501. a connecting seat; 502. a telescopic box; 6. a driving structure; 601. a driving motor; 602. a toggle rod.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Examples:

as shown in fig. 1 to 8:

the utility model provides printing and dyeing equipment, which comprises a main body seat 1; the main body seat 1 is provided with a printing and dyeing structure 2, the main body seat 1 is also provided with a purifying structure 3, and the main body seat 1 is also provided with a drying structure 4; a toggle structure 5 is arranged on the main body seat 1, and a driving structure 6 is arranged on the main body seat 1; referring to fig. 1 and 6, a toggle 20101 is mounted on the rectangular plate 201; the stirring structure 5 comprises a connecting seat 501 and a telescopic box 502, wherein the connecting seat 501 is fixedly connected to the main body seat 1 through bolts, the telescopic box 502 is rotationally connected to the connecting seat 501, and the bottom end surface of the telescopic box 502 is in contact with the head end of the telescopic bottle B401; when the toggle head 20101 moves downwards along with the rectangular plate 201, the toggle head 20101 contacts with the telescopic box 502, and when the toggle head 20101 moves upwards along with the rectangular plate 201, a hook on the toggle head 20101 contacts with the telescopic box 502, and at the moment, the telescopic box 502 is in a rotating state, so that extrusion of the telescopic bottle B401 is realized, and blowing drying is further realized; referring to fig. 1 and 6, the purifying structure 3 includes four sliding seats 305, sliding rods B306 and elastic members B307, the four sliding seats 305 are welded on the printing seat 203, and each sliding seat 305 is slidably connected with one sliding rod B306; the two sliding rods B306 on the front side are welded with the air suction pipe 304, and the two sliding rods B306 on the front side are sleeved with an elastic piece B307; the two elastic members B307 together form an elastic reset structure of the air suction pipe 304, and the air suction pipe 304 is in an elastically contracted state when the printing and dyeing base 203 prints and prints, so that normal printing and dyeing is not affected.

Referring to fig. 1, the printing and dyeing structure 2 comprises a rectangular plate 201, sliding rods a202, a printing and dyeing seat 203 and an elastic piece a204, wherein two sliding rods a202 are symmetrically welded on the bottom end surface of the rectangular plate 201, and the head ends of the two sliding rods a202 are fixedly connected with the top end surface of the printing and dyeing seat 203; the two sliding rods A202 are sleeved with an elastic piece A204, the head ends of the two elastic pieces A204 are contacted with the top end surface of the main body seat 1, and the tail ends of the two elastic pieces A204 are contacted with the bottom end surface of the rectangular plate 201; the two elastic members a204 together form an elastic restoring structure of the printing and dyeing base 203.

Referring to fig. 1, the purifying structure 3 includes a telescopic bottle a301, a purifying box 302, and an exhaust pipe 308, the purifying box 302 being fixedly connected to the main body base 1; the telescopic bottle A301 is fixedly connected to the main body seat 1, the telescopic bottle A301 is connected with an exhaust pipe 308, and the exhaust pipe 308 is communicated with the purifying box 302.

Referring to fig. 1 and 2, the purifying structure 3 further includes a duct 303 and an air suction pipe 304, the duct 303 is connected to the telescopic bottle a301, and the head end of the duct 303 is connected to the air suction pipe 304; the air suction pipe 304 is of a cylindrical tubular structure, air suction holes are formed in the outer wall of the air suction pipe 304 in an annular array shape, and the air suction holes formed in the annular array shape form an air suction expansion structure, so that air suction efficiency is improved.

Referring to fig. 1, the drying structure 4 includes a telescopic bottle B401, a connecting pipe 402 and a spray head 403, the telescopic bottle B401 is fixedly connected to the main body seat 1, the telescopic bottle B401 is connected with a connecting pipe 402, and the head end of the connecting pipe 402 is connected with the spray head 403; the spray head 403 is in a cylindrical tubular structure, the outer wall of the spray head 403 is provided with spray holes in an annular array shape, and the spray holes in the annular array shape form a spray diffusion structure of the spray head 403.

Referring to fig. 1 and 6, the outer wall of the nozzle 403 is slidably connected with two sliding rods B306 at the rear side, and two elastic members B307 are sleeved on the two sliding rods B306 at the rear side, and the two elastic members B307 together form an elastic reset structure of the nozzle 403, and when the printing and dyeing base 203 prints and prints, the nozzle 403 is in an elastic shrinkage state, so that normal printing and dyeing is not affected.

Referring to fig. 1 and 6, the driving structure 6 includes a driving motor 601 and a toggle rod 602, the driving motor 601 is fixedly connected to the main body seat 1, and the toggle rod 602 is mounted on a rotating shaft of the driving motor 601; when the driving motor 601 rotates, the toggle rod 602 contacts with the top end surface of the rectangular plate 201, the rectangular plate 201 is in a continuous extrusion state at the moment, and the telescopic bottle A301 is also in a continuous extrusion state at the moment.

Referring to fig. 1, a check valve is installed in each of the duct 303 and the exhaust duct 308, and the check valve in the duct 303 is in a closed state when the telescopic bottle a301 is pressed, and the check valve in the duct 303 is in an opened state when the telescopic bottle a301 is elastically reset, and the check valve in the exhaust duct 308 is in a closed state.

Specific use and action of the embodiment:

when the printing and dyeing device is used, when the driving motor 601 rotates, firstly, two sliding rods A202 are symmetrically welded on the bottom end surface of the rectangular plate 201, and the head ends of the two sliding rods A202 are fixedly connected with the top end surface of the printing and dyeing seat 203; the two sliding rods A202 are sleeved with an elastic piece A204, the head ends of the two elastic pieces A204 are contacted with the top end surface of the main body seat 1, and the tail ends of the two elastic pieces A204 are contacted with the bottom end surface of the rectangular plate 201; the two elastic pieces A204 together form an elastic resetting structure of the printing and dyeing base 203; secondly, because the driving motor 601 is fixedly connected to the main body seat 1, a toggle rod 602 is arranged on the rotating shaft of the driving motor 601; when the driving motor 601 rotates, the toggle rod 602 contacts with the top end surface of the rectangular plate 201, the rectangular plate 201 is in a continuous extrusion state at the moment, and the telescopic bottle A301 is also in a continuous extrusion state at the moment; third, since the duct 303 and the exhaust pipe 308 are both provided with one check valve, when the telescopic bottle a301 is squeezed, the check valve in the duct 303 is in an opened state, and when the telescopic bottle a301 is elastically reset, the check valve in the duct 303 is in an opened state, and the check valve in the exhaust pipe 308 is in a closed state; fourth, because the connecting seat 501 is fixedly connected to the main body seat 1 through bolts, a telescopic box 502 is rotatably connected to the connecting seat 501, and the bottom end surface of the telescopic box 502 is contacted with the head end of the telescopic bottle B401; when the toggle head 20101 moves downwards along with the rectangular plate 201, the toggle head 20101 contacts with the telescopic box 502, and when the toggle head 20101 moves upwards along with the rectangular plate 201, a hook on the toggle head 20101 contacts with the telescopic box 502, and at the moment, the telescopic box 502 is in a rotating state, so that extrusion of the telescopic bottle B401 is realized, and blowing drying is further realized;

in the use process, firstly, because the air suction pipe 304 is of a cylindrical tubular structure, the outer wall of the air suction pipe 304 is provided with air suction holes in an annular array shape, and the air suction holes in the annular array shape form an air suction expansion structure, the air suction efficiency is improved; secondly, because the two sliding rods B306 on the front side are welded with the air suction pipe 304, the two sliding rods B306 on the front side are sleeved with an elastic piece B307; the two elastic pieces B307 form an elastic reset structure of the air suction pipe 304 together, and the air suction pipe 304 is in an elastic shrinkage state when the printing and dyeing seat 203 prints and dyes, so that normal printing and dyeing are not affected; thirdly, because the spray head 403 is in a cylindrical tubular structure, the outer wall of the spray head 403 is provided with spray holes in an annular array shape, and the spray holes in the annular array shape form a spray diffusion structure of the spray head 403; fourth, because the outer wall of the nozzle 403 is slidably connected with the two sliding rods B306 at the rear side, and the two sliding rods B306 at the rear side are both sleeved with an elastic member B307, and the two elastic members B307 jointly form an elastic reset structure of the nozzle 403, and the nozzle 403 is in an elastic shrinkage state when the printing and dyeing seat 203 prints and prints, so that normal printing and dyeing are not affected.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. A printing and dyeing apparatus characterized in that: comprises a main body seat (1); the main body seat (1) is provided with a printing and dyeing structure (2), the main body seat (1) is also provided with a purifying structure (3), and the main body seat (1) is also provided with a drying structure (4); a poking structure (5) is arranged on the main body seat (1), and a driving structure (6) is arranged on the main body seat (1); the printing and dyeing structure (2) comprises a rectangular plate (201), sliding rods A (202), a printing and dyeing seat (203) and an elastic piece A (204), wherein two sliding rods A (202) are symmetrically welded on the bottom end surface of the rectangular plate (201), and the head ends of the two sliding rods A (202) are fixedly connected with the top end surface of the printing and dyeing seat (203); the two sliding rods A (202) are sleeved with an elastic piece A (204), the head ends of the two elastic pieces A (204) are in contact with the top end surface of the main body seat (1), and the tail ends of the two elastic pieces A (204) are in contact with the bottom end surface of the rectangular plate (201); the two elastic pieces A (204) jointly form an elastic resetting structure of the printing and dyeing base (203), the drying structure (4) comprises a telescopic bottle B (401), a connecting pipe (402) and a spray head (403), the telescopic bottle B (401) is fixedly connected to the main body base (1), the telescopic bottle B (401) is connected with the connecting pipe (402), and the head end of the connecting pipe (402) is connected with the spray head (403); the spray head (403) is of a cylindrical tubular structure, spray holes are formed in the outer wall of the spray head (403) in an annular array shape, the spray holes formed in the annular array shape form a spray diffusion structure of the spray head (403), and a toggle head (20101) is arranged on the rectangular plate (201); the stirring structure (5) comprises a connecting seat (501) and a telescopic box (502), wherein the connecting seat (501) is fixedly connected to the main body seat (1) through bolts, the telescopic box (502) is rotationally connected to the connecting seat (501), and the bottom end surface of the telescopic box (502) is in contact with the head end of the telescopic bottle B (401); when the toggle head (20101) moves downwards along with the rectangular plate (201), the toggle head (20101) is in contact with the telescopic box (502), and when the toggle head (20101) moves upwards along with the rectangular plate (201), a hook on the toggle head (20101) is in contact with the telescopic box (502), and at the moment, the telescopic box (502) is in a rotating state;

the purifying structure (3) comprises a telescopic bottle A (301), a purifying box (302), a guide pipe (303), an air suction pipe (304), a sliding seat (305), a sliding rod B (306), an elastic piece B (307) and an air exhaust pipe (308), wherein the purifying box (302) is fixedly connected to the main body seat (1); the telescopic bottle A (301) is fixedly connected to the main body seat (1), the telescopic bottle A (301) is connected with an exhaust pipe (308), the exhaust pipe (308) is communicated with the purifying box (302), the guide pipe (303) is connected to the telescopic bottle A (301), and the head end of the guide pipe (303) is connected with an air suction pipe (304); the air suction pipe (304) is of a cylindrical tubular structure, the outer wall of the air suction pipe (304) is provided with air suction holes in an annular array shape, the air suction holes in the annular array shape form an air suction expansion structure, four sliding seats (305) are arranged in total, the four sliding seats (305) are welded on the printing and dyeing seat (203), and each sliding seat (305) is connected with a sliding rod B (306) in a sliding manner; the two sliding rods B (306) on the front side are welded with the air suction pipe (304), and the two sliding rods B (306) on the front side are sleeved with an elastic piece B (307); the two elastic pieces B (307) form an elastic reset structure of the air suction pipe (304), the air suction pipe (304) is in an elastic shrinkage state when the printing and dyeing seat (203) is printed and dyed, the guide pipe (303) and the exhaust pipe (308) are internally provided with one check valve, when the telescopic bottle A (301) is extruded, the check valve in the guide pipe (303) is in a closed state, the check valve in the exhaust pipe (308) is in an open state, and when the telescopic bottle A (301) is elastically reset, the check valve in the guide pipe (303) is in an open state, and the check valve in the exhaust pipe (308) is in a closed state;

the outer wall of the spray head (403) is in sliding connection with two sliding rods B (306) at the rear side, an elastic piece B (307) is sleeved on the two sliding rods B (306) at the rear side, the two elastic pieces B (307) jointly form an elastic reset structure of the spray head (403), and the spray head (403) is in an elastic shrinkage state when the printing and dyeing base (203) prints;

the driving structure (6) comprises a driving motor (601) and a poking rod (602), the driving motor (601) is fixedly connected to the main body seat (1), and the poking rod (602) is arranged on the rotating shaft of the driving motor (601); when the driving motor (601) rotates, the toggle rod (602) is in contact with the top end surface of the rectangular plate (201), the rectangular plate (201) is in a continuous extrusion state at the moment, and the telescopic bottle A (301) is also in a continuous extrusion state at the moment;

when the printing and dyeing device is used, when the driving motor (601) rotates, firstly, two sliding rods A (202) are symmetrically welded on the bottom end surface of the rectangular plate (201), and the head ends of the two sliding rods A (202) are fixedly connected with the top end surface of the printing and dyeing seat (203); an elastic piece A (204) is sleeved on each of the two sliding rods A (202), the head ends of the two elastic pieces A (204) are in contact with the top end surface of the main body seat (1), and the tail ends of the two elastic pieces A (204) are in contact with the bottom end surface of the rectangular plate (201); the two elastic pieces A (204) form an elastic reset structure of the printing and dyeing seat (203);

secondly, as the driving motor (601) is fixedly connected to the main body seat (1), a toggle rod (602) is arranged on the rotating shaft of the driving motor (601); when the driving motor (601) rotates, the toggle rod (602) is in contact with the top end surface of the rectangular plate (201), the rectangular plate (201) is in a continuous extrusion state at the moment, and the telescopic bottle A (301) is also in a continuous extrusion state at the moment;

third, because the duct (303) and the exhaust pipe (308) are internally provided with one check valve, when the telescopic bottle A (301) is extruded, the check valve in the duct (303) is in a closed state, the check valve in the exhaust pipe (308) is in an open state, and when the telescopic bottle A (301) is elastically reset, the check valve in the duct (303) is in an open state, and the check valve in the exhaust pipe (308) is in a closed state;

fourth, because the connecting seat (501) is fixedly connected to the main body seat (1) through bolts, a telescopic box (502) is rotationally connected to the connecting seat (501), and the bottom end surface of the telescopic box (502) is contacted with the head end of the telescopic bottle B (401); when the toggle head (20101) moves downwards along with the rectangular plate (201), the toggle head (20101) is in contact with the telescopic box (502), and when the toggle head (20101) moves upwards along with the rectangular plate (201), a hook on the toggle head (20101) is in contact with the telescopic box (502), and at the moment, the telescopic box (502) is in a rotating state, so that extrusion of the telescopic bottle B (401) is realized;

in the use process, firstly, the air suction pipe (304) is of a cylindrical tubular structure, the outer wall of the air suction pipe (304) is provided with air suction holes in an annular array shape, and the air suction holes in the annular array shape form an air suction expansion structure;

secondly, as the two sliding rods B (306) at the front side are welded with the air suction pipe (304), the two sliding rods B (306) at the front side are sleeved with an elastic piece B (307); the two elastic pieces B (307) form an elastic reset structure of the air suction pipe (304), and the air suction pipe (304) is in an elastic shrinkage state when the printing and dyeing seat (203) is printed and dyed;

thirdly, as the spray head (403) is in a cylindrical tubular structure, the outer wall of the spray head (403) is provided with spray holes in an annular array shape, and the spray holes in the annular array shape form a spray diffusion structure of the spray head (403);

fourth, because the outer wall of the nozzle (403) is slidably connected with the two sliding rods B (306) at the rear side, and the two sliding rods B (306) at the rear side are both sleeved with an elastic piece B (307), the two elastic pieces B (307) jointly form an elastic reset structure of the nozzle (403), and the nozzle (403) is in an elastic shrinkage state when the printing and dyeing base (203) prints.