CN217917219U - High-efficiency heating transfer printing machine - Google Patents
High-efficiency heating transfer printing machine Download PDFInfo
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- CN217917219U CN217917219U CN202222114742.XU CN202222114742U CN217917219U CN 217917219 U CN217917219 U CN 217917219U CN 202222114742 U CN202222114742 U CN 202222114742U CN 217917219 U CN217917219 U CN 217917219U
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- printing machine
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- sliding block
- collecting
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working
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Abstract
The utility model discloses a high-efficient heating transfer calico printing machine relates to calico printing machine technical field. The utility model discloses a decorating machine, rotate on the decorating machine and install two hot pressing rollers that distribute from top to bottom, still include: the two collecting pieces are arranged on the printing machine and are distributed up and down, heat absorbing ends are arranged on the opposite sides of the two collecting pieces, and the fabric is located between the two heat absorbing ends. The utility model discloses an convulsions subassembly makes the heat absorption end produce suction to make the high temperature that the surface fabric after collecting the rendition gived off collect, blow the heat of collecting to the cloth of rendition on, utilize the surface fabric of the waste heat on the surface fabric that the rendition was accomplished to preheat for the surface fabric that is about to the rendition, improved the heat utilization efficiency of transfer printing machine, need not additionally to cool off the surface fabric that the rendition was accomplished through water simultaneously, reduce the use amount to water, be favorable to the using water wisely.
Description
Technical Field
The utility model relates to a calico printing machine technical field, concretely relates to high-efficient heating transfer calico printing machine.
Background
The transfer printing is to print dye pigment on transfer printing paper, and then transfer the dye in the pattern to the textile through heat treatment during the transfer printing to form the pattern. The existing transfer printing machine generally transfers patterns to fabrics in a hot pressing mode through two heating rollers, the temperature of the transferred fabrics is high after the fabrics are subjected to hot pressing, and a certain time is needed for the transfer printing machines to subsequently wait for the cooling of the transferred fabrics.
Present surface fabric is when carrying out the rendition, and the surface fabric does not preheat in advance for the in-process of rendition, two warming mill need the surface fabric to reach the effect after certain temperature could guarantee the pattern transfer when the rendition to the surface fabric, so the rotational speed of two warming mill should not be too fast, thereby it is lower to lead to stamp rendition efficiency, for this, the utility model provides a high efficiency heating shifts calico printing machine solves current not enough.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a: for solving the problem in the above background, the utility model provides a high-efficient heating transfer printing machine.
The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:
high-efficient heating transfer calico printing machine, including the calico printing machine, rotate on the calico printing machine and install two hot press rolls that distribute from top to bottom, still include:
the two collecting pieces are arranged on the printing machine and are distributed vertically, heat absorbing ends are arranged on the opposite sides of the two collecting pieces, and the fabric is positioned between the two heat absorbing ends;
the drying part comprises two drying plates vertically and slidably mounted on the printing machine, the two drying plates are distributed up and down, openings are formed in the opposite sides of the two drying plates, an adjusting assembly for driving the two drying plates to approach or separate from each other is mounted on the printing machine, and the hot pressing roller is positioned between the collecting part and the drying plates;
and the air draft assembly is arranged between the drying plate and the collecting piece, so that the heat absorption end generates suction force to draw heat into the drying plate.
Further, the convulsions subassembly includes two connecting pipes, two the one end of connecting pipe with collect the piece intercommunication, two the connecting pipe other end respectively with two the stoving board intercommunication.
Furthermore, the opening of the drying plate is rotatably provided with a roller for shielding the opening, and the peripheral side of the roller is uniformly provided with a plurality of heat dissipation holes in a penetrating manner.
Furthermore, the interior of the collecting piece is hollow, the heat absorbing end of the collecting piece is open, and one end of the connecting pipe is communicated with the end, far away from the opening, of the collecting piece.
Furthermore, a wind shield is constructed in the drying plate, and a gap is reserved between two ends of the wind shield in the length direction and the inside of the drying plate.
Further, the adjusting component comprises a sliding block which is horizontally slidably mounted on the printing machine, a linkage component is mounted between the sliding block and the drying plate, when the sliding block moves towards the direction close to the drying plate, the linkage component enables the two drying plates to be away from each other, when the sliding block moves towards the direction away from the drying plate, the linkage component enables the two drying plates to be close to each other, and a driving component for driving the sliding block to move is mounted on the printing machine.
Further, the stoving board top has set firmly the connecting rod, connecting rod one end is installed and is the level to the axostylus axostyle, the guide block is installed to the one end of axostylus axostyle, the vertical slidable mounting of guide block is in on the calico printing machine, the interlock subassembly includes that one end rotates the suit and is in actuating lever on the axostylus axostyle, the free end of actuating lever articulates on the sliding block.
Further, drive assembly includes that level and rotation are installed threaded rod on the calico printing machine, install the support body on the sliding block, support body threaded sleeve is established on the threaded rod.
The beneficial effects of the utility model are as follows:
1. the utility model discloses an convulsions subassembly makes the heat absorption end produce suction, thereby make the high temperature collection that the surface fabric after collecting the rendition gived off, blow off the heat of collecting from the drying plate through the convulsions subassembly, thereby realize the surface fabric cooling, time when having reduced the cooling of follow-up surface fabric, and blow the heat of collecting to the cloth of rendition on, make the surface fabric after preheating remove behind two hot pressing rollers, make more convenience when the pattern rendition is to the surface fabric, the rotational speed of hot pressing roller can suitable acceleration this moment, thereby the efficiency of surface fabric rendition has been improved.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
figure 2 is a perspective partial cross-sectional view of the present invention in figure 2;
FIG. 3 is an enlarged view of the structure A of FIG. 3;
figure 4 is a further perspective, partially schematic view of figure 1 of the present invention;
fig. 5 is another perspective partial view of fig. 1 in accordance with the present invention;
reference numerals are as follows: 1. a printing machine; 2. a hot press roll; 3. a collecting member; 4. a heat absorption end; 5. drying the workpiece; 501. drying the plate; 502. an adjustment assembly; 5021. a slider; 5022. a linkage assembly; 50221. a connecting rod; 50222. a shaft lever; 50223. a guide block; 50224. a drive rod; 503. heat dissipation holes; 504. a wind deflector; 505. a roller; 6. an air draft assembly; 601. a connecting pipe; 7. a drive assembly; 701. a threaded rod; 702. a shelf body.
Detailed Description
In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention will be combined below to clearly and completely describe the technical solution in the embodiments of the present invention.
As shown in 1-5, high-efficient heating transfer calico printing machine includes calico printing machine 1, rotates on the calico printing machine 1 and installs two hot pressing roller 2 that distribute from top to bottom, still includes: the two collecting pieces 3 are arranged on the printing machine 1 and distributed up and down, heat absorbing ends 4 are arranged on the opposite sides of the two collecting pieces 3, and the fabric is positioned between the two heat absorbing ends 4; the fabric penetrates through the two hot pressing rollers 2 and then is located between the two heat absorption ends 4, the upper surface and the lower surface of the fabric are respectively opposite to the two heat absorption ends 4, the drying part 5 comprises two drying plates 501 vertically and slidably mounted on the printing machine 1, the two drying plates 501 are distributed vertically, the opposite sides of the two drying plates are provided with openings, the printing machine 1 is provided with an adjusting assembly 502 for driving the two drying plates 501 to be close to or far away from each other, and the hot pressing rollers 2 are located between the collecting part 3 and the drying plates 501; that is, the fabric sequentially passes through the two drying plates 501, the two hot-pressing rollers 2 and the two heat-absorbing ends 4, in the moving process of the fabric, the fabric passes through the two drying plates 501 and then is subjected to hot-pressing transfer printing through the two hot-pressing rollers 2, so that the pattern is transferred onto the fabric, the fabric continuously moves to enable the transferred part of the fabric to be located between the two heat-absorbing ends 4, the heat-absorbing ends 4 collect the high temperature emitted by the transferred fabric to the collecting member 3, then the high temperature collected by the collecting member 3 is conveyed to the two drying plates 501, so that the high-temperature air is blown out from the openings of the two drying plates 501, the fabric for transfer printing is preheated, the preheated fabric is moved to the two hot-pressing rollers 2, the pattern is more conveniently transferred onto the fabric, at this time, the rotating speed of the hot-pressing rollers 2 can be properly accelerated, in order to improve the work efficiency of surface fabric rendition, thereby reach the purpose of high-efficient rendition, the time is saved, therefore, the practicality is more had, when the surface fabric is located between two drying plate 501, can make the surface fabric that is close as far as to the opening part of two drying plate 501 through adjusting part 502, further improve and preheat the effect, convulsions subassembly 6, install between drying plate 501 and collection piece 3, through convulsions subassembly 6 so that heat absorption end 4 produces suction, in order to form with heat suction to drying plate 501 in, that is to say, make heat absorption end 4 produce suction through convulsions subassembly 6, thereby make the high temperature collection that collection piece 3 will distribute with the surface fabric after the rendition, blow off the heat of collecting from drying plate 501 through convulsions subassembly 6, thereby realize the surface fabric cooling, time when having reduced follow-up surface fabric cooling.
As shown in fig. 1, 3 and 5, in some embodiments, the air exhaust assembly 6 includes two connecting pipes 601, one end of each of the two connecting pipes 601 is communicated with the collecting member 3, and the other end of each of the two connecting pipes 601 is respectively communicated with the two drying plates 501, it should be noted that an air exhaust fan is installed inside each of the connecting pipes 601, that is, an air pump is installed on each of the connecting pipes 601.
As shown in fig. 1, fig. 3 and fig. 4, in some embodiments, a roller 505 for blocking an opening of the drying plate 501 is rotatably installed at the opening of the drying plate 501, a plurality of heat dissipation holes 503 are uniformly formed in the peripheral side of the roller 505 in a penetrating manner, the roller 505 is designed such that the rollers 505 on the two drying plates 501 roll and abut against a fabric before transfer printing through the adjusting assembly 502, and the heat dissipation holes 503 are designed such that hot air can be normally blown into the fabric through the heat dissipation holes 503 when entering the drying plates 501, thereby further improving a preheating effect.
As shown in fig. 1-3, in some embodiments, the interior of the collecting member 3 is hollow, the heat absorbing end 4 is open, and one end of the connecting pipe 601 is connected to the end of the collecting member 3 away from the open end, preferably, the collecting member 3 is in a trapezoid shape, the side with a large cross section is open, and the side with a small cross section is connected to the connecting pipe 601, so as to increase the range of heat collecting and further improve the collecting effect.
As shown in fig. 1 and fig. 3-5, in some embodiments, a wind deflector 504 is configured inside the drying plate 501, a gap is left between two ends of the wind deflector 504 in the length direction and the inside of the drying plate 501, the top of the drying plate 501 is communicated with one end of a connecting pipe 601, when hot air enters the drying plate 501 through the connecting pipe 601, the hot air can "hit" the wind deflector 504, so that the hot air circulates along the length box of the wind deflector 504, so that the gap between the wind deflector 504 and the drying plate 501 flows out, at this time, the two hot air flows towards the direction of the roller 505, so that the heat dissipated by the roller 505 is more average, the heat is more uniformly heated, and the preheating effect is further improved.
As shown in fig. 1 and fig. 3-5, in some embodiments, the adjusting assembly 502 includes a sliding block 5021 horizontally slidably installed on the printing machine 1, a linkage assembly 5022 is installed between the sliding block 5021 and the drying plates 501, when the sliding block 5021 moves towards the direction close to the drying plates 501, the two drying plates 501 are far away from each other through the linkage assembly 5022, when the sliding block 5021 moves towards the direction far from the drying plates 501, the two drying plates 501 are close to each other through the linkage assembly 5022, and a driving assembly 7 for driving the sliding block 5021 to move is installed on the printing machine 1, that is, the sliding block 5021 is moved through the driving assembly 7, so that the two drying plates 501 are close to or far away from each other under the cooperation of the linkage assembly 5022, thereby enabling the two rollers 505 to roll on the fabric before transfer.
As shown in fig. 1, 3 and 5, in some embodiments, a connecting rod 50221 is fixedly disposed at the top of the drying plate 501, a horizontal shaft 50222 is disposed at one end of the connecting rod 50221, a guide block 50223 is disposed at one end of the shaft 50222, the guide block 50223 is vertically slidably disposed on the printing machine 1, the linkage assembly 5022 includes a driving rod 50224 with one end rotatably sleeved on the shaft 50222, a free end of the driving rod 50224 is hinged to the sliding block 5021, the driving rod 50224 hinged to the sliding block 5021 is driven to move during movement of the sliding block 5021, because one end of the driving rod 50224 is hinged to the guide block 50223, when the sliding block 5021 moves, the two guide blocks 50223 can move away from or close to each other, and because the guide block 50223, the shaft 50222 and the connecting rod 50221 are connected to each other and connected to the drying plate 501, the guide block 50223 can indirectly move close to or away from each other, so that the two drying plates 501 can move away from each other.
As shown in fig. 1 to 3, in some embodiments, the driving assembly 7 includes a threaded rod 701 horizontally and rotatably installed on the printing machine 1, a frame body 702 is installed on the sliding block 5021, the threaded rod 701 is sleeved with the frame body 702, that is, when the threaded rod 701 is rotated, the sliding block 5021 in threaded fit with the threaded rod 701 moves in a direction opposite to an axis of the threaded rod 701, so that the sliding block 5021 is moved, specifically, the threaded rod 701 is rotated manually or electrically, if the threaded rod 701 is rotated manually, a hand wheel can be installed at one end of the threaded rod 701, if the threaded rod 701 is rotated electrically, a motor can be installed on the printing machine 1, and an output shaft of the motor is connected with one end of the threaded rod 701.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (8)
1. High-efficient heating transfer calico printing machine, including calico printing machine (1), rotate on calico printing machine (1) and install two hot press rolls (2) that distribute from top to bottom, its characterized in that still includes:
the two collecting pieces (3) are arranged on the printing machine (1) and are distributed vertically, heat absorbing ends (4) are arranged on the opposite sides of the two collecting pieces (3), and the fabric is located between the two heat absorbing ends (4);
the drying part (5) comprises two drying plates (501) vertically and slidably mounted on the printing machine (1), the two drying plates (501) are distributed up and down, openings are formed in opposite sides of the two drying plates (501), an adjusting assembly (502) for driving the two drying plates (501) to be close to or far away from each other is mounted on the printing machine (1), and the hot-pressing roller (2) is located between the collecting part (3) and the drying plates (501);
and the air draft assembly (6) is arranged between the drying plate (501) and the collecting piece (3), and the heat absorption end (4) generates suction force through the air draft assembly (6) so as to suck heat into the drying plate (501).
2. The efficient heating transfer printing machine according to claim 1, wherein the air draft assembly (6) comprises two connecting pipes (601), one end of the two connecting pipes (601) is communicated with the collecting member (3), and the other end of the two connecting pipes (601) is respectively communicated with the two drying plates (501).
3. The efficient heating transfer printing machine according to claim 1, wherein a roller (505) for shielding the opening of the drying plate (501) is rotatably installed at the opening, and a plurality of heat dissipation holes (503) are uniformly formed in the outer circumferential side of the roller (505) in a penetrating manner.
4. A high efficiency heat transfer printer according to claim 2, wherein the collector (3) is hollow inside and the heat absorbing end (4) is open, and one end of the connecting pipe (601) is connected to the end of the collector (3) away from the open end.
5. The efficient heating transfer printing machine according to claim 1, wherein wind shields (504) are configured inside the drying plate (501), and gaps are reserved between the two lengthwise ends of the wind shields (504) and the inside of the drying plate (501).
6. The efficient heating transfer printing machine according to claim 1, wherein the adjusting assembly (502) comprises a sliding block (5021) horizontally and slidably mounted on the printing machine (1), a linkage assembly (5022) is mounted between the sliding block (5021) and the drying plate (501), when the sliding block (5021) moves towards the direction close to the drying plate (501), the linkage assembly (5022) enables the two drying plates (501) to be away from each other, when the sliding block (5021) moves towards the direction away from the drying plate (501), the linkage assembly (5022) enables the two drying plates (501) to be close to each other, and a driving assembly (7) for driving the sliding block (5021) to move is mounted on the printing machine (1).
7. The efficient heating transfer printing machine according to claim 6, wherein a connecting rod (50221) is fixedly arranged at the top of the drying plate (501), a horizontal shaft rod (50222) is installed at one end of the connecting rod (50221), a guide block (50223) is installed at one end of the shaft rod (50222), the guide block (50223) is vertically and slidably installed on the printing machine (1), the linkage assembly (5022) comprises a driving rod (50224) with one end rotatably sleeved on the shaft rod (50222), and the free end of the driving rod (50224) is hinged to the sliding block (5021).
8. The efficient heating transfer printing machine according to claim 6, wherein the driving assembly (7) comprises a threaded rod (701) horizontally and rotatably installed on the printing machine (1), a frame body (702) is installed on the sliding block (5021), and the frame body (702) is sleeved on the threaded rod (701) in a threaded manner.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222114742.XU CN217917219U (en) | 2022-08-11 | 2022-08-11 | High-efficiency heating transfer printing machine |
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CN202222114742.XU CN217917219U (en) | 2022-08-11 | 2022-08-11 | High-efficiency heating transfer printing machine |
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CN217917219U true CN217917219U (en) | 2022-11-29 |
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CN202222114742.XU Active CN217917219U (en) | 2022-08-11 | 2022-08-11 | High-efficiency heating transfer printing machine |
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2022
- 2022-08-11 CN CN202222114742.XU patent/CN217917219U/en active Active
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