CA2911724A1 - Intelligent copying heat transfer printer specialized for cues - Google Patents
Intelligent copying heat transfer printer specialized for cues Download PDFInfo
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- CA2911724A1 CA2911724A1 CA2911724A CA2911724A CA2911724A1 CA 2911724 A1 CA2911724 A1 CA 2911724A1 CA 2911724 A CA2911724 A CA 2911724A CA 2911724 A CA2911724 A CA 2911724A CA 2911724 A1 CA2911724 A1 CA 2911724A1
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- heat transfer
- cue
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Abstract
The current invention discloses an intelligent copying heat transfer printer specialized for cues. The invent ion uses servo motor and CAD copying technology, making transfer printing more accurate and the pressure more even;
The invention achieves regulation of the action, position, direction, time and pressure of different stages via adjusting several parameters. The transmission device uses servo motor, in order to achieve a more speedy and accurate feeding.
The invention achieves regulation of the action, position, direction, time and pressure of different stages via adjusting several parameters. The transmission device uses servo motor, in order to achieve a more speedy and accurate feeding.
Description
Intelligent copying heat transfer printer specialized for cues Technical Field:
The present invention relates to a heat transfer printer, especially to an intelligent copying heat transfer printer, which belongs to the technical field of special surface printing technical equipment.
Technical Background:
Heat transfer printing devices refer to all the devices using heat transfer printing technology, which include the planary surface pyrograph machine, the high pressure pyrograph machine, GB¨HB, the baking cup machine, the baking machine, the roast cap machine and other transfer printing devices. The printing scope includes planary surface pyrograph as well as curved surface pyrograph for quilts, plates or hats, which is a new technology. Heat transfer printing technology is to print designs onto thermotolerant paper, and to print designs onto finished materials via adding heat and pressure. As a new surface printing technology, the heat transfer technology has been widely applied in a variety of fields due to its creative design, low requirements for printing, abundant colors of the designs, and environment friendly manufacture procedure. The traditional heat transfer printing technology aims mainly at printing onto a planary surface, an inclined plan, a circumference surface, a regular curved surface or a male and female surface with a small radian and other single¨surface products. However, the traditional heat transfer technology cannot achieve a single time heat transfer processing onto an elongated formed product or the whole surface of the product.
The heat transfer printing device in the prior art can achieve printing onto the whole surface of an elongated product (such as a cue). However, such a machine is manually operated and features a low degree of intelligence. In addition, according to different products, the action, position, direction and pressure needed of different stages are all different. The heat transfer printing device in the prior art cannot regulate the motion of the different stages and therefore cannot achieve accurate control of the heat transfer printing. Furthermore, the product loading and unloading are both manually operated, which is of low efficiency and labor intensive.
Content of the Invention:
The goal of the current invention is to overcome the above mentioned disadvantages and to provide an intelligent heat transfer printing device which can achieve a single time printing of the surface of an elongated object (such as a cue).
The goal is achieved as follows: an intelligent copying heat transfer printer specialized for cues which comprises: a control electricity box,a cue transmission device, a cue clamping and fixing device, a servo driver, a heat transfer film automatic positioning device, a heat transfer positioning device, a heat transfer side sticking device, a heat transfer closing device, a heat transfer pressure device, an automatic cue releasing device, an automatic cue fetching and clamping device and a cue fetching machine arm.
The main frame of the printer features a three¨layer supporting frame structure, comprising an upper supporting frame, a middle supporting frame and a lower supporting frame, for connecting, supporting and fixing the components of the printer. Said control electricity box is fixed on the upper side of the upper supporting frame for electric and hydraulic control of the whole device. Said cue transmission device is located in front of the middle supporting frame, wherein there are a plurality of cues placed with intervals on top of the cue transmission device, in order for the cues to be transmitted into the heat transfer printer.
Said servo driver comprises a servo motor as well as a screw which is driven by the servo motor, wherein the servo motor is located behind the middle supporting frame, and the servo motor and the screw provide energy to the continuous water flow transfer printing of the cues. One side of the cue clamping and fixing device
The present invention relates to a heat transfer printer, especially to an intelligent copying heat transfer printer, which belongs to the technical field of special surface printing technical equipment.
Technical Background:
Heat transfer printing devices refer to all the devices using heat transfer printing technology, which include the planary surface pyrograph machine, the high pressure pyrograph machine, GB¨HB, the baking cup machine, the baking machine, the roast cap machine and other transfer printing devices. The printing scope includes planary surface pyrograph as well as curved surface pyrograph for quilts, plates or hats, which is a new technology. Heat transfer printing technology is to print designs onto thermotolerant paper, and to print designs onto finished materials via adding heat and pressure. As a new surface printing technology, the heat transfer technology has been widely applied in a variety of fields due to its creative design, low requirements for printing, abundant colors of the designs, and environment friendly manufacture procedure. The traditional heat transfer printing technology aims mainly at printing onto a planary surface, an inclined plan, a circumference surface, a regular curved surface or a male and female surface with a small radian and other single¨surface products. However, the traditional heat transfer technology cannot achieve a single time heat transfer processing onto an elongated formed product or the whole surface of the product.
The heat transfer printing device in the prior art can achieve printing onto the whole surface of an elongated product (such as a cue). However, such a machine is manually operated and features a low degree of intelligence. In addition, according to different products, the action, position, direction and pressure needed of different stages are all different. The heat transfer printing device in the prior art cannot regulate the motion of the different stages and therefore cannot achieve accurate control of the heat transfer printing. Furthermore, the product loading and unloading are both manually operated, which is of low efficiency and labor intensive.
Content of the Invention:
The goal of the current invention is to overcome the above mentioned disadvantages and to provide an intelligent heat transfer printing device which can achieve a single time printing of the surface of an elongated object (such as a cue).
The goal is achieved as follows: an intelligent copying heat transfer printer specialized for cues which comprises: a control electricity box,a cue transmission device, a cue clamping and fixing device, a servo driver, a heat transfer film automatic positioning device, a heat transfer positioning device, a heat transfer side sticking device, a heat transfer closing device, a heat transfer pressure device, an automatic cue releasing device, an automatic cue fetching and clamping device and a cue fetching machine arm.
The main frame of the printer features a three¨layer supporting frame structure, comprising an upper supporting frame, a middle supporting frame and a lower supporting frame, for connecting, supporting and fixing the components of the printer. Said control electricity box is fixed on the upper side of the upper supporting frame for electric and hydraulic control of the whole device. Said cue transmission device is located in front of the middle supporting frame, wherein there are a plurality of cues placed with intervals on top of the cue transmission device, in order for the cues to be transmitted into the heat transfer printer.
Said servo driver comprises a servo motor as well as a screw which is driven by the servo motor, wherein the servo motor is located behind the middle supporting frame, and the servo motor and the screw provide energy to the continuous water flow transfer printing of the cues. One side of the cue clamping and fixing device
2 is attached to the screw and performs water flow motion under the action of the screw. Along the water flow direction within said main frame of the printer, there are sequentially located the heat transfer film automatic positioning device, the heat transfer positioning device, the heat transfer side sticking device, the heat transfer closing device, and the heat transfer pressure device, and the main frame of the printer is at one end furnished with the automatic cue releasing device, the automatic cue fetching and clamping device and the cue fetching machine arm, wherein the automatic cue releasing device is for the automatic release of the cues, the automatic cue fetching and clamping device is to clamp the cues which have been released by the automatic cue releasing device, and the cue fetching machine arm is to drive the automatic cue fetching and clamping device and to move the cues into the receiving station. Said heat transfer positioning device is provided with a copying hot roller, whose wheels are facing downwards. Said heat transfer side sticking device is provided with two vertically placed copying hot rollers, which are symmetrical to each other, and said heat transfer closing device is provided with a copying hot roller, whose wheels are facing upwards, wherein said heat transfer positioning device, said heat transfer side sticking device and said heat transfer closing device all cooperate with said cue clamping and fixing device to realize the heat transfer printing process. And said heat transfer printer applies infrared heating.
Furthermore, said cue transmission device is a wheel gear driven chain.
Furthermore, the bottom of the cue clamping and fixing device is furnished with a sliding block which cooperates with the screw.
Furthermore, said heat transfer pressure device comprises two impression roller which are positioned on the left and the right side of the cue respectively.
Furthermore, said cue transmission device is provided with an infrared electric eye for orientation at its end.
Furthermore, said cue transmission device is a wheel gear driven chain.
Furthermore, the bottom of the cue clamping and fixing device is furnished with a sliding block which cooperates with the screw.
Furthermore, said heat transfer pressure device comprises two impression roller which are positioned on the left and the right side of the cue respectively.
Furthermore, said cue transmission device is provided with an infrared electric eye for orientation at its end.
3 Furthermore, said cue clamping and fixing device is provided with a pressure sensor.
Furthermore, the intelligent copying heat transfer printer further comprises infrared temperature sensor for a timely detection and feedback regulation of the cue temperature during the whole processing procedure.
Furthermore, the cue fetching machine arm is a software controlled automatic machine arm.
The advantage of the current invention lies in that: the current invention features a simple structure and effectively solves the problem of the prior art that the whole surface of an elongated object cannot be transfer printed by the traditional heat transfer printer. The effect and efficiency are better than water transfer printing. The transfer printed product looks beautiful and high quality. The transfer printing applies a servo motor and is achieved using CAD copying according the shape of the cue, which leads to a more accurate transfer printing and the pressure is more even. The printer of the current invention achieves the regulation of the action, position, direction, times, time and pressure of different stages via controlling the electricity box and adjust different parameters in accordance with different products. The transmission device uses the servo motor to achieve controlling in order to guarantee a more speedy and a more accurate feeding.
The automatic feeding utilizes infrared electric eye to perform orientation so that the positioning is more accurate and faster, which prevents the manual operational mistakes. The heat transfer printing of the present invention utilizes infrared heating method, which is fast in heating and avoids heat loss during transfer printing. This renders a more stable temperature during the transfer. In addition, the present invention applies automatic mechanic arm for loading and unloading, which reduces labor intensity.
Figures:
A better understanding of the present invention can be obtained when the detailed
Furthermore, the intelligent copying heat transfer printer further comprises infrared temperature sensor for a timely detection and feedback regulation of the cue temperature during the whole processing procedure.
Furthermore, the cue fetching machine arm is a software controlled automatic machine arm.
The advantage of the current invention lies in that: the current invention features a simple structure and effectively solves the problem of the prior art that the whole surface of an elongated object cannot be transfer printed by the traditional heat transfer printer. The effect and efficiency are better than water transfer printing. The transfer printed product looks beautiful and high quality. The transfer printing applies a servo motor and is achieved using CAD copying according the shape of the cue, which leads to a more accurate transfer printing and the pressure is more even. The printer of the current invention achieves the regulation of the action, position, direction, times, time and pressure of different stages via controlling the electricity box and adjust different parameters in accordance with different products. The transmission device uses the servo motor to achieve controlling in order to guarantee a more speedy and a more accurate feeding.
The automatic feeding utilizes infrared electric eye to perform orientation so that the positioning is more accurate and faster, which prevents the manual operational mistakes. The heat transfer printing of the present invention utilizes infrared heating method, which is fast in heating and avoids heat loss during transfer printing. This renders a more stable temperature during the transfer. In addition, the present invention applies automatic mechanic arm for loading and unloading, which reduces labor intensity.
Figures:
A better understanding of the present invention can be obtained when the detailed
4 description of exemplary embodiment set forth below is reviewed in conjunction with the accompanying drawing, which do not constitute any limitation of the present invention.
Fig. 1 shows a structure of the intelligent copying heat transfer printer specialized for cues according to the present invention.
In the figure, 1¨ control electricity box; 2¨ cue transmission device; 3 ¨ cue clamping and fixing device; 4 ¨ heat transfer film automatic positioning device;
Fig. 1 shows a structure of the intelligent copying heat transfer printer specialized for cues according to the present invention.
In the figure, 1¨ control electricity box; 2¨ cue transmission device; 3 ¨ cue clamping and fixing device; 4 ¨ heat transfer film automatic positioning device;
5¨heat transfer positioning device; 6¨heat transfer side sticking device;
7¨heat transfer closing device; 8¨ heat transfer pressure device; 9¨ automatic cue releasing device; 10¨ automatic cue fetching and clamping device; 11¨ cue fetching machine arm; 12¨ main frame of the printer; 13¨ servo motor; 14¨ screw.
Examples:
According to Fig. 1, the intelligent copying heat transfer printer specialized for cues according to the present invention comprises: a control electricity box (1),a cue transmission device (2), a cue clamping and fixing device (3), a servo driver, a heat transfer film automatic positioning device (4), a heat transfer positioning device (5), a heat transfer side sticking device (6), a heat transfer closing device (7), a heat transfer pressure device (8), an automatic cue releasing device (9), an automatic cue fetching and clamping device (10) and a cue fetching machine arm (11).
The main frame (12) of the printer features a three¨layer supporting frame structure, comprising an upper supporting frame, a middle supporting frame and a lower supporting frame, for connecting, supporting and fixing the components of the printer. Said control electricity box (1) is fixed on the upper side of the upper supporting frame for electric and hydraulic control of the whole device. Said cue transmission device (2) is located in front of the middle supporting frame, wherein there are a plurality of cues placed with intervals on top of the cue transmission device (2), in order for the cues to be transmitted into the heat transfer printer.
Said servo driver comprises a servo motor (13) as well as a screw (14) which is driven by the servo motor (13), wherein the servo motor (13) is located behind the middle supporting frame, and the servomotor (13) and the screw (14) provide energy to the continuous water flow transfer printing of the cues. One side of the cue clamping and fixing device (3) is attached to the screw (14) and performs water flow motion under the action of the screw (14). Along the water flow direction within said main frame (12) of the printer, there are sequentially located the heat transfer film automatic positioning device (4), the heat transfer positioning device (5), the heat transfer side sticking device (6), the heat transfer closing device (7), and the heat transfer pressure device (8), and the main frame (12) of the printer is at one end furnished with the automatic cue releasing device (9), the automatic cue fetching and clamping device (10) and the cue fetching machine arm (11), wherein the automatic cue releasing device (9) is for the automatic release of the cues, the automatic cue fetching and clamping device (10) is to clamp the cues which have been released by the automatic cue releasing device (9),and the cue fetching machine arm (11) is to drive the automatic cue fetching and clamping device (10) and to move the cues into the receiving station. Said heat transfer positioning device (5) is provided with a copying hot roller, whose wheels are facing downwards. Said heat transfer side sticking device (6) is provided with two vertically placed copying hot rollers, which are symmetrical to each other, and said heat transfer closing device (7) is provided with a copying hot roller, whose wheels are facing upwards, wherein said heat transfer positioning device (5), said heat transfer side sticking device (6) and said heat transfer closing device (7) all cooperate with said cue clamping and fixing device (3) to realize the heat transfer printing process. And said heat transfer printer applies infrared heating.
Said cue transmission device (2) is a wheel gear driven chain. There are a plurality
7¨heat transfer closing device; 8¨ heat transfer pressure device; 9¨ automatic cue releasing device; 10¨ automatic cue fetching and clamping device; 11¨ cue fetching machine arm; 12¨ main frame of the printer; 13¨ servo motor; 14¨ screw.
Examples:
According to Fig. 1, the intelligent copying heat transfer printer specialized for cues according to the present invention comprises: a control electricity box (1),a cue transmission device (2), a cue clamping and fixing device (3), a servo driver, a heat transfer film automatic positioning device (4), a heat transfer positioning device (5), a heat transfer side sticking device (6), a heat transfer closing device (7), a heat transfer pressure device (8), an automatic cue releasing device (9), an automatic cue fetching and clamping device (10) and a cue fetching machine arm (11).
The main frame (12) of the printer features a three¨layer supporting frame structure, comprising an upper supporting frame, a middle supporting frame and a lower supporting frame, for connecting, supporting and fixing the components of the printer. Said control electricity box (1) is fixed on the upper side of the upper supporting frame for electric and hydraulic control of the whole device. Said cue transmission device (2) is located in front of the middle supporting frame, wherein there are a plurality of cues placed with intervals on top of the cue transmission device (2), in order for the cues to be transmitted into the heat transfer printer.
Said servo driver comprises a servo motor (13) as well as a screw (14) which is driven by the servo motor (13), wherein the servo motor (13) is located behind the middle supporting frame, and the servomotor (13) and the screw (14) provide energy to the continuous water flow transfer printing of the cues. One side of the cue clamping and fixing device (3) is attached to the screw (14) and performs water flow motion under the action of the screw (14). Along the water flow direction within said main frame (12) of the printer, there are sequentially located the heat transfer film automatic positioning device (4), the heat transfer positioning device (5), the heat transfer side sticking device (6), the heat transfer closing device (7), and the heat transfer pressure device (8), and the main frame (12) of the printer is at one end furnished with the automatic cue releasing device (9), the automatic cue fetching and clamping device (10) and the cue fetching machine arm (11), wherein the automatic cue releasing device (9) is for the automatic release of the cues, the automatic cue fetching and clamping device (10) is to clamp the cues which have been released by the automatic cue releasing device (9),and the cue fetching machine arm (11) is to drive the automatic cue fetching and clamping device (10) and to move the cues into the receiving station. Said heat transfer positioning device (5) is provided with a copying hot roller, whose wheels are facing downwards. Said heat transfer side sticking device (6) is provided with two vertically placed copying hot rollers, which are symmetrical to each other, and said heat transfer closing device (7) is provided with a copying hot roller, whose wheels are facing upwards, wherein said heat transfer positioning device (5), said heat transfer side sticking device (6) and said heat transfer closing device (7) all cooperate with said cue clamping and fixing device (3) to realize the heat transfer printing process. And said heat transfer printer applies infrared heating.
Said cue transmission device (2) is a wheel gear driven chain. There are a plurality
6 of cues placed with intervals on top of the cue transmission device (2), in order for the cues to be transmitted into the heat transfer printer.
The bottom of the cue clamping and fixing device (3) is furnished with a sliding block which cooperates with the screw (14). The sliding of the sliding block on the screw (14) and brings the cue clamping and fixing device (3) into a water flow motion.
Said heat transfer pressure device (8) comprises two impression roller which are positioned on the left and the right side of the cue respectively. The two impression rollers add pressure so that it can be avoided that the temperature and pressure are different when pressure is added, and this leads to an improvement of the heat transfer printing quality.
Said cue transmission device (2) is provided with an infrared electric eye for orientation at its end. The orientation using the infrared electric eye can facilitate a more accurate orientation.
Said cue clamping and fixing device (3) is provided with a pressure sensor.
The pressure sensor serves to realize a real time detection of the pressure received by the cue in different stages in order to achieve real time regulation.
The intelligent copying heat transfer printer of the present invention further comprises an infrared temperature sensor for a timely detection and feedback regulation of the cue temperature during the whole processing procedure. The infrared temperature sensor can realize an overall temperature supervision in the whole device.
The cue fetching machine arm (11) is a software controlled automatic machine arm.
Although particular embodiments of the invention have been described in detail for purposes of illustration, various modifications may be made without departing from the spirit and scope of the invention. According, the invention is not to be limited by these embodiments.
The bottom of the cue clamping and fixing device (3) is furnished with a sliding block which cooperates with the screw (14). The sliding of the sliding block on the screw (14) and brings the cue clamping and fixing device (3) into a water flow motion.
Said heat transfer pressure device (8) comprises two impression roller which are positioned on the left and the right side of the cue respectively. The two impression rollers add pressure so that it can be avoided that the temperature and pressure are different when pressure is added, and this leads to an improvement of the heat transfer printing quality.
Said cue transmission device (2) is provided with an infrared electric eye for orientation at its end. The orientation using the infrared electric eye can facilitate a more accurate orientation.
Said cue clamping and fixing device (3) is provided with a pressure sensor.
The pressure sensor serves to realize a real time detection of the pressure received by the cue in different stages in order to achieve real time regulation.
The intelligent copying heat transfer printer of the present invention further comprises an infrared temperature sensor for a timely detection and feedback regulation of the cue temperature during the whole processing procedure. The infrared temperature sensor can realize an overall temperature supervision in the whole device.
The cue fetching machine arm (11) is a software controlled automatic machine arm.
Although particular embodiments of the invention have been described in detail for purposes of illustration, various modifications may be made without departing from the spirit and scope of the invention. According, the invention is not to be limited by these embodiments.
7
Claims (8)
1.Intelligent copying heat transfer printer specialized for cues, characterized in that, it comprises: a control electricity box (1),a cue transmission device (2), a cue clamping and fixing device (3), a servo driver, a heat transfer film automatic positioning device (4), a heat transfer positioning device (5), a heat transfer side sticking device (6), a heat transfer closing device (7), a heat transfer pressure device (8), an automatic cue releasing device (9), an automatic cue fetching and clamping device (10) and a cue fetching machine arm (11); wherein -- the main frame (12) of the printer features a three¨layer supporting frame structure, comprising an upper supporting frame, a middle supporting frame and a lower supporting frame, for connecting, supporting and fixing the components of the printer;
-- said control electricity box (1) is fixed on the upper side of the upper supporting frame for electric and hydraulic control of the whole device;
-- said cue transmission device (2) is located in front of the middle supporting frame, wherein there are a plurality of cues placed with intervals on top of the cue transmission device (2), in order for the cues to be transmitted into the heat transfer printer;
-- said servo driver comprises a servo motor (13) as well as a screw (14) which is driven by the servo motor (13), wherein the servo motor (13) is located behind the middle supporting frame, and the servo motor (13) and the screw (14) provide energy to the continuous water flow transfer printing of the cues;
-- one side of the cue clamping and fixing device (3) is attached to the screw (14) and performs water flow motion under the action of the screw (14);
-- along the water flow direction within said main frame (12) of the printer, there are sequentially located the heat transfer film automatic positioning device (4), the heat transfer positioning device (5), the heat transfer side sticking device (6), the heat transfer closing device (7), and the heat transfer pressure device (8), and the main frame (12) of the printer is at one end furnished with the automatic cue releasing device (9), the automatic cue fetching and clamping device (10) and the cue fetching machine arm (11), wherein the automatic cue releasing device (9) is for the automatic release of the cues, the automatic cue fetching and clamping device (10) is to clamp the cues which have been released by the automatic cue releasing device (9), and the cue fetching machine arm (11) is to drive the automatic cue fetching and clamping device (10) and to move the cues into the receiving station, -- said heat transfer positioning device (5) is provided with a copying hot roller, whose wheels are facing downwards, -- said heat transfer side sticking device (6) is provided with two vertically placed copying hot rollers, which are symmetrical to each other, and said heat transfer closing device (7) is provided with a copying hot roller, whose wheels are facing upwards, wherein said heat transfer positioning device (5), said heat transfer side sticking device (6) and said heat transfer closing device (7) all cooperate with said cue clamping and fixing device (3) to realize the heat transfer printing process, and -- said heat transfer printer applies infrared heating.
-- said control electricity box (1) is fixed on the upper side of the upper supporting frame for electric and hydraulic control of the whole device;
-- said cue transmission device (2) is located in front of the middle supporting frame, wherein there are a plurality of cues placed with intervals on top of the cue transmission device (2), in order for the cues to be transmitted into the heat transfer printer;
-- said servo driver comprises a servo motor (13) as well as a screw (14) which is driven by the servo motor (13), wherein the servo motor (13) is located behind the middle supporting frame, and the servo motor (13) and the screw (14) provide energy to the continuous water flow transfer printing of the cues;
-- one side of the cue clamping and fixing device (3) is attached to the screw (14) and performs water flow motion under the action of the screw (14);
-- along the water flow direction within said main frame (12) of the printer, there are sequentially located the heat transfer film automatic positioning device (4), the heat transfer positioning device (5), the heat transfer side sticking device (6), the heat transfer closing device (7), and the heat transfer pressure device (8), and the main frame (12) of the printer is at one end furnished with the automatic cue releasing device (9), the automatic cue fetching and clamping device (10) and the cue fetching machine arm (11), wherein the automatic cue releasing device (9) is for the automatic release of the cues, the automatic cue fetching and clamping device (10) is to clamp the cues which have been released by the automatic cue releasing device (9), and the cue fetching machine arm (11) is to drive the automatic cue fetching and clamping device (10) and to move the cues into the receiving station, -- said heat transfer positioning device (5) is provided with a copying hot roller, whose wheels are facing downwards, -- said heat transfer side sticking device (6) is provided with two vertically placed copying hot rollers, which are symmetrical to each other, and said heat transfer closing device (7) is provided with a copying hot roller, whose wheels are facing upwards, wherein said heat transfer positioning device (5), said heat transfer side sticking device (6) and said heat transfer closing device (7) all cooperate with said cue clamping and fixing device (3) to realize the heat transfer printing process, and -- said heat transfer printer applies infrared heating.
2. Intelligent copying heat transfer printer specialized for cues according to claim 1, characterized in that said cue transmission device (2) is a wheel gear driven chain.
3. Intelligent copying heat transfer printer specialized for cues according to claim 1, characterized in that the bottom of the cue clamping and fixing device (3) is furnished with a sliding block which cooperates with the screw (14).
4. Intelligent copying heat transfer printer specialized for cues according to claim 1, characterized in that said heat transfer pressure device (8) comprises two impression rollers which are positioned on the left and the right side of the cue respectively.
5. Intelligent copying heat transfer printer specialized for cues according to claim 1, characterized in that said cue transmission device (2) is provided with an infrared electric eye for orientation at its end.
6. Intelligent copying heat transfer printer specialized for cues according to claim 1, characterized in that said cue clamping and fixing device (3) is provided with a pressure sensor.
7. Intelligent copying heat transfer printer specialized for cues according to claim 1, characterized in that it further comprises an infrared temperature sensor for a timely detection and feedback regulation of the cue temperature during the whole processing procedure.
8. Intelligent copying heat transfer printer specialized for cues according to claim 1, characterized in that the cue fetching machine arm (11) is a software controlled automatic machine arm.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510520511.0 | 2015-08-24 | ||
CN201510520511.0A CN105058967A (en) | 2015-08-24 | 2015-08-24 | Intelligent profiling thermal transfer printer special for ball rods |
Publications (1)
Publication Number | Publication Date |
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CA2911724A1 true CA2911724A1 (en) | 2017-02-24 |
Family
ID=54488579
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CA2911724A Abandoned CA2911724A1 (en) | 2015-08-24 | 2015-11-10 | Intelligent copying heat transfer printer specialized for cues |
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CN (1) | CN105058967A (en) |
CA (1) | CA2911724A1 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105383163B (en) * | 2015-12-25 | 2017-12-08 | 东莞星晖真空镀膜塑胶制品有限公司 | Curved surface gold stamping device suitable for elliptical cylinder-shape product |
CN106826866B (en) * | 2017-03-30 | 2023-05-23 | 青岛恒林工业集团股份有限公司 | Mechanical arm glue-beating forming device and use method thereof |
CN111845103B (en) * | 2020-07-14 | 2021-04-13 | 四川石化雅诗纸业有限公司 | Online sign indicating number system of beating of heat-transfer seal |
Family Cites Families (11)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1146400A (en) * | 1995-09-27 | 1997-04-02 | 蔡政宪 | Thermal transfer printing machine |
CN2456914Y (en) * | 2000-11-14 | 2001-10-31 | 王胜朋 | Improvement of heating structure of transfer machine |
CN2496652Y (en) * | 2001-04-16 | 2002-06-26 | 澄海市东田转印材料厂 | Transfer printing machine to print square-column workpiece |
CN200974352Y (en) * | 2006-07-31 | 2007-11-14 | 鲍启林 | Fixing structure for automatic heat transfer press glue stick |
US20100307352A1 (en) * | 2009-06-08 | 2010-12-09 | Kuo-Cheng Huang | Keyboard thermal transfer printer |
CN201665047U (en) * | 2009-12-25 | 2010-12-08 | 锴兴工业股份有限公司 | Three-dimensional surface transfer machine of hockey stick |
CN102463738A (en) * | 2010-11-12 | 2012-05-23 | 钟孟颂 | Special copying heat-transfer machine for ice hockey stick and hockey stick |
CN102485485B (en) * | 2010-12-06 | 2014-12-10 | 夏亚翔 | Special profiling heat transfer process for disposable ball rod |
CN102991108A (en) * | 2012-11-30 | 2013-03-27 | 苏州一致电子制程有限公司 | Heating mechanism of thermal transfer printer |
CN203611553U (en) * | 2013-11-22 | 2014-05-28 | 青岛海刚烫印设备制造有限公司 | Automatic transfer printing device for side surface of photo frame |
CN205086471U (en) * | 2015-08-24 | 2016-03-16 | 夏亚宁 | Special profile modeling heat transfer machine of intelligent club |
-
2015
- 2015-08-24 CN CN201510520511.0A patent/CN105058967A/en active Pending
- 2015-11-10 CA CA2911724A patent/CA2911724A1/en not_active Abandoned
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CN105058967A (en) | 2015-11-18 |
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Effective date: 20181113 |