CN111532020B

CN111532020B - Semi-closed thermoprinting machine

Info

Publication number: CN111532020B
Application number: CN202010478323.7A
Authority: CN
Inventors: 张天益; 许金阳; 缪鑫; 江白雪; 吉兴雨; 周杰; 牛超杰
Original assignee: Jiangsu Taijia New Material Technology Co ltd
Current assignee: Jiangsu Taijia New Material Technology Co.,Ltd.
Priority date: 2020-05-29
Filing date: 2020-05-29
Publication date: 2022-01-11
Anticipated expiration: 2040-05-29
Also published as: CN111532020A

Abstract

A semi-closed thermoprinting machine comprises a smoke outlet, an operation hole, a discharge hole, a thermoprinting machine main body and a feed inlet, wherein the smoke outlet provided with an air draft fan is arranged at the top of the thermoprinting machine main body; the semi-closed thermoprinting machine adopts a semi-closed design, and closed type thermoprinting is finished through the semi-closed thermoprinting machine without manual auxiliary operation, so that the personnel operation can be reduced, the production efficiency is improved, and the production cost is reduced.

Description

Semi-closed thermoprinting machine

Technical Field

The invention relates to the field of hot stamping machines, in particular to a semi-closed hot stamping machine.

Background

Stamping a stamping foil on a printed piece, melting an adhesive layer of the stamping foil to separate a pigment carrier from a paper base, and thermally pressing image pigments on a printing surface until the pigments are adhered to the printed surface, wherein the cloth is usually processed by a stamping method, and the width of the printed banner is close to that of the cloth, so that the blanket can be replaced when the printing is performed, otherwise, the printing ink on the blanket can be printed on the cloth below the printing ink, and the mottled shadow! And blanket replacement is prohibitively expensive. The existing manual processing mode is that two people pull the cloth edges to enable the cloth to enter the hot stamping in the spreading state, so that a worker often scalds hands, and if the cloth edges are not a semi-closed hot stamping machine, a large amount of printing ink gas can be generated in the hot stamping process, the person is very smoked, and after the cloth is printed, the temperature of a printing roller is too high and cannot be in direct contact with a blanket for a long time, so that after the heating of a soap and flower roller is stopped, the blanket still idles for about 4 hours, the machine can be stopped when the temperature is reduced, the electricity is wasted, manual waiting is needed, time and labor are wasted, and therefore the applicant designs the semi-closed hot stamping machine according to the characteristics of the hot stamping machine.

Disclosure of Invention

The semi-closed thermoprinting machine adopts a semi-closed design, and closed type thermoprinting is finished through the semi-closed thermoprinting machine without manual auxiliary operation, so that personnel operation can be reduced, the production efficiency is improved, and the production cost is reduced;

a semi-closed thermoprinting machine comprises a smoke outlet, an operation hole, a discharge hole, a thermoprinting machine main body and a feed inlet, wherein the smoke outlet provided with an air draft fan is arranged at the top of the thermoprinting machine main body;

the hot stamping machine main body comprises an embossing roller, an auxiliary winding drum, a stepping motor, a coupler, a driving rod, a spring rod, a lifting track, a roller support, a double-threaded rod, a blanket, a driving shaft, a support frame, a driving roller, a driving motor, a belt wheel transmission mechanism, a frame II, a limiting track I, a polished rod, a shaft frame, a spring, a limiting groove and a limiting track II, wherein the auxiliary winding drum is arranged on two sides of the embossing roller in a pair, the driving roller is arranged below the embossing roller, the blanket is wound on the auxiliary winding drum and the driving roller and is adhered below the embossing roller and pressed by the embossing roller, the embossing roller is fixed in the frame II of the hot stamping machine main body, the auxiliary winding drum is fixed in the roller support through rotating shafts at two ends, the driving roller rotating shaft is connected with a driving shaft of the driving motor through the belt wheel transmission mechanism and is driven by the driving motor, and the middle parts of the polished rod and the double-threaded rod respectively pass through mounting holes of the lifting track, the double-thread rod two-end screw thread end and the polished rod both ends pass two cylinder support of one side respectively, the lift track front end has the protruding axle, there is spacing track two lift track both sides, the lift track leans on two one sides of frame to have spacing groove and spacing track one cooperation, the cylinder support is on corresponding spacing track two, there is the support frame that supplies the lift track to place after dropping and the spacing track one that the lift track goes up and down in two outsides of frame of thermoprinting machine main part, the protruding axle links to each other with corresponding spring beam upper end, there is one row of spring in the spring beam middle part, the spring beam lower extreme links to each other with the actuating lever upper end through the pivot, the actuating lever lower extreme passes through the pedestal and fixes and links to each other with two interior drive shaft tip of frame, articulated spring beam on the actuating lever, spring beam lower extreme pivot is passed through the shaft coupling and is advanced to link to each other with the motor drive axle.

As a further improvement of the invention, the sensor is a laser sensor, and the sensor is mainly used for monitoring whether the advancing of the cloth deviates or not.

As a further improvement of the invention, the two sides of the thermoprinting machine main body are provided with observation holes and transparent plates, and the working condition in the equipment can be observed through the observation holes.

As a further improvement of the invention, a row of fan mounting openings are respectively arranged at the bottoms of the two sides of the hot stamping machine main body and above the discharge opening and the feeding opening, and fans are mounted in the fan mounting openings and discharge the internal printing ink through the fans.

As a further improvement of the invention, a second counter flow baffle is arranged in the discharge port, and a first counter flow baffle is arranged in the feeding port, so that the temperature of the ink gas is higher and the ink gas tends to rise during operation, and therefore, fans are arranged around the bottom of the machine shell. The fans are also arranged above the feed inlet and the discharge outlet, and the tail ends of the countercurrent baffles have inward small radians, so that the air resistance of the ink gas diffusion is improved under the action of the fans. The fan at the discharge port has a cooling effect on the printed cloth and blows off the ink gas emitted from the cloth, thereby reducing the amount of the ink gas emitted after the cloth comes out.

As a further improvement of the invention, one side of the driving rod is provided with a limiting plate, and the movement of the driving rod can be limited by the limiting plate.

The hot stamping part adopts a full-automatic semi-closed design, and is designed as follows;

lifting the track: the progressive motor is connected with the driving shaft through a coupling. Two driving rods are fixed on the driving shaft and symmetrically arranged on two sides of the frame. The driving rod is hinged with a spring rod, and the other end of the spring rod is hinged on a convex shaft of the lifting track. And the limiting groove on the lifting track and the limiting track on the rack ensure the lifting in the vertical direction. When the lifting track is lowered, the lifting track is stopped on the support frame.

The two auxiliary winding drums and the driving drum support the blanket, and the outer surface of the upper part of the blanket is tightly attached to the pattern ironing drum.

Adjusting the distance between the rollers: double-threaded rod and polished rod are installed respectively to two orbital mounting holes that go up and down, and double-threaded rod both ends screw thread is opposite, and the centre is the optical axis, and optical axis threaded connection department has the spacing piece, consequently rotates double-threaded rod, adjustable supplementary reel interval, and the central point between the cylinder does not change, and the woollen blanket can not squint.

A reverse flow baffle: when the air conditioner works, the temperature of the ink gas is high, and the ink gas tends to rise, so that the fan is arranged around the bottom of the machine shell. The fans are also arranged above the feed inlet and the discharge outlet, and the tail ends of the countercurrent baffles have inward small radians, so that the air resistance of the ink gas diffusion is improved under the action of the fans. The fan at the discharge port has a cooling effect on the printed cloth and blows off the ink gas emitted from the cloth, thereby reducing the amount of the ink gas emitted after the cloth comes out.

Drawings

FIG. 1 is a schematic view of the overall structure of the present application;

FIG. 2 is a flowchart of the present application;

FIG. 3 is a schematic view I of a stamping part of the application;

FIG. 4 is a schematic view II of a stamping part of the application;

FIG. 5 is a schematic diagram of a third hot stamping part of the application;

FIG. 6 is a schematic diagram of a fourth hot stamping part of the application;

FIG. 7 is a schematic view of a fourth stamping part of the present application;

FIG. 8 is a schematic diagram of a fifth stamping part of the application;

in the figure:

1. a feeding mechanism; 2. an automated cloth feeding mechanism; 3. a semi-enclosed thermoprinting machine; 4. a storage mechanism; 3-1, a smoke outlet; 3-2, operating holes; 3-3. fan; 3-4 parts of a discharge port, 3-5 parts of a thermoprinting machine main body, 3-5-1 parts of a pattern stamping roller; 3-5-2. auxiliary winding drum; 3-5-3, step motor; 3-5-4. a coupler; 3-5-5. driving rod; 3-5-6 spring rod; 3-5-7, lifting rail; 3-5-8, roller bracket; 3-5-9. double threaded rod; 3-5-10. blanket; 3-5-11. a driving shaft; 3-5-12. a support frame; 3-5-13, driving the roller; 3-5-14. driving the motor; 3-5-15 limiting plates; 3-5-16, belt wheel transmission mechanism; 3-5-17, a second machine frame; 3-5-18, a first limiting track; 3-5-19, polished rod; 3-5-20, axle bracket; 3-5-21. spring; 3-5-22, a limit groove; 3-5-23, a second limiting track; 3-5-24, mounting holes; 3-5-25, convex shaft; 3-5-26, a first counter-flow baffle; 3-5-27. a second counter-flow baffle; 2-5-28. a threaded end; 3-5-29. fan mounting port; 3-5-30, observation hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The semi-closed hot stamping machine adopts a semi-closed design, and closed hot stamping is finished through the semi-closed hot stamping machine without manual auxiliary operation, so that personnel operation can be reduced, the production efficiency is improved, and the production cost is reduced.

As an embodiment of the invention, the application provides a semi-closed type thermoprinting machine 3 shown in figures 1-8, which comprises an exhaust port 3-1, an operation hole 3-2, a discharge port 3-4, a thermoprinting machine main body 3-5 and a feed port 3-6, wherein the top of the thermoprinting machine main body 3-5 is provided with the exhaust port 3-1 provided with an air draft fan, the upper part of the front side of the thermoprinting machine main body 3-5 is provided with the feed port 3-6 for a frame I2-7 of an automatic cloth feeding mechanism 2 to extend into, the bottom of the rear side of the thermoprinting machine main body 3-5 is provided with the discharge port 3-4, the thermoprinting machine main body 3-5 is provided with the operation hole 3-2 close to the discharge port 3-4, the two sides of the thermoprinting machine main body 3-5 are provided with observation holes 3-5-30 and are provided with transparent plates, the working condition in the equipment can be observed through the observation holes, the bottom of two sides of the hot stamping machine main body 3-5, the discharge port 3-4 and the feeding port 3-6 are respectively provided with a row of fan mounting ports 3-5-29, the fans 3-3 are mounted in the fan mounting ports 3-5-29, internal ink is discharged through the fans, a counter-flow baffle plate II 3-5-27 is arranged in the discharge port 3-4, and a counter-flow baffle plate I3-5-26 is arranged in the feeding port 3-6. The fans are also arranged above the feed inlet and the discharge outlet, and the tail ends of the countercurrent baffles have inward small radians, so that the air resistance of the ink gas diffusion is improved under the action of the fans. The fan at the discharge port has a cooling effect on the printed cloth and blows off ink gas emitted from the cloth, so that the amount of the ink gas emitted from the cloth is reduced, a limiting plate 3-5-15 is arranged on one side of the driving rod 3-5-5, and the movement of the driving rod can be limited through a limiting rod;

the hot stamping machine main body 3-5 comprises a hot stamping roller 3-5-1, an auxiliary winding drum 3-5-2, a stepping motor 3-5-3, a coupler 3-5-4, a driving rod 3-5-5, a spring rod 3-5-6, a lifting track 3-5-7, a roller bracket 3-5-8, a double-thread rod 3-5-9, a blanket 3-5-10, a driving shaft 3-5-11, a supporting frame 3-5-12, a driving roller 3-5-13, a driving motor 3-5-14, a belt wheel transmission mechanism 3-5-16, a frame II 3-5-17, a limiting track I3-5-18, a polished rod 3-5-19, a feeding rod 3-5-19, 3-5-20 parts of a shaft bracket, 3-5-21 parts of a spring, 3-5-22 parts of a limiting groove and a second limiting track 3-5-23 parts, wherein a pair of auxiliary winding drums 3-5-2 is arranged at two sides of an ironing roller 3-5-1, a driving roller 3-5-13 is arranged below the ironing roller 3-5-1, a blanket 3-5-10 is wound on the auxiliary winding drum 3-5-2 and the driving roller 3-5-13 and is adhered below the ironing roller 3-5-1 and is pressed by the ironing roller 3-5-1, the ironing roller 3-5-1 is fixed in the second frame 3-5-17 of a main body 3-5 of the thermoprinting machine, the auxiliary winding drums 3-5-2 are fixed in the second roller bracket 3-5-8 parts of the roller bracket through rotating shafts at two ends, the rotary shaft of the driving roller 3-5-13 is connected with a driving shaft of a driving motor 3-5-14 through a belt wheel transmission mechanism 3-5-16 and is driven by the driving motor 3-5-14, the middle parts of the polished rod 3-5-19 and the double-thread rod 3-5-9 respectively pass through a mounting hole 3-5-24 of a lifting track 3-5-7, the thread ends 3-5-28 at two ends of the double-thread rod 3-5-9 and two ends of the polished rod 3-5-19 respectively pass through two roller supports 3-5-8 at one side, the front end of the lifting track 3-5-7 is provided with a convex shaft 2-5-25, two sides of the lifting track 3-5-7 are provided with a second limiting track 3-5-23, the lifting track 3-5-7 is matched with the limiting track I3-5-18 through a limiting groove 3-5-22 at one side close to the rack II 3-5-17, the roller support 3-5-8 is arranged on the corresponding limiting track II 3-5-23, a support frame 3-5-12 for placing the lifting track 3-5-7 after descending and a limiting track I3-5-18 for lifting the lifting track 3-5-7 are arranged at the outer side of the rack II 3-5-17 of the thermoprinting machine main body 3-5, the convex shaft 2-5-25 is connected with the upper end of the corresponding spring rod 3-5-6, a row of springs 3-5-21 are arranged in the middle of the spring rod 3-5-6, the lower end of the spring rod 3-5-6 is connected with the upper end of the driving rod 3-5-5 through a rotating shaft The lower end of the driving rod 3-5-5 is fixed through a shaft bracket 3-5-20 and is connected with the end part of a driving shaft 3-5-11 in the frame II 3-5-17, and a rotating shaft at the lower end of the spring rod 3-5-6 is connected with a driving shaft of a stepping motor 3-5-3 through a shaft coupling 3-5-4.

The cloth hot stamping assembly line comprises a feeding mechanism 1, an automatic cloth feeding mechanism 2, a semi-closed hot stamping machine 3 and an accommodating mechanism 4, wherein the feeding mechanism 1, the automatic cloth feeding mechanism 2, the semi-closed hot stamping machine 3 and the accommodating mechanism 4 are sequentially arranged, the feeding mechanism 1 is arranged at the feeding end of the automatic cloth feeding mechanism 2, the accommodating mechanism 4 is arranged at the discharging end of the semi-closed hot stamping machine 3, and one end of a first frame 2-7 of the automatic cloth feeding mechanism 2 extends into the semi-closed hot stamping machine 3 to lean against one side of a blanket 3-5-10 of the semi-closed hot stamping machine 3.

The semi-closed thermoprinting machine has the following design points;

lifting of the lifting track: the progressive motor 3-5-3 is connected with the driving shaft 3-5-11 through a coupling 3-5-4. Two driving rods 3-5-5 are fixed on the driving shafts 3-5-11 and symmetrically arranged at two sides of the second frame 3-5-17. The driving rod 3-5-5 is hinged with a spring rod 3-5-6, and the other end of the spring rod 3-5-6 is hinged with a convex shaft 3-5-25 of the lifting track 3-5-7. And the limiting grooves 3-5-22 on the lifting rails 3-5-7 and the limiting rails 3-5-18 on the rack ensure the lifting in the vertical direction. When the lifting rail 3-5-7 is lowered, the lifting rail is stopped on the support frame 3-5-12.

The roller supports 3-5-8 are symmetrically arranged on each lifting track and used for installing the auxiliary rollers 3-5-2, the two auxiliary rollers 3-5-2 and the driving rollers 3-5-13 support the blanket 3-5-10, and the outer surface of the upper part of the blanket is tightly attached to the pyrograph roller 3-5-1.

Adjusting the distance between the rollers: the double-threaded rod 3-5-9 and the polished rod 3-5-19 are respectively installed in the installation holes 3-5-24 of the two lifting rails 3-5-7, the threads at the two ends of the double-threaded rod 3-5-9 are opposite, the optical axis is arranged in the middle, and a limiting block is arranged at the threaded connection part of the optical axis, so that the distance between the auxiliary winding drums 3-5-2 can be adjusted by rotating the double-threaded rod 3-5-9, the central point between the drums is not changed, and the blanket cannot deviate.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. A semi-closed hot stamping machine comprises a smoke outlet (3-1), an operation hole (3-2), a discharge hole (3-4), a hot stamping machine main body (3-5) and a feeding hole (3-6), wherein the smoke outlet (3-1) provided with an air draft fan is arranged at the top of the hot stamping machine main body (3-5), the feeding hole (3-6) for a rack I (2-7) of an automatic cloth feeding mechanism (2) to extend into is arranged at the upper part of the front side of the hot stamping machine main body (3-5), the discharge hole (3-4) is arranged at the bottom of the rear side of the hot stamping machine main body (3-5), and the operation hole (3-2) is formed in the hot stamping machine main body (3-5) close to the discharge hole (3-4);

the hot stamping machine main body (3-5) comprises a hot stamping roller (3-5-1), an auxiliary winding drum (3-5-2), a stepping motor (3-5-3), a coupler (3-5-4), a driving rod (3-5-5), a spring rod (3-5-6), a lifting track (3-5-7), a roller support (3-5-8), a double-threaded rod (3-5-9), a blanket (3-5-10), a driving shaft (3-5-11), a support frame (3-5-12), a driving roller (3-5-13), a driving motor (3-5-14), a belt wheel transmission mechanism (3-5-16), a second rack (3-5-17), A first limiting track (3-5-18), a polished rod (3-5-19), a shaft bracket (3-5-20), a spring (3-5-21), a limiting groove (3-5-22) and a second limiting track (3-5-23), wherein a pair of auxiliary winding drums (3-5-2) are arranged on two sides of the pyrograph drum (3-5-1), a driving drum (3-5-13) is arranged below the pyrograph drum (3-5-1), the blanket (3-5-10) is wound on the auxiliary winding drums (3-5-2) and the driving drum (3-5-13) and is adhered to the lower part of the pyrograph drum (3-5-1) and is pressed by the pyrograph drum (3-5-1), and the pyrograph drum (3-5-1) is fixed on the machine body (3-5) of the pyrograph machine The auxiliary winding drum (3-5-2) is fixed in the roller bracket (3-5-8) through rotating shafts at two ends in the second frame (3-5-17), the rotating shaft of the driving roller (3-5-13) is connected with the driving shaft of the driving motor (3-5-14) through the belt wheel transmission mechanism (3-5-16), the driving roller (3-5-13) is driven by the driving motor (3-5-14), the driving motor (3-5-14) is provided with a driving roller (3-5-13) arranged at one side of the second frame (3-5-17), the middle parts of the polished rod (3-5-19) and the double threaded rod (3-5-9) respectively penetrate through the mounting holes (3-5-24) of the lifting rail (3-5-7), the double-threaded rod (3-5-9) is characterized in that the threaded ends (3-5-28) at the two ends of the double-threaded rod (3-5-9) and the two ends of the polished rod (3-5-19) respectively penetrate through the two roller supports (3-5-8) on one side, the front end of the lifting track (3-5-7) is provided with a protruding shaft (2-5-25), the two sides of the lifting track (3-5-7) are provided with a second limiting track (3-5-23), a limiting groove (3-5-22) on one side, close to the second rack (3-5-17), of the lifting track (3-5-7) is matched with the first limiting track (3-5-18), the roller supports (3-5-8) are arranged on the corresponding second limiting tracks (3-5-23), and the outer side of the second rack (3-5-17) of the hot stamping machine main body (3-5) is provided with the lifting track (3-5-18) (3-5-7) a support frame (3-5-12) placed after descending and a first limit track (3-5-18) for ascending and descending of the ascending and descending track (3-5-7), wherein the protruding shaft (2-5-25) is connected with the upper end of the corresponding spring rod (3-5-6), a row of springs (3-5-21) is arranged in the middle of the spring rod (3-5-6), the lower end of the spring rod (3-5-6) is connected with the upper end of the driving rod (3-5-5) through a rotating shaft, the lower end of the driving rod (3-5-5) is fixed through a shaft bracket (3-5-20) and is connected with the end part of a driving shaft (3-5-11) in the second rack (3-5-17), the driving rod (3-5-5) is hinged with the spring rod (3-5-6), the lower end rotating shaft of the driving rod (3-5-5) is connected with a driving shaft of a progressive motor (3-5-3) through a coupler (3-5-4), and the progressive motor (3-5-3) is provided with a driving rod (3-5-5) arranged on one side of the second rack (3-5-17).

2. A semi-enclosed hot stamping machine as claimed in claim 1, wherein: two sides of the hot stamping machine main body (3-5) are provided with observation holes (3-5-30) and transparent plates.

3. A semi-enclosed hot stamping machine as claimed in claim 1, wherein: the bottom parts of the two sides of the hot stamping machine main body (3-5), the discharge port (3-4) and the feeding port (3-6) are respectively provided with a row of fan mounting ports (3-5-29), and the fans (3-3) are mounted in the fan mounting ports (3-5-29).

4. A semi-enclosed hot stamping machine as claimed in claim 1, wherein: a second counter-flow baffle (3-5-27) is arranged in the discharge port (3-4), and a first counter-flow baffle (3-5-26) is arranged in the feeding port (3-6).

5. A semi-enclosed hot stamping machine as claimed in claim 1, wherein: one side of the driving rod (3-5-5) is provided with a limiting plate (3-5-15).