CN218615879U - High-speed energy-saving combined double-sided printing machine - Google Patents

Abstract

The utility model relates to a lithography apparatus technical field specifically is a high-speed energy-conserving combination formula perfecting press. The printing device comprises a fixed frame, a movable frame, a printing roller A and a printing roller B; the movable frame is arranged on the fixed frame; the fixed frame is provided with a lower fixed roller, the movable frame is provided with an upper fixed roller, the printing roller A is arranged on the fixed frame, the printing roller B is arranged on the movable frame, and the fixed frame and the movable frame are both provided with drying components; the rotating shaft A is rotatably arranged on the fixed frame and is in transmission connection with the printing roller A through a belt; the fixed frame is arranged on the fixed frame, and a rotating shaft B is arranged on the fixed frame; the blowing cover is arranged on the fixed frame; the fan is arranged on the rotating shaft B, and a bevel gear B is arranged on the rotating shaft B; the bevel gear A is arranged on the rotating shaft A and is in meshed transmission connection with the bevel gear B. The utility model effectively utilizes mechanical energy, and is more energy-saving and environment-friendly; the device is prevented from working for a long time and being overheated, heat generated by the device is conveniently discharged, the device is prevented from being damaged due to poor heat dissipation of the device, and the practicability is good.

Description

High-speed energy-saving combined double-sided printing machine

Technical Field

The utility model relates to a lithography apparatus technical field specifically is a high-speed energy-conserving combination formula perfecting press.

Background

The printing is a technology of transferring printing ink to the surface of paper, fabric, plastic products, leather and other materials through plate making, ink applying, pressurizing and other processes on the original documents such as characters, pictures, photos, anti-counterfeiting and the like, and copying the content of the original documents in batches, wherein the printing is a process of transferring printing plates approved by examination and verification to a printing stock through a printing machine and special printing ink; as the demand for printing increases, printing machines are necessary for the printing process, and printing apparatuses such as a single-side printing machine, a double-side printing machine, and a color printing machine are increasing.

The Chinese patent with the publication number of CN212266987U discloses a high-speed energy-saving combined double-sided printing machine, which comprises a printing box, wherein a feeding hole is formed in the bottom of one side of the printing box, a pair of first guide rollers are arranged on the inner side of the feeding hole, a first support rod is arranged on one side, close to the feeding hole, of the bottom of the inner side of the printing box, a first printing roller is movably mounted at the top of the first support rod, a first dryer is arranged on one side of the first printing roller, a first movable rod penetrates through the bottom of the inner side of the printing box, a pair of first conveying rollers are mounted at the upper end of the first movable rod, a first movable plate is fixed at the bottom of the first movable rod, a second support rod is arranged at the bottom of the inner side of the printing box, a first transition roller is movably mounted at the top of the second support rod, a discharging hole is formed in the upper end of the other side of the printing box, a pair of second guide rollers is arranged on the inner side of the discharging hole, and printing cloth is lapped between the feeding hole and the discharging hole; the wrinkling phenomenon can be prevented, the printing quality is improved, and the production quality and the production efficiency of the printing cloth are improved.

In the above publication, the printed cloth is dried by a dryer to accelerate drying and prevent the printed surface from being damaged; the wrinkling phenomenon is prevented through the adjusting mechanism, and the printing quality is improved; however, when printing, it is necessary to consume electric power to heat the dryer for drying; the energy consumption is increased; meanwhile, the inside of the equipment is heated, and the precise parts or control panels inside the equipment are easily influenced after long-time work, so that the equipment loss is accelerated, and the practicability is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems in the background technology and providing a device which can effectively utilize mechanical energy, is more energy-saving and environment-friendly; the high-speed energy-saving combined double-sided printing machine has the advantages that the equipment is prevented from working for a long time and being overheated, heat generated by the equipment is conveniently discharged, the equipment is prevented from being damaged due to poor heat dissipation of the equipment, and the high-speed energy-saving combined double-sided printing machine is good in practicability.

The technical scheme of the utility model: a high-speed energy-saving combined double-sided printing machine comprises a fixed frame, a movable frame, a printing roller A and a printing roller B;

the movable frame is arranged on the fixed frame, and an inlet and an outlet are arranged on two sides of the fixed frame and two sides of the movable frame; the printing device comprises a fixed frame, a printing roller A, a printing roller B, a drying component, a fixed frame, a movable frame and a printing roller, wherein the fixed frame is provided with a lower fixed roller, the movable frame is provided with an upper fixed roller, the printing roller A is arranged on the fixed frame and is positioned between the lower fixed roller and an inlet, the printing roller B is arranged on the movable frame and is positioned between the upper fixed roller and an outlet, and the fixed frame and the movable frame are both provided with the drying component; the drying component comprises a belt, a rotating shaft A, a fixing frame, an air blowing cover, a fan and a bevel gear A; the rotating shaft A is rotatably arranged on the fixed frame and is in transmission connection with the printing roller A through a belt; the fixing frame is arranged on the fixing frame, and a rotating shaft B is arranged on the fixing frame; the blowing cover is arranged on the fixed frame, and the blowing direction of the blowing cover faces to the workpiece to be printed; the fan is arranged on the rotating shaft B and positioned in the air blowing cover, and a bevel gear B is arranged on the rotating shaft B; the bevel gear A is arranged on the rotating shaft A and is in meshed transmission connection with the bevel gear B.

Preferably, the drying assembly is arranged on the movable frame in the same way as the drying assembly is arranged on the fixed frame.

Preferably, the device also comprises a buckle and a hinge; the movable frame is rotatably arranged on the fixed frame through the hinge, and the movable frame and the fixed frame are locked through the buckle.

Preferably, the device further comprises a pressing piece; the four groups of pressing components are arranged on the fixed frame and the movable frame in pairs, are respectively positioned close to the inlet and the outlet and are mutually propped against each other.

Preferably, the pressing piece comprises a squeezing roller, a bracket, a guide rod and a spring; the guide rod is arranged on the fixed frame in a sliding manner, and a support is arranged on the guide rod; the spring is sleeved on the guide rod and props against the fixed frame and the support, and the squeeze roll is rotatably arranged on the support.

Preferably, the number of the guide rods is two and the guide rods are symmetrically distributed on the bracket.

Preferably, the pressing piece is arranged on the movable frame in the same way as the pressing piece is arranged on the fixed frame.

Compared with the prior art, the utility model discloses following profitable technological effect has:

1. opening the buckle to open the movable frame along the hinge, then placing the cloth to be printed on the printing roller A and the lower fixed roller and penetrating out of the outlet, straightening, and locking the direction of the movable frame through the buckle; the printing roller A and the printing roller B are sequentially started to perform printing work, and the belt rotates along with the printing roller A and the printing roller B and drives the rotating shaft A to rotate; the bevel gear A arranged on the rotating shaft A rotates and drives the bevel gear B to rotate, so that the rotating shaft B is driven to drive the fan to rotate and generate wind to blow to the printed surface of the printing cloth, and the working process of the drying assembly arranged on the movable frame is the same as that of the drying assembly arranged on the movable frame; the utility model can accelerate drying, prevent the printing surface from being damaged, simultaneously does not need additional energy supply, effectively utilizes mechanical energy, and is more energy-saving and environment-friendly;

2. the device is prevented from overheating due to long-time work in the device, heat generated by the device is conveniently discharged, the device is prevented from being damaged due to poor heat dissipation of the device, and the practicability is good; prevent printing cloth fold through the multiunit on fixed frame and the movable frame and compress tightly the piece, and easy to assemble and production.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

FIG. 4 is a schematic view of a partial connection of the drive assembly to the drying assembly;

fig. 5 is a schematic structural view of the pressing member.

Reference numerals: 1. a fixing frame; 2. a movable frame; 3. a compression member; 4. an upper fixed roller; 5. a lower fixed roller; 6. an inlet; 7. an outlet; 8. a printing roller A; 9. a printing roller B; 10. a belt; 11. a rotating shaft A; 12. a rotating shaft B; 13. a fixed mount; 14. a blowing hood; 15. a fan; 16. a bevel gear A; 17. a bevel gear B; 18. a squeeze roll; 19. a support; 20. a guide bar; 21. a spring; 22. buckling; 23. and (7) a hinge.

Detailed Description

Example one

As shown in fig. 1 and 4, the high-speed energy-saving combined double-sided printing machine provided by the present invention comprises a fixed frame 1, a movable frame 2, a printing roller A8 and a printing roller B9;

the movable frame 2 is arranged on the fixed frame 1, and an inlet 6 and an outlet 7 are arranged on two sides of the fixed frame 1 and two sides of the movable frame 2; a lower fixed roller 5 is arranged on the fixed frame 1, an upper fixed roller 4 is arranged on the movable frame 2, a printing roller A8 is arranged on the fixed frame 1 and is positioned between the lower fixed roller 5 and the inlet 6, a printing roller B9 is arranged on the movable frame 2 and is positioned between the upper fixed roller 4 and the outlet 7, and drying components are arranged on the fixed frame 1 and the movable frame 2; the drying component comprises a belt 10, a rotating shaft A11, a fixing frame 13, an air blowing cover 14, a fan 15 and a bevel gear A16; the rotating shaft A11 is rotatably arranged on the fixed frame 1, and the rotating shaft A11 is in transmission connection with the printing roller A8 through a belt 10; the fixed frame 13 is arranged on the fixed frame 1, and the fixed frame 13 is provided with a rotating shaft B12; the air blowing cover 14 is arranged on the fixed frame 13, and the air blowing direction of the air blowing cover 14 faces to the workpiece to be printed; the fan 15 is arranged on the rotating shaft B12 and positioned in the air blowing cover 14, and a bevel gear B17 is arranged on the rotating shaft B12; the bevel gear A16 is arranged on the rotating shaft A11 and is in meshed transmission connection with the bevel gear B17; the arrangement mode of the drying component on the movable frame 2 is the same as that of the drying component on the fixed frame 1; as shown in fig. 2-3, the utility model also comprises a buckle 22 and a hinge 23; the movable frame 2 is rotatably arranged on the fixed frame 1 through a hinge 23, and the movable frame 2 and the fixed frame 1 are locked through a buckle 22.

In the embodiment, during work, the buckle 22 is opened to open the movable frame 2 along the hinge 23, then the cloth to be printed is placed on the printing roller A8 and the lower fixed roller 5 and penetrates out of the outlet, and then the cloth is straightened and the direction of the movable frame 2 is locked through the buckle 22; sequentially starting the printing roller A8 and the printing roller B9 to perform printing work; then, the belt 10 rotates along with the printing roller A8 and the printing roller B9 and drives the rotating shaft A11 to rotate; the bevel gear A16 arranged on the rotating shaft A11 rotates and drives the bevel gear B17 to rotate, so that the rotating shaft B12 is driven to drive the fan 15 to rotate and generate wind to blow to the printed surface of the printing cloth, and the working process of the drying assembly arranged on the movable frame 2 is the same as that of the drying assembly; the utility model can accelerate drying, prevent the printing surface from being damaged, and simultaneously, does not need additional energy supply, effectively utilizes mechanical energy, and is more energy-saving and environment-friendly; on the other hand, the device is prevented from being overheated due to long-time work in the device, heat generated by the device is conveniently discharged, the device is prevented from being damaged due to poor heat dissipation of the device, and the practicability is good.

Example two

The utility model provides a high-speed energy-saving combined double-sided printing machine, which comprises a fixed frame 1, a movable frame 2, a printing roller A8 and a printing roller B9;

as shown in fig. 1-4, the movable frame 2 is arranged on the fixed frame 1, and both sides of the fixed frame 1 and the movable frame 2 are provided with an inlet 6 and an outlet 7; a lower fixed roller 5 is arranged on the fixed frame 1, an upper fixed roller 4 is arranged on the movable frame 2, a printing roller A8 is arranged on the fixed frame 1 and is positioned between the lower fixed roller 5 and the inlet 6, a printing roller B9 is arranged on the movable frame 2 and is positioned between the upper fixed roller 4 and the outlet 7, and drying components are arranged on the fixed frame 1 and the movable frame 2; the drying component comprises a belt 10, a rotating shaft A11, a fixing frame 13, an air blowing cover 14, a fan 15 and a bevel gear A16; the rotating shaft A11 is rotatably arranged on the fixed frame 1, and the rotating shaft A11 is in transmission connection with the printing roller A8 through a belt 10; the fixed frame 13 is arranged on the fixed frame 1, and the fixed frame 13 is provided with a rotating shaft B12; the air blowing cover 14 is arranged on the fixed frame 13, and the air blowing direction of the air blowing cover 14 faces to the workpiece to be printed; the fan 15 is arranged on the rotating shaft B12 and positioned in the air blowing cover 14, and a bevel gear B17 is arranged on the rotating shaft B12; the bevel gear A16 is arranged on the rotating shaft A11 and is in meshed transmission connection with the bevel gear B17; the arrangement mode of the drying component on the movable frame 2 is the same as that of the drying component on the fixed frame 1; as shown in fig. 2-3, the utility model also comprises a buckle 22 and a hinge 23; the movable frame 2 is rotatably arranged on the fixed frame 1 through a hinge 23, and the movable frame 2 and the fixed frame 1 are locked through a buckle 22;

compared with the first embodiment, as shown in fig. 1 and 5, the present embodiment further includes a pressing member 3; the four pressing components 3 are arranged on the fixed frame 1 and the movable frame 2 in pairs, are respectively positioned at the positions close to the inlet 6 and the outlet 7 and are mutually abutted; the pressing piece 3 comprises a pressing roller 18, a bracket 19, a guide rod 20 and a spring 21; the guide rod 20 is arranged on the fixed frame 1 in a sliding manner, and the guide rod 20 is provided with a bracket 19; the spring 21 is sleeved on the guide rod 20 and props against the fixed frame 1 and the bracket 19, and the extrusion roller 18 is rotatably arranged on the bracket 19; the number of the guide rods 20 is two and the guide rods are symmetrically distributed on the bracket 19; the pressing piece 3 is arranged on the movable frame 2 in the same way as the pressing piece 3 is arranged on the fixed frame 1.

In this embodiment, compress tightly piece 3 through the multiunit on fixed frame 1 and the movable frame 2 and prevent the printing cloth fold, and easy to assemble and production.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (7)

1. A high-speed energy-saving combined double-sided printing machine is characterized by comprising a fixed frame (1), a movable frame (2), a printing roller A (8) and a printing roller B (9);

the movable frame (2) is arranged on the fixed frame (1), and an inlet (6) and an outlet (7) are arranged on both sides of the fixed frame (1) and the movable frame (2); a lower fixed roller (5) is arranged on the fixed frame (1), an upper fixed roller (4) is arranged on the movable frame (2), a printing roller A (8) is arranged on the fixed frame (1) and is positioned between the lower fixed roller (5) and the inlet (6), a printing roller B (9) is arranged on the movable frame (2) and is positioned between the upper fixed roller (4) and the outlet (7), and drying components are arranged on the fixed frame (1) and the movable frame (2); wherein, the drying component comprises a belt (10), a rotating shaft A (11), a fixed frame (13), an air blowing cover (14), a fan (15) and a bevel gear A (16); the rotating shaft A (11) is rotatably arranged on the fixed frame (1), and the rotating shaft A (11) is in transmission connection with the printing roller A (8) through a belt (10); the fixed frame (13) is arranged on the fixed frame (1), and the fixed frame (13) is provided with a rotating shaft B (12); the air blowing cover (14) is arranged on the fixed frame (13), and the air blowing direction of the air blowing cover (14) faces to the workpiece to be printed; the fan (15) is arranged on the rotating shaft B (12) and is positioned in the air blowing cover (14), and a bevel gear B (17) is arranged on the rotating shaft B (12); the bevel gear A (16) is arranged on the rotating shaft A (11) and is in meshed transmission connection with the bevel gear B (17).

2. A high-speed energy-saving combination perfecting press as claimed in claim 1, characterized in that the drying group is arranged on the movable frame (2) in the same way as the drying group is arranged on the fixed frame (1).

3. A high-speed energy-saving combined perfecting press as claimed in claim 1, characterized by further comprising a snap (22) and a hinge (23); the movable frame (2) is rotatably arranged on the fixed frame (1) through a hinge (23), and the movable frame (2) and the fixed frame (1) are locked through a buckle (22).

4. A high-speed energy-saving combination perfecting press according to claim 1, characterized in that it also comprises a presser (3); the four pressing components (3) are arranged on the fixed frame (1) and the movable frame (2) two by two, are respectively positioned close to the inlet (6) and the outlet (7) and are mutually abutted.

5. A high-speed energy-saving combined perfecting press according to claim 4, characterized in that the pressing member (3) comprises a squeeze roller (18), a bracket (19), a guide rod (20), a spring (21); the guide rod (20) is arranged on the fixed frame (1) in a sliding manner, and the guide rod (20) is provided with a bracket (19); the spring (21) is sleeved on the guide rod (20) and props against the fixed frame (1) and the support (19), and the extrusion roller (18) is rotatably arranged on the support (19).

6. A high-speed energy-saving combination perfecting press as claimed in claim 5, characterized in that the number of guide bars (20) is two and are symmetrically distributed on the carriage (19).

7. A high-speed energy-saving combined perfecting press as claimed in claim 6, characterized in that the hold-down members (3) are arranged on the movable frame (2) in the same way as the hold-down members (3) are arranged on the fixed frame (1).

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