CN216579734U - Energy-saving printing machine equipment - Google Patents

Abstract

The utility model discloses energy-saving printing machine equipment, which relates to the field of printing machine equipment and comprises a base, a conveying mechanism, a box body, a drying mechanism and a return air filtering mechanism, wherein the base is provided with a conveying mechanism; the top surface of the base is provided with a conveying mechanism and a box body; the top surface of the box body is provided with a drying mechanism and a return air filtering mechanism; hot air heated by the heating resistance wires is divided by the vent holes of the flow stabilizing plates to form mild micro-airflow which is blown to the surface of a printed finished product, and the printing ink on the surface of the printed finished product is subjected to accelerated drying treatment; the drying agent is contained in the drying box, so that water vapor generated in the box body is absorbed, and the influence on the quality of a printed finished product is reduced; can produce poisonous harmful printing ink waste gas at the in-process that printing ink was dried, the air pump filters printing ink waste gas in sending into the filter cartridge through the return air pipe, and the high temperature return air after the purification gets into the box once more, and the heat of return air can reuse, has avoided the waste of the energy, has also avoided printing ink waste gas to healthy harm and the pollution to the environment.

Description

Energy-saving printing machine equipment

Technical Field

The utility model relates to printing machine equipment, in particular to energy-saving printing machine equipment.

Background

The printing machine is a machine for printing characters and images, and the modern printing machine is generally composed of mechanisms of plate-loading, inking, stamping and paper-conveying, etc. its working principle is that firstly the characters and images to be printed are made into printing plate, then the printing plate is mounted on the printing machine, then the ink is coated on the place with characters and images on the printing plate by manual work or printing machine, then the printing plate is directly or indirectly transferred onto paper or other printing material (such as textile, metal plate, plastic cement, leather, wood plate, glass and ceramic) so as to copy the printed matter identical to printing plate. The existing paper is always kept for more than 3 hours after being printed, so that the ink on the paper is naturally dried, and the blurring of the paper coating is avoided; in addition, harmful gases generated by volatilization of organic components in the ink can be generated during drying, which can harm the health of workers and pollute the environment.

SUMMERY OF THE UTILITY MODEL

The aim of the utility model is to provide an energy-saving printing press device.

In order to achieve the purpose, the utility model provides the following technical scheme:

an energy-saving printing machine device comprises a base, a conveying mechanism, a box body, a drying mechanism and a return air filtering mechanism; the top surface of the base is provided with a conveying mechanism and a box body; the top surface of the box body is provided with a drying mechanism and a return air filtering mechanism.

Preferably, the following components: the conveying mechanism comprises a first motor, a first conveying roller, a second conveying roller, a connecting belt and a conveying belt; two ends of the first conveying roller and the second conveying roller are respectively and rotatably connected to a group of supporting frames through bearings, and the supporting frames are fixedly arranged on the top surface of the base; a conveying belt is sleeved outside the first conveying roller and the second conveying roller; the top surface of the left base of the first conveying roller is fixedly provided with a first motor through a motor box, and an output shaft of the first motor is connected with the first conveying roller through a connecting belt; the box body is fixedly arranged on the top surface of the base and is positioned on the outer side of the conveying belt between the first conveying roller and the second conveying roller; the left side wall of the box body is provided with a feed inlet corresponding to the position of the conveying mechanism, and the right side wall of the box body is provided with a discharge outlet corresponding to the position of the conveying mechanism.

Preferably: the bottom surface of the base is provided with a rubber non-slip mat.

Preferably: the drying mechanism comprises a heating box, a second motor, a transmission shaft, fan blades, a heating resistance wire, a flow stabilizing plate and a drying box, wherein the heating box is fixedly connected with a through hole formed in the center of the top surface of the box body; the bottom opening end of the heating box extends outwards to form a horn shape, and the horn-shaped opening end is positioned right above the central position of the surface of the conveying belt; a second motor is arranged on the top surface of the outer side of the heating box, a transmission shaft of the second motor penetrates through the top surface of the heating box and extends into the heating box, and the bottom end of the transmission shaft is fixedly connected with a rotating shaft of a fan blade; a plurality of heating resistance wires are arranged under the fan blades at equal intervals, and two ends of the heating resistance wires are respectively and fixedly connected to the inner walls of two sides of the heating box; the heating resistance wire is electrically connected with a power supply through a switch; a flow stabilizing plate is arranged at the opening end of the bottom surface of the heating box, and a plurality of ventilation holes are uniformly formed in the surface of the flow stabilizing plate; a group of drying boxes are symmetrically arranged on the inner top walls of the box bodies on the left side and the right side of the heating box, and drying agents are contained in the drying boxes.

Preferably: the return air filtering mechanism comprises a return air pipe, an air pump and a filter box; the left end of the top surface of the box body is provided with a return air pipe, one end of the return air pipe is fixedly connected with a through hole formed in the top surface of the box body, and the other end of the return air pipe is fixedly connected with the input end of the air pump; the output end of the air pump is fixedly connected with a through hole formed in the left side wall of the filter box through a pipeline, and the through hole in the right side wall of the filter box is fixedly connected with the left side wall of the heating box through a pipeline.

Preferably: the filter box is a box body with an opening on the top surface; the filter box is divided into two inner cavities by a partition plate; a plurality of vent holes are arranged on the partition plate at equal intervals to communicate the two inner cavities; zeolite is arranged in the inner cavity of the left side; the right inner cavity is provided with a VOC catalyst; the inner side of the top of the filter box is provided with a sealing plug.

Due to the adoption of the technical scheme, the utility model has the following advantages:

hot air heated by the heating resistance wires is divided by the vent holes of the flow stabilizing plates to form mild micro-airflow which is blown to the surface of a printed finished product, and the printing ink on the surface of the printed finished product is subjected to accelerated drying treatment; the drying agent is contained in the drying box, so that the water vapor generated in the box body is absorbed, and the influence on the quality of a printed finished product is reduced; poisonous and harmful printing ink waste gas can be generated in the printing ink drying process, the printing ink waste gas is sent into the filter box through the air return pipe by the air pump for filtering, the purified high-temperature return air enters the box body again, the heat of the return air can be reused, the waste of energy sources is avoided, and the damage of the printing ink waste gas to the health and the pollution to the environment are also avoided; when the filter box has poor filtering effect, the filter body in the filter box can be replaced by taking down the sealing plug, and the operation is simple, convenient and quick.

Drawings

Fig. 1 is an external view of an energy-saving printing press apparatus.

Fig. 2 is an internal cross-sectional view of an energy-efficient printing press arrangement.

FIG. 3 is a schematic view of a cartridge in an energy efficient printing press apparatus.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 3, in an embodiment of the present invention, an energy-saving printing machine apparatus includes a base 1, a conveying mechanism 2, a box 3, a drying mechanism 4, and a return air filtering mechanism 5; the top surface of the base 1 is provided with a conveying mechanism 2 and a box body 3; the top surface of the box body 3 is provided with a drying mechanism 4 and a return air filtering mechanism 5.

The conveying mechanism 2 comprises a first motor 21, a first conveying roller 22, a second conveying roller 23, a connecting belt 24 and a conveying belt 25; two ends of the first conveying roller 22 and the second conveying roller 23 are respectively and rotatably connected to a group of supporting frames through bearings, and the supporting frames are fixedly arranged on the top surface of the base 1; a conveying belt 25 is sleeved outside the first conveying roller 22 and the second conveying roller 23; the top surface of the left base 1 of the first conveying roller 22 is fixedly provided with a first motor 21 through a motor box, and the output shaft of the first motor 21 is connected with the first conveying roller 22 through a connecting belt 24; the box body 3 is fixedly arranged on the top surface of the base 1 and is positioned outside the conveying belt 25 between the first conveying roller 22 and the second conveying roller 23; the left side wall of the box body 3 is provided with a feed inlet 31 corresponding to the position of the conveying mechanism 2, and the right side wall of the box body 3 is provided with a discharge outlet 32 corresponding to the position of the conveying mechanism 2.

The bottom surface of base 1 is equipped with rubber slipmat 6, and rubber slipmat 6 increases the frictional force of base 1 and ground, prevents that the during operation device from producing the displacement.

The drying mechanism 4 comprises a heating box 41, a second motor 42, a transmission shaft 43, fan blades 44, a heating resistance wire 45, a flow stabilizing plate 46 and a drying box 47, wherein the heating box 41 is fixedly connected with a through hole formed in the center of the top surface of the box body 3; the bottom opening end of the heating box 41 extends outwards to form a horn shape, and the horn-shaped opening end is positioned right above the surface center position of the conveying belt 25; a second motor 42 is arranged on the top surface of the outer side of the heating box 41, a transmission shaft 43 of the second motor 42 penetrates through the top surface of the heating box 41 and extends into the heating box 41, and the bottom end of the transmission shaft 43 is fixedly connected with a rotating shaft of a fan blade 44; a plurality of heating resistance wires 45 are equidistantly arranged right below the fan blades 44, and two ends of the heating resistance wires 45 are respectively and fixedly connected to the inner walls of two sides of the heating box 41; the heating resistance wire 45 is electrically connected with a power supply through a switch; a flow stabilizing plate 46 is arranged at the opening end of the bottom surface of the heating box 41, a plurality of vent holes are uniformly formed in the surface of the flow stabilizing plate 46, hot air heated by the heating resistance wires 45 is divided by the vent holes of the flow stabilizing plate 46 to form mild micro-air flow to be blown to the surface of a printed finished product, and the ink on the surface of the printed finished product is dried; a group of drying boxes 47 are symmetrically arranged on the inner top walls of the box bodies 3 on the left side and the right side of the heating box 41, drying agents are contained in the drying boxes 47, water vapor generated in the box bodies 3 is absorbed, and the influence on the quality of a printed finished product is reduced.

The return air filtering mechanism 5 comprises a return air pipe 51, an air pump 52 and a filter box 53; the left end of the top surface of the box body 3 is provided with a return air pipe 51, one end of the return air pipe 51 is fixedly connected with a through hole arranged on the top surface of the box body 3, and the other end of the return air pipe 51 is fixedly connected with the input end of an air pump 52; the output end of the air pump 52 is fixedly connected with a through hole arranged on the left side wall of the filter box 53 through a pipeline, and the through hole on the right side wall of the filter box 53 is fixedly connected with the left side wall of the heating box 41 through a pipeline; poisonous and harmful printing ink waste gas can be generated in the printing ink drying process, the printing ink waste gas is sent into the filter box 53 through the air return pipe 51 by the air pump 52 to be filtered, the purified high-temperature return air enters the box body 3 again, the heat of the return air can be reused, and the waste of energy is avoided.

The filter box 53 is a box body with an opening on the top surface; the filter box 53 is internally divided into two inner cavities by a partition 531; a plurality of vent holes 532 are equidistantly arranged on the partition board 531 to communicate the two inner cavities; zeolite 533 is arranged in the inner cavity of the left side; the right inner cavity is provided with a VOC catalyst 534; the inside of the top of the filter box 53 is provided with a sealing plug 535; when the filtering effect of the filtering box 53 is not good, the filter body in the filtering box 53 can be replaced by taking off the sealing plug 535, and the operation is simple and convenient; the zeolite 533 has good adsorption performance, and can remove impurities such as Pb, Zn, Hg and the like; the VOC catalyst 534 mainly comprises catalyst Pt, the carrier is a ceramic honeycomb, and the ink exhaust gas is purified by oxidation reaction on the surface of the catalyst Pt.

Claims (4)

1. An energy-saving printing machine device comprises a base (1), a conveying mechanism (2), a box body (3), a drying mechanism (4) and a return air filtering mechanism (5); the device is characterized in that the top surface of the base (1) is provided with a conveying mechanism (2) and a box body (3); the top surface of the box body (3) is provided with a drying mechanism (4) and a return air filtering mechanism (5); the drying mechanism (4) comprises a heating box (41), a second motor (42), a transmission shaft (43), fan blades (44), a heating resistance wire (45), a flow stabilizing plate (46) and a drying box (47), wherein the heating box (41) is fixedly connected with a through hole formed in the center of the top surface of the box body (3); the bottom opening end of the heating box (41) extends outwards to form a trumpet shape, and the trumpet-shaped opening end is positioned right above the surface center of the conveying belt (25); a second motor (42) is arranged on the top surface of the outer side of the heating box (41), a transmission shaft (43) of the second motor (42) penetrates through the top surface of the heating box (41) and extends into the heating box (41), and the bottom end of the transmission shaft (43) is fixedly connected with a rotating shaft of a fan blade (44); a plurality of heating resistance wires (45) are arranged under the fan blades (44) at equal intervals, and two ends of the heating resistance wires (45) are respectively and fixedly connected to the inner walls of two sides of the heating box (41); the heating resistance wire (45) is electrically connected with a power supply through a switch; a flow stabilizing plate (46) is arranged at the opening end of the bottom surface of the heating box (41), and a plurality of vent holes are uniformly formed in the surface of the flow stabilizing plate (46); a group of drying boxes (47) are symmetrically arranged on the inner top walls of the box bodies (3) at the left side and the right side of the heating box (41), and drying agents are contained in the drying boxes (47); the return air filtering mechanism (5) comprises a return air pipe (51), an air pump (52) and a filtering box (53); an air return pipe (51) is arranged at the left end of the top surface of the box body (3), one end of the air return pipe (51) is fixedly connected with a through hole formed in the top surface of the box body (3), and the other end of the air return pipe (51) is fixedly connected with the input end of the air pump (52); the output end of the air pump (52) is fixedly connected with a through hole arranged on the left side wall of the filter box (53) through a pipeline, and the through hole on the right side wall of the filter box (53) is fixedly connected with the left side wall of the heating box (41) through a pipeline.

2. Energy-efficient printing press arrangement according to claim 1, characterized in that the transport mechanism (2) comprises a first motor (21), a first transport roller (22), a second transport roller (23), a connecting belt (24) and a transport belt (25); two ends of the first conveying roller (22) and the second conveying roller (23) are respectively and rotatably connected to a group of supporting frames through bearings, and the supporting frames are fixedly arranged on the top surface of the base (1); a conveying belt (25) is sleeved outside the first conveying roller (22) and the second conveying roller (23); the top surface of the left base (1) of the first conveying roller (22) is fixedly provided with a first motor (21) through a motor box, and an output shaft of the first motor (21) is connected with the first conveying roller (22) through a connecting belt (24); the box body (3) is fixedly arranged on the top surface of the base (1) and is positioned outside the conveying belt (25) between the first conveying roller (22) and the second conveying roller (23); a feed inlet (31) is formed in the position, corresponding to the conveying mechanism (2), of the left side wall of the box body (3), and a discharge outlet (32) is formed in the position, corresponding to the conveying mechanism (2), of the right side wall of the box body (3).

3. Energy-efficient printing press arrangement according to claim 1, characterized in that the bottom surface of the base (1) is provided with a rubber non-slip mat (6).

4. Energy-efficient printing press arrangement according to claim 1, wherein the filter cartridge (53) is a cartridge body provided with an open top face; the interior of the filter box (53) is divided into two inner cavities by a partition plate (531); a plurality of vent holes (532) are equidistantly arranged on the clapboard (531) to communicate the two inner cavities; zeolite (533) is arranged in the inner cavity of the left side; a VOC catalyst (534) is arranged in the right inner cavity; the inner side of the top of the filter box (53) is provided with a sealing plug (535).

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