CN111016428A - Efficient environmental protection printing machine - Google Patents

Abstract

The invention discloses a high-efficiency environment-friendly printing machine, which structurally comprises a printing machine body and a purifying box body, wherein the printing machine body is fixed inside the purifying box body, the front end and the tail end of the printing machine body are respectively connected with an automatic feeding machine and an automatic material receiving machine, one side of the purifying box body is provided with an entrance door, the purifying box body is provided with an air purifying system, the purifying box body is internally provided with an air quality sensor, the air quality sensor is electrically connected with a display screen, the display screen is arranged on the outer side of the purifying box body, the automatic feeding machine and the automatic material receiving machine are both electrically connected with a controller, the controller is arranged on the outer side of the purifying box body, and the controller is provided with a switch for controlling the opening and closing of the printing machine body.

Description

Efficient environmental protection printing machine

The technical field is as follows:

the invention relates to the technical field of printing equipment, in particular to a high-efficiency environment-friendly printing machine.

Background art:

in recent years, with the improvement of factory automation technology, fully automatic mechanical equipment has been applied to various fields, and is also related to printing machinery, so that the production efficiency of the equipment is improved, and the operation state and the production state of the mechanical equipment are clearly informed to equipment operators. A series of printing equipment with stable performance, complete functions, reliability, durability and convenient operation dominates the printing field, brings great convenience to users, and plays a key role in the aspect of printing technology, although the printing equipment has various points, the openness of the printing technology influences the whole working environment, the dredging process of printing paper easily causes fine debris dust to fly in the air, and influences the working environment, meanwhile, in the printing process, substances such as printing ink and the like on a printing machine volatilize under the action of high temperature to generate waste gas, the temperature of the printing machine is high, the generated waste gas amount is increased, and even influences the environment of the whole printing workshop, certain influence and damage are caused to personal safety, and the cleaning is not convenient, in the prior art, the openness of the printing technology can hardly completely clean the waste gas generated by printing, the harm to human bodies is large, and the cleaning efficiency is low.

The invention content is as follows:

it is an object of the present invention to provide a high efficiency, environmentally friendly printing press that solves one or more of the above-mentioned problems of the prior art.

In order to solve the technical problem, the invention provides a high-efficiency environment-friendly printing machine, which structurally comprises a printing machine body and is characterized in that: its structure still includes the purification box, the inside at the purification box is fixed to the printing machine body, the front end and the tail end of printing machine body are connected with automatic feeding machine and automatic material machine of receiving respectively, the door of entering the house has been seted up to one side of purification box, be equipped with air purification system on the purification box, the inside of purifying the box is equipped with air quality sensor, air quality sensor electricity is connected with the display screen, the outside at the purification box is installed to the display screen, automatic feeding machine and automatic equal electricity of material machine of receiving are connected with the controller, the outside at the purification box is installed to the controller, be equipped with the switch that the control printing machine body was opened and was.

Further, above-mentioned automatic feeding machine is including the platform of placing and the straight line actuating mechanism that can freely go up and down, the front end of printing machine body is equipped with the feed inlet, outwards extend on the feed inlet and have the conveyer belt a that is used for conveying the paper board, it is close to conveyer belt a to set up to place the platform, straight line drive assembly sets up in the top of placing platform and conveyer belt a, be equipped with a plurality of vacuum chuck that are used for absorbing the paper on the straight line drive assembly, straight line drive assembly drive vacuum chuck is at conveyer belt a and place reciprocating motion back and forth between the platform, when straight line drive assembly drive vacuum chuck removed to place the platform directly over, vacuum chuck absorbs the cardboard, when straight line drive assembly drive vacuum chuck removed to conveyer belt a directly over, vacuum chuck puts down the cardboard.

Furthermore, above-mentioned rectilinear driving mechanism includes lead screw and first cylinder, and the lead screw is fixed in the top of placing platform and conveyer belt a, is equipped with the fixed plate on the first cylinder, on the fixed plate threaded connection lead screw, the output of first cylinder is down, and a plurality of vacuum chuck set up the output at first cylinder, are equipped with rotating electrical machines on the lead screw.

Furthermore, a second air cylinder is arranged at the bottom of the placing table and used for driving the placing table to move up and down.

Further, but above-mentioned automatic material machine of receiving is including the collection platform and the height sensor who freely goes up and down, the tail end of printing machine body is equipped with the discharge gate, outwards extend on the discharge gate and have the conveyer belt b that is used for spreading the paper, the adjacent conveyer belt b setting of collection platform, the both sides of collection platform are equipped with the board of rightting of symmetry, two are right interval between the board and the width of paper unanimous, height sensor sets up in the bottom of collection platform and is used for measuring the surface of collection platform and the height of horizontal plane, the bottom of collection platform is equipped with the third cylinder, the third cylinder is used for driving collection platform and reciprocates, be equipped with PLC on the third cylinder, height sensor and PLC electricity are connected, PLC sets up the inside at the controller.

Furthermore, a sealing ring is arranged around the door.

Further, above-mentioned air purification system includes admission line, bleed-off line and purifies the cavity, and admission line one end and the bottom of purifying the box are linked together, and the other end and the external air of admission line are linked together, and the one end intercommunication of bleed-off line is at the top of purifying the box, and the other end of bleed-off line is equipped with the aspiration pump, and the output of aspiration pump is linked together with purifying the cavity, is equipped with the gas outlet on purifying the cavity.

Further, the interior of the purification chamber is filled with activated carbon.

The invention has the beneficial effects that: the invention provides a high-efficiency environment-friendly printing machine, wherein the whole printing process is carried out in a sealed purifying box body, and is controlled by an external controller, so that the pollution gas generated by the printing machine body in the printing process is prevented from damaging human bodies, meanwhile, in the printing process, the air environment in the purifying box body is purified by an air purifying system, and under the monitoring of an air quality sensor, when the air environment in the purifying box body is normal, the purifying box body is opened to collect printed paper, so that the air purifying system is ensured to completely remove waste gas generated by the printing machine body, and the waste gas removing efficiency is improved.

Description of the drawings:

fig. 1 is a front view of the present invention.

FIG. 2 is a schematic side view of the printer body according to the present invention.

The specific implementation mode is as follows:

for the purpose of enhancing the understanding of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

Fig. 1 to 2 show a specific embodiment of the present invention, which includes a printer body 101, and further includes a purifying box 1, the printer body 101 is fixed inside the purifying box 1, the front end and the tail end of the printer body 101 are respectively connected to an automatic feeding machine 2 and an automatic receiving machine 3, one side of the purifying box 1 is provided with an entrance door 11, the purifying box 1 is provided with an air purifying system 4, the purifying box 1 is internally provided with an air quality sensor, the air quality sensor is electrically connected to a display screen 12, the display screen 12 is installed outside the purifying box 1, both the automatic feeding machine 2 and the automatic receiving machine 3 are electrically connected to a controller 13, the controller 13 is installed outside the purifying box 1, and the controller 13 is provided with a switch for controlling the printer body 101 to open and close.

In the invention, before printing, paper to be printed is added to an automatic feeding machine 2, during printing, an entrance door 11 is closed to seal a purifying box body 1, the automatic feeding machine 2 is opened through a controller 13, the automatic feeding machine 2 automatically conveys the paper to be printed to a printing machine body 101, the printing machine body 101 is opened through a switch to print the paper, the printed paper from the printing machine body 101 is collected through an automatic material receiving machine 3, during the printing process, an air purifying system 4 is opened to purify the air environment in the purifying box body 1, meanwhile, the air environment in the purifying box body 1 is monitored at any time through an air quality sensor and displayed on a display screen 12, after the printing of the paper is finished, and after the display screen 12 displays that the air in the purifying box body 1 is normal, the entrance door 11 is opened, and collecting the paper printed on the automatic material receiving machine 3.

In the invention, the whole printing process is carried out in the sealed purifying box body 1, and the whole printing process is controlled by the external controller 13, so that the pollution gas generated in the printing process of the printing machine body 101 is prevented from hurting human bodies, meanwhile, in the printing process, the air environment in the purifying box body 1 is purified by the air purifying system 4, and under the monitoring of the air quality sensor, when the air environment in the purifying box body 1 is normal, the purifying box body 1 is opened to collect printed paper, so that the air purifying system 4 is ensured to completely remove the waste gas generated by the printing machine body 101, and the waste gas removing efficiency is improved.

In the present invention, to explain the specific structure of the automatic feeder 2 specifically, the automatic feeder 2 includes a freely liftable placing table 21 and a straight driving mechanism 5, a feed inlet 102 is provided at the front end of the printing machine body 101, a conveyor belt a103 for conveying paper sheets extends outwards from the feed inlet 102, the placing table 21 is disposed adjacent to the conveyor belt a103, a straight driving assembly 5 is disposed above the placing table 21 and the conveyor belt a103, a plurality of vacuum suction cups 22 for sucking paper sheets are provided on the straight driving assembly 5, the straight driving assembly 5 drives the vacuum suction cups 22 to reciprocate between the conveyor belt a103 and the placing table 21, when the straight driving assembly 5 drives the vacuum suction cups 22 to move right above the placing table 21, the vacuum suction cups 22 suck the paper sheets, when the straight driving assembly 5 drives the vacuum suction cups 22 to move right above the conveyor belt a103, the vacuum suction cups 22 discharge the paper sheets, when placing the paper board, the paper board is placed on the placing table 21, the controller 13 controls the placing table 21 to move upwards to a proper position, the linear driving mechanism 5 drives the vacuum suction cups 22 to move right above the placing table 21, at this time, the controller 13 controls the vacuum suction cups 22 to suck the paper board on the placing table 21, then the controller 13 controls the linear driving mechanism 5 to drive the vacuum suction cups 22 to move right above the conveyor belt a103, then the controller 13 controls the vacuum suction cups 22 to put down the paper board on the conveyor belt a103, and the paper board is conveyed to the inside of the printer body 101 under the conveying of the conveyor belt a103 to be printed.

In the present invention, to explain specifically the structure of the rectilinear motion driving mechanism 5, the rectilinear motion driving mechanism 5 includes a screw 51 and a first cylinder 52, the screw 51 is fixed above the placing table 21 and the conveyor belt a103, the first cylinder 52 is provided with a fixing plate 53, the fixing plate 53 is screwed on the screw 51, the output end of the first cylinder 52 faces downward, a plurality of vacuum suction cups 22 are provided at the output end of the first cylinder 52, the screw 51 is provided with a rotating motor 54, the rotating motor 54 drives the screw 51 to rotate so as to drive the first cylinder 52 to reciprocate between the placing table 21 and the conveyor belt a103, when the first cylinder 52 moves right above the placing table 21, the controller 13 controls the first cylinder 52 to drive the vacuum suction cups 22 to move downward the position of the placing table 21, the vacuum suction cups 22 suck the paper boards on the placing table 21, when the first cylinder 52 moves to the position of the conveyor belt a103, the controller 13 controls the first cylinder 52 to drive the vacuum suction cups 22 to move downward to the position of the conveyor belt a103, vacuum cups 22 place the board on conveyor a 103.

In the present invention, the bottom of the placing table 21 is provided with a second air cylinder 23, the second air cylinder 23 is used for driving the placing table 21 to move up and down, and the controller 13 controls the second air cylinder 23 to control the up and down movement of the placing table 21.

In the present invention, to specifically describe the specific structure of the automatic material receiving machine 3, the automatic material receiving machine 3 includes a collecting platform 31 and a height sensor 32, the collecting platform 31 can be lifted freely, a discharge hole 104 is disposed at the tail end of the printing machine body 101, a conveyor belt b105 for delivering paper extends outwards from the discharge hole 104, the collecting platform 31 is disposed adjacent to the conveyor belt b105, two sides of the collecting platform 31 are provided with symmetrical centering plates 33, the distance between the two centering plates 33 is consistent with the width of the paper, the height sensor 32 is disposed at the bottom of the collecting platform 31 and is used for measuring the height of the surface and the horizontal plane of the collecting platform 31, the bottom of the collecting platform 31 is provided with a third cylinder 34, the third cylinder 34 is used for driving the collecting platform 31 to move up and down, the third cylinder 34 is provided with a PLC, the height sensor 32 is electrically connected with the PLC, the PLC is disposed inside the controller 13, when, the cardboard is conveyed towards the position of the collecting platform 31 along with the conveying of the conveyor belt b105, the cardboard falls from the conveyor belt b105 to the collecting platform 31 along with the conveying of the cardboard on the conveyor belt b105, the righting plate 33 can ensure that the cardboard can accurately fall on the collecting platform 31 during the falling of the cardboard from the conveyor belt b105, after the cardboard falls on the collecting platform 31, the height sensor 32 monitors the height of the surface of the collecting platform 31 and the height of the horizontal plane, so that the height of the collecting platform 31 is always lower than the conveyor belt b105, so as to facilitate the cardboard to fall on the collecting platform 31, when the height of the surface of the collecting platform 31 is about to exceed the height of the conveyor belt b105, the height sensor 32 sends a signal to the PLC, the PLC controls the third air cylinder 34 to drive the collecting platform 31 to move downwards through the controller 13, so that the height of the surface of the collecting platform 31 is always lower than the height of the conveyor belt b105, thereby facilitating smooth dropping of the cardboard from the conveyor b105 onto the collecting platform 31.

In the invention, in order to ensure the sealing performance of the purification box body 1, the sealing ring 111 is arranged around the entrance door 11, and the arrangement of the sealing ring 111 effectively ensures the sealing performance of the entrance door 11 on the purification box body 1 when the entrance door 11 is closed, so that the leakage of waste gas from the entrance door 11 in the printing process is avoided.

In the present invention, to explain the specific structure of the air purification system 4 specifically, the air purification system 4 includes an air inlet pipe 41, an air exhaust pipe 42 and a purification chamber 43, one end of the air inlet pipe 41 is communicated with the bottom of the purification box 1, the other end of the air inlet pipe 41 is communicated with the outside air, one end of the air exhaust pipe 42 is communicated with the top of the purification box 1, the other end of the air exhaust pipe 42 is provided with an air pump 44, the output end of the air pump 44 is communicated with the purification chamber 43, the purification chamber 43 is provided with an air outlet 431, when the air purification system 4 purifies the inside of the purification box 1, the air inlet pipe 41 inputs fresh control from the outside, the exhaust gas inside the purifying box 1 is pumped into the purifying chamber 43 through the air exhaust pipe 42 under the action of the air pump 44, and the exhaust gas is exhausted from the outside through the air outlet 431 after being purified by the purifying chamber 43.

In the present invention, the interior of the purification chamber 43 is filled with activated carbon, and the exhaust gas entering the interior of the purification chamber 43 is purified by the activated carbon.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a high-efficient environmental protection printing machine, its structure includes printing machine body (101), its characterized in that: the structure of the printer further comprises a purifying box body (1), the printer body (101) is fixed in the purifying box body (1), the front end and the tail end of the printing machine body (101) are respectively connected with an automatic feeding machine (2) and an automatic material receiving machine (3), an entrance door (11) is arranged on one side of the purifying box body (1), an air purifying system (4) is arranged on the purifying box body (1), an air quality sensor is arranged in the purifying box body (1), the air quality sensor is electrically connected with a display screen (12), the display screen (12) is arranged on the outer side of the purifying box body (1), the automatic feeding machine (2) and the automatic material receiving machine (3) are both electrically connected with a controller (13), the controller (13) is installed on the outer side of the purifying box body (1), and a switch for controlling the opening and closing of the printer body (101) is arranged on the controller (13).

2. A high efficiency, environmentally friendly printing press as defined in claim 1, wherein: the automatic feeding machine (2) comprises a freely-liftable placing table (21) and a straight driving mechanism (5), a feeding hole (102) is formed in the front end of the printing machine body (101), a conveying belt a (103) for conveying a paper plate extends outwards from the feeding hole (102), the placing table (21) is arranged close to the conveying belt a (103), the straight driving assembly (5) is arranged above the placing table (21) and the conveying belt a (103), a plurality of vacuum suction cups (22) for sucking the paper are arranged on the straight driving assembly (5), the straight driving assembly (5) drives the vacuum suction cups (22) to reciprocate between the conveying belt a (103) and the placing table (21), and when the straight driving assembly (5) drives the vacuum suction cups (22) to move to the position right above the placing table (21), the vacuum chuck (22) sucks the paperboard, and when the linear driving assembly (5) drives the vacuum chuck (22) to move to the position right above the conveyor belt a (103), the vacuum chuck (22) puts down the paperboard.

3. A high efficiency, environmentally friendly printing press as defined in claim 2, wherein: the straight driving mechanism (5) comprises a screw rod (51) and a first air cylinder (52), the screw rod (51) is fixed above the placing table (21) and the conveyor belt a (103), a fixing plate (53) is arranged on the first air cylinder (52), the fixing plate (53) is in threaded connection with the screw rod (51), the output end of the first air cylinder (52) faces downwards, a plurality of vacuum suction cups (22) are arranged at the output end of the first air cylinder (52), and a rotating motor (54) is arranged on the screw rod (51).

4. A high efficiency, environmentally friendly printing press as defined in claim 2, wherein: the bottom of the placing table (21) is provided with a second air cylinder (23), and the second air cylinder (23) is used for driving the placing table (21) to move up and down.

5. A high efficiency, environmentally friendly printing press as defined in claim 1, wherein: the automatic material receiving machine (3) comprises a collecting platform (31) and a height sensor (32), the collecting platform can be freely lifted, a discharge hole (104) is formed in the tail end of the printing machine body (101), a conveying belt b (105) used for conveying paper outwards extends from the discharge hole (104), the collecting platform (31) is arranged close to the conveying belt b (105), symmetrical centering plates (33) are arranged on two sides of the collecting platform (31), the distance between the two centering plates (33) is consistent with the width of the paper, the height sensor (32) is arranged at the bottom of the collecting platform (31) and used for measuring the height of the surface and the horizontal plane of the collecting platform (31), a third air cylinder (34) is arranged at the bottom of the collecting platform (31), the third air cylinder (34) is used for driving the collecting platform (31) to move up and down, and a PLC is arranged on the third air cylinder (34), the height sensor (32) is electrically connected to the PLC, which is disposed inside the controller (13).

6. A high efficiency, environmentally friendly printing press as defined in claim 1, wherein: and sealing rings (111) are arranged around the entrance door (11).

7. A high efficiency, environmentally friendly printing press as defined in claim 1, wherein: the air purification system (4) comprises an air inlet pipeline (41), an air exhaust pipeline (42) and a purification chamber (43), one end of the air inlet pipeline (41) is communicated with the bottom of the purification box body (1), the other end of the air inlet pipeline (41) is communicated with the outside air, one end of the air exhaust pipeline (42) is communicated with the top of the purification box body (1), an air exhaust pump (44) is arranged at the other end of the air exhaust pipeline (42), the output end of the air exhaust pump (44) is communicated with the purification chamber (43), and an air outlet (431) is formed in the purification chamber (43).

8. A high efficiency, environmentally friendly printing press as defined in claim 7, wherein: the interior of the purification chamber (43) is filled with activated carbon.

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