CN111332018B

CN111332018B - A environmental protection printing machine equipment for carton production

Info

Publication number: CN111332018B
Application number: CN202010159827.2A
Authority: CN
Inventors: 张祖忠
Original assignee: Taizhou Boda Machinery Manufacturing Co Ltd
Current assignee: Haiyan Jilong Machinery Co ltd
Priority date: 2020-03-10
Filing date: 2020-03-10
Publication date: 2021-04-06
Anticipated expiration: 2040-03-10
Also published as: CN111332018A; CN112937127A

Abstract

The invention discloses an environmentally friendly printing machinery and equipment for carton production. Its structure includes a carton processing table, a horizontal sliding guide rail, a vertical drag chain, an equipment support seat, a printer head and a control center. The equipment support seat is a rectangular structure and It is installed horizontally. There are two longitudinal drag chains and they are installed on the left and right sides of the equipment support base. The lateral sliding guide rails are located above the equipment support base and are interlocked with the longitudinal drag chains. With the inkjet protective structure, when in use, the lateral flow of airflow is used to promote the negative pressure generating device to form a negative pressure, and the paper wool, paper powder and other impurities on the surface of the carton are absorbed through the dust removal duct to avoid the printing process. The print head is blocked. At the same time, during the sliding process of the printer head, an air protection barrier is formed at the front and rear ends of the print head to prevent the ink jet from fluttering due to airflow, and improve the accuracy and clarity of the carton printing.

Description

A environmental protection printing machine equipment for carton production

Technical Field

The invention relates to the field of environment-friendly printing mechanical equipment for producing paper boxes, in particular to environment-friendly printing mechanical equipment.

Background

The packing carton is the instrument that is used for transporting after the commodity processing, need print the surface through lithography apparatus after the packing carton shaping, because the UV printing machine does not need the plate-making, and the inkjet as required, neither extravagant, also there is not the waste water pollution, spouts the seal in-process and also does not produce the noise, accords with the requirement of country to environmental protection in the production process, consequently has obtained the wide use, but the current technical consideration is not perfect enough, has following shortcoming: when the UV printer works, the packaging box is horizontally placed on the surface of the processing table, then the printer head transversely slides back and forth along the sliding rail of the printer and performs ink-jet printing on the packaging box, and as the packaging box is mixed with paper wool, paper powder and other impurities after being produced, cut and formed, and when the printer head rapidly slides left and right along the sliding rail, negative pressure air flow is formed between the bottom of the printer head and the packaging box, so that the paper wool, the paper powder and the like on the surface of paper are adsorbed to a sprayer of the printer, the sprayer is blocked, and the printing effect of the paper box is influenced; meanwhile, when the UV printer works, air flow transversely flows between the spray head and the surface of the paper box, ink jet flutters easily, the pattern of the paper box is blurred, and the printing quality of the paper box is reduced.

Disclosure of Invention

Aiming at the problems, the invention provides environment-friendly printing mechanical equipment for producing paper boxes.

In order to achieve the purpose, the invention is realized by the following technical scheme: an environmental protection printing mechanical equipment for carton production, its structure includes carton processing platform, lateral sliding guide, vertical tow chain, equipment support seat, printer head, control center, the equipment support seat is the rectangle structure and is horizontal installation, vertical tow chain is equipped with two and installs respectively in the equipment support seat left and right sides, lateral sliding guide is located equipment support seat top and with vertical tow chain mutual lock, control center 6 passes through the bolt and installs on equipment support seat right side, printer head installs in lateral sliding guide the place ahead and adopts the electricity with control center and be connected, printer head comprises printing nozzle holder, shower nozzle insulation structure, power connector, air current chip removal device, inkjet protective structure, UV water-cooling lamp, it is located lateral sliding guide the place ahead and mutual lock to print the nozzle holder, power connector is located the nozzle holder left side and adopts the electricity with control center and is connected, the utility model discloses a printing nozzle, including shower nozzle insulation structure, UV water-cooling lamp, air current chip removal device, jet nozzle insulation structure, UV water-cooling lamp passes through the bolt fastening and prints shower nozzle insulation structure left and right sides, the mutual gomphosis of air current chip removal device and printing nozzle frame, the mutual lock of ink-jet protective structure and air current chip removal device.

The pneumatic chip removing device is further improved by comprising a reverse controller, a direct-current channel, a chip removing guide pipe, a negative pressure generating device and a chip removing fixing frame, wherein the chip removing fixing frame is embedded with the printing nozzle frame, the reverse controller is installed in the middle of the top of the chip removing fixing frame, the direct-current channel is connected to the top of the chip removing fixing frame in a penetrating mode, the negative pressure generating device is embedded in the middle of the chip removing fixing frame, the chip removing guide pipe is located on the left side and the right side of the negative pressure generating device, and the chip removing guide pipe is communicated with two ends of the bottom of the chip removing fixing frame respectively.

As a further improvement of the invention, the reverse controller is composed of a controller shell, a sliding rod, a reverse driving block and a magnetic suspension frame, wherein the controller shell is positioned in the middle of the top of the chip removing fixing frame, the magnetic suspension frames are respectively arranged on the left side and the right side of the controller shell, the reverse driving block is positioned in the controller shell and is in clearance fit with the controller shell, the sliding rod is connected in the middle of the magnetic suspension frame in a penetrating manner, and the sliding rod is vertical to the reverse driving block.

As a further improvement of the invention, the negative pressure generating device consists of a reverse transmission rod, a direct current conduction pipe, a chip removing guide pipe connector, a chip collecting hopper, a negative pressure connecting pipe, a lifting guide rail and a negative pressure generating cylinder, the scrap collecting hopper is horizontally arranged in the middle of the scrap removing fixing frame, the two scrap removing guide pipe connectors are respectively arranged at the left side and the right side of the scrap collecting hopper, the lifting guide rail is arranged above the scrap collecting hopper, the direct current conduction pipe is positioned above the scrap collecting hopper and is connected with the scrap collecting hopper in an inserting and embedding way, the negative pressure generating cylinder is nested at the bottom of the direct current conduction pipe, the negative pressure connecting pipe is connected to the bottom of the negative pressure generating cylinder in a penetrating way and buckled with the lifting guide rail, the reverse rotation transmission rod is vertically arranged at the top of the direct current conduction pipe, the bottom of the negative pressure connection pipe is of a hollow structure, therefore, the paper wool and paper powder are sucked into the negative pressure connecting pipe and then discharged into the chip collecting hopper from the bottom of the negative pressure connecting pipe under the action of gravity.

As a further improvement of the invention, the ink jet protection structure comprises a fluid discharge groove, a conduction switch, a discharge groove mounting frame and a splitter plate, wherein the discharge groove mounting frame is horizontally mounted on the outer side of the airflow chip removing device, the fluid discharge groove is connected to the upper side and the lower side of the discharge groove mounting frame in a penetrating manner, the splitter plate is nested at the left end and the right end of the discharge groove mounting frame, the conduction switch is conducted with the fluid discharge groove, and the fluid discharge groove is perpendicular to the conduction switch.

As a further improvement of the present invention, the conduction switch is composed of a sealing plate, a switch fixing frame, a coil spring, a limiting plate, and a discharge groove connector, wherein the switch fixing frame is inserted into the discharge groove mounting frame, the discharge groove connector is connected to the upper and lower ends of the right side of the switch fixing frame in a penetrating manner, the limiting plate is installed on the left side of the discharge groove connector, the sealing plate is located on the left side of the limiting plate and is buckled with the switch fixing frame, and the coil spring abuts against one side of the sealing plate close to the limiting plate.

As a further improvement of the present invention, the conduction switch is provided with two and symmetrically installed with a perpendicular bisector of the fluid discharge slot, and the sealing plate is installed in a shape of ≧ so that when the printer head slides leftward, the air flow pushes the left conduction switch inner sealing plate to expand, the right sealing plate to close, and the air flow is discharged from the fluid discharge slot to form an air flow wall to prevent the ink jet from drifting.

As a further improvement of the invention, the chip removing guide pipe connectors at the two ends of the chip collecting hopper are arranged in a mode of being low on the left and high on the right, so that when the airflow chip removing device slides back and forth on the left and right, paper hair and paper powder sucked out of the chip removing guide pipe cannot be communicated with each other, and the paper hair and the paper powder are prevented from being discharged again.

As a further improvement of the invention, the surface of the sliding rod is provided with an N-pole magnet which is the same as the magnetic pole in the magnetic suspension frame, so that the sliding rod is arranged in the middle of the magnetic suspension frame in a suspending way.

As a further improvement of the present invention, the diameter of the left through hole in the dc conducting pipe is smaller than the diameter of the right through hole, so that when the airflow flows from left to right in the dc conducting pipe, the negative pressure generating cylinder at the bottom of the dc conducting pipe generates negative pressure based on the venturi effect.

The invention has the beneficial effects that: environmental protection printing mechanical equipment removes bits device and inkjet protective structure through installing the air current, when using, utilize lateral flow's air current, make negative pressure generating device form the negative pressure, and through removing the paper wool on bits pipe with the carton surface, impurity such as paper powder is absorbed, avoid spouting the condition that the seal in-process leads to the shower nozzle to be blockked up, simultaneously at printer head slip in-process, both ends form the air protection protective screen around the shower nozzle, avoid the air current to lead to the inkjet to take place to flutter, promote the accuracy and the definition of carton printing.

When the printer head slides rightwards, the reverse driving block drives the direct-current conduction pipe to rotate 180 degrees through the reverse transmission rod, and then the air flow flows through the direct-current conduction pipe from right to left from the direct-current channel, so that the negative pressure generating cylinder generates negative pressure, paper dust on the surface of the paper box is sucked into the negative pressure connection pipe through the chip removing guide pipe on the right side of the negative pressure generating device, the nozzle of the printer is prevented from being blocked, meanwhile, the air flow flows in from the left side of the discharge groove mounting frame and pushes the sealing plate of the switch fixing frame on one side to extrude the spiral spring to expand, and the paper dust enters the discharge groove mounting frame and is discharged downwards from the fluid discharge groove to form an air protection barrier, so that the correct jet printing of the ink on the corresponding position of the paper box is ensured, and the printing quality of.

Drawings

FIG. 1 is a schematic structural diagram of an environmentally friendly printing machine for carton production according to the present invention.

Fig. 2 is a front view of the printer head according to the present invention.

FIG. 3 is a schematic sectional view of the airflow crumb removing device of the present invention.

FIG. 4 is a schematic diagram of the internal structure of the inversion controller according to the present invention.

Fig. 5 is a schematic sectional structural view of the negative pressure generating device of the present invention.

FIG. 6 is a schematic top view of an inkjet guard structure according to the present invention.

Fig. 7 is a schematic cross-sectional structural diagram of the conduction switch of the present invention.

In the figure: a paper box processing table-1, a transverse sliding guide rail-2, a longitudinal drag chain-3, an equipment supporting seat-4, a printer head-5, a control center-6, a printing spray head frame-5 a, a spray head heat preservation structure-5 b, a power supply connector-5 c, an air flow chip removing device-5 d, an ink jet protection structure-5 e, a UV water cooling lamp-5 f, a reverse controller-d 1, a direct current channel-d 2, a chip removing guide pipe-d 3, a negative pressure generating device-d 4, a chip removing fixing frame-d 5, a controller shell-d 11, a sliding rod-d 12, a reverse driving block-d 13, a magnetic suspension frame-d 14, a reverse driving rod-d 41, a direct current conducting pipe-d 42, a chip removing guide pipe connector-d 43, a chip collecting hopper-d 44, a negative pressure connecting pipe-d 45, a reverse driving device-d 45, a reverse, The device comprises a lifting guide rail-d 46, a negative pressure generating cylinder-d 47, a fluid discharge groove-e 1, a conduction switch-e 2, a discharge groove mounting rack-e 3, a flow distribution plate-e 4, a sealing plate-e 21, a switch fixing frame-e 22, a spiral spring-e 23, a limiting plate-e 24 and a discharge groove connector (e 25).

Detailed Description

In order to make the technical means, the creation features, the achievement objects and the effects of the present invention easy to understand, fig. 1 to 7 schematically show the structure of an environment-friendly printing machine according to an embodiment of the present invention, and the present invention will be further described with reference to the following detailed description.

Example one

Referring to fig. 1-5, the present invention provides an environment-friendly printing mechanical apparatus for producing paper boxes, the structure of which includes a paper box processing table 1, a transverse sliding guide rail 2, a longitudinal tow chain 3, an apparatus support 4, a printer head 5 and a control center 6, wherein the apparatus support 4 is rectangular and horizontally installed, the longitudinal tow chain 3 is provided with two parts and respectively installed at the left and right sides of the apparatus support 4, the transverse sliding guide rail 2 is located above the apparatus support 4 and is buckled with the longitudinal tow chain 3, the control center 6 is installed at the right side of the apparatus support 4 through bolts, the printer head 5 is installed in front of the transverse sliding guide rail 2 and is electrically connected with the control center 6, and the printer head 5 is composed of a printing nozzle rack 5a, a nozzle heat-preserving structure 5b, a power supply connector 5c, an air flow scrap removing device 5d and an ink jet protecting structure 5e, UV water-cooling lamp 5f constitutes, print nozzle holder 5a and be located 2 the place ahead of lateral sliding guide rail and mutual lock, power connector 5c is located and prints nozzle holder 5a left side and adopts the electricity to be connected with control center 6, shower nozzle insulation construction 5b is located and prints nozzle holder 5a top, UV water-cooling lamp 5f is fixed in the shower nozzle insulation construction 5b left and right sides through the bolt, the air current removes bits device 5d and prints the mutual gomphosis of nozzle holder 5a, the mutual lock of inkjet protective structure 5e and air current remove bits device 5 d. The airflow chip removing device 5d comprises a reverse controller d1, a direct current channel d2, a chip removing conduit d3, a negative pressure generating device d4 and a chip removing fixing frame d5, wherein the chip removing fixing frame d5 is embedded with the printing nozzle frame 5a, the reverse controller d1 is arranged in the middle of the top of the chip removing fixing frame d5, the direct current channel d2 is connected to the top of the chip removing fixing frame d5 in a penetrating manner, the negative pressure generating device d4 is embedded in the middle of the chip removing fixing frame d5, the chip removing conduit d3 is positioned on the left side and the right side of the negative pressure generating device d4, and the chip removing conduit d3 is respectively communicated with two ends of the bottom of the chip removing fixing frame d 5. The reverse controller d1 comprises a controller housing d11, a sliding rod d12, a reverse driving block d13 and a magnetic suspension frame d14, wherein the controller housing d11 is positioned in the middle of the top of a chip removing fixing frame d5, the magnetic suspension frame d14 is respectively installed on the left side and the right side of the controller housing d11, the reverse driving block d13 is positioned in the controller housing d11 and is in clearance fit with the controller housing d11, the sliding rod d12 is connected in the middle of the magnetic suspension frame d14 in a penetrating manner, and the sliding rod d12 is perpendicular to the reverse driving block d 13. The negative pressure generating device d4 comprises a reverse rotation transmission rod d41, a direct current conducting pipe d42, a chip removing guide pipe connector d43, a chip collecting hopper d44, a negative pressure connecting pipe d45, a lifting guide rail d46 and a negative pressure generating cylinder d47, wherein the chip collecting hopper d44 is horizontally arranged in the middle of the chip removing fixing frame d5, the chip removing guide pipe connectors d43 are provided with two chips and respectively arranged at the left side and the right side of the chip collecting hopper d44, the lifting guide rail d46 is arranged above the chip collecting hopper d44, the direct current conducting pipe d42 is positioned above the chip collecting hopper d44 and is connected with the chip collecting hopper d44 in an inserting and embedding manner, the negative pressure generating cylinder d44 is nested at the bottom of the direct current conducting pipe d44, the negative pressure connecting pipe d44 is connected to the bottom of the negative pressure generating cylinder d44 in a penetrating manner and buckled with the lifting guide rail d44, the reverse rotation transmission rod d44 is vertically arranged at the top of the direct current conducting pipe d44, the negative pressure generating cylinder d44 is of a hollow structure, and the negative pressure connecting pipe d44 is sucked into the bottom of the chip Inside. The chip removing guide pipe connecting heads d43 at the two ends of the chip collecting hopper d44 are installed in a mode of being low on the left and high on the right, so that when the airflow chip removing device 5d slides back and forth on the left and right, paper dust and paper dust sucked out of the chip removing guide pipe d3 cannot be communicated with each other, and secondary discharge is avoided. The surface of the sliding rod d12 is provided with an N-pole magnet, and the N-pole magnet is the same as the magnetic pole in the magnetic suspension frame d14, so that the sliding rod d12 is arranged in the middle of the magnetic suspension frame d14 in a suspending manner. The diameter of the left through hole in the dc conduction pipe d42 is smaller than that of the right through hole, so when the airflow flows from left to right in the dc conduction pipe d42, the negative pressure generating cylinder d47 at the bottom of the dc conduction pipe d42 generates negative pressure due to the venturi effect.

When the printer head 5 slides rightwards, due to inertia, the sliding rod d12, the reverse driving block d13 and the controller shell d11 move relatively, the reverse driving block d13 drives the reverse driving rod d41 to rotate, the direct current conducting pipe d42 below the reverse driving rod d41 rotates 180 degrees simultaneously, under the action of the lifting guide rail d46, the negative pressure connecting pipe d45 moves upwards along the negative pressure generating cylinder d47 and is connected with the chip removing guide pipe connecting head d43 at the right end of the chip collecting hopper d44, air flow flows from the direct current channel d2 from right to left through the direct current conducting pipe d42, based on the Venturi effect, the negative pressure generating cylinder d47 generates negative pressure, and paper wool on the surface of the paper carton is subjected to negative pressure generation by the negative pressure generating device d4 and the negative pressure generating device d3 on the right side of the chip removing generating device d4, Paper powder is sucked into the negative pressure connecting pipe d45 and is discharged into the scrap collecting hopper d44 under the action of gravity, so that the spray head of the printing machine is prevented from being blocked, and the printing effect of the paper box is prevented from being influenced.

Example two

Referring to fig. 6 to 7, the inkjet protection structure 5e includes a fluid discharge slot e1, a conducting switch e2, a discharge slot mounting bracket e3, and a diversion plate e4, wherein the discharge slot mounting bracket e3 is horizontally mounted on the outer side of the airflow debris removal device 5d, the fluid discharge slot e1 is connected to the upper and lower sides of the discharge slot mounting bracket e3 in a penetrating manner, the diversion plate e4 is nested at the left and right ends of the discharge slot mounting bracket e3, the conducting switch e2 is conducted with the fluid discharge slot e1, and the fluid discharge slot e1 is perpendicular to the conducting switch e 2. The conduction switch e2 comprises a sealing plate e21, a switch fixing frame e22, a spiral spring e23, a limiting plate e24 and a discharge groove connector e25, wherein the switch fixing frame e22 is inserted into the discharge groove mounting frame e3, the discharge groove connector e25 is connected to the upper end and the lower end of the right side of the switch fixing frame e22 in a penetrating mode, the limiting plate e24 is installed on the left side of the discharge groove connector e25, the sealing plate e21 is located on the left side of the limiting plate e24 and buckled with the switch fixing frame e22, and the spiral spring e23 abuts against one side, close to the limiting plate e24, of the sealing plate e 21. The conduction switch e2 is provided with two and symmetrically installed with the perpendicular bisector of the fluid discharge groove e1, and the sealing plate e21 is installed in a shape of a letter, so that when the printer head 5 slides to the left, the air flow pushes the sealing plate e21 in the left conduction switch e2 to be unfolded, the right sealing plate e21 is closed, and the air flow is discharged from the fluid discharge groove e1 to form an air flow wall to prevent the ink jet from drifting.

When the printer head 5 slides on the transverse sliding guide rail 2, after sliding leftwards, airflow flows in from the left side of the discharge groove mounting rack e3 and pushes the sealing plate e21 of the switch fixing rack e22 on the left side of the discharge groove mounting rack e3 to squeeze the spiral spring e23 and spread, and the sealing plate e21 of the switch fixing rack e22 on the right side keeps closed, so that the airflow enters the discharge groove mounting rack e3 and is discharged downwards from the fluid discharge groove e1 to form an air protection barrier.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an environmental protection printing machine equipment for carton production, its structure includes carton processing platform (1), lateral sliding guide (2), vertical tow chain (3), equipment supporting seat (4), printer head (5), control center (6), equipment supporting seat (4) are the rectangle structure and are horizontal installation, vertical tow chain (3) are equipped with two and install respectively in equipment supporting seat (4) the left and right sides, lateral sliding guide (2) are located equipment supporting seat (4) top and with vertical tow chain (3) lock each other, control center (6) are installed in equipment supporting seat (4) right side through the bolt, printer head (5) are installed in lateral sliding guide (2) the place ahead and are adopted the electricity to be connected with control center (6), its characterized in that:

the printer head (5) consists of a printing nozzle frame (5a), a nozzle heat preservation structure (5b), a power supply connector (5c), an air flow scrap removing device (5d), an ink jet protection structure (5e) and a UV water-cooling lamp (5f), the printing spray head frame (5a) is positioned in front of the transverse sliding guide rail (2) and buckled with each other, the power supply connector (5c) is positioned at the left side of the printing spray head frame (5a) and is electrically connected with the control center (6), the spray head heat preservation structure (5b) is positioned above the printing spray head frame (5a), the UV water-cooling lamps (5f) are fixed at the left side and the right side of the spray head heat preservation structure (5b) through bolts, the air flow scrap removing device (5d) is mutually embedded with the printing nozzle frame (5a), the ink-jet protection structure (5e) is buckled with the airflow chip removing device (5 d);

the airflow chip removing device (5d) consists of a reverse controller (d1), a direct-current channel (d2), a chip removing guide pipe (d3), a negative pressure generating device (d4) and a chip removing fixing frame (d5), wherein the chip removing fixing frame (d5) is embedded with the printing nozzle frame (5a), the reverse controller (d1) is installed in the middle of the top of the chip removing fixing frame (d5), the direct-current channel (d2) is connected to the top of the chip removing fixing frame (d5) in a penetrating manner, the negative pressure generating device (d4) is embedded in the middle of the chip removing fixing frame (d5), and the chip removing guide pipes (d3) are positioned on the left side and the right side of the negative pressure generating device (d 4);

the reverse controller (d1) is composed of a controller shell (d11), a sliding rod (d12), a reverse driving block (d13) and a magnetic suspension frame (d14), the controller shell (d11) is positioned in the middle of the top of the chip removing fixing frame (d5), the magnetic suspension frames (d14) are respectively installed on the left side and the right side of the controller shell (d11), the reverse driving block (d13) is positioned in the controller shell (d11) and is in clearance fit with the controller shell (d11), and the sliding rod (d12) is connected in the middle of the magnetic suspension frame (d14) in a penetrating manner;

the negative pressure generating device (d4) consists of a reverse rotation transmission rod (d41), a direct current conducting pipe (d42), a chip removing guide pipe connector (d43), a chip collecting hopper (d44), a negative pressure connecting pipe (d45), a lifting guide rail (d46) and a negative pressure generating cylinder (d47), the scrap collecting hopper (d44) is horizontally arranged in the middle of the scrap removing fixing frame (d5), the two scrap removing guide pipe connectors (d43) are respectively arranged at the left side and the right side of the scrap collecting hopper (d44), the lifting guide rail (d46) is arranged above the chip collecting hopper (d44), the direct current conduction pipe (d42) is positioned above the chip collecting hopper (d44) and is connected with the chip collecting hopper (d44) in an inserting and embedding manner, the negative pressure generating cylinder (d47) is nested at the bottom of the direct current conducting pipe (d42), the negative pressure connecting pipe (d45) is connected to the bottom of the negative pressure generating cylinder (d47) in a penetrating way and is buckled with the lifting guide rail (d46), the reverse rotation transmission rod (d41) is vertically arranged at the top of the direct current conduction pipe (d 42);

the ink jet protection structure (5e) consists of a fluid discharge groove (e1), a conducting switch (e2), a discharge groove mounting frame (e3) and a flow distribution plate (e4), wherein the discharge groove mounting frame (e3) is horizontally mounted on the outer side of the airflow chip removal device (5d), the fluid discharge groove (e1) is connected to the upper side and the lower side of the discharge groove mounting frame (e3) in a penetrating manner, the flow distribution plate (e4) is nested at the left end and the right end of the discharge groove mounting frame (e3), and the conducting switch (e2) is communicated with the fluid discharge groove (e 1);

the conduction switch (e2) comprises a sealing plate (e21), a switch fixing frame (e22), a spiral spring (e23), a limiting plate (e24) and a discharge groove connector (e25), wherein the switch fixing frame (e22) is inserted into the discharge groove mounting frame (e3), the discharge groove connector (e25) is connected to the upper end and the lower end of the right side of the switch fixing frame (e22) in a penetrating mode, the limiting plate (e24) is installed on the left side of the discharge groove connector (e25), the sealing plate (e21) is located on the left side of the limiting plate (e24) and buckled with the switch fixing frame (e22), and the spiral spring (e23) abuts against one side, close to the limiting plate (e24), of the sealing plate (e 21).

2. An eco-friendly printing machine for carton production as claimed in claim 1, wherein: the on-state switches (e2) are provided in two and installed symmetrically with each other with a perpendicular bisector of the fluid discharge groove (e 1).

3. An eco-friendly printing machine for carton production as claimed in claim 1, wherein: the chip removing guide pipe connectors (d43) at two ends of the chip collecting hopper (d44) are installed in a left-low-right-high mode.