CN114802919A

CN114802919A - Environment-friendly plate packaging system

Info

Publication number: CN114802919A
Application number: CN202210721095.0A
Authority: CN
Inventors: 陈里云; 阮承国
Original assignee: Jiangsu Fanpin New Materials Co ltd
Current assignee: Jiangsu Fanpin New Materials Co ltd
Priority date: 2022-06-24
Filing date: 2022-06-24
Publication date: 2022-07-29
Anticipated expiration: 2042-06-24
Also published as: CN114802919B

Abstract

The invention belongs to the field of conveying, and particularly relates to an environment-friendly plate packaging system, which comprises: the device comprises a plate conveying device, a discharging device and a box body conveying device; the plate conveying device is arranged above the box body conveying device; the discharging device is arranged at a discharging opening of the plate conveying device; the box body conveying device comprises a conveying belt, a fixing frame, at least two conveying motors and a plurality of limiting plates; at least two conveying motors are arranged on the fixed frame side by side; the conveying belt is sleeved on the conveying wheels of the head conveying motor and the tail conveying motor; the limiting plates are clamped on the conveying belt, and the distance between the limiting plates is matched with the width of the box body. The gluing step and the plate separation are carried out synchronously, so that a plurality of tools which need to be placed side by side in the traditional process can be stacked, the transportation paths of the plates and the box body are reduced, the whole time of the packaging process is shortened, and the whole efficiency is improved.

Description

Environment-friendly plate packaging system

Technical Field

The invention relates to the field of conveying, in particular to an environment-friendly plate packaging system.

Background

The box body is used as a modern widely-used packaging carrier, is applied to various fields at present, and is used for improving the efficiency of articles during packaging, so that a plurality of assembly lines for automatically packaging the box body are produced.

The prior art automatic packaging assembly line has separate tooling for each step, resulting in a lot of time spent on transporting the packaging material, thereby reducing the packaging efficiency.

The above problems are currently in need of solution.

Disclosure of Invention

The invention aims to provide an environment-friendly plate packaging system.

In order to solve the above technical problem, the present invention provides an environmental protection sheet material packaging system, comprising:

the device comprises a plate conveying device, a discharging device and a box body conveying device;

the plate conveying device is arranged above the box body conveying device;

the discharging device is arranged at a discharging opening of the plate conveying device;

the box body conveying device comprises a conveying belt, a fixing frame, at least two conveying motors and a plurality of limiting plates;

at least two conveying motors are arranged on the fixed frame side by side;

the conveying belt is sleeved on the conveying wheels of the head conveying motor and the tail conveying motor;

the limiting plates are clamped on the conveying belt, and the distance between the limiting plates is matched with the width of the box body.

Furthermore, a plurality of wedge-shaped sliding grooves are formed in the conveying belt at equal intervals, and wedge-shaped sliding blocks are arranged at the bottom of the limiting plate;

the limiting plates are clamped in the wedge-shaped sliding grooves in the conveying belt through the wedge-shaped sliding blocks at the bottom, and the distance between every two adjacent limiting plates is larger than the width of the box body to be transported.

Furthermore, a buckle is arranged at the bottom of the wedge-shaped sliding groove, and a branch rod provided with a clamping block extends from the position of the wedge-shaped sliding block, which corresponds to the buckle;

the branch rod is fixedly connected with the clamping block;

the buckle is suitable for being clamped into the buckle for fixing when the wedge-shaped sliding block slides into the wedge-shaped sliding groove.

Furthermore, a recovery spring is arranged in the buckle, and a clamping groove is formed in the side wall of the buckle;

the clamping block is suitable for compressing the recovery spring when the clamping block is clamped into the buckle, and the recovery spring is clamped into the clamping groove.

Furthermore, branch pole, wedge spout and limiting plate integrated into one piece.

Furthermore, one side of the conveying belt, which is far away from the buckle, is provided with a protective side plate.

Further, the unloading device is a mechanical arm.

Further, the plate material conveying device includes: the device comprises a supporting component, a conveying component and a gluing component;

the gluing component is arranged at a discharge hole of the conveying component;

the conveying assembly and the gluing assembly are fixed through the supporting assembly respectively;

the gluing component comprises a driving piece and a gluing piece;

the gluing piece is fixedly arranged on the driving piece and is suitable for moving along the transverse direction of the discharge hole of the conveying assembly under the driving of the driving piece;

the glue applicator is adapted to perform the separation of the stacked sheets conveyed on the conveyor assembly and the gluing of the bottom during the transverse movement.

Further, the gluing piece comprises a bottom plate, a gluing plate, a first supporting plate and a second supporting plate;

the glue spreading plate, the first supporting plate and the second supporting plate are arranged on the same side of the bottom plate;

the other side of the bottom plate is fixed on the driving piece;

the glue spreading plate and the first supporting plate are arranged on the bottom plate at positions corresponding to the positions close to the discharge hole of the conveying assembly;

the second supporting plate is arranged at a position corresponding to the discharge hole of the conveying assembly far away from the bottom plate

The first supporting plate and the second supporting plate are arranged in a staggered mode, and the height of the first supporting plate is higher than that of the second supporting plate;

the first supporting plate and the bottom surface of the second supporting plate are separated by a preset distance;

the bottom surface of the first supporting plate is provided with a notch suitable for the plate to pass through;

the height of the second supporting plate is the same as that of the glue coating plate.

Furthermore, the driving piece comprises a push rod motor, a fixed block and a rotating base;

the push rod motor is fixedly arranged on the rotating base;

the rotating base is rotatably arranged on the supporting component;

the gluing component is suitable for being fixedly arranged on a push rod of the push rod motor through the fixing block;

the rotating base is suitable for adjusting the angle of the supporting surface of the first supporting plate and the section of the discharge hole of the conveying assembly when the laminated plates are conveyed to the discharge hole, and the supporting surface of the first supporting plate is parallel to the section of the discharge hole of the conveying assembly.

The invention has the beneficial effects that the invention provides an environment-friendly plate packaging system, which comprises: the device comprises a plate conveying device, a discharging device and a box body conveying device; the plate conveying device is arranged above the box body conveying device; the discharging device is arranged at a discharging opening of the plate conveying device; the box body conveying device comprises a conveying belt, a fixing frame, at least two conveying motors and a plurality of limiting plates; at least two conveying motors are arranged on the fixed frame side by side; the conveying belt is sleeved on the conveying wheels of the head conveying motor and the tail conveying motor; the limiting plates are clamped on the conveying belt, and the distance between the limiting plates is matched with the width of the box body. The gluing step and the separation of the plates are synchronously carried out, so that a plurality of tools which need to be placed side by side in the traditional process can be stacked, the transportation paths of the plates and the box body are reduced, the whole time of the packaging process is shortened, and the whole efficiency is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is an isometric view of a sheet material conveying apparatus provided by the present invention.

Fig. 2 is a first state view of a glue application member of the plate conveying device provided by the present invention.

Fig. 3 is a second state view of the glue applying member of the plate conveying apparatus provided by the present invention.

Fig. 4 is a third state view of the glue member of the plate conveying apparatus provided by the present invention.

Fig. 5 is a fourth state view of the glue member of the plate conveying apparatus provided by the present invention.

Fig. 6 is a plan view of the plate material conveying apparatus provided by the present invention.

Fig. 7 is a fifth state view of the glue application member of the board conveying apparatus provided by the present invention.

Fig. 8 is a schematic structural diagram of another view angle of the plate conveying device provided by the invention.

Fig. 9 is a schematic structural diagram of the eco-friendly sheet material packaging system provided by the present invention.

Fig. 10 is a side view of the eco-friendly sheet packaging system provided by the present invention.

Fig. 11 is a matching diagram of the conveying belt and the limiting plate provided by the invention.

Fig. 12 is a state diagram of the snap and the latch provided by the present invention when engaged.

In the figure: 110. a support assembly; 111. a slide rail; 120. a delivery assembly; 121. a transport mechanism; 1211. a first fixing plate; 1212. a second fixing plate; 1213. a first moving plate; 1213a, a screw; 1213b, a rotary table; 1214. a second moving plate; 1215. a conveyor belt; 1216. a guide roller; 1217. a belt pulley; 1218. a guide wheel; 1219. a transverse guide plate; 1229. a longitudinal guide plate; 1229a, a longitudinal lifter; 122. a lifting mechanism; 1221. a lifting platform; 1222. a lifting rod; 1223. a first turbine; 1224. a second turbine; 1225. a support frame; 1226. a rotating shaft; 130. a gluing component; 131. a drive member; 1311. a push rod motor; 1312. a fixed block; 1313. rotating the base; 132. gluing parts; 1321. gluing a board; 1322. a first support plate; 1323. a second support plate; 1324. a base plate; 1325. a notch; 1326. a conveying trough; 200. a plate material; 300. a box body transporting device; 310. a conveyor belt; 311. a wedge-shaped chute; 312. a wedge-shaped slider; 313. buckling; 3131. a card slot; 3132. a restoring spring; 314. a branch; 315. a clamping block; 320. a fixed mount; 330. a conveying motor; 340. a limiting plate; 350. a protective side plate; 400. and (7) a discharge device.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example 1

This embodiment 1 provides an environmental protection panel packaging system, includes: the device comprises a plate conveying device, a discharging device and a box body conveying device; the plate conveying device is arranged above the box body conveying device; the discharging device is arranged at the discharging opening of the plate conveying device.

Referring to fig. 1, the plate conveying apparatus includes: a support assembly 110, a conveying assembly 120 and a gluing assembly 130; the gluing component 130 is arranged at the discharge port of the conveying component 120; the conveying assembly 120 and the gluing assembly 130 are respectively fixed by the supporting assembly 110.

In this embodiment, the glue applying assembly 130 includes a driving member 131 and a glue applying member 132; the gluing member 132 is fixedly disposed on the driving member 131 and is adapted to move along the transverse direction of the discharge port of the conveying assembly 120 under the driving of the driving member 131; the glue applicator 132 is adapted to apply glue to the bottom of the laminated sheet material 200 conveyed on the conveyor assembly 120 during the lateral movement. The separation of the laminated plate 200 and the gluing of the bottom of the plate 200 are completed through the transverse movement of the gluing piece 132, the two tools of the separation and the gluing are integrated into one tool, the whole volume of a production line is reduced, and meanwhile, the whole efficiency of a packaging process is improved due to the fact that one tool is reduced.

Referring to fig. 2, the glue coating member 132 includes a bottom plate 1324, a glue coating plate 1321, a first supporting plate 1322, and a second supporting plate 1323; the glue-coated plate 1321, the first supporting plate 1322 and the second supporting plate 1323 are all arranged on the same side of the bottom plate 1324; the other side of the bottom plate 1324 is fixed on the driving piece 131; the glue-coated plate 1321 and the first supporting plate 1322 are arranged on the bottom plate 1324 at positions corresponding to positions close to the discharge port of the conveying assembly 120; the second supporting plates 1323 are arranged on the bottom plate 1324 at positions corresponding to positions far away from the outlet of the conveying assembly 120, the first supporting plates 1322 and the second supporting plates 1323 are arranged in a staggered manner, and the height of the first supporting plates 1322 is higher than that of the second supporting plates 1323; the first support plate 1322 and the bottom surface of the second support plate 1323 are spaced by a preset distance; a notch 1325 suitable for the plate material 200 to pass through is formed in the bottom surface of the first supporting plate 1322; the height of the second support plate 1323 is the same as the height of the glue coated plate 1321.

As shown in fig. 2, the laminated plate 200 is supported by the first support plate 1322 in the initial state of the glue applying member 132, and at this time, the bottom of the laminated plate 200 does not contact with the glue applying plate 1321 because the height of the first support plate 1322 is higher than that of the glue applying plate 1321. When the driving member 131 is retracted, the laminated plate 200 is changed from being supported by the first supporting plate 1322 to being supported by the second supporting plate 1323, as shown in fig. 3. When the driving member 131 extends out, because the side edge of the plate 200 is chamfered, and because the height of the first supporting plate 1322 is higher than that of the second supporting plate 1323, at this time, the first supporting plate 1322 will extrude the plate 200 along the chamfered edge, so that the plate 200 enters the notch 1325 formed in the first supporting plate 1322, and at this time, the bottom of the plate 200 contacts with the glue applying member 132, so as to complete the glue applying on the plate 200, which is shown in fig. 4 and 5.

Referring to fig. 6, in the present embodiment, the driving member 131 includes a push rod motor 1311, a fixing block 1312, and a rotating base 1313; the push rod motor 1311 is fixedly arranged on the rotating base 1313; the rotating base 1313 is rotatably disposed on the supporting component 110; the glue spreading assembly 130 is adapted to be fixedly arranged on a push rod of the push rod motor 1311 through the fixing block 1312; the rotating base 1313 is adapted to adjust an angle between a supporting surface of the first supporting plate 1322 and a cross-section of the discharging hole of the conveying assembly 120 when the stacked plate 200 is conveyed to the discharging hole, and to make the supporting surface of the first supporting plate 1322 parallel to the cross-section of the discharging hole of the conveying assembly 120. Through the arrangement of the rotating base 1313, the angle of the gluing component 130 on the push rod motor 1311 can be adjusted, so that no gap is generated when the gluing component 130 is attached to the material conveying opening, the board 200 is prevented from sliding down from the gap between the gluing component 130 and the material conveying opening in the gluing process, and the bottom of the board 200 is prevented from being scratched by the gluing component 130 in the transverse moving process.

Referring to fig. 7, in the present embodiment, the second supporting plate 1323 is provided with a conveying slot 1326; the rotating base 1313 is adapted to adjust the conveying slot 1326 of the second supporting plate 1323 to be opposite to the discharge port of the conveying assembly 120 when the sheet 200 is laid flat on the conveying assembly 120. When the length of the transported plate 200 is too long, the angle of the driving cylinder is adjusted by rotating the base 1313, the driving cylinder is retracted, the conveying groove 1326 of the second supporting plate 1323 is opposite to the discharging hole of the conveying component 120, at the moment, the plate 200 is flatly placed on the conveying component 120, the plate 200 enters the conveying groove 1326 of the second supporting plate 1323 through the discharging hole of the conveying component 120 and then is sent out, and therefore conveying of the plate 200 with different sizes is achieved.

Referring to fig. 8, in the present embodiment, the conveying assembly 120 includes: a transfer mechanism 121 and a lift mechanism 122; the conveying mechanism 121 is fixedly arranged on the lifting platform 1221 of the lifting mechanism 122; the lifting platform of the lifting mechanism 122 is slidably connected to the slide rail 111 of the supporting assembly 110, and is adapted to drive the conveying mechanism 121 to move up and down. The height of the conveying mechanism 121 is adjusted through the lifting mechanism 122, so that the conveying mechanism 121 is attached to the glue-coated plate 1321, gaps between the conveying mechanism 121 and the glue-coated plate 1321 are reduced, after the plate conveying device is used for a long time, gaps can be formed between the glue-coated plate 1321 and a discharge port of the conveying mechanism 121, the gaps are reduced or even disappear by adjusting the height of the conveying mechanism 121, meanwhile, the angle of the glue-coated plate 1321 is adjusted through the driving piece 131 of the glue-coated assembly 130, the glue-coated plate 1321 and the conveying mechanism 121 are always kept in a butting state, the gaps between the glue-coated plate 1321 and the conveying mechanism 121 are reduced as much as possible, and damage to the plate 200 in the saying process is reduced.

Referring to fig. 6, in the present embodiment, the transmission mechanism 121 includes a first fixing plate 1211, a second fixing plate 1212, a first moving plate 1213, a second moving plate 1214, two transmission belts 1215, and a plurality of guide rollers 1216; the first fixing plate 1211 and the second fixing plate 1212 are oppositely disposed and are both fixedly disposed on the lifting platform; the first moving plate 1213 and the second moving plate 1214 are disposed opposite to each other and between the first fixing plate 1211 and the second fixing plate 1212; a plurality of guide rollers 1216 are disposed between the first stationary plate 1211 and the second stationary plate 1212 at intervals after passing through the first moving plate 1213 and the second moving plate 1214; two belt pulleys 1217 are respectively arranged at the head and tail ends of two opposite side surfaces of the first moving plate 1213 and the second moving plate 1214; the two conveyor belts 1215 are respectively sleeved on the two pulleys 1217 of the first moving plate 1213 and the second moving plate 1214. In this embodiment, the distance between the first moving plate 1213 and the second moving plate 1214 is adjustable to adapt to the transportation of the boards 200 with different widths, specifically, the first moving plate 1213 and the second moving plate 1214 are sleeved on the same screw 1213a, and the screw 1213a is opposite to the screw direction of the first moving plate 1213 and the part of the screw contacting with the second moving plate 1214, that is, when the screw 1213a rotates, the first moving plate 1213 and the second moving plate 1214 simultaneously move inward or outward, a rotating disc 1213b is disposed after one end of the screw 1213a passes through the first fixing plate 1211 or the second fixing plate 1212, and the rotating disc 1213b is rotated to drive the screw 1213a to rotate, thereby adjusting the distance between the first moving plate 1213 and the second moving plate 1214.

Referring to fig. 8, in the present embodiment, the first fixing plate 1211, the second fixing plate 1212, the first moving plate 1213 and the second moving plate 1214 are inclined near the discharge opening; the first moving plate 1213 and the second moving plate 1214 are provided with guide wheels 1218 at the corners of the plate body. Through the obliquely arranged conveying mechanism 121, when the plate 200 is conveyed at the material conveying opening, an obliquely downward acting force is generated, when the first support plate 1322 is inserted from the chamfered side edge of the plate 200, the plate 200 is separated from the following plate 200 through the obliquely downward acting force, and the plate 200 is prevented from being scratched when the first support plate 1322 is inserted.

Referring to fig. 8, in the present embodiment, the conveying assembly 120 further includes a longitudinal guide plate 1229, two transverse guide plates 1219; the longitudinal guide plate 1229 is disposed above the first fixing plate 1211 and the second fixing plate 1212, and is adapted to be adjusted in height by a longitudinal lifting member 1229a fixed to the second fixing plate 1212; the two guide plates are respectively disposed on the first fixing plate 1211 and the second fixing plate 1212, and are adapted to guide the stacked plate materials 200 in the moving direction. Two horizontal deflector 1219 are close to with two sides of panel 200 respectively, accomplish and lead to range upon range of panel 200 along the moving direction, prevent rocking of panel 200, simultaneously through set up vertical deflector 1229 at the top of range of panel 200, it is spacing to the height of its panel 200 when range of panel 200 glides down, make, vertical deflector 1229 forms the clearance with the top of panel 200, prevent that panel 200 from producing when gliding and jump, ensure the bottom of panel 200 and the abundant contact of rubber coating piece 132 when the rubber coating.

Referring to fig. 8, in the present embodiment, the lifting mechanism 122 further includes a lifting rod 1222, a first turbine 1223, a second turbine 1224, a supporting frame 1225, and a rotating shaft 1226: the lifting rod 1222 is fixedly arranged at the lower end of the lifting platform; the first turbine 1223 is sleeved on the lifting rod 1222 and is in threaded connection with the lifting rod 1222; the second worm gear 1224 is fixedly disposed at one end of the rotating shaft 1226 that leaks out after passing through the supporting bracket 1225, and the second worm gear 1224 is engaged with the first worm gear 1223. In specific use, the rotating shaft 1226 drives the second turbine 1224 to rotate, the second turbine 1224 drives the first turbine 1223 engaged with the second turbine 1224 to rotate, and at this time, the lifting rod 1222 threadedly connected to the first turbine 1223 is lifted, in the figure, the first turbine 1223 has no external limiting structure and is not shown, and in specific production, the part is limited by the housing so as to prevent the first turbine 1223 from generating sliding teeth during rotation.

Referring to fig. 9-10, the box transportation device 300 includes a conveyor belt 310, a fixing frame 320, at least two conveyor motors 330, and a plurality of limiting plates 340; at least two conveying motors 330 are arranged on the fixed frame 320 side by side; the conveying belt 310 is sleeved on the conveying wheels of the head and tail conveying motors 330; the plurality of limiting plates 340 are clamped on the conveying belt 310, and the distance between the limiting plates 340 is adapted to the width of the box body. The limiting plates 340 are clamped on the conveying belt 310, and the distance between the limiting plates 340 is adjustable so as to meet the conveying requirements of boxes with different widths.

Referring to fig. 11, in the present embodiment, the conveying belt 310 is provided with a plurality of wedge-shaped chutes 311 at equal intervals, and the bottom of the limiting plate 340 is provided with a wedge-shaped slider 312; the limiting plates 340 are clamped in the wedge-shaped chutes 311 on the conveying belt 310 through the wedge-shaped sliders 312 at the bottom, and the distance between two adjacent limiting plates 340 is greater than the width of the box body to be transported. By adopting the wedge-shaped sliding grooves 311 to clamp the limiting plates 340, the limiting plates 340 are prevented from falling down when facing downwards in the transportation process of the conveyer belt 310.

A buckle 313 is arranged at the bottom of the wedge-shaped sliding slot 311, and a branch 314 provided with a clamping block 315 extends from the position of the wedge-shaped sliding block 312 corresponding to the buckle 313; the branch 314 is fixedly connected with the fixture block 315; the catch 313 is adapted to snap into the catch 313 for fixation when the wedge-shaped slider 312 slides into the wedge-shaped sliding slot 311.

Referring to fig. 12, a recovery spring 3132 is disposed in the buckle 313, and a locking groove 3131 is disposed on a side wall of the buckle 313; the latch 315 is adapted to compress the restoring spring 3132 and latch into the latch 3131 when the latch 313 latches. When the buckle is used, the limit plate 340 is pressed to clamp the buckle 313 into the clamping groove 3131, when the buckle is taken out, the buckle 313 structure positioned in the clamping groove 3131 is pressed down, and meanwhile, the limit plate 340 is ejected out due to the resilience force of the recovery spring 3132, so that the buckle is convenient to take and place.

In this embodiment, the branch 314, the wedge-shaped sliding groove 311 and the limiting plate 340 are integrally formed.

Referring to fig. 9, a protective side plate 350 is disposed on a side of the conveying belt 310 away from the buckle 313. The protective side plate 350 can be detached, and when the limiting plate 340 needs to be adjusted, the protective side plate 350 is taken down, and then the distance between the limiting plates 340 is adjusted.

In this embodiment, the discharge device 400 is a robotic arm, and in other embodiments, the discharge device 400 may be any suitable area that can achieve the purpose of removing the sheet material from the sheet material transport device and placing the sheet material on the cassette handler 300 to complete the enclosure of the cassette. In summary, the present invention provides an environmental protection sheet material packaging system, comprising: the device comprises a plate conveying device, a discharging device and a box body conveying device; the plate conveying device is arranged above the box body conveying device; the discharging device is arranged at a discharging opening of the plate conveying device; the box body conveying device comprises a conveying belt, a fixing frame, at least two conveying motors and a plurality of limiting plates; at least two conveying motors are arranged on the fixed frame side by side; the conveying belt is sleeved on the conveying wheels of the head conveying motor and the tail conveying motor; the limiting plates are clamped on the conveying belt, and the distance between the limiting plates is matched with the width of the box body. The gluing step and the separation of the plates are synchronously carried out, so that a plurality of tools which need to be placed side by side in the traditional process can be stacked, the transportation paths of the plates and the box body are reduced, the whole time of the packaging process is shortened, and the whole efficiency is improved.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. An environmentally friendly sheet packaging system, comprising:

the plate conveying device is arranged above the box body conveying device;

at least two conveying motors are arranged on the fixed frame side by side;

2. The environmentally friendly panel packaging system of claim 1, wherein the conveyor belt is provided with a plurality of wedge-shaped chutes at equal intervals, and the bottom of the limiting plate is provided with a wedge-shaped sliding block;

3. The environment-friendly plate packaging system as claimed in claim 2, wherein a buckle is arranged at the bottom of the wedge-shaped chute, and a branch provided with a clamping block extends from a position of the wedge-shaped sliding block corresponding to the buckle;

the branch rod is fixedly connected with the clamping block;

4. The environmentally friendly sheet material packaging system of claim 3, wherein a return spring is disposed in the buckle and a slot is formed in a side wall of the buckle;

5. The eco-friendly sheet packaging system of claim 3, wherein the stem, wedge runner and retainer plate are integrally formed.

6. The environmentally friendly sheet packaging system of claim 3, wherein a side of the conveyor belt remote from the buckle is provided with a protective side panel.

7. The environmentally friendly sheet packaging system of claim 1 wherein said discharge device is a robotic arm.

8. The environmentally friendly sheet packaging system of claim 1, wherein said sheet transport device comprises: the device comprises a supporting component, a conveying component and a gluing component;

the gluing component comprises a driving piece and a gluing piece;

9. The environmentally friendly sheet packaging system of claim 8, wherein the glue applicator comprises a base plate, a glue applicator plate, a first support plate, and a second support plate;

the other side of the bottom plate is fixed on the driving piece;

10. The environmentally friendly sheet packaging system of claim 9, wherein the driving member comprises a push rod motor, a fixed block, and a rotating base;

the push rod motor is fixedly arranged on the rotating base;

the rotating base is rotatably arranged on the supporting component;