CN211993410U - Panel feeding system - Google Patents

Abstract

The utility model discloses a plate feeding system, which comprises a plate transportation platform, wherein the plate transportation platform is provided with a guide plate, a bottom plate discharging device, a top plate discharging device and a feeding device; the guide plate is fixedly arranged on the plate conveying platform and extends along the plate conveying direction; the bottom plate discharging device and the top plate discharging device are arranged in a row along the plate conveying direction, and the plate discharging device, the top plate discharging device and the guide plates are arranged at intervals, so that material conveying channels are formed at intervals between the plate discharging device and the guide plates and between the top plate discharging device and the guide plates, wherein the bottom plate discharging device is positioned at the inlet end of the material conveying channels, and the top plate discharging device is positioned at the outlet end of the material conveying channels; a material conveying device is arranged at the inlet end of the material conveying channel; this feeding system can be convenient pile together roof and bottom plate, then make things convenient for the nailer nailing to link together roof and bottom plate.

Description

Panel feeding system

Technical Field

The utility model relates to a panel processing field refers in particular to a panel feeding system.

Background

In the furniture production and manufacturing process, the plates are often spliced for use in a nailing mode; for example, two sheets are stacked one on top of the other; when in operation, the bottom plate is firstly placed flatly, and then the top plate is placed on the bottom plate; after the placement, the bottom plate and the top plate are connected together in a nailing mode of a pneumatic nail gun; the initial nailing mode is manual nailing, an operator holds the nail gun by hand, the gun head is pressed on the surface of the top plate, a nail ejected by the nail gun penetrates through the top plate from top to bottom and then is inserted into the bottom plate, and then the two plates are connected together.

In order to solve the problem, nailing machines are developed, wherein each nailing machine comprises a machine body, a pneumatic nailing machine and a workpiece pressing plate, wherein the pneumatic nailing machine and the workpiece pressing plate are arranged on the machine body; the machine body can drive the pneumatic nail gun and the workpiece pressing plate to move in the vertical direction and the horizontal direction. When nailing, the machine body moves downwards, the pressing plate is firstly pressed on the upper surface of the top plate, then the gun head of the nail gun is pressed on the upper surface of the top plate, then the controller controls the nail gun to automatically nail, and after the nailing is finished, the machine body drives the workpiece pressing plate and the nail gun to move upwards.

However, the feeding process of the existing nailing machine is manually completed, which results in high manual fatigue strength and reduced nailing efficiency.

Disclosure of Invention

The utility model aims to provide a: to the problems that exist above, a panel feeding system is provided that can be convenient to stack a top panel and a bottom panel together, and then facilitate nailing by a nailing machine to connect the top panel and the bottom panel together.

The utility model adopts the technical scheme as follows:

a plate feeding system comprises a plate conveying platform, wherein a guide plate, a bottom plate discharging device, a top plate discharging device and a feeding device are arranged on the plate conveying platform; the guide plate is fixedly arranged on the plate conveying platform and extends along the plate conveying direction; the bottom plate discharging device and the top plate discharging device are arranged in a row along the plate conveying direction, and the plate discharging device, the top plate discharging device and the guide plates are arranged at intervals, so that material conveying channels are formed at intervals between the plate discharging device and the guide plates and between the top plate discharging device and the guide plates, wherein the bottom plate discharging device is positioned at the inlet end of the material conveying channels, and the top plate discharging device is positioned at the outlet end of the material conveying channels; a material conveying device is arranged at the inlet end of the material conveying channel;

the bottom plate discharging device is used for pushing a bottom plate in the bottom plate discharging device to the inlet end of the material conveying channel;

the feeding device is used for pushing the bottom plate at the inlet end of the material conveying channel to the top plate discharging device;

and the top plate discharging device is used for pushing the top plate to the upper surface of the bottom plate.

Due to the structure, the bottom plate discharging device firstly pushes the bottom plate in the bottom plate discharging device to the inlet end of the material conveying channel, then the feeding device pushes the bottom plate to move along the material conveying channel, so that the bottom plate moves to the top plate discharging device, then the top plate discharging device pushes the top plate in the top plate discharging device to the upper surface of the bottom plate, so that the bottom plate and the bottom plate are stacked together, and then the subsequent nailing machine can conveniently perform nailing, and the top plate and the bottom plate are connected together. The manpower is saved, and the processing efficiency is improved.

Furthermore, the feeding device is a feeding cylinder, a piston rod of the feeding cylinder extends into the conveying channel, and a bottom plate at the inlet end of the conveying channel is pushed to the top plate discharging device.

Furthermore, the bottom plate discharging device comprises a bottom plate charging barrel and a bottom plate material pushing mechanism arranged beside the bottom plate charging barrel; the bottom plate material cylinder is vertically arranged on the plate conveying platform, a bottom plate material inlet is formed in the top of the bottom plate material cylinder, and a bottom plate material outlet and a bottom plate material pushing opening are formed in the bottom of the bottom plate material cylinder; the bottom plate discharge port and the bottom plate material pushing port are positioned on two opposite side surfaces of the bottom plate material cylinder; the bottom plate discharge port is positioned at one side close to the material conveying channel, and the bottom plate material pushing port is positioned at one side far away from the material conveying channel;

the bottom plate pushing mechanism is arranged at the bottom plate pushing opening, extends into the bottom plate pushing opening at one side of the bottom plate material cylinder, and pushes out the bottom plate in the bottom plate material cylinder from the bottom plate discharging opening at the other side of the bottom plate material cylinder.

Due to the structure, the bottom plates are stacked in the bottom plate material cylinder, the bottom plate at the bottom layer is pushed out from the material outlet of the bottom plate by the bottom plate material pushing mechanism, after the bottom plate is pushed to a specified position, the bottom plate material pushing mechanism exits from the bottom plate material cylinder, the bottom plate at the upper layer automatically falls under the action of gravity, and the bottom plate at the upper layer falls to the material outlet; then the bottom plate pushing mechanism can continue to work to push the bottom plate of the layer out of the bottom plate material cylinder, and the operation is convenient.

Furthermore, the bottom plate material cylinder comprises a left half cylinder and a right half cylinder which are separated, the left half cylinder and the right half cylinder have the same structure and respectively comprise a vertical plate which is vertically arranged and side plates which are arranged at the inner side of the vertical plate and are positioned at two sides of the vertical plate, the vertical plate and the two side plates enable the left half cylinder and the right half cylinder to form a groove-shaped structure with the top end and the bottom end communicated with each other, so that the bottom plate can be placed into the bottom plate material cylinder from the top of the bottom plate material cylinder, and two ends of the bottom plate can be inserted into grooves of the left half cylinder;

the bottom parts of the two side plates of the left half cylinder and the right half cylinder are provided with notches, the two notches on one side of the left half cylinder and the right half cylinder are matched to form a bottom plate discharge port, and the two notches on the other side are matched to form a bottom plate material pushing port;

the bottom plate pushing mechanism is a bottom plate pushing cylinder, when a piston rod of the bottom plate pushing cylinder extends out, the piston rod of the bottom plate pushing cylinder extends into a bottom plate pushing port, and plates in the bottom plate material cylinder are pushed out from a bottom plate discharging port; and a bottom plate material pushing block is arranged at the end part of the piston rod of the bottom plate material pushing cylinder.

Due to the structure, the left half cylinder and the right half cylinder are separated, when the bottom plate is placed in the bottom plate material cylinder, the quantity of materials in the bottom plate material cylinder can be clearly seen, a sensor does not need to be additionally arranged to detect the residual condition of the materials, and meanwhile, the plates are conveniently taken and placed in the bottom plate material cylinder. The end part of the piston rod of the bottom plate pushing cylinder is provided with a bottom plate pushing block, so that the pushing area of the piston rod is increased, the pushing is further facilitated, and meanwhile, the pushing stability is guaranteed.

Furthermore, the top plate discharging device is arranged on the plate conveying platform through a base plate, and the thickness of the base plate is larger than or equal to that of the base plate. The position of the top plate discharge hole is higher than that of the bottom plate, so that the top plate is conveniently pushed to the upper surface of the bottom plate.

Further, the top plate discharging device comprises a top plate material cylinder and a top plate material pushing mechanism arranged beside the top plate material cylinder; the top plate charging barrel is vertically arranged on the base plate, the top of the top plate charging barrel is provided with a top plate feeding hole, and the bottom of the top plate charging barrel is provided with a top plate discharging hole and a top plate pushing hole; the top plate discharge port and the top plate material pushing port are positioned on two opposite side surfaces of the top plate material barrel; the top plate discharge port is positioned at one side close to the material conveying channel, and the top plate material pushing port is positioned at one side far away from the material conveying channel;

the top plate pushing mechanism is arranged at a top plate pushing opening and extends into the top plate pushing opening at one side of the top plate charging barrel to push out a top plate in the top plate charging barrel from a top plate discharging opening at the other side of the top plate charging barrel;

furthermore, a vertical notch is formed in one side, away from the material conveying channel, of the top plate material cylinder, and penetrates through the whole side wall from top to bottom;

the bottom plate pushing mechanism is a top plate pushing cylinder, when a piston rod of the top plate pushing cylinder extends out, a piston rod of the top plate pushing cylinder extends into a bottom plate pushing port, and plates in the bottom plate charging barrel are pushed out from a bottom plate discharging port; and a top plate pushing block is arranged at the end part of a piston rod of the top plate pushing cylinder.

Because above-mentioned structure, roof discharging device's principle is the same with bottom plate discharging device's principle, and its difference lies in that the roof feed cylinder does not separate, and if the length of panel and width are great the feed cylinder separate then save material more, then can not separate when less. The side wall is provided with a notch, which is also convenient for taking and placing the plate.

Further, on the horizontal plane, the length in the barrel of the top plate charging barrel is smaller than that of the bottom plate charging barrel, and the same inner width of the top plate charging barrel is equal to that of the bottom plate charging barrel; and the backing plate is provided with two top plate discharging devices which are respectively used for pushing the top plate to the left end and the right end of the bottom plate.

Due to the structure, when the plates of the top plate and the bottom plate are the same in size, only one top plate can be placed on the bottom plate; when the size of the top plate is smaller than that of the bottom plate, a plurality of top plates can be placed on the bottom plate.

Furthermore, a guide mechanism is arranged outside the bottom plate charging barrel and/or the bottom plate charging barrel, and the guide mechanism is arranged at the discharging port of the bottom plate and/or the discharging port of the top plate and used for guiding the bottom plate and/or the top plate discharged from the discharging port of the bottom plate and/or the discharging port of the top plate to a specified position.

Due to the structure, when the charging barrel is far away from a processing machine, the materials can be ensured to accurately reach the processing machine through the guide mechanism.

Further, the guide mechanism comprises a left guide arm and a right guide arm which are arranged on the left side and the right side of the discharge hole of the bottom plate and/or the discharge hole of the top plate, one end of the left guide arm is rotatably provided with a left guide wheel, and one end of the right guide arm is rotatably provided with a right guide wheel; the left guide arm and the right guide arm are respectively and rotatably arranged at the left side and the right side of the discharge hole of the bottom plate and/or the discharge hole of the top plate.

Due to the structure, the guide arm can rotate, so that the guide position can be conveniently adjusted, and the plate can be conveniently guided to the required position.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

when the utility model discloses a when the material loading system used on panel processing equipment such as nailer, this discharge system can replace artifical material loading, uses manpower sparingly, and it is slight to reduce artifical fatigue. And the bottom plate discharging device are simple in structure and convenient to popularize and use.

Drawings

FIGS. 1-2 are block diagrams of a top deck take-off cartridge identical to a bottom deck take-off cartridge, with the top deck and bottom deck being of identical size;

FIGS. 3-4 are block diagrams of the top plate discharge chute and the bottom plate discharge chute when the size of the top plate is smaller than the size of the bottom plate;

FIG. 5 is a block diagram of the bottom plate when stored in the bottom plate discharge chute;

fig. 6-7 are schematic views of the mounting position of the guide mechanism.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model discloses a plate feeding system, as shown in figures 1-4, which comprises a plate transportation platform 1, wherein the plate transportation platform 1 is provided with a guide plate 12, a bottom plate discharging device, a top plate discharging device and a feeding device; the guide plate 12 is fixedly arranged on the plate conveying platform 1 and extends along the plate conveying direction; the bottom plate discharging device and the top plate discharging device are arranged in a row along the plate conveying direction, and the plate discharging device, the top plate discharging device and the guide plate 12 are arranged at intervals, so that the intervals between the plate discharging device, the top plate discharging device and the guide plate 12 form a conveying channel, wherein the bottom plate discharging device is positioned at the inlet end of the conveying channel, and the top plate discharging device is positioned at the outlet end of the conveying channel; a material conveying device is arranged at the inlet end of the material conveying channel;

the bottom plate discharging device is used for pushing a bottom plate in the bottom plate discharging device to the inlet end of the material conveying channel;

the feeding device is used for pushing the bottom plate at the inlet end of the material conveying channel to the top plate discharging device;

and the top plate discharging device is used for pushing the top plate to the upper surface of the bottom plate.

The feeding device is a feeding cylinder 2, a piston rod of the feeding cylinder 2 extends into the material conveying channel and pushes a bottom plate at the inlet end of the material conveying channel to the top plate discharging device, and a material pushing block is arranged at the end part of the piston rod of the feeding cylinder 2. In actual operation, when the piston rod of the feeding cylinder 2 extends out of a full stroke, the bottom plate can be pushed to the bottom plate discharging device; the piston rod is then immediately retracted to await the next floor to be pushed.

The bottom plate discharging device comprises a bottom plate material cylinder and a bottom plate material pushing mechanism arranged beside the bottom plate material cylinder; the bottom plate material cylinder is vertically arranged on the plate conveying platform 1, a bottom plate material inlet is formed in the top of the bottom plate material cylinder, and a bottom plate material outlet 6 and a bottom plate material pushing opening 5 are formed in the bottom of the bottom plate material cylinder; the bottom plate discharge port 6 and the bottom plate material pushing port 5 are positioned on two opposite side surfaces of the bottom plate material barrel; the bottom plate discharge port 6 is positioned at one side close to the material conveying channel, and the bottom plate material pushing port 5 is positioned at one side far away from the material conveying channel;

the bottom plate pushing mechanism is arranged at the position of the bottom plate material pushing opening 5, extends into the bottom plate material pushing opening 5 at one side of the bottom plate material cylinder, and pushes out the bottom plate in the bottom plate material cylinder from the bottom plate material discharging opening 6 at the other side of the bottom plate material cylinder.

The bottom plate material cylinder comprises a left half cylinder 10 and a right half cylinder 11 which are separated, the left half cylinder 10 and the right half cylinder 11 have the same structure and respectively comprise a vertical plate which is vertically arranged and side plates which are arranged at the inner side of the vertical plate and are positioned at two sides of the vertical plate, the vertical plate and the two side plates enable the left half cylinder 10 and the right half cylinder 11 to form a groove-shaped structure with the top end and the bottom end communicated with each other, so that the bottom plate can be placed into the bottom plate material cylinder from the top of the bottom plate material cylinder, and two ends of the bottom plate can be inserted into grooves of the left half cylinder;

the bottoms of two side plates of the left half cylinder 10 and the right half cylinder 11 are provided with notches, the two notches on one side of the left half cylinder 10 and the right half cylinder 11 are matched to form a bottom plate discharge port 6, and the two notches on the other side are matched to form a bottom plate material pushing port 5;

the heights of the bottom plate discharge port 6 and the bottom plate material pushing port 5 are equal, and are more than or equal to the thickness of the bottom plate.

The bottom plate pushing mechanism is a bottom plate pushing cylinder 4, when a piston rod of the bottom plate pushing cylinder 4 extends out, the piston rod of the bottom plate pushing cylinder 4 extends into a bottom plate pushing port 5, and plates in the bottom plate charging barrel are pushed out from a bottom plate discharging port 6; and a bottom plate material pushing block 3 is arranged at the end part of a piston rod of the bottom plate material pushing cylinder 4. As shown in fig. 1-4, the bottom pusher 3 is a long strip extending in the left-right direction and having a length smaller than the distance between the left half 10 and the right half 11. The height of the bottom plate material pushing block 3 is less than that of the bottom plate material outlet 6 and the bottom plate material pushing outlet 5. This ensures that the bottom plate pusher block 3 can pass through the bottom plate pusher opening 5 and the bottom plate discharge opening 6.

As shown in fig. 5; the bottom plate is put into the material barrel from the top of the material barrel of the bottom plate and then stacked in the material barrel of the bottom plate; the bottom plate of the bottommost layer is just located bottom plate discharge port 6 and bottom plate push away material mouth 5 department, and the thickness of bottom plate is slightly less than bottom plate discharge port 6 and bottom plate push away the height of material mouth 5, and the length of bottom plate is slightly less than the distance between coexistence board. When a piston rod of the bottom plate pushing cylinder 4 extends into the bottom plate pushing port 5, the bottom plate in the charging barrel can be pushed out from the bottom plate discharging port 6. When the piston rod of the bottom plate pushing cylinder 4 retreats from the bottom plate pushing port 5, the bottom plate on the upper layer falls down to fill the positions of the bottom plate pushing port 5 and the bottom plate discharging port 6. When the bottom plate pushing cylinder 4 is connected and controlled by an automatic control system, the discharging device can regularly and automatically discharge materials.

The top plate discharging device is arranged on the plate conveying platform 1 through a base plate 7, and the thickness of the base plate 7 is larger than or equal to that of the bottom plate.

The top plate discharging device comprises a top plate charging barrel 9 and a top plate pushing mechanism arranged beside the top plate charging barrel 9; the top plate charging barrel 9 is vertically arranged on the base plate 7, a top plate feeding hole is formed in the top of the top plate charging barrel 9, and a top plate discharging hole and a top plate pushing hole are formed in the bottom of the top plate charging barrel; the top plate discharge port and the top plate material pushing port are positioned on two opposite side surfaces of the top plate material barrel 9; the top plate discharge port is positioned at one side close to the material conveying channel, and the top plate material pushing port is positioned at one side far away from the material conveying channel;

the top plate material pushing mechanism is arranged at the top plate material pushing opening and extends into the top plate material pushing opening at one side of the top plate material cylinder 9 to push the top plate in the top plate material cylinder 9 out of the top plate material discharging opening at the other side of the top plate material cylinder 9.

The heights of the top plate discharge hole and the top plate material pushing hole are equal, and the thickness of the top plate is larger than or equal to that of the top plate.

When the top plate has the same dimensions as the bottom plate, the top plate cartridges 9 can be arranged as separate cartridges as the bottom plate cartridges, which saves material, as shown in fig. 1 and 2.

When the top plate is small in size, the bottom plate cartridge may not be provided with ingredients to exit. As shown in fig. 3 and 4, a vertical notch is formed on one side of the top plate charging barrel 9 away from the material conveying channel, and the vertical notch penetrates through the whole side wall from top to bottom; therefore, the top plate is convenient to take and place, and the material condition in the top plate material barrel 9 is convenient to observe;

the bottom plate pushing mechanism is a top plate pushing cylinder 8, when a piston rod of the top plate pushing cylinder 8 extends out, the piston rod of the top plate pushing cylinder 8 extends into the bottom plate pushing port 5, and plates in the bottom plate charging barrel are pushed out from the bottom plate discharging port 6; and a top plate material pushing block is arranged at the end part of a piston rod of the top plate material pushing cylinder 8.

When the size of the top plate is the same as that of the bottom plate, a top plate discharging device which is the same as that of the bottom plate discharging device can be arranged on the backing plate 7; as shown in fig. 1 and 2; and when the roof size is less than the bottom plate size the same, then can set up the inseparable roof discharging device of a plurality of feed cylinders on backing plate 7, make a plurality of discharging device with a plurality of less roofs propelling movement to bottom plate upper surface, the processing of setting up a plurality of little roofs on the bottom plate of being convenient for. As shown in fig. 3 and 4, in the horizontal plane, the barrel inner length of the top plate barrel 9 is smaller than that of the bottom plate barrel, and the same inner width of the top plate barrel 9 is equal to that of the bottom plate barrel; and the backing plate 7 is provided with two top plate discharging devices which are respectively used for pushing the top plates to the left end and the right end of the bottom plate.

As shown in fig. 6 and 7, a guide mechanism is arranged outside the bottom plate material cylinder and/or the bottom plate material cylinder, and the guide mechanism is arranged at the discharge port of the bottom plate 6 and/or the discharge port of the top plate and is used for guiding the bottom plate and/or the top plate discharged from the discharge port of the bottom plate 6 and/or the discharge port of the top plate to a specified position.

The guide mechanism comprises a left guide arm and a right guide arm 15 which are arranged on the left side and the right side of the bottom plate discharge hole 6 and/or the top plate discharge hole, one end of the left guide arm is rotatably provided with a left guide wheel, and one end of the right guide arm 15 is rotatably provided with a right guide wheel 13; the left guide arm and the right guide arm 15 are respectively and rotatably arranged at the left side and the right side of the discharge hole of the bottom plate 6 and/or the discharge hole of the top plate. The two guide arms are rotatably arranged on the backing plate 7 and/or the plate material transport platform 1 through screws 14, and when the screws 14 are unscrewed, the guide arms can be rotated to adjust the guide direction.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a panel feeding system which characterized in that: the plate conveying device comprises a plate conveying platform (1), wherein a guide plate (12), a bottom plate discharging device, a top plate discharging device and a feeding device are arranged on the plate conveying platform (1); the guide plate (12) is fixedly arranged on the plate conveying platform (1) and extends along the plate conveying direction; the bottom plate discharging device and the top plate discharging device are arranged in a row along the plate conveying direction, and the bottom plate discharging device, the top plate discharging device and the guide plate (12) are arranged at intervals, so that the intervals between the bottom plate discharging device, the top plate discharging device and the guide plate (12) form a conveying channel, wherein the bottom plate discharging device is positioned at the inlet end of the conveying channel, and the top plate discharging device is positioned at the outlet end of the conveying channel; a material conveying device is arranged at the inlet end of the material conveying channel;

the bottom plate discharging device is used for pushing a bottom plate in the bottom plate discharging device to the inlet end of the material conveying channel;

the feeding device is used for pushing the bottom plate at the inlet end of the material conveying channel to the top plate discharging device;

and the top plate discharging device is used for pushing the top plate to the upper surface of the bottom plate.

2. A panel loading system according to claim 1, wherein: the feeding device is a feeding cylinder (2), a piston rod of the feeding cylinder (2) extends into the conveying channel, and a bottom plate at the inlet end of the conveying channel is pushed to the top plate discharging device.

3. A panel loading system according to claim 1, wherein: the bottom plate discharging device comprises a bottom plate material cylinder and a bottom plate material pushing mechanism arranged beside the bottom plate material cylinder; the bottom plate material cylinder is vertically arranged on the plate conveying platform (1), a bottom plate material inlet is formed in the top of the bottom plate material cylinder, and a bottom plate material outlet (6) and a bottom plate material pushing opening (5) are formed in the bottom of the bottom plate material cylinder; the bottom plate discharge port (6) and the bottom plate material pushing port (5) are positioned on two opposite side surfaces of the bottom plate material barrel; the bottom plate discharge port (6) is positioned at one side close to the material conveying channel, and the bottom plate material pushing port (5) is positioned at one side far away from the material conveying channel;

the bottom plate pushing mechanism is arranged at the position of a bottom plate material pushing opening (5), extends into the bottom plate material pushing opening (5) on one side of the bottom plate material cylinder, and pushes out the bottom plate material discharging opening (6) on the other side of the bottom plate material cylinder from the bottom plate material discharging opening of the bottom plate material cylinder.

4. A panel loading system according to claim 3, wherein:

the bottom plate charging barrel comprises a left half barrel (10) and a right half barrel (11) which are separated, the left half barrel (10) and the right half barrel (11) are identical in structure and respectively comprise a vertical plate which is vertically arranged and side plates which are arranged on the inner side of the vertical plate and are positioned on two sides of the vertical plate, the vertical plate and the two side plates enable the left half barrel (10) and the right half barrel (11) to form a groove-shaped structure with the top end and the bottom end communicated with each other, so that the bottom plate can be placed into the bottom plate charging barrel from the top of the bottom plate charging barrel, and two ends of the bottom plate can be inserted into grooves of the left half barrel (10);

the bottoms of two side plates of the left half cylinder (10) and the right half cylinder (11) are provided with notches, the two notches on one side of the left half cylinder (10) and one side of the right half cylinder (11) are matched to form a bottom plate discharge port (6), and the two notches on the other side are matched to form a bottom plate pushing port (5);

the bottom plate pushing mechanism is a bottom plate pushing cylinder (4), when a piston rod of the bottom plate pushing cylinder (4) extends out, the piston rod of the bottom plate pushing cylinder (4) extends into the bottom plate pushing port (5), and plates in the bottom plate material cylinder are pushed out from the bottom plate discharging port (6).

5. A panel loading system according to claim 1, wherein said top plate discharging means is provided on the panel transport platform (1) by a shim plate (7), the thickness of said shim plate (7) being greater than or equal to the thickness of the base plate.

6. The board feeding system according to claim 5, wherein the top plate discharging device comprises a top plate charging barrel (9) and a top plate pushing mechanism arranged beside the top plate charging barrel (9); the top plate charging barrel (9) is vertically arranged on the base plate (7), a top plate feeding hole is formed in the top of the top plate charging barrel (9), and a top plate discharging hole and a top plate pushing hole are formed in the bottom of the top plate charging barrel; the top plate discharge port and the top plate material pushing port are positioned on two opposite side surfaces of the top plate material barrel (9); the top plate discharge port is positioned at one side close to the material conveying channel, and the top plate material pushing port is positioned at one side far away from the material conveying channel;

the top plate pushing mechanism is arranged at the top plate pushing opening, extends into the top plate pushing opening at one side of the top plate material cylinder (9), and pushes out a top plate in the top plate material cylinder (9) from a top plate discharging opening at the other side of the top plate material cylinder (9).

7. The plate feeding system according to claim 6, wherein a vertical notch is formed on one side of the top plate charging barrel (9) far away from the material conveying channel, and the vertical notch penetrates through the whole side wall from top to bottom; the bottom plate pushing mechanism is a top plate pushing cylinder (8), when a piston rod of the top plate pushing cylinder (8) extends out, the piston rod of the top plate pushing cylinder (8) extends into the bottom plate pushing port (5) to push the plates in the bottom plate material cylinder out from the bottom plate discharging port (6).

8. A sheet feeding system according to claim 7, wherein the inside length of the top plate barrel (9) is smaller than the inside length of the bottom plate barrel in the horizontal plane, and the inside width of the top plate barrel (9) is equal to the inside width of the bottom plate barrel; and the backing plate (7) is provided with two top plate discharging devices which are respectively used for pushing the top plates to the left end and the right end of the bottom plate.

9. A plate feeding system according to claim 3, wherein a guide mechanism is arranged outside the bottom plate material barrel and/or the bottom plate material barrel, and the guide mechanism is arranged at the discharge port of the bottom plate (6) and/or the discharge port of the top plate and used for guiding the bottom plate and/or the top plate discharged from the discharge port of the bottom plate (6) and/or the discharge port of the top plate to a specified position.

10. The board feeding system according to claim 9, wherein the guide mechanism comprises a left guide arm and a right guide arm (15) which are arranged on the left side and the right side of the bottom board discharge port (6) and/or the top board discharge port, one end of the left guide arm is rotatably provided with a left guide wheel, and one end of the right guide arm (15) is rotatably provided with a right guide wheel (13); the left guide arm and the right guide arm (15) are respectively and rotatably arranged at the left side and the right side of the bottom plate discharge hole (6) and/or the top plate discharge hole.

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