CN113002070A - Corrugated board production equipment and processing technology - Google Patents

Abstract

The application discloses corrugated board production equipment and a processing technology, relates to the technical field of corrugated boards, and solves the problem that the labor intensity of workers is high in the corrugated board processing process; the guide rail is connected with a plurality of limiting blocks in series, one side of each limiting block, which is close to the movable pressing plate, is connected with the movable pressing plate in a sliding mode, the limiting blocks are evenly distributed at intervals along the guide rail, a plurality of beads are arranged between every two adjacent limiting blocks, and limiting grooves are formed in the limiting blocks; the movable pressing plate is provided with a positioning block, the upper end of the movable pressing plate is provided with a positioning groove, the movable plate is provided with a compression spring, the positioning block is provided with an inclined plane, the limiting block is connected with the inclined plane in a sliding mode, and when the limiting block abuts against the positioning block, the corrugated board is installed in the pressing area; the workbench is provided with a collecting part. The process of continuously putting the corrugated board is repeated when the corrugated board is processed, so that the working strength of operators is reduced.

Description

Corrugated board production equipment and processing technology

Technical Field

The application relates to the technical field of corrugated board processing, in particular to corrugated board production equipment and a corrugated board processing technology.

Background

The flat-pressing indentation line cutting machine is suitable for special equipment for pressing and cutting various common paperboards, corrugated boards, plastic sheets, leather products and the like, and is suitable for the industries of printing, packaging decoration and plastic stools.

The current creasing and cutting machine comprises a pressing plate and a cutting die, wherein a pressing block for positioning a corrugated board is arranged on one side of the pressing plate, which faces the cutting die, a fixed shaft is arranged between the pressing block and the pressing plate, and the pressing plate is rotatably connected around the pressing plate through the fixed shaft. When the creasing and cutting machine works, the corrugated board is placed on the pressing plate, the pressed object is placed between the pressing plate and the pressing block, the pressed object is taken out of the pressing plate, and then the pressed object is continuously put in.

In view of the above-mentioned related technologies, the inventor believes that an operator needs to continuously take out the corrugated board and place the corrugated board at a specific position, and then immediately place the corrugated board between the pressing block and the pressing plate, so that the corrugated board is pressed with a high labor intensity, and the corrugated board can be pressed by a worker with a high concentration.

Disclosure of Invention

In order to solve the problem that labor intensity of workers is high in the corrugated board processing process, the application provides corrugated board production equipment and a corrugated board processing technology.

In a first aspect, the present application provides a corrugated board production apparatus, which adopts the following technical scheme:

a corrugated board production device comprises a workbench, wherein a fixed pressing plate and a movable pressing plate are mounted on the workbench, a cutting die is arranged on the fixed pressing plate, a pressing area is arranged on the movable pressing plate, guide rails with two closed ends are mounted on the movable pressing plate, the guide rails are of an annular structure, and two guide rails are respectively arranged on two sides of the pressing area;

the guide rail is provided with a plurality of limiting blocks in a sliding manner, the limiting blocks are provided with through holes for the guide rail to pass through, one side of each limiting block, which is close to the movable pressing plate, is connected with the movable pressing plate in a sliding manner, the limiting blocks are uniformly distributed along the guide rail at intervals, a plurality of beads are arranged between every two adjacent limiting blocks, the beads are installed on the guide rail in a sliding manner, the beads are provided with through holes for the guide rail to pass through, and the limiting blocks are provided with limiting grooves for corrugated boards to extend;

the corrugated board pressing device is characterized in that a positioning block is arranged on the movable pressing plate, a positioning groove for mounting the positioning block is formed in the upper end of the movable pressing plate, a compression spring is mounted on the movable pressing plate, one end of the compression spring is fixedly connected with the bottom wall of the positioning groove, the other end of the compression spring is fixedly connected with the positioning block, an inclined plane is formed in the positioning block, part of the inclined plane extends out of the positioning groove, the limiting block is connected with the inclined plane in a sliding mode, and when the limiting block is abutted against the positioning block;

the corrugated board collecting device is characterized in that a collecting part for collecting corrugated boards is arranged on the workbench, and the collecting part is positioned below the fixed pressing plate and the movable pressing plate.

By adopting the technical scheme, when the beads or the limiting blocks are stirred, the beads and the limiting blocks on the whole guide rail can move relatively, so that the limiting blocks can realize circumferential circulating motion along the guide rail;

when the positioning block extends out of the positioning groove, the limiting block abuts against the positioning block, the limiting block abutted against the positioning block cannot be moved continuously by pushing the beads or other limiting blocks, if the limiting block is required to move continuously, the limiting block abutted against the positioning block needs to be pushed forcibly by hands to return the positioning block to the positioning groove, so that when the limiting block is abutted against the positioning block, the limiting block is not easy to move continuously along the guide rail, and the position of the corrugated board in the pressing area is determined;

when the movable pressing plate rotates, the corrugated board can be attached to the fixed pressing plate in a driving mode, after the corrugated board is cut out of a cutting mark by the cutting die, the movable pressing plate leaves the fixed pressing plate, the positioning block slides into the positioning groove, the limiting block is not abutted to the positioning block any more, the corrugated board which is not pressed slides into the limiting block outside the pressing area, and then the limiting block and the corrugated board are pushed to move downwards, so that the limiting block in the pressing area moves along the guide rail, when the limiting block leaves the pressing area, the limiting block also leaves the pressed corrugated board, the limiting block does not limit the corrugated board, so that the pressed corrugated board falls into the collecting part from a gap between the fixed pressing plate and the movable pressing plate to be collected uniformly under the action of self gravity,

when corrugated container board not being suppressed is located the suppression district, the locating piece continues the stopper butt with the activity clamp plate upper end, thereby make stopper and the pearl on the guide rail all no longer remove, the activity clamp plate continues to take corrugated container board and the laminating of fixed pressing plate, only the stopper of repeated promotion and locating piece butt, send corrugated container board into the action in the activity clamp plate again, the corrugated container board that is suppressed can fall automatically in the collection portion, thereby make whole operation fairly simple, can reduce staff's intensity of labour.

Optionally, the movable pressing plate is provided with an annular groove corresponding to the guide rails one to one, the limiting block is fixedly connected with a sliding block in sliding connection with the annular groove, the positioning groove is located in the bottom wall of the annular groove, and the limiting block is in sliding connection with the positioning block through the sliding block.

Through adopting above-mentioned technical scheme, when the stopper removed along the guide rail, the slider slided in the annular, can play further limiting displacement to the stopper, makes stopper better with activity clamp plate sliding connection, constantly stirs pearl or stopper, and the stopper just can remove along the annular, and when the slider slided to locating piece department, the inclined plane butt of slider and locating piece promoted the stopper hard, and the slider made the stopper continue to remove in pushing back the locating piece constant head tank.

Optionally, the size of the through hole of the bead is larger than that of the guide rail, the ball is installed in the bead in a rolling manner, an installation groove for installing the ball is formed in the bead, a driving spring used for driving part of the ball to extend out of the installation groove is installed in the bead, the outer diameter of the ball is larger than the inner diameter of the driving spring, and the ball is installed on the guide rail in a rolling manner.

Through adopting above-mentioned technical scheme, through the ball, make the pearl can slide along the guide rail steadily.

Optionally, the beads of the two guide rails close to each other are used for being connected with the corrugated board in a sliding mode.

Through adopting above-mentioned technical scheme, the pearl can play further limiting displacement to corrugated container board, makes corrugated container board remove along with the removal of pearl and stopper betterly, and when the stopper left corrugated container board, the pearl that moves between two guide rails can promote simultaneously by the corrugated container board that the suppression is good and leave movable pressing plate, and the pearl of removal can also play the guide effect to the corrugated container board that is suppressed, makes corrugated container board more steadily leave movable pressing plate.

Optionally, a connecting seat is installed in the annular region of the guide rail, the connecting seat is installed on the movable pressing plate, the connecting seat comprises clamping plates connected with each other, the beads are connected with the side walls of the clamping plates in a sliding mode, guide grooves are formed in the side walls, close to the balls, of the clamping plates, and when the beads pass through the clamping plates, part of the beads are located in the guide grooves and connected with the guide grooves in a sliding mode.

Through adopting above-mentioned technical scheme, when the pearl removed along the guide rail, the pearl passed through the guide slot and slided along the splint lateral wall to make the guide rail install on the connecting seat, and the connecting seat is installed on the activity clamp plate, thereby makes the guide rail can install on the activity clamp plate.

Optionally, a screw rod is connected between the two clamping plates, one end of the screw rod is fixedly connected with one clamping plate, the screw rod is in threaded connection with two nuts, the screw rod penetrates through the other clamping plate, and the other clamping plate is fixed between the two nuts.

Through adopting above-mentioned technical scheme, the screw rod links together two splint, can also make two splint adapt to the pearl of different external diameters through the position of two nuts and the interval between two nuts, also makes things convenient for the people to adjust the position of pearl in the guide slot, makes the pearl remove along the guide slot betterly.

Optionally, a sliding groove for sliding the ball is formed in the outer ring of the guide rail, the sliding groove extends along the outer peripheral side of the guide rail, a sponge layer is bonded in the guide groove, and the ball is connected with the sponge layer in a sliding manner.

Through adopting above-mentioned technical scheme, make ball and the gliding position of guide rail fixed through the spout, so the ball can be close to corrugated container board, when corrugated container board was suppressed by the cutting die, corrugated container board has the effort of extrusion bead, and then makes bead extrusion sponge layer, and driving spring can play the cushioning effect to corrugated container board, thereby when making corrugated container board outwards warp, corrugated container board's outward flange is also difficult to be crushed, corrugated container board's outward flange still can be along bead downstream.

In a second aspect, the present application provides a corrugated board processing technology, which adopts the following technical scheme:

manually sliding a limiting block which is abutted to the positioning block on the guide rail through the positioning block, then sliding the corrugated board between the two guide rails, respectively extending two corners of the corrugated board into the limiting blocks of the two guide rails, pushing the corrugated board downwards, contacting the corrugated board with the limiting block to push other limiting blocks and beads on the guide rail to move, and when the other limiting blocks are abutted to the positioning block, the corrugated board is attached to the fixed pressing plate along with the movement of the movable pressing plate after the corrugated board is not continuously pushed any more;

the corrugated board is pressed and then leaves the fixed pressing plate, the limiting blocks abutted to the locating blocks slide through the locating blocks manually, the corrugated board which is not pressed slides into the space between the two guide rails, two corners of the corrugated board which is not pressed respectively extend into the limiting grooves of the two limiting blocks, when the corrugated board which is not pressed is pushed downwards, the pressed corrugated board also continues to move downwards, when the limiting blocks leave the pressed corrugated board, the pressed corrugated board continuously separates from the movable pressing plate and falls into the collecting part from the space between the movable pressing plate and the fixed pressing plate, when the limiting blocks which move to the upper end of the movable pressing plate are abutted to the locating blocks, the corrugated board which is not pressed stops being pushed, and the movable pressing plate continues to bring the corrugated board to be attached to the fixed pressing plate.

Through adopting above-mentioned technical scheme, as long as constantly repeated hard promotes the stopper and makes the locating piece slip back to the constant head tank, the stopper leaves the action that the corrugated container board that will not be suppressed promoted downwards behind the locating piece, just can make corrugated container board suppressed, whole operation process is fairly simple to staff's labour has been reduced.

In summary, the present application includes at least one of the following benefits:

1. when the corrugated board is processed, as long as the process of continuously putting the corrugated board is repeated, the pressed corrugated board does not need to be manually collected, so that the processing process of the corrugated board is simpler, and the working strength of operators is reduced;

2. when promoting one of them stopper or pearl, other stoppers on the guide rail and pearl just can carry out relative removal to the pearl can also with corrugated container board sliding connection, thereby when making the stopper leave corrugated container board, corrugated container board can steadily must fall to the collection portion in under the guide of pearl.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic structural diagram of the movable plate of the present embodiment;

FIG. 3 is a schematic diagram illustrating a state in which a stopper abuts against a positioning block according to this embodiment;

FIG. 4 is a schematic structural diagram of the present embodiment showing the positioning block mounted on the movable platen;

FIG. 5 is a schematic view of the connecting socket of the present embodiment;

fig. 6 is an enlarged schematic view at a of fig. 5.

Description of reference numerals: 1. a work table; 11. fixing the pressing plate; 111. cutting a die; 112. accommodating grooves; 12. a movable pressing plate; 121. a pressing zone; 122. a ring groove; 123. positioning a groove; 13. a drive wheel; 14. a bearing seat; 15. a transmission rod; 2. a guide rail; 21. a chute; 3. a limiting block; 31. a slider; 32. a limiting groove; 4. beads; 41. a ball bearing; 42. mounting grooves; 43. a drive spring; 5. a collection basket; 51. a pulley; 6. positioning blocks; 61. a bevel; 7. a compression spring; 8. a connecting seat; 81. a splint; 811. a guide groove; 812. a sponge layer; 82. a screw; 83. and a nut.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses corrugated board production equipment. Referring to fig. 1, the production equipment comprises a workbench 1, and a fixed pressing plate 11 and a movable pressing plate 12 which are installed on the workbench 1, wherein the fixed pressing plate 11 is fixedly installed on the workbench 1, and the bottom of the movable pressing plate 11 is hinged with the workbench 1. The two opposite sides of the fixed pressing plate 11 are rotatably connected with driving wheels 13, the driving wheels 13 are driven by a servo motor, the movable pressing plate 12 is symmetrically provided with two bearing seats 14, a transmission rod 15 is arranged between each driving wheel 13 and the corresponding bearing seat 14, one end of each transmission rod 15 is hinged on the corresponding driving wheel 13 by using a pin shaft, the hinged position of the transmission rod 15 and the driving wheel 13 deviates from the rotating axis of the driving wheel 13, and the other end of the transmission rod 15 is hinged on the corresponding bearing seat 14 by using a pin shaft. When the driving wheel 13 rotates, the driving wheel 13 drives the movable platen 12 to move closer to or away from the fixed platen 11 through the transmission rod 15. The workbench 1 is provided with a controller, and the control mode of the controller is adjusted to ensure that the servo motor is matched with the controller. When the movable pressing plate 12 leaves the fixed pressing plate 11 after the corrugated cardboard is clamped by the movable pressing plate 12 and the fixed pressing plate 11, the controller controls the servo motor to pause for 10 seconds or other set time, so that the movable pressing plate 12 pauses for ten seconds or other set time, and then the driving wheel 13 continues to carry the movable pressing plate 12.

Referring to fig. 1 and 2, a cutting die 111 is mounted on the fixed platen 11, and a pressing area 121 for corresponding to the cutting die 111 is provided on the movable platen 12. The movable pressing plate 12 is provided with a guide rail 2 with two closed ends, and the guide rail 2 is in an annular structure. Two guide rails 2 are installed on the movable pressing plate 12, and the pressing area 121 is located between the two guide rails 2. The fixed pressing plate 11 is provided with a receiving groove 112 for receiving the guide rail 2, and when the corrugated cardboard is clamped between the movable pressing plate 12 and the fixed pressing plate 11, a part of the guide rail 2 is located in the receiving groove 112.

Referring to fig. 3, slidable mounting has three stopper 3 on guide rail 2, and stopper 3 offers the through-hole that is used for supplying guide rail 2 to pass, and three stopper 3 even interval sets up on guide rail 2. Guide rail 2 slidable mounting between adjacent stopper 3 has pearl 4, mutual butt between pearl 4, and pearl 4 is offered and is used for supplying the through-hole that guide rail 2 passed. The cross section that stopper 3 is used for supplying the through-hole that guide rail 2 passed is the arc structure to make stopper 3 can adapt to the turn of guide rail 2 relatively well, stopper 3 can smoothly pass through the turn of guide rail 2. The through holes for the beads 4 to pass through the guide rail 2 are also arc-shaped, also in order to allow the beads 4 to smoothly pass through the corners of the guide rail 2. When stirring stopper 3 or pearl 4, other stopper 3 and pearl 4 on the guide rail 2 can both relative movement.

Referring to fig. 3, one side of the limiting block 3 close to the movable pressing plate 12 is slidably connected to the movable pressing plate 12, one side of the limiting block 3 close to the movable pressing plate 12 is fixedly connected to a sliding block 31, and the movable pressing plate 12 is provided with a ring groove 122 for allowing the sliding block 31 to slide. The limiting block 3 moves in the annular groove 122 through the sliding block 31, so that the limiting block 3 can be better connected with the movable pressing plate 12 in a sliding manner.

Referring to fig. 3, a limiting groove 32 for allowing one corner of the corrugated board to enter is formed in the limiting block 3, when the corrugated board slides into the space between the two guide rails 2, the two corners of the corrugated board are respectively contacted with the two limiting blocks 3 near the upper end of the movable pressing plate 12, and when the corrugated board is pushed, the limiting blocks 3 can drive the corrugated board to enter the pressing area 121. The pressed corrugated cardboard is pushed out of the pressing area 121, and the corrugated cardboard can be separated downward from the movable pressing plate 12 by its own weight.

Referring to fig. 2, a collecting portion for collecting the corrugated cardboards is provided below the table 1. The collecting part comprises a collecting basket 5 with an upward opening, a through groove communicated with the collecting basket 5 is formed in the workbench 1, and a pulley 51 is connected below the collecting basket 5. After the corrugated board one end passes through fixed pressing plate 11 and movable pressing plate 12, stretch into collection basket 5 through the trough, corrugated board's periphery side and collection basket 5's inner wall sliding connection to make corrugated board be collected in collection basket 5 by unified, when the corrugated board in collection basket 5 is piled up, can push away whole collection basket 5, continue to put into the below that an empty collection basket 5 lies in movable pressing plate 12.

Referring to fig. 3 and 4, the movable platen 12 is provided with a positioning block 6, and the movable platen 12 is provided with a positioning groove 123 for mounting the positioning block 6. The positioning groove 123 is located in the ring groove 122 and is close to the upper end of the movable platen 12. The positioning block 6 can prevent the stopper 3 from continuing to slide, so that the stopper 3 moving into the pressing area 121 can not move any more. The corrugated cardboard in the pressing area 121 is fixed at a specific position of the pressing area 121, and the cutting die 111 can accurately press the corrugated cardboard in the pressing area 121 when the movable pressing plate 12 and the fixed pressing plate 11 clamp the corrugated cardboard.

Referring to fig. 4, a compression spring 7 is installed in the positioning groove 123, one end of the compression spring 7 is fixedly connected with the bottom of the positioning groove 123, and the other end of the compression spring 7 is fixedly connected with the positioning block 6. The compression spring 7 can drive part of the positioning block 6 to extend out of the positioning groove 123, so that the limiting block 3 can be abutted against the positioning block 6. The end of the positioning block 6 extending out of the positioning groove 123 is provided with an inclined surface 61, and part of the inclined surface 61 is located outside the positioning groove 123. The slide block 31 abuts against the inclined surface 61, and if only the stopper 3 or the bead 4 is pulled, the slide block 31 cannot overcome the elastic force of the compression spring 7 to slide the positioning block 6 into the positioning groove 123. Only by manually pushing the limiting block 3 hard, the elastic force of the compression spring 7 can be overcome to enable the positioning block 6 to return to the positioning groove 123 again, and the limiting block 3 can continue to slide along the guide rail 2.

Referring to fig. 3, in order to stably mount the guide rail 2 on the movable platen 12, a coupling seat 8 is provided in an annular region of the guide rail 2, and the beads 4 of the guide rail 2 are slidably coupled to the coupling seat 8.

Referring to fig. 5 and 6, the connecting base 8 includes two clamping plates 81 fixedly connected to each other, a guide groove 811 for sliding the beads 4 is formed on a side wall of the clamping plate 81, and a sponge layer 812 is adhered to an inner wall of the guide groove 811, so that the beads 4 are slidably connected to the sponge layer 812. A gap is left between the two clamping plates 81, and a portion of one bead 4 is located in the gap between the two clamping plates 81. A screw 82 is connected between the two clamping plates 81, and one end of the screw 82 is fixedly connected with one clamping plate 81. Two nuts 83 are threadedly coupled to the screw 82, and the other clamping plate 81 is installed between the two nuts 83, so that the two clamping plates 81 are coupled together by one screw 82. The spacing between the two clamping plates 81 can be adjusted by turning the nut 83 so that the two clamping plates 81 can accommodate beads 4 of different outer diameters. When the beads 4 pass through the clamping plate 81, the beads 4 are partially positioned in the guide grooves 811 and slidably connected with the guide grooves 811. When the coupling holder 8 is mounted on the movable platen 12, the guide rail 2 is mounted on the movable platen 12.

Referring to fig. 6, the size of the through hole of the bead 4 is larger than that of the guide rail 2, and a ball 41 rolling-connected to the guide rail 2 is installed in the bead 4 in order to allow the bead 4 to be slidably connected to the guide rail 2. The wall of the through hole of the bead 4 is opened with an installation groove 42 for installing the ball 41, and a driving spring 43 for driving a part of the ball 41 to extend out of the installation groove 42 is installed in the installation groove 42. The outer diameter of the ball 41 is larger than the inner diameter of the driving spring 43, so that a part of the ball 41 is located inside the driving spring 43 and is in rolling connection with the driving spring 43. The balls 41 can be roll-mounted on the guide rail 2 as the beads 4 move along the guide rail 2.

Referring to fig. 6, when the corrugated cardboard is positioned between the two guide rails 2, the beads 4 can be slidably coupled with the corrugated cardboard. The outer ring of the guide rail 2 is provided with a chute 21 for the rolling of the ball 41, and the ball 41 is limited by the chute 21, so that the ball 41 approaches the corrugated board.

When the movable pressing plate 12 and the fixed pressing plate 11 clamp the corrugated board, the corrugated board is slightly deformed outwards when being pressed, the beads 4 are squeezed, and the contact area between the edge of the corrugated board and the beads 4 can be reduced by the spherical surface of the beads 4. When corrugated container board extrusion bead 4, bead 4 and then extrusion sponge layer 812, so sponge layer 812 and driving spring 43 can play the cushioning effect to corrugated container board, make corrugated container board's outward flange difficult warp because extrude bead 4. When the stop block 3 leaves the corrugated cardboard, the beads 4 can guide and push the corrugated cardboard, so that the corrugated cardboard can leave the movable pressing plate 12 smoothly. The beads 4 can also accommodate corrugated cardboards having a small difference in width by driving the springs 43 and the balls 41.

The implementation principle of the corrugated board production equipment in the embodiment of the application is as follows:

during the stay of the movable pressing plate 12 for ten seconds, the corrugated board slides into the pressing area 121 along the limiting blocks 3 of the two guide rails 2, when the limiting blocks 3 outside the pressing area 121 abut against the positioning blocks 6, the corrugated board is fixed in the pressing area 121, and the corrugated board can be pressed on the fixed pressing plate 11 when the movable pressing plate 12 rotates, so that the corrugated board is pressed; when the movable pressing plate 12 leaves the fixed pressing plate 11 and stops rotating, the limiting blocks 3 abutted to the two guide rails 2 and the positioning blocks 6 are pushed downwards forcibly, the limiting blocks 3 are not abutted to the positioning blocks 6 any more, then the corrugated board slides into the limiting blocks 3, the corrugated board is pushed, when the limiting blocks 3 below the corrugated board to be pressed leave the guide rails 2, the pressed corrugated board can slide into the collecting part along the movable pressing plate 12, the pressed corrugated board is collected uniformly, the corrugated board processing process is simpler in operation, and the working strength of operators is reduced.

The embodiment of the application also discloses a corrugated board processing technology.

A corrugated board processing technology is characterized in that the corrugated board production equipment is adopted for processing, a limiting block 3 which is abutted against a positioning block 6 on a guide rail 2 is manually slid through the positioning block 6, then the corrugated board is slid between two guide rails 2, two corners of the corrugated board respectively extend into the limiting blocks 3 of the two guide rails 2, the corrugated board is pushed downwards, the limiting block 3 is contacted with the corrugated board to push other limiting blocks 3 and beads 4 on the guide rails 2 to move, when the other limiting blocks 3 are abutted against the positioning blocks 6, the corrugated board is not pushed continuously, and then the corrugated board is attached to a fixed pressing plate 11 along with the movement of a movable pressing plate 12;

the corrugated board is pressed and then leaves the fixed pressing plate 11, the limiting block 3 abutted against the positioning block 6 is manually and continuously slid through the positioning block 6, the corrugated board which is not pressed is continuously slid into the space between the two guide rails 2, the corrugated board which is not pressed extends into the limiting grooves 32 of the two limiting blocks 3, when the corrugated board which is not pressed is pushed downwards, the pressed corrugated board is continuously moved downwards, when the limiting block 3 leaves the pressed corrugated board, the pressed corrugated board is continuously separated from the movable pressing plate 12 and falls into the collecting part from the space between the movable pressing plate 12 and the fixed pressing plate 11, when the limiting block 3 which is moved to the upper end of the movable pressing plate 12 is abutted against the positioning block 6, the non-pressed corrugated board is stopped being pushed, and the movable pressing plate 12 is continuously matched with the fixed pressing plate 11 with the corrugated board.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a corrugated board production facility, includes workstation (1), install fixed pressing plate (11) and activity clamp plate (12) on workstation (1), be provided with cutting die (111) on fixed pressing plate (11), be provided with on activity clamp plate (12) and suppress district (121), its characterized in that: the movable pressing plate (12) is provided with guide rails (2) with two closed ends, the guide rails (2) are of an annular structure, and two sides of the pressing area (121) are respectively provided with one guide rail (2);

the corrugated board guide rail is characterized in that a plurality of limiting blocks (3) are slidably mounted on the guide rail (2), through holes for the guide rail (2) to pass through are formed in the limiting blocks (3), one side, close to the movable pressing plate (12), of each limiting block (3) is slidably connected with the movable pressing plate (12), the limiting blocks (3) are uniformly distributed along the guide rail (2) at intervals, a plurality of beads (4) are arranged between every two adjacent limiting blocks (3), the beads (4) are slidably mounted on the guide rail (2), the beads (4) are provided with through holes for the guide rail (2) to pass through, and limiting grooves (32) for corrugated boards to stretch into are formed in the limiting blocks (3);

a positioning block (6) is arranged on the movable pressing plate (12), a positioning groove (123) for mounting the positioning block (6) is formed in the upper end of the movable pressing plate (12), a compression spring (7) is mounted on the movable pressing plate (12), one end of the compression spring (7) is fixedly connected with the bottom wall of the positioning groove (123), the other end of the compression spring (7) is fixedly connected with the positioning block (6), an inclined surface (61) is formed in the positioning block (6), part of the inclined surface (61) extends out of the positioning groove (123), the limiting block (3) is slidably connected with the inclined surface (61), and when the limiting block (3) abuts against the positioning block (6), the corrugated board is mounted in the pressing area (121);

the corrugated board collecting device is characterized in that a collecting part for collecting corrugated boards is arranged on the workbench (1), and the collecting part is positioned below the fixed pressing plate (11) and the movable pressing plate (12).

2. A corrugated cardboard production apparatus as claimed in claim 1 wherein: offer annular (122) with guide rail (2) one-to-one on activity clamp plate (12), stopper (3) fixedly connected with be used for with annular (122) sliding connection's slider (31), constant head tank (123) are located the diapire of annular (122), stopper (3) are through slider (31) and locating piece (6) sliding connection.

3. A corrugated cardboard production apparatus as claimed in claim 1 wherein: the size of the through hole of the bead (4) is larger than that of the guide rail (2), a ball (41) is installed in the bead (4) in a rolling mode, an installation groove (42) used for installing the ball (41) is formed in the bead (4), a driving spring (43) used for driving part of the ball (41) to stretch out of the installation groove (42) is installed in the bead (4), the outer diameter of the ball (41) is larger than the inner diameter of the driving spring (43), and the ball (41) is installed on the guide rail (2) in a rolling mode.

4. A corrugated cardboard production apparatus as claimed in claim 3 wherein: the beads (4) which are close to each other on the two guide rails (2) are used for being connected with the corrugated board in a sliding mode.

5. A corrugated cardboard production apparatus as claimed in claim 4 wherein: install connecting seat (8) in the annular region of guide rail (2), install on activity clamp plate (12) connecting seat (8), connecting seat (8) are including splint (81) of two-phase interconnect, the lateral wall sliding connection of pearl (4) and splint (81), splint (81) are close to the lateral wall of ball (41) and have been seted up guide slot (811), when pearl (4) process splint (81), partial pearl (4) are located guide slot (811) and with guide slot (811) sliding connection.

6. A corrugated cardboard production apparatus as claimed in claim 5 wherein: be connected with screw rod (82) between two splint (81), the one end and splint (81) fixed connection of screw rod (82), screw rod (82) threaded connection has two nuts (83), screw rod (82) run through another splint (81), and another splint (81) are fixed in between two nuts (83).

7. A corrugated cardboard production apparatus as claimed in claim 6 wherein: the ball bearing guide rail is characterized in that a sliding groove (21) used for allowing a ball (41) to slide is formed in the outer ring of the guide rail (2), the sliding groove (21) extends along the outer peripheral side of the guide rail (2), a sponge layer (812) is bonded in the guide groove (811), and the beads (4) are connected with the sponge layer (812) in a sliding mode.

8. A corrugated board processing technology is characterized in that: the corrugated board production equipment according to any one of claims 1 to 7 is adopted to process the corrugated board, the limiting blocks (3) which are abutted to the positioning blocks (6) on the guide rails (2) are manually slid through the positioning blocks (6), then the corrugated board is slid between the two guide rails (2), two corners of the corrugated board respectively extend into the limiting blocks (3) of the two guide rails (2), the corrugated board is pushed downwards, the other limiting blocks (3) and the beads (4) on the guide rails (2) are pushed to move by the contact limiting blocks (3) of the corrugated board, and when the other limiting blocks (3) are abutted to the positioning blocks (6), the corrugated board is attached to the fixed pressing plate (11) along with the movement of the movable pressing plate (12) after the corrugated board is not pushed continuously;

the corrugated board leaves the fixed pressing plate (11) after being pressed, the limiting block (3) which is abutted against the positioning block (6) is manually and continuously slid through the positioning block (6), the non-pressed corrugated board is continuously slid between the two guide rails (2), and two corners of the corrugated board which is not pressed respectively extend into the limiting grooves (32) of the two limiting blocks (3), when the corrugated board which is not pressed is pushed downwards, the pressed corrugated board also continues to move downwards, when the limiting block (3) leaves the pressed corrugated board, the pressed corrugated board continuously leaves the movable pressing plate (12), and falls into the collecting part from between the movable pressure plate (12) and the fixed pressure plate (11), when the limiting block (3) which is moved to the upper end of the movable pressure plate (12) is abutted against the positioning block (6), the corrugated paper board which is not pressed is stopped to be pushed, and the movable pressing plate (12) continuously carries the corrugated paper board to be matched with the fixed pressing plate (11).

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