JP2020203312A - Old corrugated cardboard recovery facility having high compression rate - Google Patents

Abstract

To disclose an old corrugated cardboard recovery facility having a high compression rate.SOLUTION: An old corrugated cardboard recovery facility includes a recovery box, a power chamber is installed in the recovery box, a raw material chamber which is located on the left side of the power chamber and opens upward and rightward is installed in the recovery box. The raw material chamber can store old corrugated cardboard waiting to be compressed, and a compression chamber which is located on a lower right side of the power chamber and opens upward and rightward is installed in the recovery box, and a feeding device located on the front side of the raw material chamber is installed inside the power chamber. The feeding device can take out the old corrugated cardboard from inside the raw material chamber.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of old corrugated cardboard compression recovery technology, and specifically is an old corrugated cardboard recovery facility having a high compression rate.

Corrugated cardboard is a plate-shaped paper product produced by laminating liner paper and corrugated cardboard core processed by step rolls, and is generally divided into single corrugated cardboard and double corrugated cardboard, depending on the size of the corrugated cardboard. , A, B, C, D, and E. The invention and application of corrugated cardboard has a history of more than 100 years, and its cost is low, its weight is light, and it is processed. It has advantages such as ease of use, strong pressure resistance, good print adaptability, and convenient storage and transportation. More than 80% of corrugated cardboard can be recycled, and corrugated cardboard is food and digital products. Can be used for packaging, is environmentally friendly and widely used, and after using corrugated board, generally in the process of recycling and collecting, the corrugated board is compressed due to its good pressure resistance. It is difficult to handle, and the old corrugated cardboard is directly packed and transported without being compressed, and as a result, the old corrugated cardboard occupies a large space, increases the transportation cost, and the present invention discloses equipment that can solve the above problems.

Publication of Chinese Patent Application No. 109109362

An object of the present invention is to provide an old corrugated board recovery facility with a high compression ratio, which can solve the problems in the current technology described above.

Technical problem: Corrugated cardboard has good pressure resistance and is difficult to compress, so the space occupied by corrugated cardboard is large and the cost of collection and transportation is high.

To solve the above problems, the present invention adopts the following technical plan: The old corrugated cardboard recovery equipment having a high compression ratio of the present invention includes a recovery box, and a power chamber is installed in the recovery box. In the collection box, raw material chambers located on the left side of the power chamber and open to the upper and right sides are installed, and the raw material chamber can store old corrugated cardboard waiting to be compressed. A compression chamber located on the lower right side of the power chamber and open to the upper and right sides is installed, and a feeding device located on the front side of the raw material chamber is installed in the power chamber, and the feeding device is the raw material chamber. An old corrugated cardboard can be taken out from the inside, and a transmission device capable of transporting and initially compressing the old corrugated cardboard located on the right side of the feeding device is installed in the power chamber, and the transmission is installed in the power chamber. Symmetrical cutting devices located on both front and rear sides of the device are installed, the cutting device can cut the corrugated cardboard core, and an interlocking device located above the transmission device is installed in the power chamber of the power chamber. A compression device located on the right side of the interlocking device is installed inside, and the corrugated cardboard cut by the compression device can be further compressed, and the interlocking device is connected to a turntable connected so as to be rotatable in the power chamber. With a long crank fixedly connected to the turntable, a short crank fixedly connected to the turntable and located on the right side of the long crank, and a connecting rod connected to the short crank by a hinge. Further, the rotation of the rotating disk and the long crank can be used to interlock the movement of the compression device, and at the same time, the rotating disk can move the feeding device by the short crank and the connecting rod.

Preferentially, a box door is rotatably connected to the right opening of the compression chamber.

The feeding device includes a front-rear extending gear shaft connected to the front inner wall of the power chamber so as to be rotatable, a direction changing gear is fixedly connected to the gear shaft, and a lower end of the gear shaft is connected to the gear shaft. The feed racks are connected so as to mesh with each other, and a long push block connected so as to slide to the lower inner wall of the raw material chamber is fixedly connected to the rear end of the feed rack, and the long push block is fixedly connected to the raw material. A rack extending from the front end surface of the chamber and being slidably connected to the front end surface of the raw material chamber is engaged with the upper end of the direction changing gear so as to mesh with the upper end.

The transmission device includes two symmetrical pulley shafts that are rotatably connected to the inner wall of the power chamber, the pulley shafts extending back and forth, and located on the lower right side of the gear shafts. A pulley is fixedly connected to the pulley shaft, a belt conveyor is connected between the pulleys on the left and right sides, and a belt conveyor is fixedly connected to the pulley shaft on the left side to the front inner wall of the power chamber. The motors are connected so that they can be transmitted, the synchronous pulley located between the pulley and the motor is fixedly connected to the pulley shaft on the left side, and the pulley shaft on the left side is located behind the pulley. The main pulleys are fixedly connected, and two symmetrical interlocking shafts located above the pulley shafts are connected so as to be rotatable in the power chamber, and the interlocking shafts extend back and forth. A crimping pulley is fixedly connected to the interlocking shaft, a V-belt is connected between the crimping pulleys on both the left and right sides, and a secondary pulley located behind the crimping pulley is connected to the interlocking shaft on the left side. Is fixedly connected, a flat belt is connected between the sub-pulley and the main pulley, and a sub-multi-wedge pulley located behind the crimping pulley is fixedly connected to the interlocking shaft on the right side. Has been done.

The cutting device includes two anteroposteriorly symmetrical pulley shafts that are rotatably connected to the lower inner wall of the power chamber, the pulley shafts extending up and down, and pulleys at the upper ends of the pulley shafts. It is fixedly connected, two vertically symmetrical wire saws are connected between the pulleys on both front and rear sides, and a secondary umbrella gear located below the pulleys is fixed to the pulley shaft on the front side. A main pulley gear that is connected to the front inner wall of the power chamber so that a composite shaft extending back and forth can rotate is connected to the composite shaft, and is connected to the composite shaft so as to mesh with the auxiliary pulley gear. A sub-synchronous pulley located on the front side of the main pulley is fixedly connected to the composite shaft, and a synchronization belt is connected between the sub-synchronization pulley and the synchronization pulley.

Preferentially, the jigsaw can cut the corrugated cardboard core and destroy the pressure-resistant structure of the corrugated cardboard.

The interlocking device includes a rotating disk shaft extending back and forth that is rotatably connected to the rear inner wall of the power chamber, and a multi-wedge pulley is fixedly connected to the rotating disk shaft. A multi-wedge belt is connected between the and the sub-multi-wedge pulley, the turntable and the turntable shaft are fixedly connected, and are located on the front side of the multi-wedge pulley, and the power chamber. A rotating shaft located on the left side of the rotating disk shaft is connected to the front inner wall of the rotating plate so as to be rotatable, and a fan-shaped gear connected to the left end of the connecting rod by a hinge is fixed to the rotating shaft. The fan-shaped gear and the rack are connected so as to mesh with each other, and the swing rod is connected to the fan-shaped gear by a hinge, and the swing rod and the fan-shaped gear are connected by a hinge. It is located on the upper side where the connecting rod and the fan-shaped gear are connected by a hinge, and the intermediate portion of the swing rod is connected to the long crank by a hinge.

Preferentially, the compressor includes a driven rod that is hinged to the swing rod, a push rod is hinged to the right end of the driven rod, and a slide base is attached to the right inner wall of the power chamber. It is fixedly connected, the left end surface of the slide base and the push rod are connected so as to be slidable, and a push block capable of further compressing the cardboard is fixedly connected to the lower end of the push rod.

The beneficial effect of the present invention is: In the present invention, the corrugated board core is cut by the wire saw in the process of transporting the old corrugated board by the belt conveyor by the transport cutting device, the pressure-resistant structure of the corrugated board is destroyed, and the corrugated board is easily compressed. , Thereby increasing the compression ratio of the corrugated board, while at the same time the double crank mechanism in the composite transmission transfers the power of the transport cutting device to the old corrugated board feeder and the compression device, respectively, thereby realizing a continuous old corrugated board cutting compression process. And improve the processing efficiency of old corrugated cardboard.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall structure of an old corrugated cardboard recovery facility having a high compression ratio of the present invention. FIG. 2 is a schematic structural view of FIG. 1 in the AA direction. FIG. 3 is a schematic view of the structure in the BB direction of FIG. FIG. 4 is a schematic view of the structure in the CC direction of FIG. FIG. 5 is a schematic view of the structure in the DD direction of FIG.

The old corrugated cardboard recovery equipment with high compression ratio of the present invention is mainly applied to old corrugated cardboard compression recovery, and the present invention will be described in detail with reference to the following figures:

The old corrugated cardboard collection facility having a high compression ratio of the present invention includes a collection box 11, a power chamber 12 is installed in the collection box 11, and a power chamber 12 is installed in the collection box 11 on the left side of the power chamber 12. A raw material chamber 17 opened above and to the right was installed, and the raw material chamber 17 could store old corrugated cardboard waiting to be compressed, and was located in the collection box 11 on the lower right side of the power chamber 12. A compression chamber 29 opened upward and to the right is installed, a feeding device 101 located on the front side of the raw material chamber 17 is installed in the power chamber 12, and the feeding device 101 is installed from the raw material chamber 17. An old corrugated cardboard can be taken out, and a transmission device 102 capable of transporting and initially compressing the old corrugated cardboard located on the right side of the feeding device 101 is installed in the power chamber 12, and the power chamber 12 has the above-mentioned power chamber 12. Symmetrical cutting devices 103 located on both front and rear sides of the transmission device 102 are installed, the cutting device 103 can cut the corrugated cardboard core, and the interlocking device 104 located above the transmission device 102 is in the power chamber 12. A compression device 105 located on the right side of the interlocking device 104 is installed in the power chamber 12, and the corrugated cardboard cut by the compression device 105 can be further compressed, and the interlocking device 104 is the power chamber 12. A turntable 22 that is rotatably connected to the inside, a long crank 21 that is fixedly connected to the turntable 22, and a position that is fixedly connected to the turntable 22 and is located on the right side of the long crank 21. The compression device 105 can be interlocked with the movement by the short crank 54 and the connecting rod 23 connected to the short crank 54 by a hinge, and by utilizing the rotation of the turntable 22 and the long crank 21. At the same time, the turntable 22 can move the feed device 101 in conjunction with the movement of the short crank 54 and the connecting rod 23.

Advantageously, the box door 28 is rotatably connected to the right opening of the compression chamber 29.

The feed device 101 will be described in detail below according to an embodiment, and the feed device 101 includes a gear shaft 15 extending in the front-rear direction connected to the front inner wall of the power chamber 12 so as to be rotatable, and the gear shaft 15 includes a gear shaft 15 extending forward and backward. The direction changing gear 14 is fixedly connected, the feed rack 13 is connected to the lower end of the gear shaft 15 so as to mesh with the feed rack 13, and the rear end of the feed rack 13 slides to the lower inner wall of the raw material chamber 17. The long push blocks 40 that are connected so as to be able to be fixedly connected, the long push blocks 40 extend from the front end surface of the raw material chamber 17, and the front end surface of the raw material chamber 17 extends to the upper end of the direction changing gear 14. The racks 16 that are connected so that they can slide into the rack 16 are connected so as to mesh with each other.

The transmission device 102 will be described in detail below according to an embodiment, and the transmission device 102 includes two symmetrical pulley shafts 34 connected to the inner wall of the power chamber 12 so as to be rotatable, and the pulley shaft 34 includes two symmetrical pulley shafts 34. It extends back and forth and is located on the lower right side of the gear shaft 15, the pulley 35 is fixedly connected to the pulley shaft 34, and the belt conveyor 33 is between the pulleys 35 on both the left and right sides. The pulley shaft 34 on the left side is connected to the pulley shaft 34 on the left side so that a motor 41 fixedly connected to the front inner wall of the power chamber 12 can be transmitted, and the pulley 35 and the motor 41 are connected to the pulley shaft 34 on the left side. A synchronous pulley 43 located between the two is fixedly connected to the pulley shaft 34 on the left side, and a main pulley 47 located on the rear side of the pulley 35 is fixedly connected to the power chamber 12. Is connected so that two symmetrical interlocking shafts 38 located above the pulley shaft 34 can rotate, the interlocking shaft 38 extends back and forth, and the crimping pulley 37 is fixed to the interlocking shaft 38. The V-belt 36 is connected between the crimping pulleys 37 on both the left and right sides, and the auxiliary pulley 48 located on the rear side of the crimping pulley 37 is fixedly connected to the interlocking shaft 38 on the left side. A flat belt 46 is connected between the auxiliary pulley 48 and the main pulley 47, and an auxiliary multi-wedge pulley 55 located behind the crimping pulley 37 is fixedly connected to the interlocking shaft 38 on the right side. Has been done.

The cutting device 103 will be described in detail below according to an embodiment, and the cutting device 103 includes two pulley axles 32 that are symmetrical in the front-rear direction and are rotatably connected to the lower inner wall of the power chamber 12. 32 extends vertically, the pulley 31 is fixedly connected to the upper end of the pulley shaft 32, and two vertically symmetrical wire saws 30 are connected between the pulleys 31 on both front and rear sides. An auxiliary umbrella gear 45 located below the pulley 31 is fixedly connected to the pulley shaft 32 on the front side, and a composite shaft 53 extending back and forth can rotate on the front inner wall of the power chamber 12. The main pulley gear 44, which is connected to the composite shaft 53 and is connected so as to mesh with the auxiliary pulley gear 45, is fixedly connected to the composite shaft 53, and is located on the front side of the main pulley gear 44 to the composite shaft 53. The sub-synchronous pulley 52 is fixedly connected, and the synchronization belt 42 is connected between the sub-synchronous pulley 52 and the synchronization pulley 43.

Advantageously, the jigsaw 30 can cut the corrugated board core, destroy the pressure-resistant structure of the corrugated board, and the corrugated board is easily compressed, thereby increasing the compression rate of the corrugated board.

The interlocking device 104 will be described in detail below according to an embodiment, and the interlocking device 104 includes a rotating disk shaft 51 extending in the front-rear direction, which is connected to the rear inner wall of the power chamber 12 so as to be rotatable. A multi-wedge pulley 50 is fixedly connected to the shaft 51, a multi-wedge belt 49 is connected between the multi-wedge pulley 50 and the sub-multi-wedge pulley 55, and the turntable 22 and the turntable shaft 51 are connected. And are fixedly connected and are located on the front side of the multi-wedge pulley 50, and on the front inner wall of the power chamber 12, a rotating shaft 19 located on the left side of the rotating disc shaft 51 and extending in the front-rear direction is provided. A fan-shaped gear 18 connected so as to be rotatable and connected to the left end of the connecting rod 23 by a hinge is fixedly connected to the rotating shaft 19, so that the fan-shaped gear 18 and the rack 16 mesh with each other. The swing rod 20 is connected to the fan-shaped gear 18 by a hinge, and the swing rod 20 and the fan-shaped gear 18 are connected by a hinge, but the connecting rod 23 and the fan-shaped gear 18 are connected by a hinge. It is located on the upper side where it is connected, and the intermediate portion of the swing rod 20 is connected to the long crank 21 by a hinge.

The compression device 105 will be described in detail below according to an embodiment. The compression device 105 includes a driven rod 24 connected to the swing rod 20 by a hinge, and a push rod 25 is hinged to the right end of the driven rod 24. The slide base 26 is fixedly connected to the right inner wall of the power chamber 12, and the left end surface of the slide base 26 and the push rod 25 are connected so as to be slidable, and are connected to the lower end of the push rod 25. Is fixedly connected with a push block 27 capable of further compressing the cardboard.

The steps of using an old corrugated cardboard recovery facility with a high compression ratio of the present invention will be described in detail below with reference to FIGS. 1 to 5.

In the initial state, the short crank 54 and the connecting rod 23 are parallel, the swing rod 20 and the push rod 25 are in the upper limit position, the rack 16 is in the right limit position, and the feed rack 13 is in the left limit position. The corrugated cardboard waiting to be compressed is put into the raw material chamber 17.

When operating, the motor 41 is started, the motor 41 rotates and interlocks the belt conveyor 33 and the pulley 35 with the pulley shaft 34 on the left side, and at the same time, the pulley shaft 34 on the left side rotates the main pulley 47, the flat belt 46, and the sub pulley. The interlocking shaft 38, the crimping pulley 37, and the V-belt 36 are rotationally interlocked by 48, whereby the belt conveyor 33 and the V-belt 36 can transmit the cardboard, and the left pulley shaft 34 is also the synchronous pulley 43 and the synchronous belt. The composite shaft 53 is rotationally interlocked by the 42 and the sub-synchronous pulley 52, and the composite shaft 53 is rotationally interlocked with the sliding wheel shaft 32, the sliding wheel 31, and the wire saw 30 by engaging and connecting the main umbrella gear 44 and the auxiliary umbrella gear 45. The wire saw 30 can be cut by this, and at the same time, the right interlocking shaft 38 rotates and interlocks the rotary disc shaft 51 with the sub-multi-wedge pulley 55, the multi-wedge belt 49, and the multi-wedge pulley 50, and the rotary disc shaft 51. The short crank 54 is rotationally interlocked by the rotary disk 22, the short crank 54 is rotationally interlocked with the fan-shaped gear 18 and the rotating shaft 19 by the connecting rod 23, and the fan-shaped gear 18 is interlocked by first moving the rack 16 to the left by meshing connection. The rack 16 moves the feed rack 13 to the right by the direction change gear 14, and sends the cardboard waiting for compression to the belt conveyor 33. The belt conveyor 33 and the V-belt 36 initially compress the cardboard and transmit it to the right side. Then, the cardboard is cut by the wire saw 30, the cardboard core is destroyed, the belt conveyor 33 and the cardboard from which the V-belt 36 is cut are sent into the compression chamber 29, and the turntable 22 rotates to drive the short crank 54. At the same time as interlocking, the long crank 21 was rotationally interlocked, the long crank 21 first rotationally interlocked the swing rod 20 downward, and the swing rod 20 was cut by moving the push rod 25 downward by the driven rod 24. The cardboard is further compressed, and the swing rod 20 interlocks the push rod 25 with the driven rod 24 to move upward and returns, and at the same time, the connecting rod 23 interlocks the fan-shaped gear 18 to move the rack 16 to the right. , The rack 16 is interlocked with the feed rack 13 by the direction change gear 14 to move to the left and return, thereby completing one compression processing process of the cardboard, and the entire facility completes the compression processing of all the cardboard. By repeating the above steps and opening the box door 28 at the same time, the compressed cardboard can be taken out.

According to the above method, those skilled in the art can make various changes by the work module within the scope of the present invention.

Claims (8)

Front view, including collection box,
A power chamber is installed in the collection box, and a raw material chamber located on the left side of the power chamber and opened to the upper and right sides is installed in the recovery box, and the raw material chamber is an old corrugated cardboard waiting for compression. In the collection box, compression chambers opened above and to the right located on the lower right side of the power chamber are installed, and in the power chamber, the feed located on the front side of the raw material chamber is installed. A device is installed, the feeder can take out old corrugated cardboard from the raw material chamber, and in the power chamber there is a transmission device capable of transporting and initial compressing the old corrugated cardboard located on the right side of the feeder. Installed, symmetrical cutting devices located on both front and rear sides of the transmission device are installed in the power chamber, and the cutting device can cut the corrugated cardboard core.
An interlocking device located above the transmission device is installed in the power chamber, a compression device located on the right side of the interlocking device is installed in the power chamber, and the cardboard from which the compression device is cut is installed. The interlocking device can be further compressed, and the interlocking device is fixedly connected to the rotating disk, a rotating disk which is connected so as to be rotatable in the power chamber, a long crank which is fixedly connected to the rotating disk, and The compression device can be motion-interlocked by the short crank located on the right side of the long crank and the connecting rod connected to the short crank by a hinge, and by utilizing the rotation of the turntable and the long crank. At the same time, an old cardboard collecting facility having a high compression ratio, wherein the rotating disk can move the feeding device in conjunction with the movement by the short crank and the connecting rod. The old corrugated cardboard collection facility having a high compression ratio according to claim 1, wherein a box door is connected to the right opening of the compression chamber so as to be rotatable. The feeding device includes a front-rear extending gear shaft connected to the front inner wall of the power chamber so as to be rotatable, a direction changing gear is fixedly connected to the gear shaft, and a lower end of the gear shaft is connected to the gear shaft. The feed racks are connected so as to mesh with each other, and a long push block connected so as to slide to the lower inner wall of the raw material chamber is fixedly connected to the rear end of the feed rack, and the long push block is fixedly connected to the raw material. The first aspect of claim 1, wherein a rack extending from the front end surface of the chamber and being slidably connected to the front end surface of the raw material chamber is connected to the upper end of the direction changing gear so as to mesh with the upper end. Old cardboard collection equipment with high compression ratio. The transmission device includes two symmetrical pulley shafts that are rotatably connected to the inner wall of the power chamber, the pulley shafts extending back and forth, and located on the lower right side of the gear shafts. A pulley is fixedly connected to the pulley shaft, a belt conveyor is connected between the pulleys on the left and right sides, and a belt conveyor is fixedly connected to the pulley shaft on the left side to the front inner wall of the power chamber. The motors are connected so that they can be transmitted, the synchronous pulley located between the pulley and the motor is fixedly connected to the pulley shaft on the left side, and the pulley shaft on the left side is located behind the pulley. The main pulleys are fixedly connected, and two symmetrical interlocking shafts located above the pulley shafts are connected so as to be rotatable in the power chamber, and the interlocking shafts extend back and forth. A crimping pulley is fixedly connected to the interlocking shaft, a V-belt is connected between the crimping pulleys on both the left and right sides, and a secondary pulley located behind the crimping pulley is connected to the interlocking shaft on the left side. Is fixedly connected, a flat belt is connected between the sub-pulley and the main pulley, and a sub-multi-wedge pulley located behind the crimping pulley is fixedly connected to the interlocking shaft on the right side. The old cardboard collection facility having a high compression ratio according to claim 1 or 3, wherein the old cardboard collection facility is characterized in that. The cutting device includes two anteroposteriorly symmetrical pulley axles that are rotatably connected to the lower inner wall of the power chamber, the pulley axles extending up and down, and pulleys at the top ends of the pulley axles. It is fixedly connected, two vertically symmetrical wire saws are connected between the pulleys on both front and rear sides, and a secondary umbrella gear located below the pulleys is fixed to the pulley axle on the front side. A main pulley gear that is connected to the front inner wall of the power chamber so that a composite shaft extending back and forth can rotate is connected to the composite shaft, and is connected to the composite shaft so as to mesh with the auxiliary pulley gear. A sub-synchronous pulley located on the front side of the main pulley is fixedly connected to the composite shaft, and a synchronization belt is connected between the sub-synchronization pulley and the synchronization pulley. The old pulley collection facility having a high compression ratio according to claim 1 or 4, which is characterized. The old corrugated cardboard recovery facility having a high compressibility according to claim 5, wherein the jigsaw can cut the corrugated cardboard core, destroy the pressure-resistant structure of the corrugated cardboard, and the corrugated cardboard is easily compressed. The interlocking device includes a rotating disk shaft extending back and forth that is rotatably connected to the rear inner wall of the power chamber, and a multi-wedge pulley is fixedly connected to the rotating disk shaft. A multi-wedge belt is connected between the and the sub-multi-wedge pulley, the turntable and the turntable shaft are fixedly connected, and are located on the front side of the multi-wedge pulley, and the power chamber. A rotating shaft located on the left side of the rotating disk shaft is connected to the front inner wall of the rotating plate so as to be rotatable, and a fan-shaped gear connected to the left end of the connecting rod by a hinge is fixed to the rotating shaft. The fan-shaped gear and the rack are connected so as to mesh with each other, and the swing rod is connected to the fan-shaped gear by a hinge, and the swing rod and the fan-shaped gear are connected by a hinge. Claim 1 or claim 1, which is located on the upper side where the connecting rod and the fan-shaped gear are connected by a hinge, and the intermediate portion of the swing rod is connected to the long crank by a hinge. The old cardboard collection facility having a high compression ratio according to claim 3 or 4. The compression device includes a driven rod connected to the swing rod by a hinge, a push rod is connected to the right end of the driven rod by a hinge, and a slide base is fixedly connected to the right inner wall of the power chamber. 1. The left end surface of the slide base and the push rod are connected so as to be slidable, and a push block capable of further compressing the cardboard is fixedly connected to the lower end of the push rod. Alternatively, the old cardboard collection facility having the high compression ratio according to claim 7.

Images