CN112223363A

CN112223363A - Coated paper recovery processing device

Info

Publication number: CN112223363A
Application number: CN202011019459.8A
Authority: CN
Inventors: 赵精华
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2021-01-15

Abstract

The invention relates to the field of coated paper, in particular to a coated paper recovery processing device. The technical problem of the invention is as follows: provided is a coated paper recycling device. A coated paper recovery processing device comprises a working frame plate, a real-time control screen, a material conveying mechanism, a material poking and concentrating mechanism, a separating mechanism, a first storage cabin, a second storage cabin and a third storage cabin; the working frame plate is connected with the real-time control screen through the supporting seat. The invention achieves the effect of recycling the calendars in batches, separating and collecting the calendars to the same position at the same time by shifting the calendars to the same side of the calendar frame, pulling out the calendars after cutting the calendars ring along the circumferential track and attaching the calendars ring to the structure of the calendars ring, thereby rapidly taking out the calendars ring, separating and recycling various materials and greatly improving the economic benefit.

Description

Coated paper recovery processing device

Technical Field

The invention relates to the field of coated paper, in particular to a coated paper recovery processing device.

Background

The traditional desk calendar is generally made of art paper printed in a book, wherein the desk calendar ring is made of plastic, and the desk calendar frame is made of paperboard, so that the desk calendar has a high recycling value.

Because the desk calendar contains the material of different materials, simple broken recovery can lead to the recovery quality greatly reduced of desk calendar to reduced the economic benefits who retrieves, simultaneously desk calendar paper thickness is thinner and with the laminating of desk calendar shelf inseparable, be difficult to with the complete separation of desk calendar shelf, manual operation is then efficient extremely low, and the ring structure of desk calendar circle makes the desk calendar paper have the mobility of overturning, be difficult to take out whole desk calendar paper simultaneously when handling in batches, thereby lead to needing to carry out a lot of processing, the ring structure of desk calendar circle makes the desk calendar circle be difficult to follow the automatic dropout of desk calendar shelf, and then lead to the desk calendar circle to separate incompletely, can not satisfy the requirement of retrieving and recycling.

In view of the above problems, a recycling apparatus for coated paper is needed to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the desk calendar contains materials of different materials, the recovery quality of the desk calendar is greatly reduced due to simple crushing and recovery, the economic benefit of recovery is reduced, meanwhile, the desk calendar paper is thin and tightly attached to a desk calendar frame, the desk calendar frame is difficult to completely separate, the efficiency is extremely low due to manual operation, the desk calendar paper has overturning property due to the circular ring structure of a desk calendar ring, and all the desk calendar paper is difficult to take out simultaneously during batch processing, so that the desk calendar needs to be processed for multiple times, the desk calendar ring is difficult to automatically fall off from the desk calendar frame due to the circular ring structure of the desk calendar ring, so that the desk calendar ring is incompletely separated, and the requirement of recovery and reutilization cannot be met, the technical problem of the invention is as follows: provided is a coated paper recycling device.

A coated paper recovery processing device comprises a working frame plate, a real-time control screen, a material conveying mechanism, a material poking and concentrating mechanism, a separating mechanism, a first storage cabin, a second storage cabin and a third storage cabin; the working frame plate is connected with the real-time control screen through the supporting seat; the working frame plate is connected with the material conveying mechanism; the working frame plate is connected with the material poking and concentrating mechanism; the working frame plate is connected with the separating mechanism; the working frame plate is connected with the first storage cabin; the working frame plate is connected with the second storage cabin; the working frame plate is connected with the third storage cabin; the material stirring and concentrating mechanism is connected with the separating mechanism.

In a preferred embodiment of the invention, the material conveying mechanism comprises a stepping motor, a first driving wheel, a second driving wheel, a first conveyor belt, a third driving wheel and a second conveyor belt; the stepping motor is fixedly connected with the first driving wheel through an output shaft; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the axle center of the second driving wheel is in transmission connection with the first conveyor belt through a transmission rod; the outer ring surface of the first driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the third driving wheel is in transmission connection with the second conveying belt through a driving rod; the stepping motor is connected with the working frame plate; the first conveyor belt is connected with the working frame plate through a support seat; the second conveyer belt is connected with the working frame plate through the supporting seat.

In a preferred embodiment of the invention, the material-stirring centralized mechanism comprises a servo motor, a fourth transmission wheel, a fifth transmission wheel, a sixth transmission wheel, a first flat gear, a first connecting plate, a first electric push rod, a second flat gear, a third flat gear, a seventh transmission wheel, a fourth flat gear, an eighth transmission wheel, a ninth transmission wheel, a fifth flat gear, a wheel toothed plate, a second connecting plate, a material-stirring rotating plate, a second electric push rod, a third connecting plate, a third electric push rod, a fourth connecting plate, a fixed pressing plate, a fourth electric push rod, a material-moving plate, a tenth transmission wheel, an eleventh transmission wheel, a fifth electric push rod, a twelfth transmission wheel, a first bevel gear, a sixth electric push rod and a steering adjusting frame; the servo motor is fixedly connected with the fourth driving wheel through an output shaft; the outer ring surface of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axle center of the sixth driving wheel is fixedly connected with the first flat gear through a driving rod; the sixth transmission wheel and the first flat gear are both connected with the first connecting plate; the first connecting plate is inserted with the first electric push rod; a second flat gear is arranged on one side of the first flat gear, and a fourth flat gear is arranged on the other side of the first flat gear; the second flat gear is meshed with the third flat gear; the third gear hub is fixedly connected with a seventh driving wheel through a driving rod; the fourth gear hub is fixedly connected with the eighth driving wheel through a driving rod; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the outer ring surface of the eighth driving wheel is in transmission connection with the ninth driving wheel through a belt; the axis of the ninth driving wheel is fixedly connected with the fifth flat gear through a driving rod; the side surface of the fifth flat gear is in transmission connection with the gear tooth plate; one side of the pinion rack, which is far away from the fifth flat gear, is welded with the second connection plate; the lower part of the second linkage plate is fixedly connected with the material shifting rotating plate; a second electric push rod is arranged on the side surface of the second connection plate; the lower part of the second electric push rod is inserted into the third connecting plate; the front side of the third connecting plate is fixedly connected with a third electric push rod; the front side of the third electric push rod is inserted into the fourth connecting plate; the lower part of the fourth connecting plate is fixedly connected with the fixed pressing plate; a fourth electric push rod is arranged on one side, far away from the second electric push rod, of the second connection plate; the front side of the fourth electric push rod is inserted with the material moving plate; the outer ring surface of the fourth driving wheel is in transmission connection with the tenth driving wheel through a belt; the outer ring surfaces of the tenth driving wheel, the eleventh driving wheel and the twelfth driving wheel are in transmission connection through a belt; the eleventh transmission wheel is connected with the fifth electric push rod through a supporting seat; the rear side of the twelfth driving wheel is in transmission connection with the first bevel gear through a bevel gear; the axis of the first bevel gear is fixedly connected with the sixth electric push rod; the lower part of the sixth electric push rod is inserted into the steering adjusting frame; the servo motor is connected with the working frame plate; the fifth driving wheel is connected with the working frame plate through a supporting seat; the first electric push rod is connected with the working frame plate; the second flat gear is connected with the working frame plate through a supporting seat; the third horizontal gear is connected with the working frame plate through a support seat; the fourth flat gear is connected with the working frame plate through a supporting seat; the ninth driving wheel is connected with the working frame plate through a supporting seat; the second electric push rod is connected with the working frame plate; the fourth electric push rod is connected with the working frame plate; the tenth driving wheel is connected with the working frame plate through a supporting seat; the tenth driving wheel is connected with the separating mechanism; the fifth electric push rod is connected with the working frame plate; the twelfth driving wheel is connected with the working frame plate through a supporting seat; the sixth electric push rod is connected with the working frame plate.

In a preferred embodiment of the present invention, the separating mechanism comprises a thirteenth driving wheel, a second bevel gear, a third bevel gear, a sixth flat gear, a seventh flat gear, a fourth bevel gear, a fifth bevel gear, a profile wheel, a spring pressing plate, a cutting blade plate, a telescopic column, a spring, a coupling base plate, a cutting base plate, a seventh electric push rod, an eighth electric push rod, a fifth coupling plate, a ninth electric push rod, a material pushing plate, a fourteenth driving wheel, a half gear, an eighth flat gear, a sixth bevel gear, a seventh bevel gear, a ninth flat gear, a tenth flat gear, a coupling telescopic rod, an electric clamp, a sixth coupling plate and a tenth electric push rod; the shaft center of the thirteenth driving wheel is fixedly connected with the second bevel gear through a transmission rod; the second bevel gear is meshed with the third bevel gear; the axle center of the third bevel gear is fixedly connected with the sixth flat gear through a transmission rod; a seventh flat gear is arranged above the side surface of the sixth flat gear; the axis of the seventh flat gear is fixedly connected with the fourth bevel gear through a transmission rod; the fourth bevel gear is meshed with the fifth bevel gear; the axis of the fifth bevel gear is fixedly connected with the special-shaped wheel through a transmission rod; an elastic pressing plate is arranged below the special-shaped wheel; the lower part of the elastic pressing plate is fixedly connected with the cutting blade plate; the lower part of the elastic pressing plate is connected with the telescopic column; the lower part of the elastic pressing plate is welded with the spring; the outer surface of the telescopic column is sleeved with the spring; the lower part of the telescopic column is connected with the connecting bottom plate; the lower part of the spring is welded with the connecting bottom plate; the upper part of the connecting bottom plate is fixedly connected with the cutting bottom plate; the connecting bottom plate is inserted with the seventh electric push rod; an eighth electric push rod is arranged at the rear side of the seventh electric push rod; the side surface of the eighth electric push rod is inserted into the fifth connecting plate; the lower part of the fifth connecting plate is fixedly connected with a ninth electric push rod; the lower part of the ninth electric push rod is fixedly connected with the material pushing plate; the outer ring surface of the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the shaft center of the fourteenth driving wheel is fixedly connected with the half gear through a driving rod; the side surface of the half gear is meshed with the eighth flat gear; the axle center of the eighth flat gear is fixedly connected with the sixth bevel gear through a transmission rod; the sixth bevel gear is meshed with the seventh bevel gear; the axis of the seventh bevel gear is fixedly connected with the ninth flat gear through a transmission rod; the lower part of the ninth flat gear is meshed with the tenth flat gear; the shaft center of the tenth flat gear is fixedly connected with the connecting telescopic rod; one side of the connecting telescopic rod, which is far away from the tenth flat gear, is connected with the electric clamp; the outer surface of the connecting telescopic rod is connected with a sixth connecting plate; the sixth connecting plate is inserted with the tenth electric push rod; the thirteenth driving wheel is connected with the tenth driving wheel; the second bevel gear is connected with the working frame plate through a supporting seat; the seventh electric push rod is connected with the working frame plate; the eighth electric push rod is connected with the working frame plate; the half gear is connected with the working frame plate through a supporting seat; the sixth bevel gear is connected with the working frame plate through a supporting seat; the tenth electric push rod is connected with the working frame plate.

In a preferred embodiment of the present invention, the first conveyor belt has a plurality of sets of spacers at specified intervals on its outer surface.

In a preferred embodiment of the present invention, the fixed platen has a trapezoidal longitudinal cross section.

In a preferred embodiment of the invention, a trapezoidal through-going recess is provided below the bogie.

In a preferred embodiment of the present invention, the cutting blade plate and the cutting base plate are disposed in parallel.

The invention has the following advantages: 1. the problem that the recycling quality of the desk calendar is greatly reduced and the economic benefit of recycling is reduced due to the fact that the desk calendar contains materials made of different materials, meanwhile, the desk calendar paper is thin and tightly attached to a desk calendar frame, the desk calendar frame is difficult to completely separate, the efficiency is extremely low due to manual operation, the desk calendar paper has overturning performance due to the circular ring structure of the desk calendar ring, all the desk calendar paper is difficult to take out simultaneously during batch processing, multiple times of processing is needed, the desk calendar ring is difficult to automatically fall off from the desk calendar frame due to the circular ring structure of the desk calendar ring, the desk calendar ring is further incompletely separated, and the requirement for recycling cannot be met is solved;

2. the method comprises the steps that a material conveying mechanism, a material stirring concentration mechanism and a separation mechanism are designed, a calendar needing to be recovered and processed is placed on a first conveying belt manually, the calendar needing to be processed is conveyed to a designated processing position through the material conveying mechanism, calendar paper on a calendar frame is stirred to the same side of the calendar frame through the material stirring concentration mechanism, then the calendar needing to be processed is conveyed through the material conveying mechanism again, after the calendar is conveyed to the separation mechanism, a calendar ring on the calendar frame is cut off and drawn out through the separation mechanism, the calendar paper is automatically separated, the drawn-out calendar ring is collected into a first storage cabin, the separated calendar storage paper is collected into a second storage cabin, and the calendar frame is continuously conveyed into a third storage cabin through the material conveying mechanism;

3. the desk calendar has the advantages that the desk calendar is recycled in batches, the desk calendar paper is stirred to the same side of the desk calendar frame, the desk calendar paper can be separated and collected to the same position at the same time, the desk calendar ring is cut off and then is drawn out along a circumferential track, the desk calendar ring is attached to the structure of the desk calendar ring, the desk calendar ring can be taken out rapidly, various materials are separated and recycled, and the economic benefit is greatly improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a material transport mechanism of the present invention;

FIG. 3 is a schematic structural view of a material ejecting and collecting mechanism according to the present invention;

FIG. 4 is a schematic view of the separating mechanism of the present invention;

FIG. 5 is an enlarged view of region C of the present invention.

In the above drawings: 1. working frame plate, 2, real-time control screen, 3, material transportation mechanism, 4, material stirring concentration mechanism, 5, separation mechanism, 6, first storage cabin, 7, second storage cabin, 8, third storage cabin, 301, stepping motor, 302, first transmission wheel, 303, second transmission wheel, 304, first transmission belt, 305, third transmission wheel, 306, second transmission belt, 401, servo motor, 402, fourth transmission wheel, 403, fifth transmission wheel, 404, sixth transmission wheel, 405, first flat gear, 406, first connection plate, 407, first electric push rod, 408, second flat gear, 409, third flat gear, 4010, seventh transmission wheel, 4011, fourth flat gear, 4012, eighth transmission wheel, 4013, ninth transmission wheel, 4014, fifth flat gear, 4015, gear wheel plate, 4016, second connection plate, 4017, material stirring rotating plate, 4018, second electric push rod, 4019, third connection plate, 4020. a third electric push rod, 4021, a fourth connecting plate, 4022, a fixed pressure plate, 4023, a fourth electric push rod, 4024, a material moving plate, 4025, a tenth transmission wheel, 4026, an eleventh transmission wheel, 4027, a fifth electric push rod, 4028, a twelfth transmission wheel, 4029, a first bevel gear, 4030, a sixth electric push rod, 4031, a steering adjustment frame, 501, a thirteenth transmission wheel, 502, a second bevel gear, 503, a third bevel gear, 504, a sixth flat gear, 505, a seventh flat gear, 506, a fourth bevel gear, 507, a fifth bevel gear, 508, a shaped wheel, 509, a spring pressure plate, 5010, a cutting blade plate, 5011, a telescopic column, 5012, a spring, 5013, a connecting base plate, 5014, a cutting base plate, 5015, a seventh electric push rod, 5016, an eighth electric push rod, 5017, a fifth connecting plate, 5018, a ninth electric push rod, 5019, a material pushing plate, 5020, a fourteenth transmission wheel, 5021, a

half

5021, 5022. the device comprises an eighth flat gear, 5023, a sixth bevel gear, 5024, a seventh bevel gear, 5025, a ninth flat gear, 5026, a tenth flat gear, 5027, a connecting telescopic rod, 5028, an electric clamp, 5029, a sixth connecting plate, 5030 and a tenth electric push rod.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

A coated paper recovery processing device is shown in figures 1-5 and comprises a working frame plate 1, a real-time control screen 2, a material conveying mechanism 3, a material stirring and concentrating mechanism 4, a separating mechanism 5, a first storage cabin 6, a second storage cabin 7 and a third storage cabin 8; the working frame plate 1 is connected with the real-time control screen 2 through a supporting seat; the working frame plate 1 is connected with the material conveying mechanism 3; the working frame plate 1 is connected with a material poking and concentrating mechanism 4; the working frame plate 1 is connected with a separating mechanism 5; the working frame plate 1 is connected with a first material storage cabin 6; the working frame plate 1 is connected with a second storage cabin 7; the working frame plate 1 is connected with a third storage cabin 8; the material stirring and concentrating mechanism 4 is connected with the separating mechanism 5.

When the art paper recycling device is used, the device is horizontally fixed at a position required to be used through the working frame plate 1, a power supply is externally connected, an operator allocates the device through the real-time control screen 2 and controls the power control system in the device, firstly, the calendar required to be recycled is manually placed on the first conveyor belt 304, the calendar required to be processed is conveyed to a specified processing position through the material conveying mechanism 3, the calendar paper on the calendar frame is shifted to the same side of the calendar frame through the material shifting and concentrating mechanism 4, then, the calendar required to be processed is conveyed through the material conveying mechanism 3 again, after the calendar is conveyed to the position of the separating mechanism 5, the calendar ring on the calendar frame is cut and extracted through the separating mechanism 5, the calendar paper is automatically separated, the extracted calendar ring is collected into the first material storage cabin 6, and the separated calendar paper is collected into the second material storage cabin 7, the desk calendar frame is continuously conveyed into the third material storage cabin 8 through the material conveying mechanism 3, the device achieves the purpose of recycling the desk calendars in batches, desk calendar paper can be simultaneously separated and collected to the same position by shifting the desk calendar paper to the same side of the desk calendar frame, and a desk calendar ring is cut off and then drawn out along a circumferential track to be attached to the structure of the desk calendar ring, so that the desk calendar ring can be rapidly taken out, various materials are separated and recycled, and the effect of economic benefit is greatly improved.

The material conveying mechanism 3 comprises a stepping motor 301, a first driving wheel 302, a second driving wheel 303, a first conveyor belt 304, a third driving wheel 305 and a second conveyor belt 306; the stepping motor 301 is fixedly connected with the first driving wheel 302 through an output shaft; the outer ring surface of the first driving wheel 302 is in transmission connection with a second driving wheel 303 through a belt; the axle center of the second driving wheel 303 is in driving connection with the first conveyor belt 304 through a driving rod; the outer ring surface of the first driving wheel 302 is in driving connection with a third driving wheel 305 through a belt; the axle center of the third driving wheel 305 is in driving connection with the second conveyor belt 306 through a driving rod; the stepping motor 301 is connected with the working frame plate 1; the first conveyor belt 304 is connected with the working frame plate 1 through a support seat; the second conveyor belt 306 is connected with the work frame plate 1 through a support seat.

After the calendar needing to be recycled is manually placed on the first conveyor belt 304, the real-time control screen 2 controls the stepping motor 301 to drive the first driving wheel 302, further drives the second driving wheel 303 to rotate, further drives the first conveyor belt 304, so that the first conveyor belt 304 conveys the calendar, the calendar is moved to an appointed processing position, after the calendar is processed by the material stirring concentration mechanism 4 and is moved to the second conveyor belt 306, the first driving wheel 302 rotates to drive the third driving wheel 305 to rotate, further drives the second conveyor belt 306, so that the second conveyor belt 306 continuously conveys the calendar to the next appointed processing position, and the mechanism realizes quick conveying of the calendar.

The material stirring concentration mechanism 4 comprises a servo motor 401, a fourth transmission wheel 402, a fifth transmission wheel 403, a sixth transmission wheel 404, a first flat gear 405, a first connecting plate 406, a first electric push rod 407, a second flat gear 408, a third flat gear 409, a seventh transmission wheel 4010, a fourth flat gear 4011, an eighth transmission wheel 4012, a ninth transmission wheel 4013, a fifth flat gear 4014, a gear tooth plate 4015, a second connecting plate 4016, a material stirring rotating plate 4017, a second electric push rod 4018, a third connecting plate 4019, a third electric push rod 4020, a fourth connecting plate 4021, a fixed pressing plate 4022, a fourth electric push rod 4023, a material shifting plate 4024, a tenth transmission wheel 4025, an eleventh transmission wheel 4026, a fifth electric push rod 4027, a twelfth transmission wheel 4028, a first bevel gear 4029, a sixth electric push rod 4030 and a steering adjusting bracket 4031; the servo motor 401 is fixedly connected with the fourth driving wheel 402 through an output shaft; the outer annular surface of the fourth driving wheel 402 is in transmission connection with a fifth driving wheel 403 through a belt; the outer annular surface of the fifth driving wheel 403 is in transmission connection with a sixth driving wheel 404 through a belt; the axle center of the sixth driving wheel 404 is fixedly connected with the first flat gear 405 through a driving rod; the sixth transmission wheel 404 and the first flat gear 405 are both connected with the first coupling plate 406; the first coupling plate 406 is inserted into the first electric push rod 407; a second spur gear 408 is provided on one side of the first spur gear 405, and a fourth spur gear 4011 is provided on the other side of the first spur gear 405; the second flat gear 408 meshes with the third flat gear 409; the axle center of the third flat gear 409 is fixedly connected with a seventh driving wheel 4010 through a driving rod; the axle center of the fourth flat gear 4011 is fixedly connected with an eighth driving wheel 4012 through a driving rod; the outer ring surface of the seventh driving wheel 4010 is in transmission connection with the eighth driving wheel 4012 through a belt; the outer ring surface of the eighth driving wheel 4012 is in transmission connection with a ninth driving wheel 4013 through a belt; the axis of the ninth driving wheel 4013 is fixedly connected with a fifth flat gear 4014 through a driving rod; the side surface of the fifth flat gear 4014 is in transmission connection with a gear tooth plate 4015; the side, far away from the fifth flat gear 4014, of the pinion plate 4015 is welded with a second connecting plate 4016; the lower part of the second connecting plate 4016 is fixedly connected with a material shifting rotating plate 4017; a second electric push rod 4018 is arranged on the side surface of the second connecting plate 4016; the lower part of the second electric push rod 4018 is inserted into the third connecting plate 4019; the front side of the third connecting plate 4019 is fixedly connected with a third electric push rod 4020; the front side of the third electric push rod 4020 is inserted into the fourth connecting plate 4021; the lower part of the fourth connecting plate 4021 is fixedly connected with a fixed pressure plate 4022; a fourth electric push rod 4023 is arranged on one side, far away from the second electric push rod 4018, of the second linkage plate 4016; the front side of the fourth electric push rod 4023 is inserted into the material moving plate 4024; the outer annular surface of the fourth driving wheel 402 is in transmission connection with a tenth driving wheel 4025 through a belt; the outer annular surfaces of the tenth driving wheel 4025, the eleventh driving wheel 4026 and the twelfth driving wheel 4028 are in transmission connection through a belt; the eleventh transmission wheel 4026 is connected with a fifth electric push rod 4027 through a support seat; the rear side of the twelfth driving wheel 4028 is in transmission connection with a first bevel gear 4029 through a bevel gear; the axle center of the first bevel gear 4029 is fixedly connected with the sixth electric push rod 4030; the lower part of the sixth electric push rod 4030 is spliced with the steering adjusting frame 4031; the servo motor 401 is connected with the working frame plate 1; the fifth driving wheel 403 is connected with the working frame plate 1 through a supporting seat; the first electric push rod 407 is connected with the working frame plate 1; the second flat gear 408 is connected with the working frame plate 1 through a supporting seat; the third horizontal gear 409 is connected with the working frame plate 1 through a support seat; the fourth flat gear 4011 is connected with the working frame plate 1 through a supporting seat; the ninth driving wheel 4013 is connected with the working frame plate 1 through a supporting seat; the second electric push rod 4018 is connected with the working frame plate 1; the fourth electric push rod 4023 is connected with the working frame plate 1; the tenth transmission wheel 4025 is connected with the working frame plate 1 through a support seat; the tenth transmission wheel 4025 is connected with the separation mechanism 5; the fifth electric push rod 4027 is connected with the working frame plate 1; the twelfth driving wheel 4028 is connected with the working frame plate 1 through a supporting seat; the sixth electric push rod 4030 is connected with the work frame plate 1.

When the calendar reaches the position of the fixed pressing plate 4022, the real-time control screen 2 starts the second electric push rod 4018 to push the third linkage plate 4019 downwards, the third electric push rod 4020 is synchronously driven, the fourth linkage plate 4021 and the fixed pressing plate 4022 move downwards for a specified distance, when the fixed pressing plate 4022 moves to a specified position on the back side of the calendar, the third electric push rod 4020 is started to push the fourth linkage plate 4021 to move for a specified distance to the side far away from the third electric push rod 4020, so that the fixed pressing plate 4022 is driven to be inserted into the calendar frame, the third linkage plate 4019, the third electric push rod 4020, the fourth linkage plate 4021 and the fixed pressing plate 4022 are further driven downwards by the second electric push rod 4018 to push the third linkage plate 4019, the third electric push rod 4020, the fourth linkage plate 4021 and the fixed pressing plate 4022 to press the lower part of the inner side of the calendar frame to fix the calendar, and simultaneously the servo motor 401 drives the fourth driving wheel 402 to rotate, so as, then the first flat gear 405 is driven, the first electric push rod 407 is started through the real-time control panel 2, the first connecting plate 406 is pushed to move to the side close to the first electric push rod 407, and then the first flat gear 405 and the second flat gear 408 are driven, and then the first flat gear 405 is rotated to drive the second flat gear 408 to rotate, and further the third flat gear 409 is driven to rotate, and further the seventh driving wheel 4010 is driven to rotate, and further the eighth driving wheel 4012 is driven to rotate, and further the ninth driving wheel 4013 is driven to rotate, and further the fifth flat gear 4014 is driven to rotate, so that the fifth flat gear 4014 drives the toothed plate 4015 to move downwards for a specified distance, and further the second connecting plate 4016 drives the material poking rotating plate 4017 to move downwards below the calendar paper, and then the first connecting plate 406 is pushed by the first electric push rod 407 to move to the side far from the first electric push rod 407, and further the first flat gear 405 is meshed with the fourth flat gear 4011, then the first flat gear 405 rotates to drive the fourth flat gear 4011 to rotate, and further the eighth driving wheel 4012 rotates reversely, so that the gear tooth plate 4015 drives the second connecting plate 4016 to move upwards, and further the upper surface of the material poking rotating plate 4017 pokes the calendar paper on one side of the desk calendar stand, so that the calendar paper turns pages to the position of the desk calendar stand far away from the material poking rotating plate 4017, then the fixed pressing plate 4022 is separated from the desk calendar stand, so that the desk calendar is continuously conveyed, when the desk calendar moves to the position of the material moving plate 4024, the fourth electric push rod 4023 is started through the real-time control screen 2, the material moving plate 4024 is pushed to move far away from the fourth electric push rod 4023, so that the material moving plate 4024 pushes the desk calendar onto the second conveyor belt 306, when the desk calendar moves below the bogie 4031, the sixth electric push rod 4020 is started, the bogie 4031 is pushed downwards, and further the bogie 4031 moves downwards to be attached to the upper side of the desk calendar, the fourth driving wheel 402 rotates to drive the tenth driving wheel 4025 to rotate, and further drives the twelfth driving wheel 4028 to rotate, and further drives the steering adjusting frame 4031 to rotate ninety degrees counterclockwise through the sixth electric push rod 4030, so that the calendar rotates ninety degrees counterclockwise, one side of the calendar paper carried by the calendar frame faces forward, after the calendar paper rotates ninety degrees, the fifth electric push rod 4027 is started, the eleventh driving wheel 4026 is pushed to move a specified distance to the side far away from the fifth electric push rod 4027, a driving belt between the tenth driving wheel 4025 and the twelfth driving wheel 4028 is loosened, the twelfth driving wheel 4028 stops rotating, then the steering adjusting frame 4031 moves upwards, and the calendar is further conveyed continuously.

The separating mechanism 5 comprises a thirteenth driving wheel 501, a second bevel gear 502, a third bevel gear 503, a sixth flat gear 504, a seventh flat gear 505, a fourth bevel gear 506, a fifth bevel gear 507, a special-shaped wheel 508, a spring pressing plate 509, a cutting blade plate 5010, a telescopic column 5011, a spring 5012, a connecting bottom plate 5013, a cutting bottom plate 5014, a seventh electric push rod 5015, an eighth electric push rod 5016, a fifth connecting plate 5017, a ninth electric push rod 5018, a pushing plate 5019, a fourteenth driving wheel 5020, a half gear 5021, an eighth flat gear 5022, a sixth bevel gear 5023, a seventh bevel gear 5024, a ninth flat gear 5025, a tenth flat gear 5026, a connecting telescopic rod 5027, an electric clamp 5028, a sixth connecting plate 5029 and a tenth electric push rod 5030; the axle center of the thirteenth driving wheel 501 is fixedly connected with the second bevel gear 502 through a transmission rod; second bevel gear 502 meshes with third bevel gear 503; the axis of the third bevel gear 503 is fixedly connected with the sixth flat gear 504 through a transmission rod; a seventh flat gear 505 is arranged above the side surface of the sixth flat gear 504; the axis of the seventh flat gear 505 is fixedly connected with the fourth bevel gear 506 through a transmission rod; the fourth bevel gear 506 meshes with a fifth bevel gear 507; the axis of the fifth bevel gear 507 is fixedly connected with the special-shaped wheel 508 through a transmission rod; a spring pressing plate 509 is arranged below the special-shaped wheel 508; the lower part of the elastic pressing plate 509 is fixedly connected with the cutting blade plate 5010; the lower part of the elastic pressing plate 509 is connected with a telescopic column 5011; the lower part of the elastic pressing plate 509 is welded with the spring 5012; the outer surface of the telescopic column 5011 is sleeved with a spring 5012; the lower part of the telescopic column 5011 is connected with a connecting bottom plate 5013; the lower part of the spring 5012 is welded with a connecting bottom plate 5013; the upper part of the connecting bottom plate 5013 is fixedly connected with the cutting bottom plate 5014; the connecting bottom plate 5013 is inserted with a seventh electric push rod 5015; an eighth electric push rod 5016 is arranged at the rear side of the seventh electric push rod 5015; the side surface of the eighth electric push rod 5016 is inserted into the fifth connecting plate 5017; the lower part of the fifth connecting plate 5017 is fixedly connected with a ninth electric push rod 5018; the lower part of the ninth electric push rod 5018 is fixedly connected with the material pushing plate 5019; the outer annular surface of the thirteenth driving wheel 501 is in transmission connection with a fourteenth driving wheel 5020 through a belt; the axis of a fourteenth driving wheel 5020 is fixedly connected with a half gear 5021 through a driving rod; the side surface of the half gear 5021 is meshed with an eighth flat gear 5022; the axis of the eighth spur gear 5022 is fixedly connected with a sixth bevel gear 5023 through a transmission rod; the sixth bevel gear 5023 is engaged with a seventh bevel gear 5024; the axis of the seventh bevel gear 5024 is fixedly connected with a ninth flat gear 5025 through a transmission rod; the lower part of the ninth spur gear 5025 is engaged with a tenth spur gear 5026; the axis of the tenth spur gear 5026 is fixedly connected with a connecting telescopic rod 5027; the side of the connecting telescopic link 5027, which is far away from the tenth spur gear 5026, is connected with an electric clamp 5028; the outer surface of the connecting telescopic rod 5027 is connected with a sixth connecting plate 5029; the sixth coupling plate 5029 is inserted into the tenth electric push rod 5030; the thirteenth driving wheel 501 is connected with a tenth driving wheel 4025; the second bevel gear 502 is connected with the working frame plate 1 through a supporting seat; the seventh electric push rod 5015 is connected with the working frame plate 1; the eighth electric push rod 5016 is connected with the working frame plate 1; the half gear 5021 is connected with the working frame plate 1 through a supporting seat; the sixth bevel gear 5023 is connected with the working frame plate 1 through a supporting seat; the tenth electric push rod 5030 is connected to the workframe plate 1.

When the calendar is conveyed to the position of the cutting bottom plate 5014, the seventh electric push rod 5015 is started to push the connecting bottom plate 5013 downwards to further drive the seventh flat gear 505, the fourth bevel gear 506, the fifth bevel gear 507, the special-shaped wheel 508, the elastic pressing plate 509, the cutting blade plate 5010, the telescopic column 5011 and the spring 5012 to move downwards synchronously so that the cutting bottom plate 5014 stops at a specified position, the sixth flat gear 504 and the seventh flat gear 505 are at an engaged position, when the calendar is conveyed, the calendar ring passes through the cutting bottom plate 5014, when the calendar ring is completely positioned between the cutting bottom plate 5014 and the cutting blade plate 5010, the calendar stops moving, the second bevel gear 502 is driven to rotate by the rotation of the thirteenth driving wheel 501 and the second bevel gear 502 is engaged with the third bevel gear 503 to rotate, the sixth flat gear 504 is driven to rotate, and the seventh flat gear 505 is further driven, further driving the fourth bevel gear 506 to rotate, further driving the fifth bevel gear 507 to rotate, further driving the shaped wheel 508, when the protruding position of the shaped wheel 508 rotates to contact with the elastic pressure plate 509, the elastic pressure plate 509 presses downwards, the spring 5012 compresses synchronously, the telescopic column 5011 fixes the spring 5012, further when the elastic pressure plate 509 presses downwards, the cutting edge plate 5010 is driven synchronously to press downwards, further the desk calendar ring between the elastic pressure plate 509 and the cutting edge plate 5010 is cut, when the protruding position of the shaped wheel 508 rotates to be separated from the elastic pressure plate 509, the elastic pressure plate 509 moves upwards to contact with the shaped wheel 508 under the elastic restoring force of the spring 5012, further the elastic pressure plate 509 is always in contact with the shaped wheel 508 under the action of the spring 5012, when the desk calendar ring is cut, the connecting bottom plate 5013 is pulled upwards through the seventh electric push rod 5015, so that the cutting bottom plate 5014 is far away from the desk calendar ring position upwards, then, the desk calendar is continuously conveyed, when the desk calendar is conveyed to the position of the electric clamp 5028, the desk calendar ring enters between two clamps of the electric clamp 5028, the desk calendar ring is clamped by the electric clamp 5028, meanwhile, the fourteenth driving wheel 5020 is driven to rotate by the rotation of the thirteenth driving wheel 501, so that the half gear 5021 is driven to rotate, so that the eighth flat gear 5022 is driven to rotate, so that the sixth bevel gear 5023 is driven to rotate, so that the seventh bevel gear 5024 is driven to rotate, so that the ninth flat gear 5025 is driven to rotate, so that the tenth flat gear 5026 is driven to rotate, so that the electric clamp 5028 is driven to rotate by the connecting telescopic rod 5027, the clamped desk calendar ring is rotationally extracted by the electric clamp 5028, then the tenth electric push rod 5030 is started, the sixth connecting plate 5029 is pulled to move towards the side close to the tenth electric push rod 5030, so that the desk calendar ring extracted by the electric clamp 5028 moves, the desk calendar ring is moved to the upper part of the first storage cabin 6, the ninth electric push rod 5018 is further started to push the material pushing plate 5019 to move downwards for a specified distance, the material pushing plate 5019 is further contacted with the electric clamp 5028, then the eighth electric push rod 5016 is started to pull the fifth connecting plate 5017 to move towards one side close to the eighth electric push rod 5016, the material pushing plate 5019 is further synchronously driven to move, the desk calendar ring on the electric clamp 5028 is shifted and dropped through the material pushing plate 5019, the desk calendar ring drops into the first storage cabin 6, after the desk calendar ring is drawn out, the desk calendar paper slides into the second storage cabin 7 from the desk calendar storage rack, the desk calendar rack is continuously conveyed into the third storage cabin 8 through the second conveyor belt 306, and the mechanism realizes the separation and collection of the desk calendar ring and further separates and collects the desk calendar paper from the desk calendar rack.

The first conveyor belt 304 has a plurality of sets of spacers at specified intervals on its outer surface.

The calendar may be stably transported for the duration of the transport of the station by the first conveyor belt 304.

The fixed platen 4022 has a trapezoidal longitudinal section.

The fixing of the desk calendar is realized by fitting the hollow position shape of the desk calendar frame.

A groove which is a trapezoidal body and is penetrated in the front and the back is arranged below the steering adjusting frame 4031.

The desk calendar is attached to the upper shape of the desk calendar frame, and the integral rotation of the desk calendar is realized.

The cutting blade plate 5010 is placed in parallel with the cutting base plate 5014.

The cutting blade plate 5010 can be simultaneously contacted with all the calendar rings and cut off when pressed downwards, and part of the calendar rings can be prevented from being stuck.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims

1. The utility model provides a coated paper recovery processing device, includes work frame plate and real-time control screen, characterized by: the material conveying mechanism, the material shifting and concentrating mechanism, the separating mechanism, the first storage cabin, the second storage cabin and the third storage cabin are further included; the working frame plate is connected with the real-time control screen through the supporting seat; the working frame plate is connected with the material conveying mechanism; the working frame plate is connected with the material poking and concentrating mechanism; the working frame plate is connected with the separating mechanism; the working frame plate is connected with the first storage cabin; the working frame plate is connected with the second storage cabin; the working frame plate is connected with the third storage cabin; the material stirring and concentrating mechanism is connected with the separating mechanism.

2. The coated paper recycling apparatus as set forth in claim 1, wherein: the material conveying mechanism comprises a stepping motor, a first driving wheel, a second driving wheel, a first conveyor belt, a third driving wheel and a second conveyor belt; the stepping motor is fixedly connected with the first driving wheel through an output shaft; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the axle center of the second driving wheel is in transmission connection with the first conveyor belt through a transmission rod; the outer ring surface of the first driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the third driving wheel is in transmission connection with the second conveying belt through a driving rod; the stepping motor is connected with the working frame plate; the first conveyor belt is connected with the working frame plate through a support seat; the second conveyer belt is connected with the working frame plate through the supporting seat.

3. The coated paper recycling apparatus as set forth in claim 2, wherein: the material shifting and concentrating mechanism comprises a servo motor, a fourth transmission wheel, a fifth transmission wheel, a sixth transmission wheel, a first flat gear, a first connecting plate, a first electric push rod, a second flat gear, a third flat gear, a seventh transmission wheel, a fourth flat gear, an eighth transmission wheel, a ninth transmission wheel, a fifth flat gear, a wheel toothed plate, a second connecting plate, a material shifting rotating plate, a second electric push rod, a third connecting plate, a third electric push rod, a fourth connecting plate, a fixed pressing plate, a fourth electric push rod, a material moving plate, a tenth transmission wheel, an eleventh transmission wheel, a fifth electric push rod, a twelfth transmission wheel, a first bevel gear, a sixth electric push rod and a steering adjusting frame; the servo motor is fixedly connected with the fourth driving wheel through an output shaft; the outer ring surface of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axle center of the sixth driving wheel is fixedly connected with the first flat gear through a driving rod; the sixth transmission wheel and the first flat gear are both connected with the first connecting plate; the first connecting plate is inserted with the first electric push rod; a second flat gear is arranged on one side of the first flat gear, and a fourth flat gear is arranged on the other side of the first flat gear; the second flat gear is meshed with the third flat gear; the third gear hub is fixedly connected with a seventh driving wheel through a driving rod; the fourth gear hub is fixedly connected with the eighth driving wheel through a driving rod; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the outer ring surface of the eighth driving wheel is in transmission connection with the ninth driving wheel through a belt; the axis of the ninth driving wheel is fixedly connected with the fifth flat gear through a driving rod; the side surface of the fifth flat gear is in transmission connection with the gear tooth plate; one side of the pinion rack, which is far away from the fifth flat gear, is welded with the second connection plate; the lower part of the second linkage plate is fixedly connected with the material shifting rotating plate; a second electric push rod is arranged on the side surface of the second connection plate; the lower part of the second electric push rod is inserted into the third connecting plate; the front side of the third connecting plate is fixedly connected with a third electric push rod; the front side of the third electric push rod is inserted into the fourth connecting plate; the lower part of the fourth connecting plate is fixedly connected with the fixed pressing plate; a fourth electric push rod is arranged on one side, far away from the second electric push rod, of the second connection plate; the front side of the fourth electric push rod is inserted with the material moving plate; the outer ring surface of the fourth driving wheel is in transmission connection with the tenth driving wheel through a belt; the outer ring surfaces of the tenth driving wheel, the eleventh driving wheel and the twelfth driving wheel are in transmission connection through a belt; the eleventh transmission wheel is connected with the fifth electric push rod through a supporting seat; the rear side of the twelfth driving wheel is in transmission connection with the first bevel gear through a bevel gear; the axis of the first bevel gear is fixedly connected with the sixth electric push rod; the lower part of the sixth electric push rod is inserted into the steering adjusting frame; the servo motor is connected with the working frame plate; the fifth driving wheel is connected with the working frame plate through a supporting seat; the first electric push rod is connected with the working frame plate; the second flat gear is connected with the working frame plate through a supporting seat; the third horizontal gear is connected with the working frame plate through a support seat; the fourth flat gear is connected with the working frame plate through a supporting seat; the ninth driving wheel is connected with the working frame plate through a supporting seat; the second electric push rod is connected with the working frame plate; the fourth electric push rod is connected with the working frame plate; the tenth driving wheel is connected with the working frame plate through a supporting seat; the tenth driving wheel is connected with the separating mechanism; the fifth electric push rod is connected with the working frame plate; the twelfth driving wheel is connected with the working frame plate through a supporting seat; the sixth electric push rod is connected with the working frame plate.

4. The coated paper recycling apparatus as set forth in claim 3, wherein: the separating mechanism comprises a thirteenth driving wheel, a second bevel gear, a third bevel gear, a sixth flat gear, a seventh flat gear, a fourth bevel gear, a fifth bevel gear, a special-shaped wheel, a spring pressing plate, a cutting blade plate, a telescopic column, a spring, a connecting bottom plate, a cutting bottom plate, a seventh electric push rod, an eighth electric push rod, a fifth connecting plate, a ninth electric push rod, a material pushing plate, a fourteenth driving wheel, a half gear, an eighth flat gear, a sixth bevel gear, a seventh bevel gear, a ninth flat gear, a tenth flat gear, a connecting telescopic rod, an electric clamp, a sixth connecting plate and a tenth electric push rod; the shaft center of the thirteenth driving wheel is fixedly connected with the second bevel gear through a transmission rod; the second bevel gear is meshed with the third bevel gear; the axle center of the third bevel gear is fixedly connected with the sixth flat gear through a transmission rod; a seventh flat gear is arranged above the side surface of the sixth flat gear; the axis of the seventh flat gear is fixedly connected with the fourth bevel gear through a transmission rod; the fourth bevel gear is meshed with the fifth bevel gear; the axis of the fifth bevel gear is fixedly connected with the special-shaped wheel through a transmission rod; an elastic pressing plate is arranged below the special-shaped wheel; the lower part of the elastic pressing plate is fixedly connected with the cutting blade plate; the lower part of the elastic pressing plate is connected with the telescopic column; the lower part of the elastic pressing plate is welded with the spring; the outer surface of the telescopic column is sleeved with the spring; the lower part of the telescopic column is connected with the connecting bottom plate; the lower part of the spring is welded with the connecting bottom plate; the upper part of the connecting bottom plate is fixedly connected with the cutting bottom plate; the connecting bottom plate is inserted with the seventh electric push rod; an eighth electric push rod is arranged at the rear side of the seventh electric push rod; the side surface of the eighth electric push rod is inserted into the fifth connecting plate; the lower part of the fifth connecting plate is fixedly connected with a ninth electric push rod; the lower part of the ninth electric push rod is fixedly connected with the material pushing plate; the outer ring surface of the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the shaft center of the fourteenth driving wheel is fixedly connected with the half gear through a driving rod; the side surface of the half gear is meshed with the eighth flat gear; the axle center of the eighth flat gear is fixedly connected with the sixth bevel gear through a transmission rod; the sixth bevel gear is meshed with the seventh bevel gear; the axis of the seventh bevel gear is fixedly connected with the ninth flat gear through a transmission rod; the lower part of the ninth flat gear is meshed with the tenth flat gear; the shaft center of the tenth flat gear is fixedly connected with the connecting telescopic rod; one side of the connecting telescopic rod, which is far away from the tenth flat gear, is connected with the electric clamp; the outer surface of the connecting telescopic rod is connected with a sixth connecting plate; the sixth connecting plate is inserted with the tenth electric push rod; the thirteenth driving wheel is connected with the tenth driving wheel; the second bevel gear is connected with the working frame plate through a supporting seat; the seventh electric push rod is connected with the working frame plate; the eighth electric push rod is connected with the working frame plate; the half gear is connected with the working frame plate through a supporting seat; the sixth bevel gear is connected with the working frame plate through a supporting seat; the tenth electric push rod is connected with the working frame plate.

5. The coated paper recycling apparatus as set forth in claim 4, wherein: the outer surface of the first conveyor belt is provided with a plurality of groups of partition plates with specified intervals.

6. The coated paper recycling apparatus as set forth in claim 5, wherein: the longitudinal section of the fixed pressing plate is trapezoidal.

7. The coated paper recycling apparatus as set forth in claim 6, wherein: the lower part of the steering adjusting frame is provided with a groove of a trapezoidal body which is through from front to back.

8. The coated paper recycling apparatus of claim 7, wherein: the cutting edge plate and the cutting bottom plate are arranged in parallel.