CN220092140U - Cleaning device suitable for plastic particle sieve separator fly leaf - Google Patents

Abstract

The utility model provides a cleaning device suitable for a movable plate of a plastic particle screening machine, which comprises a main body frame, a conveying part, a surface cleaning part, an inner cleaning part and a control part, wherein the conveying part is arranged on the main body frame; the main body frame comprises a base and a working seat; the conveying part comprises a first servo motor, a first chain wheel, a second chain wheel, a chain, a guide rail and a movable carrier; the inner cleaning part comprises a cleaning liquid feeding mechanism and a cleaning mechanism. The upper and lower surfaces of the movable plate can be cleaned at one time, so that the step of turning over is omitted; mechanical cleaning is adopted, so that the labor intensity is remarkably reduced, and meanwhile, the requirement on the number of workers is reduced; the cleaning efficiency is not limited by the experience of staff any more, and can be improved obviously. Repeated cleaning can be adopted for more than two times, so that a better cleaning effect is obtained, and the quality of the final product is further improved.

Description

Cleaning device suitable for plastic particle sieve separator fly leaf

Technical Field

The utility model relates to the field of plastic particle manufacturing, in particular to a cleaning device suitable for a movable plate of a plastic particle screening machine.

Background

When plastic products are processed, especially plastic tracks are manufactured, raw materials such as polyurethane prepolymer, mixed polyether, waste tire rubber, rubber particles or granules, pigment, auxiliary agent, filler and the like are manufactured into plastic granules through the processes such as powder proportioning, banburying, vulcanizing, cutting, screening and the like, and pouring is performed.

In the screening process of plastic particle production, a plastic particle screening machine is used. Because of the design of environmental protection dust fall, the plastic particle screening machine mostly adopts closed design, so the screening bin and the movable plate of the plastic particle screening machine need to be cleaned regularly to effectively ensure the quality of the products in the subsequent batch. Because the movable plate has larger size, if the traditional cleaning mode is adopted, the following defects exist:

firstly, only one surface can be cleaned at a time, the size is large, and cleaning staff need to walk around.

Secondly, the movable plate needs to be overturned in the midway.

Third, the cleaning effect depends on the experience of the staff and the time consumption.

Disclosure of Invention

The utility model provides a cleaning device suitable for a movable plate of a plastic particle screening machine, which solves the problems of complicated cleaning flow, high labor intensity, low working efficiency, difficult guarantee of cleaning effect and the like of the traditional cleaning mode of the movable plate of the plastic particle screening machine.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a cleaning device suitable for a movable plate of a plastic particle screening machine comprises a main body frame, a conveying part, a surface cleaning part, an inner cleaning part and a control part.

The main body frame comprises a base and a working seat; the working seat is a rectangular through pipe I and is arranged on the base through a support column, and a rectangular through hole I is arranged on the upper bottom plate of the working seat.

The conveying part comprises a first servo motor, a first chain wheel, a second chain wheel, a chain, a guide rail and a movable carrier; the guide rail is arranged in the working seat through the mounting frame and is positioned below the rectangular through hole; the first servo motor is arranged on the front side plate of the working seat; the first sprocket is arranged on a rotating shaft of the first servo motor through a reduction gear box; the second pin shaft of the chain wheel is connected in the working seat; the movable carrier is connected to the guide rail in a sliding way through rollers and comprises an L-shaped supporting frame, a rectangular bearing frame, a stepping motor and a T-shaped limiting rod; the stepping motor is arranged on the rectangular bearing frame through the L-shaped supporting frame; the lower end of the T-shaped limiting rod is arranged on the rotating shaft of the stepping motor; the two ends of the chain are respectively arranged at the left side and the right side of the movable carrier, and the chain is meshed with the first chain wheel and the second chain wheel.

The surface cleaning part comprises a compressor, a high-pressure spray head, a dust collector device, a cleaning container, a strip-shaped dust collection head and a cleaning wheel I; the cleaning container comprises an inverted rectangular container I, a round pin hole II and a round pin hole III are arranged on an upper bottom plate of the container I, and U-shaped opening through grooves I are arranged on a left side plate and a right side plate of the container I; a flexible dustproof curtain is arranged on the U-shaped opening through groove I; the compressor is arranged on the base; the high-pressure spray heads are equidistantly arranged on the inner wall of the upper bottom plate of the cleaning container and are connected with the compressor through a guide pipe and an electromagnetic valve; the dust collector device is arranged on the base; the strip-shaped dust collection head is arranged on the inner wall of the upper bottom plate of the cleaning container and is connected with the dust collector device through a conduit; the first cleaning wheel is arranged on the upper bottom plate of the cleaning container through an elastic telescopic column and a first push rod motor.

The inner cleaning part comprises a cleaning liquid feeding mechanism and a cleaning mechanism.

The cleaning liquid feeding mechanism comprises a feeding liquid container I, a micropump, an atomization nozzle and an electric lifting device I; the first electric lifting device is arranged in the working seat; the feeding liquid container I is connected to a movable end of the electric lifting device in a sliding way; the micropump and the atomizing nozzle are arranged on a movable end of the electric lifting device through the mounting frame; an elastic water suction pipe is arranged on the water suction port of the micropump.

The cleaning mechanism comprises an electric lifting device II, a servo motor II, a cleaning conveyor belt, a push rod motor II, a cleaning rod, a cleaning wheel II and a shunt container; the second electric lifting device is arranged in the base; the second servo motor and the cleaning conveyor belt are arranged on the movable end of the second electric lifting device through a mounting frame; the rotating shaft of the second servo motor is in transmission connection with the driving wheel of the cleaning conveyor belt; the second push rod motor is arranged in the working seat through the mounting frame and is positioned on the right side of the cleaning conveyor belt; the cleaning rod is arranged on the movable end of the push rod motor II through an elastic telescopic rod; the shunt container is arranged in the base and below the push rod motor II, and a T-shaped shunt tube groove is formed in the shunt container; the second cleaning wheel is arranged on the second electric lifting device through an elastic telescopic column.

The control part comprises a control mechanism, a feedback mechanism and a PLC controller; the control mechanism comprises a starting switch, a feeding switch, a discharging switch, a liquid replacing switch, an adjusting switch and a pause switch; the feedback mechanism comprises a first distance sensor module, a second distance sensor module and a third distance sensor module.

Preferably, the rectangular bearing frame is replaced by a combination of a strip-shaped plate and a connecting cross column, and the connecting cross column is provided with a movable adjusting plate.

Preferably, the combination of the three push rod motors and the L-shaped limiting rod is used for replacing the stepping motor and the T-shaped limiting rod.

Preferably, the belt cleaning bar is replaced with a haired cleaning bar.

Further, a drying device is additionally arranged on the cleaning container.

Compared with the prior art, the beneficial effects are that:

in the utility model, through the integral arrangement of the main body frame, the conveying part, the surface layer cleaning part, the inner layer cleaning part and the control part, the following functions are realized:

firstly, the upper surface and the lower surface of the movable plate are cleaned at one time, and the step of turning over is omitted.

Secondly, the machine is clean, the labor intensity is obviously reduced, and meanwhile, the requirement on the number of workers is reduced.

Thirdly, the cleaning efficiency is not limited by the experience of staff and the time consumption, and the cleaning efficiency is obviously improved. Repeated cleaning can be adopted for more than two times, so that a better cleaning effect is obtained, and the quality of the final product is further improved.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic view of a front partial cross-sectional structure of the present utility model;

FIG. 3 is a schematic view of a front view of a partially enlarged cross-sectional structure of the present utility model;

FIG. 4 is a schematic diagram of a system architecture according to the present utility model;

fig. 5 is a circuit wiring diagram of the present utility model.

In the figure: 101. base 102, working seat 103, rectangular through hole I, 104, movable door 201, servo motor I, 202, sprocket I, 203, sprocket II, 204, chain, 205, rail, 206, movable carrier, 301, compressor 302, high pressure sprayer, 303, vacuum cleaner apparatus 304, cleaning vessel 305, strip head, 306, cleaning wheel I, 307, push rod motor I, 401, upper feed liquid vessel I, 402, electric lifting device I, 403, micropump 404, atomizer, 405, electric lifting device II, 406, servo motor II, 407, cleaning conveyor 408, push rod motor II, 409, cleaning bar, 410, cleaning wheel II, 411, shunt vessel 412, T-shaped shunt tube slot, 20601, L-shaped support frame, 20602, rectangular carrying frame, 20603, stepper motor, 20604, T-shaped stop bar.

Description of the embodiments

Embodiment 1 referring to fig. 1 to 5, a cleaning apparatus suitable for a movable plate of a plastic particle screening machine includes a main body frame, a conveying portion, a surface layer cleaning portion, an inner layer cleaning portion, and a control portion.

The main body frame includes a base 101 and a work seat 102.

The working base 102 is disposed on the base 101 through a pillar.

The working seat 102 is a rectangular through pipe I.

A first rectangular through hole 103 is formed in the first rectangular through pipe upper bottom plate.

A round pin hole I and a liquid supply through hole are formed in the front side plate of the rectangular through pipe I; a movable door 104 is provided on the liquid supply through hole.

The conveying part comprises a first servo motor 201, a first chain wheel 202, a second chain wheel 203, a chain 204, a guide rail 205 and a movable carrier 206.

The guide rail 205 is disposed in the working seat 102 through a mounting frame and is located below the first rectangular through hole 103.

The first servo motor 201 is arranged on the front side plate of the working seat 102 through a mounting plate.

The first sprocket 202 is arranged on the rotating shaft of the first servo motor 201 through a reduction gear box, and the first sprocket 202 is positioned in the working seat 102.

The second sprocket 203 is pin-connected to the working base 102.

The movable carrier 206 is slidably connected to the guide rail 205 through rollers.

The two ends of the chain 204 are respectively arranged at the left side and the right side of the movable carrier 206, and the chain 204 is meshed with the first sprocket 202 and the second sprocket 203.

The movable carrier 206 includes an "L" shaped support frame 20601, a rectangular carrying frame 20602, a stepper motor 20603 and a "T" shaped stop bar 20604.

The "L" shaped support frames 20601 are disposed on the left and right sides of the rectangular support frame 20602.

The stepper motor 20603 is mounted on an "L" shaped support 20601.

The T-shaped limiting rod 20604 is connected to the L-shaped supporting frame 20601 through a through pipe pin shaft; and the lower end of the T-shaped stopper rod 20604 is disposed on the rotating shaft of the stepper motor 20603.

The surface cleaning portion includes a compressor 301, a high pressure nozzle 302, a cleaner apparatus 303, a cleaning vessel 304, a wand 305 and a cleaning wheel one 306.

The cleaning receptacle 304 comprises an inverted rectangular receptacle one.

The left side plate and the right side plate of the cleaning container 304 are respectively provided with a U-shaped opening through groove I; a flexible dustproof curtain is arranged on the U-shaped opening through groove I.

The upper bottom plate of the cleaning container 304 is provided with a second round pin hole and a third round pin hole.

The compressor 301 is disposed on the base 101.

The high-pressure spray heads 302 are equidistantly arranged on the inner wall of the upper bottom plate of the cleaning container 304; and the high-pressure spray head 302 is fixedly connected with the compressor 301 through a conduit and an electromagnetic valve.

The vacuum cleaner device 303 is provided on the base 101.

The strip-shaped dust collection head 305 is arranged on the inner wall of the upper bottom plate of the cleaning container 304; and the strip-shaped dust collection head 305 is fixedly connected with the dust collector device 303 through a conduit.

The first cleaning wheel 306 is arranged on the upper bottom plate of the cleaning container 304 through an elastic telescopic column and a first push rod motor 307.

The inner cleaning part comprises a cleaning liquid feeding mechanism and a cleaning mechanism.

The cleaning liquid feeding mechanism comprises a feeding liquid container I401, a micropump 403, an atomization nozzle 404 and an electric lifting device I402.

The first electric lifting device 402 is disposed in the working seat 102.

The movable end of the first electric lifting device 402 is provided with a U-shaped limit edge.

The feeding liquid container I401 is connected to the movable end of the electric lifting device I402 in a sliding manner.

The micro pump 403 and the atomizing nozzle 404 are arranged on the movable end of the electric lifting device 402 through a mounting frame.

An elastic water suction pipe is arranged on the water suction port of the micro pump 403.

The cleaning mechanism comprises a second electric lifting device 405, a second servo motor 406, a cleaning conveyor belt 407, a second push rod motor 408, a cleaning rod 409, a second cleaning wheel 410 and a diversion container 411.

The second electric lifting device 405 is disposed in the base 101.

The second servo motor 406 and the cleaning conveyor belt 407 are arranged on the movable end of the second electric lifting device 405 through a mounting frame.

The rotating shaft of the second servo motor 406 is in transmission connection with the driving wheel of the cleaning conveyor belt 407.

The second push rod motor 408 is disposed in the working base 102 through a mounting frame, and is located on the right side of the cleaning conveyor 407.

The cleaning rod 409 is arranged on the movable end of the second push rod motor 408 through an elastic telescopic rod.

The diverting container 411 is disposed in the base 101 and below the second push rod motor 408.

The diverting container 411 is provided with a T-shaped diverting tube groove 412.

The second cleaning wheel 410 is disposed on the second electric lifting device 405 through an elastic telescopic column.

The control part comprises a control mechanism, a feedback mechanism and a PLC controller.

The control mechanism comprises a starting switch, a feeding switch, a discharging switch, a liquid replacing switch, an adjusting switch and a pause switch.

The start switch, the feed switch, the discharge switch, the liquid change switch, the adjustment switch and the pause switch are arranged on the front side plate of the working seat 102.

The feedback mechanism comprises a first distance sensor module, a second distance sensor module and a third distance sensor module.

The first distance sensor module is disposed on the inner wall of the upper bottom plate of the cleaning container 304 and is used for collecting position information of the movable plate of the plastic particle screening machine.

The second distance sensor module is disposed in the working seat 102 and is used for collecting position information of the movable plate of the plastic particle screening machine.

The third distance sensor module is disposed on the side plate of the cleaning container 304, and is used for collecting position information of the T-shaped limit rod 20604, so as to effectively ensure that the movable plate is located in the surface cleaning portion when the first cleaning wheel 306 is in operation.

The PLC controller is disposed within the base 101.

The first servo motor 201, the step motor 20603, the compressor 301, the dust collector 303, the first push rod motor 307, the micro pump 403, the first electric lifting device 402, the second electric lifting device 405, the second servo motor 406, the second push rod motor 408, the electromagnetic valve, the start switch, the feed switch, the discharge switch, the liquid change switch, the adjustment switch, the pause switch, the first distance sensor module, the second distance sensor module, the third distance sensor module and the PLC controller are electrically connected.

The working principle and the using method are as follows:

first, presetting:

the device of the utility model is powered, the starting switch is pressed, and no-load debugging is carried out.

Secondly, feeding cloth rolls:

placing the movable plate of the plastic particle screening machine onto the movable carrier 206; the feeding switch is pressed, the PLC controller outputs signals to the stepping motor 20603 and the first servo motor 201, and the stepping motor 20603 drives the T-shaped limiting rod 20604 to rotate, so that fixation is completed.

The first servo motor 201 drives the movable carrier 206 to move right.

The movable plate of the plastic particle screening machine passes through the first distance sensor module, the first distance sensor module outputs the collected signals to the PLC, and the PLC outputs signals to the compressor 301, the dust collector device 303 and the electromagnetic valve. The compressor 301 is started, the high-pressure nozzle 302 sprays air flow to clean the surface layer, and the dust collector device 303 is synchronously started.

When the distance sensor module III acquires the signal passing by the T-shaped limiting rod 20604, a signal is output to the PLC controller, the PLC controller outputs the signal to the first push rod motor 307, the first push rod motor 307 moves downwards, the first cleaning wheel 306 can always clean the movable plate of the plastic particle screening machine, and the cleaning wheel enters the inner cleaning part.

The movable plate of the plastic particle screening machine passes through a second distance sensor module, the second distance sensor module outputs the acquired signals to a PLC controller, and the PLC controller outputs signals to a micro pump 403, a second servo motor 406 and a second push rod motor 408.

The micro pump 403 is started to spray the cleaning liquid onto the inner wall of the movable plate of the plastic particle screening machine, and the second servo motor 406 drives the cleaning conveyor belt 407 to clean the inner wall of the movable plate of the plastic particle screening machine. The second push rod motor 408 drives the cleaning rod 409 forward, and guides the cleaned liquid into the diverting container 411. Then, the movable plate of the plastic particle screening machine passes through the second cleaning wheel 410 to finish cleaning.

The height of the upper end of the cleaning conveyor belt 407 can be adjusted by adjusting the switch in the process so as to improve the cleaning effect.

Thirdly, replacing cleaning liquid:

the liquid replacement switch is pressed, the PLC controller outputs a signal to the first electric lifting device 402, and the first electric lifting device 402 drives the first feeding liquid container 401 to move downwards. Then, the operator opens the movable door 104 to withdraw the first charging liquid container 401, and performs operations such as replacement of the cleaning liquid, cleaning of the first charging liquid container 401, and the like.

In embodiment 2, on the basis of embodiment 1, the rectangular bearing frame 20602 is replaced by a combination of a strip-shaped plate and a connecting cross column, and a movable adjusting plate is arranged on the connecting cross column and used for adjusting the size of a middle area formed by the strip-shaped plate and the connecting cross column, so as to increase the adaptation degree.

In embodiment 3, on the basis of embodiment 1, the combination of the three push rod motors and the L-shaped limit rod is used for replacing the stepping motor 20603 and the T-shaped limit rod 20604, so that the speed of fixing the movable plate is improved.

Example 4 the cleaning ability was further improved by replacing the cleaning belt 407 with a haired cleaning bar on the basis of example 1.

Example 5 a drying apparatus was added to the cleaning vessel 304 on the basis of example 1.

Claims (10)

1. Cleaning device suitable for plastic granule sieve separator fly leaf, its characterized in that: comprises a main body frame, a conveying part, a surface layer cleaning part, an inner layer cleaning part and a control part; the main body frame comprises a base and a working seat; the conveying part comprises a first servo motor, a first chain wheel, a second chain wheel, a chain, a guide rail and a movable carrier; the inner cleaning part comprises a cleaning liquid feeding mechanism and a cleaning mechanism; the cleaning liquid feeding mechanism comprises a feeding liquid container I, a micro pump, an atomization nozzle and an electric lifting device I; the cleaning mechanism comprises an electric lifting device II, a servo motor II, a cleaning conveyor belt, a push rod motor II, a cleaning rod, a cleaning wheel II and a shunt container; the second electric lifting device is arranged in the base; the second servo motor and the cleaning conveyor belt are arranged on the movable end of the second electric lifting device; the second servo motor is in transmission connection with a driving wheel of the cleaning conveyor belt; the second push rod motor is arranged in the working seat; the cleaning rod is arranged on the movable end of the push rod motor II through an elastic telescopic rod; the diverting container is provided with a T-shaped diverting tube groove; the second cleaning wheel is arranged on the second electric lifting device through an elastic telescopic column.

2. The cleaning device for a movable plate of a plastic particle screening machine according to claim 1, wherein: the first electric lifting device is arranged in the working seat; the feeding liquid container I is connected to a movable end of the electric lifting device in a sliding way; the micropump and the atomizing nozzle are arranged on a movable end of the electric lifting device through the mounting frame; an elastic water suction pipe is arranged on the water suction port of the micropump.

3. The cleaning device for a movable plate of a plastic particle screening machine according to claim 1, wherein: the surface cleaning part comprises a compressor, a high-pressure spray head, a dust collector device, a cleaning container, a strip-shaped dust collection head and a cleaning wheel I; the cleaning container comprises an inverted rectangular container I, a round pin hole II and a round pin hole III are arranged on an upper bottom plate of the container I, and U-shaped opening through grooves I are arranged on a left side plate and a right side plate of the container I; a flexible dustproof curtain is arranged on the U-shaped opening through groove I; the high-pressure spray nozzle is arranged on the inner wall of the upper bottom plate of the cleaning container; the strip-shaped dust collection head is arranged on the inner wall of the upper bottom plate of the cleaning container and is connected with the dust collector device through a conduit; the first cleaning wheel is arranged on the upper bottom plate of the cleaning container through an elastic telescopic column and a first push rod motor.

4. The cleaning device for a movable plate of a plastic particle screening machine according to claim 1, wherein: the guide rail is arranged in the working seat through the mounting frame and is positioned below the rectangular through hole; the first servo motor is arranged on the front side plate of the working seat through a mounting plate; the first sprocket is arranged on a rotating shaft of the first servo motor through a reduction gear box; the second pin shaft of the chain wheel is connected in the working seat; the movable carrier is connected to the guide rail in a sliding way through rollers; the two ends of the chain are respectively arranged at the left side and the right side of the movable carrier, and the chain is meshed with the first chain wheel and the second chain wheel.

5. The cleaning device for a movable plate of a plastic particle screening machine according to claim 1, wherein: the movable carrier comprises an L-shaped supporting frame, a rectangular bearing frame, a stepping motor and a T-shaped limiting rod; the stepping motor is arranged on the rectangular bearing frame through the L-shaped supporting frame; the T-shaped limiting rod is connected to the L-shaped supporting frame through a through pipe pin shaft, and the lower end of the T-shaped limiting rod is arranged on a rotating shaft of the stepping motor.

6. The cleaning device for a movable plate of a plastic particle screening machine according to claim 1, wherein: the working seat is a rectangular through pipe I and is arranged on the base through a support column, a rectangular through hole I is arranged on the upper bottom plate of the working seat, and a circular pin hole I and a liquid supply through hole are arranged on the side plate of the working seat; the liquid supply through hole is provided with a movable door.

7. The cleaning device for a movable plate of a plastic particle screening machine according to claim 1, wherein: the belt cleaning rod is used for replacing and cleaning the conveyor belt.

8. A cleaning device for a movable plate of a plastic particle screening machine according to claim 3, wherein: a drying device is additionally arranged on the cleaning container.

9. The cleaning device for a movable plate of a plastic particle screening machine according to claim 5, wherein: the step motor and the T-shaped limit rod are replaced by the combination of the push rod motor III and the L-shaped limit rod.

10. The cleaning device for a movable plate of a plastic particle screening machine according to claim 5, wherein: the rectangular bearing frame is replaced by the combination of the strip-shaped plate and the connecting cross column, and the connecting cross column is provided with a movable adjusting plate.