CN114104551B - Automatic broken bag classification dustbin in district gate - Google Patents

Abstract

The invention discloses an automatic bag breaking and classifying garbage can at a community gate, which comprises a garbage input port, a garbage can shell, a lifting door, a blow-off pipe, a recyclable garbage can, a glass garbage can, a clothes distributing garbage can, a power driving device, a rack door, a spiral lifting device, a rolling and crushing device, a glass screening device, a conveying device, a bag breaking device, a distributing device and a kitchen garbage screening integrated machine. According to the automatic bag breaking and classifying garbage can at the community gate, the automatic bag breaking, classifying and crushing work of garbage bags is automatically completed through the automatic garbage can shell, the lifting door, the blow-off pipe, the recyclable garbage can, the glass garbage can, the clothes distributing garbage can, the power driving device, the rack door, the spiral lifting device, the rolling and crushing device, the glass screening device, the conveying device, the bag breaking, distributing device and the kitchen garbage screening integrated machine, and the problems that the garbage classification is difficult and the environment is polluted and unsanitary are solved.

Description

Automatic broken bag classification dustbin in district gate

Technical Field

The invention relates to the technical field of garbage cans, in particular to an automatic bag breaking and classifying garbage can at a community gate.

Background

The dustbin is the container that is used for depositing rubbish, generally square or rectangle dustbin, generally be used for the district, public places such as park, in order to let people have the consciousness of automatic branch rubbish, all write the characters of recoverable rubbish and unrecoverable rubbish on the dustbin, but rubbish still confuses when staff's clearance and deposits, especially the dustbin in the district, almost all be the disposal bag that is full of rubbish in the garbage bin, later stage needs broken bag reclassification, work load is fairly big, and also the unhygienic polluted environment that still does not.

There is certain drawback when using in current categorised dustbin, and among the prior art, patent number CN202010907203.4 is a rubbish automatic classification dustbin, including the dustbin, be provided with refuse chute and device groove in the dustbin, refuse chute and device groove are interconnected mutually and are led to, but do not possess broken bag function, and classification effect is also not good, is unfavorable for people's use, and for this reason, we propose an automatic broken bag categorised dustbin in district gate.

Disclosure of Invention

Technical problem to be solved

Aiming at the problems, the invention provides an automatic bag breaking and classifying garbage can at a community gate, which is provided with a garbage can shell, a lifting door, a blow-off pipe, a recyclable garbage can, a glass garbage can, a clothes distributing garbage can, a power driving device, a rack door, a spiral lifting device, a rolling and crushing device, a glass screening device, a conveying device, a bag breaking device, a distributing device and a kitchen garbage screening integrated machine, so that the bag breaking, classifying and crushing work of garbage bags is automatically completed, and the problems of difficulty in garbage classification and unsanitary environment pollution are solved.

(II) technical scheme

In order to realize the purpose, the invention adopts the technical scheme that: the utility model provides an automatic broken bag classification dustbin in district gate, includes rubbish input mouth, dustbin shell, liftable door, blow off pipe, recoverable dustbin, glass dustbin, clothing cloth dustbin, power drive, rack door, spiral lifting, rolls breaker, glass sieving mechanism, conveyor, no. two conveyor, broken bag, cloth and kitchen rubbish screening all-in-one, dustbin shell upper portion sets up rubbish input mouth, broken bag, cloth and kitchen rubbish screening all-in-one are relative with rubbish input mouth, the blow off pipe is located dustbin shell bottom and broken bag, cloth and kitchen rubbish screening all-in-one bottom export sealing connection, broken bag, cloth and kitchen rubbish screening all-in-one set up spiral lifting on one side, spiral lifting fixed mounting is in glass sieving mechanism one end, roll breaker fixed mounting on glass sieving mechanism upper portion, conveyor fixed mounting is in glass sieving mechanism bottom one side, and glass sieving mechanism discharge gate are relative, no. two conveyor fixed mounting are close to conveyor in glass sieving mechanism bottom, recoverable dustbin is located the first lower part conveyor front rack, two rack lower parts rack parts of rack parts and rack parts of the dustbin shell, rack parts and rack parts drive, and rack parts drive the dustbin shell and rack parts drive both sides, rack parts under the dustbin.

Preferably, power drive device includes base, a motor, a gear revolve and install on the base, a motor fixed mounting is on the base, a motor drive axle box gear line is to it, a motor drive axle fixed mounting is at a gear.

Preferably, spiral lifting includes No. two motors, material export, drive shaft, helical blade, protects a section of thick bamboo, bolt, feed inlet outward, the drive shaft rotates to be installed and protects a section of thick bamboo inside outward, and protects a section of thick bamboo axis alignment outward, helical blade fixed mounting is in the drive shaft, and drive shaft axis aligns, no. two motor fixed mounting protects a section of thick bamboo upper end outward, and the drive axis and the drive shaft of No. two motors align, the drive shaft and the drive shaft fixed connection of No. two motors, the material export protects a section of thick bamboo upper end outward through bolt fixed mounting, no. one the feed inlet protects a lower extreme outward through bolt fixed mounting, and material export and a feed inlet direction are degree distribution.

Preferably, the rolling and crushing device comprises a second feeding hole, a third motor, a first frame, rollers and a second gear, wherein the rollers are divided into two groups, a small gap is reserved between the two rollers in each group, the two groups of rollers are vertically distributed and are respectively rotatably installed on the first frame, the two groups of gears in the second group are meshed with the two gears in each group, the two groups of gears are vertically distributed and do not interfere with each other, the gears are respectively and fixedly installed at the end parts of the rollers, the third motor is fixedly installed on the first frame, a third motor driving shaft is aligned with the axes of the rollers, and the third motor driving shaft is fixedly connected with one end of each roller.

Preferably, the glass screening device comprises a second frame, a right end plate, a discharge port, a left end plate, a left inclined plate, a right inclined plate, a large gear ring, a bearing, a support seat, a pinion, a first connecting plate, a rotary screen, a fourth motor, a wear-resistant sleeve, a cleaning device and a fifth motor, the right end plate and the left end plate are fixedly mounted at two ends of the second frame respectively, the left inclined plate and the right inclined plate are fixed in the second frame respectively and distributed in a splayed shape, the discharge port is fixedly mounted on two sides of the second frame respectively and located at one end of a splayed large opening formed by the right end plate and the left end plate, long holes are uniformly distributed in the surface of the rotary screen, the large gear ring is fixedly mounted at two ends of the rotary screen respectively, the pinion is rotatably mounted on the bearing and the support seat respectively, the four motors are fixedly mounted on the bearing and the support seat respectively, the pinion is located at the left end and the right end of the lower portion of the large gear ring and is meshed with the large gear ring respectively, the wear-resistant sleeve is fixedly mounted in mounting holes of the right end plate and the left end plate respectively, the cleaning device is rotatably mounted in an inner hole of the rotary screen, the cleaning device, the fifth motor is fixedly mounted on the right end plate, and is closely attached to one end of the cleaning device, and the drive shaft of the motor is aligned with the cleaning device.

Preferably, the cleaning device comprises blades and a rod piece, the end parts of the blades are triangular, and the blades are respectively and uniformly and fixedly installed in the circumferential direction of the rod piece.

Preferably, the bag breaking, distributing and kitchen garbage screening all-in-one machine comprises a bag breaking and distributing classifying device and a stirring device, wherein the bag breaking and distributing classifying device is fixedly arranged above the stirring device.

Preferably, the bag breaking and cloth classifying device comprises a rack bar motor, a mesh conveyer belt, an inclined plane discharge port, a sucker motor, a first connecting seat, a sucker cylinder connecting seat, a disc rotary cutter, a cutter cylinder seat, a mesh conveyer belt motor, a poking rod motor, a movable bottom plate, a through hole, a movable bottom plate cylinder, a cylinder seat, a guide plate, a bilateral inclined plane plate, a tooth rod cleaning groove and a poking rod, the sucking disc cylinder connecting seats are respectively and fixedly arranged on two sides of a feeding hole of the bag breaking and distributing sorting device, the sucker air cylinders are symmetrically distributed, the sucker air cylinders are fixedly arranged on the sucker air cylinder connecting seat, the first connecting seat is fixedly arranged at the end part of the telescopic rod of the sucker air cylinder, the sucker is rotatably arranged on the first connecting seat, the sucker motor is fixedly arranged on the first connecting seat, a sucker motor driving shaft is fixedly connected with one end of the tail part of the sucker, the cutting knife cylinder seat is fixedly arranged at one end of a feed inlet of the bag breaking and cloth classifying device, the cutting knife cylinder is fixedly arranged on the cutting knife cylinder seat, the disc rotary cutting knife adopts the prior art, the base of the disc rotary cutting knife is fixedly arranged at the end part of the telescopic rod of the cutting knife cylinder, the disc rotary cutting knife is positioned between the two suckers and close to one side of the feed hopper, the disc rotary cutting knife and the two suckers are positioned on the same plane and distributed in a degree manner, the guide plate is fixedly arranged on the feed port and positioned below the two suckers, the cylinder seat is fixedly arranged at one side of the feeding hole, the movable bottom plate cylinder is fixedly arranged on the cylinder seat, one side of the movable bottom plate is provided with a through hole, and one side of the movable bottom plate provided with the through hole is fixedly arranged at the end part of a telescopic rod of the movable bottom plate cylinder.

Preferably, two side inclined plane board fixed mounting set up two rectangular holes along the inclined plane direction in broken bag and cloth sorter feed inlet below, evenly set up the rack clearing groove below the rectangular hole below, evenly distributed hook type tooth on the rack, hook type tooth and rack clearing groove correspond, and the rack rotates and installs at rectangular hole middle part, rack motor fixed mounting is in broken bag and cloth sorter feed inlet one side, rack motor drive shaft and rack one end fixed connection, set up the mesh on the mesh conveyer belt, little rubbish can fall into mesh conveyer belt below through the mesh, and mesh conveyer belt fixed mounting is inside broken bag and cloth sorter casing, is located two side inclined plane board below, conveyer belt motor fixed mounting is in broken bag and cloth sorter casing outside, stir the rod and rotate and install on broken bag and cloth sorter casing, be located mesh conveyer belt top, stir rod motor fixed mounting is in broken bag and cloth sorter casing outside.

Preferably, the stirring device comprises a stirring rod gear, a second connecting plate, an arc plate, a synchronous belt pulley, a stirring rod motor, a poking rod, a crushing disc cutter, a discharge hopper, a guide rib plate, a stirring shaft and a crushing cutter motor, wherein the second connecting plate is fixedly arranged below the shell of the bag breaking and cloth classifying device, the synchronous belt pulleys are divided into two groups, the synchronous belts are arranged on two groups, the synchronous belts are respectively arranged on each group of synchronous belt pulleys, the poking rods are uniformly and fixedly arranged between the synchronous belts, the stirring shafts are close to each other and are respectively rotatably arranged inside the shell of the stirring device, the upper end of each stirring shaft is close to the poking rod, one end of each stirring shaft is fixedly provided with the stirring rod gear, the stirring rod gears are meshed with each other, the stirring rod motor is fixedly arranged on the shell of the stirring device, the output shaft of the stirring rod motor and one end of the edge of the stirring shaft are fixedly connected, the guide rib plate is fixedly arranged on the shell of the stirring device and is arranged above the synchronous belt, two sides of the poking rod can adopt the prior crushing technology, the crushing disc cutter is fixedly arranged on the shell of the stirring shaft and is arranged below the stirring disc discharge hopper.

(III) advantageous effects

Compared with the prior art, the invention provides an automatic bag-breaking classification dustbin at a community gate, which has the following beneficial effects:

1. the garbage can automatically complete the work of breaking and classifying the garbage bags, reduces the labor intensity and protects the environment.

2. The garbage can is provided with the lifting door, so that garbage is convenient to clean, flies, mice and other organisms are prevented from entering the garbage can, and sanitation is kept.

3. The grinding and crushing device is provided with the upper group and the lower group, and is used for grinding garbage twice, so that glass can be thoroughly crushed, and other garbage can be fully compressed.

4. The crushing knife provided by the invention directly crushes the kitchen waste, the kitchen waste is directly discharged to a designated place along with the drain pipe, the kitchen waste does not need to be cleaned in the later period, and the kitchen waste can be used as a fertilizer.

5. The double-side inclined plane plate is provided with the tooth stick cleaning groove, so that garbage hung on the tooth stick is cleaned, the garbage is prevented from returning to the double-side inclined plane plate, and the separation effect is ensured.

6. The glass screening device is provided with the two splayed inclined plates, the slope formed by the splayed inclined plates and the rotary screen is beneficial to garbage sliding, and the whole classification garbage can is simple in structure, convenient to operate and better in using effect compared with a traditional mode.

Drawings

Drawings

Fig. 1 is a schematic view of the overall assembly structure of the present invention.

Fig. 2 is a schematic view of an opening structure of the lift door of the present invention.

Fig. 3 is a schematic view of the lift gate and the driving structure of the present invention.

Fig. 4 is a schematic structural view of a hidden garbage can shell of the invention.

Fig. 5 is a schematic view of a driving structure of the lift gate of the present invention.

FIG. 6 is a schematic view of a lifting device of the present invention.

Fig. 7 is a schematic view of the crushing and crushing device of the present invention.

Fig. 8 and 9 are schematic views of the glass screening apparatus of the present invention.

FIG. 10 is a schematic view of a hidden frame of the glass screening apparatus of the present invention.

FIG. 11 is a schematic plane view of the glass screening apparatus of the present invention.

FIG. 12 is a schematic view of a cleaning apparatus of the glass screening apparatus of the present invention.

Fig. 13 and 14 are schematic diagrams of the bag breaking, distributing and kitchen waste screening integrated machine.

Fig. 15 and 17 are schematic views of the planing surface of the bag breaking, distributing and kitchen waste sieving integrated machine.

FIG. 16 is an enlarged view of the tooth bar and the double-sided bevel of the present invention.

In the figure: 1. a garbage throwing port; 2. a dustbin housing; 3. a liftable door; 4. a blow-off pipe; 5. a recyclable dustbin; 6. a glass dustbin; 7. a clothing cloth dustbin; 8. a power drive device; 9. a rack door; 10. spirally lifting; 11. a rolling and crushing device; 12. a glass screening device; 13. a first conveying device; 14. a conveying device; 15. the bag breaking, distributing and kitchen garbage screening integrated machine; 801. a base; 802. a first motor; 803. a first gear; 1001. a second motor; 1002. a material outlet; 1003. a drive shaft; 1004. a helical blade; 1005. an outer protective cylinder; 1006. a bolt; 1007. a first feeding hole; 1101. a second feeding hole; 1102. a third motor; 1103. a first frame; 1104. a roller; 1105. a second gear; 1201. a second frame; 1202. a right end plate; 1203. a discharge port; 1204. a left end plate; 1205. a left sloping plate; 1206. a right sloping plate; 1207. a large gear ring; 1208. a bearing and a support seat; 1209. a pinion gear; 1210. a first connecting plate; 1211. a drum screen; 1212. a fourth motor; 1213. a wear-resistant sleeve; 1214. a cleaning device; 1215. a fifth motor; 1216. a blade; 1217. a rod member; 1501. a bag breaking and cloth classifying device; 1502. a rack bar motor; 1503. a mesh conveyor belt; 1504. a bevel discharge port; 1505. stirring the device; 1506. a suction cup; 1507. a suction cup motor; 1508. a first connecting seat; 1509. a suction cup cylinder; 1510. a suction disc cylinder connecting seat; 1511. a disc rotary cutter; 1512. a cutter cylinder; 1513. a cutting knife cylinder seat; 1514. a mesh conveyer belt motor; 1515. stirring a roller gear; 1516. a stick poking motor; 1517. a movable bottom plate; 1518. a through hole; 1519. a movable bottom plate cylinder; 1520. a cylinder block; 1521. a second connecting plate; 1522. an arc plate; 1523. a guide plate; 1524. a double-sided bevel panel; 1525. a toothed bar; 1526. a tooth stick cleaning groove; 1527. a synchronous belt; 1528. a synchronous pulley; 1529. a stirring rod motor; 1530. a poke rod; 1531. a crushing cutter disk; 1532. a discharge hopper; 1533. poking the stick; 1534. a guide rib plate; 1535. stirring the shaft; 1536. a motor for the crushing knife.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings and the detailed description, but those skilled in the art will understand that the following described embodiments are some, not all, of the embodiments of the present invention, and are only used for illustrating the present invention, and should not be construed as limiting the scope of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention. The examples, in which specific conditions are not specified, were conducted under conventional conditions or conditions recommended by the manufacturer. The reagents or instruments used are not indicated by the manufacturer, and are all conventional products available commercially.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1-17, an automatic bag-breaking classification garbage can at a community gate comprises a garbage input port 1, a garbage can shell 2, a lifting door 3, a blow-off pipe 4, a recyclable garbage can 5, a glass garbage can 6, a clothes distributing garbage can 7, a power driving device 8, a rack door 9, a spiral lifting 10, a rolling crushing device 11, a glass screening device 12, a first conveying device 13, a second conveying device 14, a bag-breaking, distributing and kitchen garbage screening integrated machine 15, wherein the garbage input port 1 is arranged at the upper part of the garbage can shell 2, the bag-breaking, distributing and kitchen garbage screening integrated machine 15 is opposite to the garbage input port 1, the blow-off pipe 4 is arranged at the bottom of the garbage can shell 2 and is hermetically connected with an outlet at the bottom of the bag-breaking, distributing and kitchen garbage screening integrated machine 15, the spiral lifting 10 is arranged beside the bag-breaking, distributing and kitchen garbage screening integrated machine 15, the spiral lifting 10 is fixedly arranged at one end of the glass screening device 12, the rolling crushing device 11 is fixedly arranged at the upper part of the glass screening device 12, the first conveying device 13 is fixedly arranged at one side of the bottom of the glass screening device 12, opposite to the discharge port of the glass screening device 12, a second conveying device 14 is fixedly arranged at the bottom of the glass screening device 12 and close to the first conveying device 13, recoverable dustbin 5 is located conveyor 13 lower part front end No. one, and glass dustbin 6 is located conveyor 14 lower part front end No. two, and clothing cloth dustbin 7 is located broken bag, cloth and 15 export lower part front ends of kitchen rubbish screening all-in-one, and power drive device 8 is totally two respectively fixed mounting in dustbin shell 2 both sides, and rack door 9 both sides set up the rack, and rack door 9 slidable mounting is on dustbin shell 2, and rack door 9's rack and power drive device 8 gear engagement. The gear of the power driving device 8 can drive the rack door 9 to move up and down, when the dustbin needs to be cleaned, the gear of the power driving device 8 rotates, the rack door 9 moves up to expose the dustbin, the cleaning is convenient, the cleaning is completed, the gear of the power driving device 8 rotates reversely, the rack door 9 is closed, and flies, mice and the like are prevented from entering the dustbin. The bag breaking, distributing and kitchen garbage screening integrated machine 15 can automatically break bags, garbage is screened after the bags are broken, the cloth is separately collected and enters a cloth collecting box, kitchen garbage is smashed and washed away along with water flow, the rest garbage discharging port is opposite to the screw lifting device 10, objects are sent into the rolling and crushing device 11 through the screw lifting device 10, the rolling and crushing device 11 extrudes garbage such as glass, plastic bottles and paper boxes, the fragile objects of the glass are crushed, when the garbage passes through the glass screening device 12, the glass can be separated out and enter the glass collecting box, and the rest of the extruded garbage can not enter the recoverable garbage box through the glass screening device 12.

Further, the power driving device 8 comprises a base 801, a first motor 802 and a first gear 803, wherein the first gear 803 is rotatably installed on the base 801, the first motor 802 is fixedly installed on the base 801, the first motor 802 drives the shaft box to align with the axis of the first gear 803, the first motor 802 drives the shaft to be fixedly installed on the first gear 803, and the first motor 802 is started to drive the first gear 803 to rotate.

Further, the spiral lift 10 comprises a second motor 1001, a material outlet 1002, a driving shaft 1003, a spiral blade 1004, an outer protective cylinder 1005, a bolt 1006 and a first feeding hole 1007, wherein the driving shaft 1003 is rotatably installed inside the outer protective cylinder 1005 and is aligned with the axis of the outer protective cylinder 1005, the spiral blade 1004 is fixedly installed on the driving shaft 1003 and is aligned with the axis of the driving shaft 1003, the second motor 1001 is fixedly installed at the upper end of the outer protective cylinder 1005, the driving axis of the second motor 1001 is aligned with the driving shaft 1003, the driving shaft of the second motor 1001 is fixedly connected with the driving shaft 1003, the material outlet 1002 is fixedly installed at the upper end of the outer protective cylinder 1005 through the bolt 1006, the first feeding hole 1007 is fixedly installed at the lower end of the outer protective cylinder 1005 through the bolt 1006, and the directions of the material outlet 1002 and the first feeding hole 1007 are distributed at 180 degrees. The second motor 1001 is started, the driving shaft 1003 drives the spiral blade 1004 to rotate, the garbage enters from the first feeding hole 1007 and is carried to the upper end material outlet 1002 by the spiral blade 1004, and the garbage comes out from the material outlet 1002 and enters the rolling and crushing device 11.

Further, the rolling and crushing device 11 comprises a second feeding hole 1101, a motor 1102, a first roller frame 1103, rollers 1104 and a second gear 1105, wherein two groups of rollers 1104 are arranged, a small gap is left between the two rollers in each group, the two groups of rollers are distributed up and down and are respectively and rotatably arranged on the first roller frame 1103, the two groups of gears 1105 are arranged, the two gears in each group are meshed, the two groups of gears are distributed up and down without mutual interference, the gears are respectively and fixedly arranged at the end parts of the rollers, the motor 1102 is fixedly arranged on the first roller frame 1103, the driving shaft of the motor 1102 is aligned with the axes of the rollers 1104, the driving shaft of the motor 1102 is fixedly connected with one end of each roller 1104, the motor 1102 is started to drive the connected rollers to rotate, the adjacent rollers are driven to rotate inwards through the meshing of the gears, garbage falls onto the rollers, the rollers rotate inwards to roll the garbage into the rollers, and the two groups of rollers are arranged to fully crush the garbage.

Further, the glass screening device 12 includes a second frame 1201, a right end plate 1202, a discharge port 1203, a left end plate 1204, a left sloping plate 1205, a right sloping plate 1206, a large gear ring 1207, a bearing and a support 1208, a pinion 1209, a first connecting plate 1210, a rotary screen 1211, a fourth motor 1212, a wear-resistant sleeve 1213, a cleaning device 1214 and a fifth motor 1215, wherein the right end plate 1202 and the left end plate 1215 are respectively and fixedly installed at two ends of the second frame 1201, the left sloping plate 1205 and the right sloping plate 1206 are respectively and fixedly installed at the inner side of the second frame 1201 and are distributed in a figure of eight, two discharge ports 1203 are respectively and fixedly installed at two sides of the second frame 1201 and are positioned at one end of a large opening of the figure of the right end plate 1202 and the left end plate 1204, long holes are uniformly distributed on the surface of the rotary screen 1211, two ends of the rotary screen 1211 are respectively and fixedly installed at four large gear ring 1211, the pinion 1209 which are respectively and rotatably installed on the bearing and the support 1208, and the fourth motor 1212 is totally four, respectively fixedly mounted on a bearing and a supporting seat 1208, small gears 1209 are respectively positioned at the left end and the right end of the lower part of the large gear ring 1207 and are respectively meshed with the large gear ring 1207, wear-resistant sleeves 1213 are respectively fixedly mounted in mounting holes of a right end plate 1202 and a left end plate 1204, a cleaning device 1214 is rotatably mounted in an inner hole of the wear-resistant sleeves 1213, a cleaning device 1214 is tightly attached to the rotary screen 1211 and is used for cleaning long holes of the rotary screen 1211 to avoid the long holes from being blocked, a fifth motor 1215 is fixedly mounted on the right end plate 1202, a driving shaft of the fifth motor 1215 is aligned with the axis of the cleaning device 1214, the driving shaft of the fifth motor 1215 is fixedly connected with one end of the cleaning device 1214, the fifth motor 1215 drives the cleaning device 1214 to rotate, a fourth motor 1212 drives the small gears 1209 to rotate, the small gears 1209 drives the large gear ring 1207 to rotate, so that the rotary screen 1211 rotates, the compressed garbage and the crushed glass fall onto the upper surface of the rotary screen 1211, and the crushed glass can fall onto a second conveying device 14 below the long holes of the rotary screen 1211, the compressed garbage with larger size can not pass through, and slides down the slope enclosed by the trommel 1211, the right end plate 1202 and the left end plate 1204 to the discharge port 1203, and is discharged from the discharge ports 1203 at both ends into the first conveying device 13.

Further, the cleaning device 1214 comprises a blade 1216 and a rod 1217, the end of the blade 1216 is triangular to facilitate inserting the trommel 1211 to clean the blocked garbage, the blades 1216 are respectively and uniformly and fixedly installed in the circumferential direction of the rod 1217, the cleaning device 1214 rotates, and the blade 1216 just corresponds to the trommel of the rotating trommel 1211.

Further, the bag breaking, distributing and kitchen waste screening integrated machine 15 comprises a bag breaking and distributing sorting device 1501 and a stirring device 1505, wherein the bag breaking and distributing sorting device 1501 is fixedly arranged above the stirring device 1505, the bag breaking and distributing sorting device 1501 completes bag breaking and distributing, and the rest waste enters the stirring device 1505 below.

Further, the broken bag and cloth sorting device 1501 includes a rack bar motor 1502, a mesh conveyer belt 1503, an inclined plane discharge port 1504, a sucker 1506, a sucker motor 1507, a first connecting seat 1508, a sucker cylinder 1509, a sucker cylinder connecting seat 1510, a disc rotary cutter 1511, a cutter cylinder 1512, a cutter cylinder seat 1513, a mesh conveyer belt motor 1514, a poking rod motor 1516, a movable bottom plate 1517, a through hole 1518, a movable bottom plate cylinder 1519, a cylinder seat 1520, a guide plate 1523, a double-side inclined plane plate 1524, a rack rod 1525, a rack rod cleaning groove 1526 and a poking rod 1533, wherein the two sucker cylinder connecting seats 1510 are respectively and fixedly installed on two sides of a feed port of the broken bag and cloth sorting device 1501 and are symmetrically distributed, the sucker cylinders 1509 are fixedly installed on the sucker cylinder connecting seats 1508, the first connecting seat is fixedly installed on the end of a telescopic rod of the sucker cylinder 1509, the sucker 1506 is rotatably installed on the first connecting seat 1508, the suction cup motor 1507 is fixedly arranged on the first connecting seat 1508, the driving shaft of the suction cup motor 1507 is fixedly connected with one end of the tail part of the suction cup 1506, the cutting knife cylinder seat 1513 is fixedly arranged at one end of the feed inlet of the bag breaking and cloth classifying device 1501, the cutting knife cylinder 1512 is fixedly arranged on the cutting knife cylinder seat 1513, the disc rotary cutting knife 1511 adopts the prior art, the base of the disc rotary cutting knife 1511 is fixedly arranged at the end part of the telescopic rod of the cutting knife cylinder 1512, the disc rotary cutting knife 1511 is positioned at the middle part of the two suction cups 1506 and close to one side of the feed hopper, the disc rotary cutting knife 1511 and the two suction cups 1506 are positioned on the same plane and distributed at 90 degrees, the guide plate 1523 is fixedly arranged on the feed inlet and positioned below the two suction cups 1506 and plays a role in guiding for garbage and plastic bags, the cylinder seat 1520 is fixedly arranged at one side of the feed inlet, the movable bottom plate cylinder 1519 is fixedly arranged on the cylinder seat 1520, one side sets up through-hole 1518 on movable bottom plate 1517, movable bottom plate 1517 sets up through-hole 1518 one side fixed mounting at movable bottom plate cylinder 1519 telescopic link tip, movable bottom plate cylinder 1519 stretches out movable bottom plate 1517 antedisplacement, through-hole 1518 one side is exposed, rubbish after breaking the bag can pass through-hole 1518, get into the next link, movable bottom plate cylinder 1519 contracts movable bottom plate 1517 and moves backward, movable bottom plate 1517 blocks rubbish and disposal bag, sucking disc cylinder 1509 stretches out, sucking disc 1506 pushes away the disposal bag to the middle part, and catch the disposal bag, cutting knife cylinder 1512 stretches out, make disc whirling cutter 1511 paste disposal bag tightly, disc whirling cutter 1511 rotates, sucking disc motor 1507 drive sucking disc is rotatory 1506, sucking disc 1506 drives the disposal bag rotatory, therefore the disposal bag is cut, the rubbish spills, the sucking disc stops to attract and withdraw the disposal bag, the disposal bag also drops.

Further, a double-side inclined plane plate 1524 is fixedly arranged below a feed inlet of the bag breaking and cloth sorting device 1501, the double-side inclined plane plate 1524 is provided with two long strip holes along the inclined plane direction, a tooth stick cleaning groove 1526 is uniformly arranged below the long strip holes, hook-shaped teeth are uniformly distributed on the tooth stick 1525 and correspond to the tooth stick cleaning groove 1526, the tooth stick 1525 is rotatably arranged in the middle of the long strip holes, a tooth bar motor 1502 is fixedly arranged on one side of the feed inlet of the bag breaking and cloth sorting device 1501, a drive shaft of the tooth bar motor 1502 is fixedly connected with one end of the tooth stick 1525, the tooth bar motor drives the tooth stick 1525 to rotate, mesh holes are arranged on a mesh hole conveyer belt 1503, small garbage can fall below the mesh hole conveyer belt 1503 through the mesh holes, the mesh hole conveyer belt 1503 is fixedly arranged in the shell of the bag breaking and cloth sorting device 1501 and is positioned below the double-side inclined plane plate 1524, the mesh conveyor belt motor 1514 is fixedly arranged on the outer side of the shell of the bag breaking and distributing sorting device 1501, the mesh conveyor belt motor 1514 drives the mesh conveyor belt 1503 to transmit, the poking roller 1533 is rotatably arranged on the shell of the bag breaking and distributing sorting device 1501 and is positioned above the mesh conveyor belt 1503, the poking roller motor 1516 is fixedly arranged on the outer side of the shell of the bag breaking and distributing sorting device 1501, the broken garbage falls along the inclined plane, the sickle-shaped teeth hook the soft cloth, plastic bags and the like when rotating and are rolled into the inner side of the double-side inclined plane plate 1524, the rest garbage enters the stirring device 1505 along the double-side inclined plane plate 1524, when the sickle-shaped teeth face downwards, the soft garbage such as the cloth, plastic bags and the like falls onto the mesh conveyor belt 1503, the soft garbage such as the cloth, plastic bags and the like are conveyed to the inclined plane discharge port by the mesh conveyor belt 1503 and then enter the cloth garbage bin 7, the sickle-shaped teeth can clear the slot 1526 through the toothed roller, the toothed roller clearing slot 1526 clears the garbage hung on the sickle-shaped teeth, the garbage is prevented from returning to the double-side inclined plane plate 1524, and the poking rod motor 1516 drives the poking rod 1533 to rotate so as to poke the plastic and cloth garbage, so that the plastic and cloth garbage is prevented from blocking the outlet.

Further, the stirring device 1505 comprises a stirring rod gear 1515, a second connecting plate 1521, an arc plate 1522, a synchronous belt 1527, a synchronous belt wheel 1528, a stirring rod motor 1529, a poking rod 1530, a crushing disc cutter 1531, a discharge hopper 1532, a guide rib plate 1534, a stirring shaft 1535 and a crushing cutter motor 1536, wherein the second connecting plate 1521 is fixedly arranged below the shell of the bag breaking and distributing sorting device 1501, two groups of synchronous belt wheels 1528 are provided, two groups of synchronous belts 1527 are respectively arranged on each group of synchronous belt wheels 1528, the poking rod 1530 is uniformly and fixedly arranged between the synchronous belt 1527, the stirring shaft 1535 is tightly connected with each other and is rotatably arranged in the shell of the stirring device, the upper end of the stirring shaft 1531505 is close to the poking rod 1530, one end of the stirring shaft 1535 is fixedly provided with a stirring rod gear 1515, the stirring rod gear 1515 is engaged with each other, the stirring rod motor 1505 is fixedly arranged on the shell of the stirring device, the output shaft 1529 of the stirring rod motor 1529 is fixedly connected with one end of the edge of the inserting shaft 1535, the guide rib plate 1534 is fixedly installed on the casing of the stirring-in device 1505, located above the synchronous belt 1527, and two sides of the poking rod 1530 play a role of limiting and guiding, the stirring rod motor 1529 is started to drive a stirring-in shaft 1535 to rotate, the other stirring-in shafts 1535 are driven to rotate by the stirring rod gear 1515, the kitchen garbage and small soft garbage are stirred into the lower part by the stirring-in shaft 1535 to be crushed, the synchronous belt 1528 rotates to drive the synchronous belt 1527 to drive the poking rod 1530 to drive, the poking rod 1530 pokes the large garbage to the arc plate 1522, the large garbage enters the rolling and crushing device 11 along the arc plate 1522, the crushing disc cutter 1531 can adopt the existing crushing technology, the crushing disc cutter 1531 is fixedly installed on the casing of the stirring-in device 1505, located below the poking rod 1530 of the synchronous belt 1505, the discharging hopper 1532 is fixedly installed below the casing of the stirring-in device 1505 and located below the crushing disc cutter 1531, the kitchen garbage and small garbage stirred in by the stirring-in shaft 1535 enter the crushing disc cutter 1531 to be crushed, after being crushed, the crushed waste water is discharged along with the waste water through a discharge hopper 1532.

The working principle is as follows: the invention comprises a garbage throwing port 1, a garbage can shell 2, a lifting door 3, a blow-off pipe 4, a recyclable garbage can 5, a glass garbage can 6, a clothes distributing garbage can 7, a power driving device 8, a rack door 9, a spiral lifting device 10, a rolling crushing device 11, a glass screening device 12, a first conveying device 13, a second conveying device 14, a bag breaking, distributing and kitchen garbage screening integrated machine 15, racks are arranged on two sides of the rack door 9, the rack door 9 is slidably arranged on the garbage can shell 2, and the racks of the rack door 9 are meshed with gears of the power driving device 8. The gear of the power driving device 8 can drive the rack door 9 to move up and down, when the dustbin needs to be cleaned, the gear of the power driving device 8 rotates, the rack door 9 moves up to expose the dustbin, the cleaning is convenient, the cleaning is completed, the gear of the power driving device 8 rotates reversely, the rack door 9 is closed, and flies, mice and the like are prevented from entering the dustbin. The bag breaking, distributing and kitchen garbage screening integrated machine 15 can automatically break bags, garbage is screened after the bags are broken, the cloth is separately collected and enters a cloth collecting box, kitchen garbage is smashed and washed away along with water flow, the rest garbage discharging port is opposite to the screw lifting device 10, objects are sent into the rolling and crushing device 11 through the screw lifting device 10, the rolling and crushing device 11 extrudes garbage such as glass, plastic bottles and paper boxes, the fragile objects of the glass are crushed, when the garbage passes through the glass screening device 12, the glass can be separated out and enter the glass collecting box, and the rest of the extruded garbage can not enter the recoverable garbage box through the glass screening device 12.

It is noted that, herein, relational terms such as first and second (a, b, etc.) and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (2)

1. The utility model provides an automatic categorised dustbin of broken bag in district gate, including rubbish input port (1), dustbin shell (2), but lifting door (3), blow off pipe (4), recoverable dustbin (5), glass dustbin (6), clothing cloth dustbin (7), power drive (8), rack door (9), spiral lifting (10), roll breaker (11), glass sieving mechanism (12), conveyor (13), no. two conveyor (14), broken bag, cloth and kitchen rubbish screening all-in-one (15), its characterized in that: the garbage can comprises a garbage can shell (2), a garbage input opening (1) is formed in the upper portion of the garbage can shell (2), a bag breaking, distributing and kitchen garbage screening integrated machine (15) is opposite to the garbage input opening (1), a blow-off pipe (4) is located at the bottom of the garbage can shell (2) and is in sealed connection with an outlet in the bottom of the bag breaking, distributing and kitchen garbage screening integrated machine (15), one side of a spiral lifting device (10) is arranged on the bag breaking, distributing and kitchen garbage screening integrated machine (15), the spiral lifting device (10) is fixedly installed at one end of a glass screening device (12), a rolling crushing device (11) is fixedly installed on the upper portion of the glass screening device (12), a first conveying device (13) is fixedly installed on one side of the bottom of the glass screening device (12) and is opposite to a discharge outlet of the glass screening device (12), a second conveying device (14) is fixedly installed at the bottom of the glass screening device (12) and is close to the first conveying device (13), a recyclable garbage can (5) is located at the front end of the lower portion of the first conveying device (13), a glass can (6) is located at the front end of the second conveying device (14), a cloth distributing device (7) and a rack bar (9) is installed at two sides of the garbage can shell and a garbage can outlet, and a rack bar (9) is arranged on two sides of the garbage can outlet of the garbage can drive device (2), the rack door (9) is slidably arranged on the garbage can shell (2), and a rack of the rack door (9) is meshed with a gear of the power driving device (8);

power drive arrangement (8) include base (801), a motor (802), a gear (803), its characterized in that: the first gear (803) is rotatably installed on the base (801), the first motor (802) is fixedly installed on the base (801), the first motor (802) drives the shaft box to align with the first gear (803) in an axial line mode, and the first motor (802) drives the shaft to be fixedly installed on the first gear (803);

spiral lifting (10) include No. two motor (1001), material export (1002), drive shaft (1003), helical blade (1004), protect section of thick bamboo (1005), bolt (1006), feed inlet (1007), its characterized in that: the driving shaft (1003) is rotatably arranged inside the outer protective barrel (1005) and is aligned with the axis of the outer protective barrel (1005), the helical blade (1004) is fixedly arranged on the driving shaft (1003) and is aligned with the axis of the driving shaft (1003), the second motor (1001) is fixedly arranged at the upper end of the outer protective barrel (1005), the driving axis of the second motor (1001) is aligned with the driving shaft (1003), the driving shaft of the second motor (1001) is fixedly connected with the driving shaft (1003), the material outlet (1002) is fixedly arranged at the upper end of the outer protective barrel (1005) through a bolt (1006), the first feeding hole (1007) is fixedly arranged at the lower end of the outer protective barrel (1005) through a bolt (1006), and the material outlet (1002) and the first feeding hole (1007) are distributed in an angle of 180 degrees;

crushing device (11) including No. two feed inlets (1101), no. three motor (1102), no. one frame (1103), roller (1104), no. two gears (1105), its characterized in that: the two groups of rollers (1104) are arranged, a small gap is reserved between every two rollers, the two groups of rollers are distributed up and down and are respectively and rotatably mounted on the first rack (1103), the two groups of gears (1105) are arranged in two groups, every two groups of gears are meshed, the two groups of gears are distributed up and down and do not interfere with each other, the gears are respectively and fixedly mounted at the end parts of the rollers, the third motor (1102) is fixedly mounted on the first rack (1103), the driving shaft of the third motor (1102) is aligned with the axial lines of the rollers (1104), and the driving shaft of the third motor (1102) is fixedly connected with one end of each roller (1104);

glass sieving mechanism (12) include No. two frames (1201), right end plate (1202), discharge gate (1203), left end plate (1204), left swash plate (1205), right swash plate (1206), bull gear (1207), bearing and supporting seat (1208), pinion (1209), connecting plate (1210), trommel (1211), no. four motor (1212), wear-resisting cover (1213), cleaning device (1214), no. five motor (1215), its characterized in that: the right end plate (1202) and the left end plate (1204) are respectively and fixedly arranged at two ends of the second frame (1201), the left inclined plate (1205) and the right inclined plate (1206) are respectively fixed in the inner side of the second frame (1201) and distributed in a splayed shape, the two discharge ports (1203) are respectively fixedly arranged on two sides of the second rack (1201) and positioned at one end of a splayed large opening formed by the right end plate (1202) and the left end plate (1204), the surface of the drum screen (1211) is uniformly distributed with long holes, two ends of the drum screen (1211) are respectively and fixedly provided with a large gear ring (1207), the pinion gears (1209) are four pieces and are respectively and rotatably arranged on the bearing and the supporting seat (1208), the four motors (1212) are respectively and fixedly arranged on the bearing and the supporting seat (1208), the small gears (1209) are positioned at the left end and the right end of the lower part of the large gear ring (1207) and are respectively meshed with the large gear ring (1207), the wear-resistant sleeves (1213) are respectively fixedly arranged in the mounting holes of the right end plate (1202) and the left end plate (1204), the cleaning device (1214) is rotatably arranged in an inner hole of the wear-resistant sleeve (1213), the cleaning device (1214) is tightly attached to the drum screen (1211), the fifth motor (1215) is fixedly arranged on the right end plate (1202), the driving shaft of the fifth motor (1215) is aligned with the axis of the cleaning device (1214), and the driving shaft of the fifth motor (1215) is fixedly connected with one end of the cleaning device (1214);

the cleaning device (1214) comprises a blade (1216), a rod (1217), characterized in that: the end parts of the blades (1216) are triangular, and the blades (1216) are respectively and uniformly and fixedly arranged in the circumferential direction of the rod (1217);

broken bag, cloth and kitchen rubbish screening all-in-one (15) including broken bag and cloth sorter (1501), stir into device (1505), its characterized in that: the bag breaking and cloth sorting device (1501) is fixedly arranged above the stirring device (1505);

broken bag and cloth sorter (1501) is including rack bar motor (1502), mesh conveyer belt (1503), inclined plane discharge gate (1504), sucking disc (1506), sucking disc motor (1507), connecting seat (1508), sucking disc cylinder (1509), sucking disc cylinder connecting seat (1510), disc rotary cutter (1511), cutting knife cylinder (1512), cutting knife cylinder seat (1513), mesh conveyer belt motor (1514), stir rod motor (1516), activity bottom plate (1517), through-hole (1518), activity bottom plate cylinder (1519), cylinder seat (1520), deflector (1523), two side inclined plane boards (1524), tooth rod (1525), tooth rod clearance groove (1526), stir rod (1533), its characterized in that: the device comprises a sucker cylinder connecting seat (1510), a sucker cylinder (1509), a sucker motor (1507), a driving shaft, a sucker (1506) and a sucker (1506) tail end, wherein the sucker cylinder (1509) is fixedly arranged on the sucker cylinder connecting seat (1510) and the sucker (1506) are fixedly arranged on the two sides of a feed inlet of a broken bag and cloth classification device (1501) respectively and symmetrically distributed, the sucker cylinder (1509) is fixedly arranged on the sucker cylinder connecting seat (1510), the sucker motor (1507) is fixedly arranged on the first connecting seat (1508), the driving shaft of the sucker motor (1507) is fixedly connected with one end of the tail of the sucker (1506), the cutter cylinder seat (1513) is fixedly arranged on one end of the feed inlet of the broken bag and cloth classification device (1501), the cutter cylinder (1512) is fixedly arranged on a cutter cylinder seat (1513), the disc rotary cutter (1511) adopts the prior art, the base of the disc rotary cutter (1511) is fixedly arranged on the end of the cutter cylinder (1512) and the telescopic rod of the cutter cylinder (1512), the disc rotary cutter (1511) is arranged on one side of the feed inlet cylinder (1523) close to one side of two middle parts of the two disc rotary cutters (1506), the two feed inlet, the feed hopper (1506) and the two rotary sucker (1506) are arranged on the two guide plates (15290), the two feed inlet (1523) and the two feed inlet (1523), the movable bottom plate cylinder (1519) is fixedly arranged on the cylinder seat (1520), one side of the movable bottom plate (1517) is provided with a through hole (1518), and one side of the movable bottom plate (1517) provided with the through hole (1518) is fixedly arranged at the end part of a telescopic rod of the movable bottom plate cylinder (1519);

the double-side inclined plane plate (1524) is fixedly installed below a feed inlet of the bag breaking and distributing sorting device (1501), the double-side inclined plane plate (1524) is provided with two long strip holes along the direction of the inclined plane, toothed stick cleaning grooves (1526) are evenly formed below the long strip holes, sickle-shaped teeth are evenly distributed on the toothed stick (1525) and correspond to the toothed stick cleaning grooves (1526), the toothed stick (1525) is rotatably installed in the middle of the long strip holes, the toothed bar motor (1502) is fixedly installed on one side of the feed inlet of the bag breaking and distributing sorting device (1501), a drive shaft of the toothed bar motor (1502) is fixedly connected with one end of the toothed stick (1525), meshes are formed in the mesh conveying belt (1503), small garbage can fall into the lower portion of the mesh conveying belt (1503) through the meshes, the mesh conveying belt (1502) is fixedly installed inside the bag breaking and distributing sorting device (1501) shell and is located below the double-side inclined plane plate (1524), the mesh motor (1514) is fixedly installed on the outer side of the bag breaking and distributing sorting device (1501), the stirring device (1501) is installed on the outer side of the bag breaking and distributing sorting device (1503), and stirring rod (1501) and stirring device (1516) is installed above the mesh conveying belt (1501).

2. The automatic bag-breaking classification garbage can at the community doorway according to claim 1, wherein the stirring-in device (1505) comprises a stirring rod gear (1515), a second connecting plate (1521), an arc plate (1522), a synchronous belt (1527), a synchronous belt wheel (1528), a stirring rod motor (1529), a poke rod (1530), a crushing disk cutter (1531), a discharge hopper (1532), a guide rib plate (1534), a stirring-in shaft (1535) and a crushing cutter motor (1536), and is characterized in that: the two connecting plates (1521) are fixedly installed below a shell of the bag breaking and distributing sorting device (1501), two groups of synchronous pulleys (1528) are provided, two synchronous belts (1527) are installed on each group of synchronous pulleys (1528) respectively, the poking rod (1530) is uniformly and fixedly installed between the synchronous belts (1527), the poking shafts (1535) are close to each other and are rotatably installed inside the shell of the poking device (1505), the upper end of the poking shaft (1535) is close to the poking rod (1528), one end of the poking shaft (1535) is fixedly provided with a poking rod gear (1515), the poking rod gears (1515) are meshed with each other, the poking rod motor (1529) is fixedly installed on the shell of the poking device (1505), an output shaft of the poking rod motor (1539) is fixedly connected with one end of the poking shaft (1535) at the edge, the guide rib plate (1534) is fixedly installed on the shell of the poking device (1525), the poking rod (1527) is located above the synchronous belts (1505), two sides of the poking rod (1530) and the crushing disk knife (1531) can be installed on the lower side of the shell of the fixed device (1531), and the lower part of the fixed disk (1532) of the fixed device (1537) below the fixed disk (1537) of the synchronous belts (1537).

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