CN219193314U - Garbage room intelligent sorting platform - Google Patents

Abstract

The garbage room intelligent sorting platform comprises a garbage room box body, wherein a screening groove is formed in the upper side of the garbage room box body, a rotatable screening device is arranged on the screening groove, and secondary screening platforms are arranged on the garbage room box bodies on two sides of the screening groove. The utility model has the positive effects that: the intelligent garbage sorting platform comprises a garbage bin body, wherein a rotatable screening device is arranged on the upper side of the garbage bin body, secondary screening platforms are arranged on two sides of the screening device, uniformly recovered garbage is placed on the screening device, liquid, powder, small particles and the like are separated from large garbage in advance, and then the garbage is poured on the secondary screening platforms on two sides, so that classification and collection of recoverable garbage can be realized manually, uniform processing treatment can be carried out on single-variety garbage which is subjected to classification and recovery treatment subsequently, and the efficiency and quality of garbage classification and recovery treatment are improved to a certain extent.

Description

Garbage room intelligent sorting platform

Technical Field

The utility model relates to the technical field of garbage classification and collection devices, in particular to an intelligent garbage room sorting platform.

Background

Along with the continuous improvement of daily living standard, the domestic waste quantity that resident produced in the life process is also gradually promoting to avoid rubbish to throw away in order to lead to polluted environment, and can carry out effectual recovery processing to rubbish, rubbish classification room is the setting in rubbish classification room is in order to carry out preliminary classification when collecting rubbish, in order to follow-up single variety rubbish that the classification is accomplished unifies processing, but the classification in current rubbish room relies on resident's rubbish classification consciousness mostly, still there is the condition that mixes organic rubbish such as kitchen rubbish, wet rubbish with harmful rubbish, recoverable rubbish each other, very unfavorable for subsequent unified processing.

Disclosure of Invention

The utility model aims to provide an intelligent garbage sorting platform which can uniformly and primarily screen recycled garbage, separate liquid, powder, small particles and the like from large garbage in advance, and manually collect the garbage in a classified manner, so that single-variety garbage subjected to classification can be processed uniformly, and the problem in the prior art is solved.

The technical scheme adopted for solving the technical problems is as follows: the utility model discloses an intelligent garbage sorting platform, which comprises a garbage box body, wherein a screening groove is formed in the upper side of the garbage box body, a rotatable screening device is arranged on the screening groove, secondary screening platforms are arranged on the garbage box bodies on two sides of the screening groove, the screening device comprises screening nets, frame plates are arranged on the periphery of the screening net, the frame plates on the upper side of the screening groove, transverse grooves are formed in the frame plates on the front side and the rear side of the screening net, two lifting cylinders capable of horizontally moving are arranged in the garbage box body corresponding to the positions of the transverse grooves, rollers matched with the transverse grooves are arranged on the top ends of piston rods of the lifting cylinders, vertical grooves matched with the rollers are formed in the two ends of the transverse grooves in the length direction, when one roller in the vertical groove is vertically lifted, the other roller is relatively immovable, the screening net can obliquely rotate towards the secondary screening platform on one side, a sliding ramp is further arranged in the garbage box body on the lower side of the screening device, discharge ports are formed in the garbage box body on the lower end of the lower side of the sliding, two lifting cylinders capable of horizontally moving, two lifting cylinders are arranged in the garbage box bodies corresponding to the first side of the first lifting box body, a plurality of recycling boxes are arranged on the second side of the first lifting boxes corresponding to the recycling boxes, recycling boxes are arranged on the lower sides of the first lifting boxes, recycling boxes are correspondingly arranged on the two sides of the recycling boxes, recycling boxes are arranged on the second sides of the recycling boxes, and the recycling boxes are correspondingly arranged on the first sides, and the recycling boxes are arranged on the recycling boxes, and can be arranged in the recycling boxes. The bottom of the lifting cylinder is provided with a walking motor, an output shaft of the walking motor is provided with a gear, the inner wall of the garbage room box body on the upper side of the rapid sliding ramp is provided with a horizontally arranged rack and a slide rail, the rack is meshed with the gear, the bottom of the lifting cylinder is provided with a slide block matched with the slide rail, and the walking motor can drive the lifting cylinder to horizontally move in the garbage room box body. The first recycling bin is internally provided with a first separation plate and a second separation plate, the first separation plate is positioned on the upper side of the second separation plate, a macroporous screen is arranged in the first separation plate, a small-hole screen is arranged in the second separation plate, a guide chute is hinged in a discharge hole, one end of the guide chute is connected with a quick sliding ramp, and the other end of the guide chute is positioned on the upper side of the first recycling bin. The detection probes are arranged in the second recovery box, the first indicator lamp and the second indicator lamp are arranged on the recovery baffle door and are connected with the detection probes through control circuits, and when the recovery in the second recovery box is not full, the detection probes control the first indicator lamp to emit light, and when the recovery in the second recovery box is full, the detection probes control the second indicator lamp to emit light. And the upper part of the second recovery box is provided with a buffer net which is obliquely arranged, and an included angle between the buffer net and the buffer ramp is an obtuse angle. The screening net is made of stainless steel 304, and the mesh specification in the screening net is 2cm multiplied by 2cm.

The utility model has the positive effects that: the intelligent garbage sorting platform comprises a garbage bin body, wherein a rotatable screening device is arranged on the upper side of the garbage bin body, secondary screening platforms are arranged on two sides of the screening device, uniformly recovered garbage is placed on the screening device, liquid, powder, small particles and the like are separated from large garbage in advance, and then the garbage is poured on the secondary screening platforms on two sides, so that classification and collection of recoverable garbage can be realized manually, uniform processing treatment can be carried out on single-variety garbage which is subjected to classification and recovery treatment subsequently, and the efficiency and quality of garbage classification and recovery treatment are improved to a certain extent.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 5 is an enlarged view of the B-B cross-sectional view of FIG. 3;

FIG. 6 is an enlarged view of the view C in FIG. 5;

fig. 7 is a schematic view showing a state in which the screen is tilted to one side of the secondary screening deck.

Detailed Description

The utility model discloses an intelligent garbage room sorting platform, which is shown in fig. 1-3, and comprises a garbage room box body 1, wherein a screening groove 2 is formed in the upper side of the garbage room box body 1, rotatable screening devices are arranged on the screening groove 2, secondary screening platforms 3 are arranged on the garbage room box bodies 1 on two sides of the screening groove 2, the screening devices can separate liquid, powder, small particles and other garbage in garbage from massive garbage, and after separation is completed, the screening devices can pour the garbage onto the secondary screening platforms 3 on two sides respectively so as to facilitate manual sorting, sorting and recycling.

As shown in fig. 4 and 5, the screening device comprises a screening net 4, frame plates 5 are arranged around the screening net 4, and the frame plates 5 are positioned on the upper side of the screening groove 2 and can descend to the top wall of the garbage room box body 1 under the action of dead weight.

The frame plates 5 on the front side and the rear side are provided with transverse grooves 6, two lifting cylinders 7 capable of horizontally moving are arranged in the garbage room box body 1 corresponding to the positions of the transverse grooves 6, idler wheels 8 matched with the transverse grooves 6 are arranged at the top ends of piston rods of the lifting cylinders 7, the idler wheels 8 can move in the transverse grooves 6, vertical grooves 9 matched with the idler wheels 8 are arranged at the two ends of the length direction of the transverse grooves 6, when the idler wheels 8 are positioned in the vertical grooves 9, the idler wheels 8 can not transversely move relative to the transverse grooves 6, and after the frame plates 5 are lowered onto the top wall of the garbage room box body 1, the idler wheels 8 can be driven to enter the transverse grooves 6 from the vertical grooves 9 by the shrinkage of the piston rods of the lifting cylinders 7 so as to conveniently carry out subsequent horizontal movement.

When two rollers 8 in the vertical groove 9 are lifted upwards, the frame plate 5 and the screening net 4 can be driven to vertically lift, and when one roller 8 in the vertical groove 9 is lifted vertically, the other roller 8 is relatively motionless, the screening net 4 can generate oblique rotation. When the lifting cylinder 7 respectively vertically lifts, the screening net 4 can be inclined at different angles and in different directions, irregular shaking of the screening net 4 can be simulated, organic garbage such as kitchen garbage which is relatively fragile in garbage can be separated by separating the screening net 4, sundries with relatively small volume in the garbage can directly pass through the screening net 4 to fall in the shaking process, after primary screening is completed, the lifting cylinder 7 can firstly drive the screening net 4 to lift to a certain height position, then the screening net is horizontally moved to one side of the screening net 4 to be close to the secondary screening platform 3, then one lifting cylinder 7 is independently lifted, the screening net 4 is rotated to incline, and the garbage on the screening net can be dumped on the secondary screening platform 3, so that subsequent manual picking is facilitated.

The shake preliminary separation operation on the screening net 4 is accomplished very fast, can empty the rubbish after the separation is accomplished respectively on the secondary screening platform 3 of both sides, carries out subsequent manual selection, and the slower manual selection of speed can be gone on simultaneously is accomplished to both sides, has also improved the efficiency of whole rubbish separation classification collection operation to a certain extent.

For realizing the collection of organic rubbish and less debris of particle diameter, as shown in fig. 4, still install the quick slide ramp 10 that the slope set up in the garbage room box 1 of sieving mechanism downside, set up discharge gate 11 on the garbage room box 1 of quick slide ramp 10 lower one end, first collection box 12 is installed to the discharge gate 11 downside, first collection box 12 is located the outside of garbage room box 1, organic rubbish that drops via sieve 4, debris or sewage sand grain that the particle diameter is less etc. can fall on quick slide ramp 10, and finally fall in first collection box 12 on the quick slide ramp 10 of slope, be located the first collection box 12 of garbage room box 1 outside, can be convenient for the staff to the inside rubbish in time handle.

After the manual screening and sorting are performed, the same collection of single garbage is ensured, a plurality of recovery baffle doors 13 which can be opened in a rotating mode are arranged on the front side face of the garbage room box body 1, the upper portions of the recovery baffle doors 13 are hinged to the front side wall of the garbage room box body 1, closing can be achieved under the self weight, workers can manually push the lower side positions of the recovery baffle doors 13, and the collected single garbage can be correspondingly placed.

Corresponding to each recycling shutter 13, a buffer ramp 14 which is obliquely arranged is arranged in the garbage room box body 1, a corresponding second recycling box 15 is arranged in the garbage room box body 1 at the lower end of the buffer ramp 14, a handle 30 is arranged on the second recycling box 15, and each second recycling box 15 can be pulled out from the directions of two sides of the garbage room box body 1. The recycling bin 13 may be written with a recycling type waste name, which may be hazardous waste, metal products, knitwear, cosmetics, electronic boards, plastic bags, or the like.

Further, in order to realize the horizontal movement of the lifting cylinder 7 driving the screening net 4 and the frame plate 5, the screening net 4 can be partially overlapped on the secondary screening platform 3 in the process of dumping garbage by subsequent rotation, and the garbage is prevented from falling into the screening tank 2 directly. As shown in fig. 6, a walking motor 16 is installed at the bottom of the lifting cylinder 7, a gear 17 is installed on an output shaft of the walking motor 16, a rack 18 and a sliding rail 19 which are horizontally arranged are installed on the inner wall of the garbage room box 1 at the upper side of the quick sliding ramp 10, wherein the rack 18 is meshed with the gear 17, a sliding block 20 matched with the sliding rail 19 is installed at the bottom of the lifting cylinder 7, and the walking motor 16 is started to drive the lifting cylinder 7 to horizontally move in the garbage room box 1.

Further, in order to realize classifying the garbage filtered out after preliminary screening again, a first partition plate 21 and a second partition plate 22 are arranged in the first recovery box 12, the first partition plate 21 is located at the upper side of the second partition plate 22, a macroporous screen 23 is arranged in the first partition plate 21, a macroporous screen 24 is arranged in the second partition plate 22, organic garbage can be temporarily stored in the space above the macroporous screen 23, sundries such as small metal blocks can be temporarily stored in the space between the macroporous screen 23 and the macroporous screen 24, and sundries such as water and sand can be temporarily stored in the space below the porous screen 24.

In order to realize the conveying direction of rubbish on the quick slide ramp 10, a guide chute 25 is hinged in the discharge hole 11, one end of the guide chute 25 is connected with the quick slide ramp 10, the other end of the guide chute 25 is positioned on the upper side of the first recovery box 12, and the arrangement of the guide chute 25 can enable the rubbish on the quick slide ramp 10 to be conveyed into the first recovery box 12 and avoid falling to the outer side of the box body.

Further, in order to monitor the garbage storage amount in the second recovery box 15 in the garbage room box body 1 in real time, unified recovery processing is performed after filling so as to perform classified collection work, a detection probe 26 is installed in the second recovery box 15, a first indicator lamp 27 and a second indicator lamp 28 are installed on the recovery shutter 13, the first indicator lamp 27 and the second indicator lamp 28 are connected with the detection probe 26 through control circuits, and the light colors emitted by the first indicator lamp 27 and the second indicator lamp 28 are different. When the recovered materials in the second recovery tank 15 are not full, the detection probe 26 controls the first indicator lamp 27 to emit light, when the recovered materials in the second recovery tank 15 are full, the detection probe 26 controls the second indicator lamp 28 to emit light, and a worker can judge whether the garbage in the second recovery tank 15 is full or not by observing the indicator lamps with different colors so as to facilitate the development of the subsequent unified recovery processing operation.

The intelligent garbage room sorting platform disclosed by the utility model has the advantages that the intelligent function can be realized by separating liquid, powder, small particles and other garbage from large garbage in advance, the preliminary screening is realized, meanwhile, the indicator lights have two colors, and different colors can represent whether the garbage storage amount in the second recycling bin 15 is full, so that the intelligent reminding of operators is realized.

In order to reduce the impact damage of rubbish sliding and falling on the buffering ramp 14 to the second recycling bin 15, the buffering net 29 which is obliquely arranged is installed on the upper portion of the second recycling bin 15, an included angle between the buffering net 29 and the buffering ramp 14 is an obtuse angle, rubbish sliding down by the buffering ramp 14 can be contacted with the buffering net 29 in advance, then falls into the second recycling bin 15 again, further buffering of rubbish in the descending process is achieved, and the service life of the second recycling bin 15 is prolonged to a certain extent.

Further, in order to ensure the strength of the screening net 4 and realize the corresponding screening function of the screening net 4, the screening net 4 is made of stainless steel 304, and the mesh specification in the screening net 4 is 2cm×2cm.

The technical scheme of the utility model is not limited to the scope of the embodiments of the utility model. The technical content that is not described in detail in the utility model is known in the prior art.

Claims (6)

1. Garbage room intelligence letter sorting platform, its characterized in that: including garbage room box (1), screening groove (2) have been seted up to the upside of garbage room box (1), be equipped with on screening groove (2) can pivoted sieving mechanism, all set up secondary screening platform (3) on garbage room box (1) of screening groove (2) both sides, sieving mechanism is including screening net (4), sets up frame board (5) around screening net (4), and frame board (5) are located screening groove (2) upside, all have seted up horizontal groove (6) on frame board (5) of front and back both sides, install two lift cylinders (7) that can horizontal migration in garbage room box (1) corresponding to the position of each horizontal groove (6), and gyro wheel (8) that cooperate with horizontal groove (6) are all installed on the piston rod top of each lift cylinder (7), all be equipped with perpendicular groove (9) with gyro wheel (8) matched with in horizontal groove (6) length direction's both ends, when being located perpendicular groove (9) one gyro wheel (8) vertical, when another gyro wheel (8) screening relative not moves, second inclined side (4) can set up inclined slide opening in slope box (10) of garbage room box (1) in slope one side of the slope (1), the first recycling bin (12) is installed to discharge gate (11) downside, and first recycling bin (12) are located the outside of garbage bin box (1), offer a plurality of recovery shutter (13) that can rotate and open on the leading flank of garbage bin box (1), corresponding to each recovery shutter (13), all install buffering ramp (14) of slope arrangement in garbage bin box (1), install corresponding second recycling bin (15) in garbage bin box (1) of buffering ramp (14) lower one end, install handle (30) on second recycling bin (15), each second recycling bin (15) homoenergetic is pulled out by garbage bin box (1) both sides direction.

2. The intelligent garbage sorting platform according to claim 1, wherein: the bottom of the lifting cylinder (7) is provided with a walking motor (16), an output shaft of the walking motor (16) is provided with a gear (17), the inner wall of the garbage room box body (1) at the upper side of the quick sliding ramp (10) is provided with a horizontally arranged rack (18) and a sliding rail (19), the rack (18) is meshed with the gear (17), the bottom of the lifting cylinder (7) is provided with a sliding block (20) matched with the sliding rail (19), and the walking motor (16) is started to drive the lifting cylinder (7) to horizontally move in the garbage room box body (1).

3. The intelligent garbage sorting platform according to claim 1, wherein: be equipped with first division board (21) and second division board (22) in first collection box (12), first division board (21) are located the upside of second division board (22), set up macroporous screen cloth (23) in first division board (21), set up in second division board (22) aperture screen cloth (24), install baffle box (25) in articulated in discharge gate (11), the one end of baffle box (25) is connected with quick slide ramp (10), the other end of baffle box (25) is located the upside of first collection box (12).

4. The intelligent garbage sorting platform according to claim 1, wherein: detection probes (26) are arranged in the second recovery box (15), a first indicator lamp (27) and a second indicator lamp (28) are arranged on the recovery baffle door (13), the first indicator lamp (27) and the second indicator lamp (28) are connected with the detection probes (26) through control circuits, when the recovery in the second recovery box (15) is not full, the detection probes (26) control the first indicator lamp (27) to emit light, and when the recovery in the second recovery box (15) is full, the detection probes (26) control the second indicator lamp (28) to emit light.

5. The intelligent garbage sorting platform according to claim 1, wherein: and a buffer net (29) which is obliquely arranged is arranged at the upper part of the second recovery box (15), and an included angle between the buffer net (29) and the buffer ramp (14) is an obtuse angle.

6. The intelligent garbage sorting platform according to claim 1, wherein: the screening net (4) is made of stainless steel 304, and the mesh specification in the screening net (4) is 2cm multiplied by 2cm.

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