CN111319888A - Garbage classification method suitable for triangular garbage can and triangular intelligent garbage can - Google Patents

Abstract

The invention provides a garbage classification method suitable for a triangular garbage can and the triangular intelligent garbage can, which comprises the following steps: the garbage can comprises a garbage can upper cover 1, an identification unit 2, a garbage can body 3, a turning plate 4, a hinge 5, a rotary baffle 7 and an infrared sensor in the garbage can; the garbage can upper cover 1 is arranged at the upper part of the triangular intelligent garbage can; the turning plate 4, the hinge 5 and the rotary baffle 7 are arranged in the upper cover 1 of the garbage can; the hinge 5 includes: the first movable fan blade and the second movable fan blade; the first movable fan blade is arranged on the upper cover 1 of the garbage can; the second movable fan blade is arranged on the turning plate 4; the turning plate 4 can be turned over up and down around the hinge 5; the triangular intelligent garbage can is of a triangular prism structure. The intelligent garbage can automatically judge the type of garbage through the built-in artificial intelligence force calculating board, and then the corresponding bin door is opened.

Description

Garbage classification method suitable for triangular garbage can and triangular intelligent garbage can

Technical Field

The invention relates to the field of intelligent equipment, in particular to a garbage classification method suitable for a triangular garbage can and the triangular intelligent garbage can.

Background

After the garbage classification is carried out in Shanghai, people are always puzzled about how to correctly put garbage in public places, and in shopping malls, because the division of garbage putting responsibility is not clear, people have incomplete garbage putting knowledge and the willingness of garbage classification is not strong, so that the garbage in the shopping malls is not classified substantially. Various front-end equipment for garbage classification in the current market still have room to be improved in realizing intelligent garbage classification.

Patent document CN109665232A discloses an outdoor domestic garbage automatic sorting and compressing device based on artificial intelligence, which uses a built-in lead-acid battery to supply power and uses solar energy to charge. Two classification containers with the capacity of 120 liters are arranged in the body and respectively correspond to recoverable garbage and other garbage which can not be recovered. A feeding port is arranged at the upper cover of the device, and when the approaching of a human hand is sensed, a feeding door can be automatically opened. The sorting mechanism comprises a main control unit, a camera and a turnover mechanism. The compression mechanism comprises a compression head, a compression motor and a compression chain wheel mechanism, and photos shot by the camera are transmitted to the cloud platform, so that the classification of garbage is identified, and the belonged classification of the garbage is judged. The garbage is controlled to fall into different collecting openings through the turnover mechanism controlled by the motor. The patent still has room to be improved in realizing intelligent garbage classification.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a garbage classification method suitable for a triangular garbage can and the triangular intelligent garbage can.

According to the invention, the triangular intelligent garbage can comprises: the garbage can comprises a garbage can upper cover 1, an identification unit 2, a garbage can body 3, a turning plate 4, a hinge 5, a rotary baffle 7 and an infrared sensor in the garbage can; the garbage can upper cover 1 is arranged at the upper part of the triangular intelligent garbage can; the turning plate 4, the hinge 5 and the rotary baffle 7 are arranged in the upper cover 1 of the garbage can; the hinge 5 includes: the first movable fan blade and the second movable fan blade; the first movable fan blade is arranged on the upper cover 1 of the garbage can; the second movable fan blade is arranged on the turning plate 4; the turning plate 4 can be turned over up and down around the hinge 5; the triangular intelligent garbage can is of a triangular prism structure.

Preferably, the rotary baffle 7 adopts a fan-shaped structure; the distance from the geometric center point of the upper cover 1 of the garbage can to the intersection point of the circular arc and the horizontal line is larger than the radius of the rotary baffle 7

Preferably, the method further comprises the following steps: a motor unit 6; the motor unit 6 is arranged at the geometric center of the upper cover 1 of the garbage can.

Preferably, the upper cover 1 of the garbage can comprises: a feed inlet member; the feeding port component and the garbage can upper cover 1 are integrally formed or non-integrally formed.

Preferably, the motor unit 6 comprises: an output shaft of the motor; the output shaft of the motor is connected with a rotary baffle 7.

Preferably, an overfill sensor; the overflow sensor is arranged at the upper part of the triangular intelligent garbage can; the overflow sensor adopts an infrared sensor.

Preferably, the identification unit 2 adopts an identification camera.

According to the garbage classification method suitable for the triangular garbage can, provided by the invention, the triangular intelligent garbage can is adopted, and the method comprises the following steps:

step M1: the distance sensor judges whether an object approaches, the camera recognition function is started after the object approaches, and the camera transmits 1 frame of image to the force calculation board every 5 frames/10 frames;

step M2: the transmission camera shoots a real-time picture and guides a user to place garbage in the identification area;

step M3: starting timing when the distance sensor detects that an object approaches, and closing the camera if the object is not identified within 60s and the display screen is not operated;

step M4: an artificial intelligence force calculation board arranged in the intelligent garbage can judges the type of garbage within 3 s;

step M5: the sensor identifies whether the corresponding garbage can is full, and if so, space full information is obtained;

step M6: the rotary baffle rotates, the turning plate corresponding to the upper part of the garbage can is opened by gravity, a user puts garbage into the corresponding garbage can, and the rotary baffle rotates to push the turning plate to be closed;

step M7: if the artificial intelligence computational board can not identify the garbage types, photographing and uploading to the cloud. Displaying a selection interface on the touch display screen;

step M8: the infrared sensor is arranged in the intelligent garbage can device to acquire real-time information of the garbage amount.

Preferably, step M5 includes: step M5.1: if not, acquiring the opening control information/garbage throwing guide information of the rotary baffle motor.

Compared with the prior art, the invention has the following beneficial effects:

1. the intelligent garbage can automatically judge the type of garbage through the built-in artificial intelligence force calculating board, and then the corresponding bin door is opened;

2. the intelligent garbage can is in a triangular column shape, and each corner is provided with a garbage throwing port, so that the intelligent garbage can is compact in structure and exquisite in design;

3. the rotary baffle of the intelligent garbage can is fan-shaped, and the size of the fan-shaped gap is just enough for the turnover plate to freely turn over under the action of gravity. One motor can simultaneously control the opening and closing of the three garbage cans;

4. the distance (as shown in figure 3) from the geometric center point of the upper cover to the intersection point of the circular arc and the horizontal line is larger than the radius of the rotary baffle, and the rotary baffle can directly push the turning plate to be closed and cannot be blocked.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of the overall structure in the embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an upper cover of a trash can in an embodiment of the invention.

FIG. 3 is a schematic view of the position of the rotating shutter in an embodiment of the present invention.

Fig. 4 is a control flow diagram in an embodiment of the invention.

In the figure:

dustbin upper cover 1 hinge 5

Identification unit 2 Motor unit 6

Garbage can body 3 rotating baffle 7

Plate turning 4

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

As shown in fig. 1 to 4, the triangular intelligent trash can provided in accordance with the present invention includes: the garbage can comprises a garbage can upper cover 1, an identification unit 2, a garbage can body 3, a turning plate 4, a hinge 5, a rotary baffle 7 and an infrared sensor in the garbage can; the garbage can upper cover 1 is arranged at the upper part of the triangular intelligent garbage can; the turning plate 4, the hinge 5 and the rotary baffle 7 are arranged in the upper cover 1 of the garbage can; the hinge 5 includes: the first movable fan blade and the second movable fan blade; the first movable fan blade is arranged on the upper cover 1 of the garbage can; the second movable fan blade is arranged on the turning plate 4; the turning plate 4 can be turned over up and down around the hinge 5; the triangular intelligent garbage can is of a triangular prism structure.

Preferably, the rotary baffle 7 adopts a fan-shaped structure; the distance from the geometric center point of the upper cover 1 of the garbage can to the intersection point of the circular arc and the horizontal line is larger than the radius of the rotary baffle 7

Preferably, the method further comprises the following steps: a motor unit 6; the motor unit 6 is arranged at the geometric center of the upper cover 1 of the garbage can.

Preferably, the upper cover 1 of the garbage can comprises: a feed inlet member; the feeding port component and the garbage can upper cover 1 are integrally formed or non-integrally formed.

Preferably, the motor unit 6 comprises: an output shaft of the motor; the output shaft of the motor is connected with a rotary baffle 7.

Preferably, an overfill sensor; the overflow sensor is arranged at the upper part of the triangular intelligent garbage can; the overflow sensor adopts an infrared sensor.

Preferably, the identification unit 2 adopts an identification camera.

Specifically, in one embodiment, a triangular intelligent trash can comprises: garbage bin upper shield 1, discernment camera 2, garbage bin body 3.

The garbage bin upper shield 1 is located garbage bin upper portion, is equipped with three dog-house, can dismantle, makes things convenient for the cleaner to clean rubbish. The recognition camera 2 is fixed at the upper cover 1 of the garbage can.

6 as shown in fig. 2, a turning plate 4, a hinge 5, a motor 6 and a rotary baffle 7 are arranged in the upper cover 1 of the garbage can. Wherein the motor 6 is fixed at the geometric center of the upper cover, and the output shaft of the motor is fixedly connected with the rotating baffle 7 and can rotate along with the output shaft. Rotating barrier is fan-shaped, and fan-shaped breach size just enough turns over the board and receive gravity free upset, can lock three at ordinary times and turn over the board, and when rotating barrier 7 rotatory appointed position, turn over board 4 and fall down, the garbage bin door that corresponds is opened. Wherein the distance from the geometric center point of the upper cover to the intersection point of the circular arc and the horizontal line is larger than the radius of the rotating baffle plate as shown in figure 3, and the rotating baffle plate can directly push the turning plate to be closed and can not be blocked. One movable fan blade of the hinge 5 is fixed on the garbage can upper cover 1, and the other movable fan blade is fixed on the turning plate 4. The turning plate 4 can be turned up and down around the hinge 5.

According to the garbage classification method suitable for the triangular garbage can, provided by the invention, the triangular intelligent garbage can is adopted, and the method comprises the following steps:

step M1: the distance sensor judges whether an object approaches, the camera recognition function is started after the object approaches, and the camera transmits 1 frame of image to the force calculation board every 5 frames/10 frames;

step M2: the transmission camera shoots a real-time picture and guides a user to place garbage in the identification area;

step M3: starting timing when the distance sensor detects that an object approaches, and closing the camera if the object is not identified within 60s and the display screen is not operated;

step M4: an artificial intelligence force calculation board arranged in the intelligent garbage can judges the type of garbage within 3 s;

step M5: the sensor identifies whether the corresponding garbage can is full, and if so, space full information is obtained;

step M6: the rotating baffle rotates, the turning plate corresponding to the upper part of the garbage can is opened by gravity, a user puts garbage into the corresponding garbage can, and the rotating baffle rotates to push the turning plate to be closed.

Step M7: if the artificial intelligence computational board can not identify the garbage types, photographing and uploading to the cloud. Displaying a selection interface on the touch display screen;

step M8: the infrared sensor is arranged in the intelligent garbage can device to acquire real-time information of the garbage amount.

Preferably, step M5 includes: and M5.1, if not, acquiring opening control information/garbage throwing guide information of a rotary baffle motor.

Specifically, in one embodiment, the intelligent classification garbage can is characterized by comprising the following working steps:

the method comprises the following steps: the distance sensor judges whether an object approaches, the camera recognition function is started after the object approaches, and the camera transmits 1 frame of image to the force computing board every 5 frames/10 frames.

Step two: the display screen can interact with a user, the transmission camera shoots real-time pictures, and the user is guided to place garbage in the optimal recognition area.

Step three: and starting timing when the distance sensor detects that the object is close to the distance sensor, and closing the camera if the object is not identified within 60s and the display screen is not operated.

Step four: the type of the garbage is judged within 3s by an artificial intelligence force calculating board arranged in the intelligent garbage can.

Step five: the sensor identifies whether the corresponding garbage bin is full, and if the corresponding garbage bin is full, the display space of the display screen is full.

Step six: if not, the motor drives the rotating baffle to rotate to the appointed position, and the corresponding bin door is opened, and the user puts rubbish into the corresponding garbage bin.

And seventhly, if the artificial intelligence force calculation board cannot identify the garbage types, photographing and uploading to the cloud. And displaying a selection interface on the touch display screen, and displaying the garbage categories for the user to select.

Step eight: the built-in infrared sensor of dustbin, when the incasement is full loaded fully, smart machine can detect out the rubbish volume through the sensor, gives clearance personnel cell-phone APP to the full message propelling movement of bucket by the server.

In the triangular intelligent garbage can provided by the invention, the triangular intelligent garbage can also has the following characteristics: the built-in artificial intelligence computational board can identify the garbage, open the bin door corresponding to the garbage can according to the identification result, and guide a user to throw the garbage into the correct garbage can.

In the triangular intelligent garbage can provided by the invention, the triangular intelligent garbage can also has the following characteristics: wherein, the upper portion at the garbage bin has placed the advertisement screen, and the advertisement screen can interact with the user, guides the user correctly to put in rubbish. The advertisement screen is attached to the surface of the garbage can, and does not occupy space.

In the triangular intelligent garbage can provided by the invention, the triangular intelligent garbage can also has the following characteristics: wherein, the garbage bin embeds there is infrared sensor, can be when the garbage bin is fast overflowed, give cleanup crew cell-phone APP, convenient timely clearance overflowing information transfer.

The deep learning model deployed in the deep learning computing force board uses a network of a YOLO-v3 convolutional neural network, the convolutional neural network comprises a 53-layer network layer, and the network comprises an input layer, a convolutional layer, a pooling layer, a full connection layer and the like, wherein the input layer input image is an RGB image of 408 ×, the input layer input image needs to be preprocessed before input, the preprocessing operation is to mark an image to be recognized before input, and the marked data and the image need to be input into the convolutional neural network together when input.

The intelligent garbage can automatically judge the type of garbage through the built-in artificial intelligence force calculating board, and then the corresponding bin door is opened; the intelligent garbage can is in a triangular column shape, and each corner is provided with a garbage throwing port, so that the intelligent garbage can is compact in structure and exquisite in design; the rotary baffle of the intelligent garbage can is fan-shaped, and the size of the fan-shaped gap is just enough for the turnover plate to freely turn over under the action of gravity. One motor can simultaneously control the opening and closing of the three garbage cans; the distance (as shown in figure 3) from the geometric center point of the upper cover to the intersection point of the circular arc and the horizontal line is larger than the radius of the rotary baffle, and the rotary baffle can directly push the turning plate to be closed and cannot be blocked.

This garbage bin can make things convenient for people to correctly put in rubbish in public occasions such as shopping mall, and the design of garbage bin additional advertisement screen can be interactive with the user when the user puts in rubbish, guides the user correctly to put in rubbish, increases customer waste classification's consciousness and knowledge. Meanwhile, the advertisement screen can increase the additional advertising income of the garbage can. Built-in infrared sensor can be when the garbage bin closes on the overflow, in the cell-phone APP of clearance personnel is transmitted to overflow information, reminds the staff in time to be in the same place.

The garbage can upload garbage data collected by the garbage can to the cloud, and garbage identification capability can be stronger and stronger through a deep learning algorithm.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (9)

1. The utility model provides a triangle-shaped intelligence garbage bin which characterized in that includes: the garbage can comprises a garbage can upper cover (1), an identification unit (2), a garbage can body (3), a turning plate (4), a hinge (5), a rotary baffle (7) and an infrared sensor in the garbage can;

the upper cover (1) of the garbage can is arranged at the upper part of the triangular intelligent garbage can;

the turning plate (4), the hinge (5) and the rotary baffle (7) are arranged in the garbage can upper cover (1);

the hinge (5) comprises: the first movable fan blade and the second movable fan blade;

the first movable fan blade is arranged on the upper cover (1) of the garbage can;

the second movable fan blade is arranged on the turning plate (4);

the turning plate (4) can be turned over up and down around the hinge (5);

the triangular intelligent garbage can is of a triangular prism structure.

2. The triangular intelligent trash can of claim 1, wherein the rotating baffle (7) is of a fan-shaped structure;

the distance from the geometric center point of the upper cover (1) of the garbage can to the intersection point of the circular arc and the horizontal line is larger than the radius of the rotary baffle (7).

3. The triangular smart trash can of claim 1, further comprising: a motor unit (6);

the motor unit (6) is arranged at the geometric center of the upper cover (1) of the garbage can.

4. Triangular intelligent garbage can according to claim 1, characterized in that the garbage can upper cover (1) comprises: a feed inlet member;

the feeding port component and the garbage can upper cover (1) are integrally formed or non-integrally formed.

5. Triangular smart trash can according to claim 3, characterized in that the motor unit (6) comprises: an output shaft of the motor;

the output shaft of the motor is connected with a rotary baffle (7).

6. The triangular-shaped intelligent trash can of claim 1, wherein the overfill sensor;

the overflow sensor is arranged at the upper part of the triangular intelligent garbage can;

the overflow sensor adopts an infrared sensor.

7. Triangular intelligent garbage can according to claim 1, characterized in that the recognition unit (2) employs a recognition camera.

8. A garbage classification method suitable for triangular garbage cans, which is characterized in that the triangular intelligent garbage can of any one of claims 1-6 is adopted, and comprises the following steps:

step M1: the distance sensor judges whether an object approaches, the camera recognition function is started after the object approaches, and the camera transmits 1 frame of image to the force calculation board every 5 frames/10 frames;

step M2: the transmission camera shoots a real-time picture and guides a user to place garbage in the identification area;

step M3: starting timing when the distance sensor detects that an object approaches, and closing the camera if the object is not identified within 60s and the display screen is not operated;

step M4: an artificial intelligence force calculation board arranged in the intelligent garbage can judges the type of garbage within 3 s;

step M5: the sensor identifies whether the corresponding garbage can is full, and if so, space full information is obtained;

step M6: the rotary baffle rotates, the turning plate corresponding to the upper part of the garbage can is opened by gravity, a user puts garbage into the corresponding garbage can, and the rotary baffle rotates to push the turning plate to be closed;

step M7: if the artificial intelligence computational board can not identify the garbage types, photographing and uploading to the cloud. Displaying a selection interface on the touch display screen;

step M8: the infrared sensor is arranged in the intelligent garbage can device to acquire real-time information of the garbage amount.

9. The method for sorting garbage adapted to triangular garbage can according to claim 8, wherein the step M5 comprises:

and M5.1, if not, acquiring opening control information/garbage throwing guide information of a rotary baffle motor.

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