1. A big data based recycling system, comprising:

the system comprises a user terminal (1), an identification weighing module (2), a recovery module (5), a payment module (6), a data transmission module (7) and a cloud database (8);

the identification weighing module (2) comprises: the device comprises a pressure sensor (21), a camera (22) and a rotatable platform (20);

the recovery module (5) comprises: a recovery box body (50), a pressure sensor (51) and a distance sensor (52);

the payment module (6) is used for paying the recycling treatment cost of the renewable resources to the user terminal;

the cloud database (8) is used for receiving the renewable resource information uploaded by the identification weighing module (2), storing the renewable resource information, updating the renewable resource information from the Internet at regular time, comparing the received renewable resource picture with a picture in the stored renewable resource information, confirming the type of the renewable resource, and determining the price of the renewable resource according to the confirmed type of the renewable resource and the received weight of the renewable resource; transmitting the regenerated resource information to the user terminal (1);

the identification weighing module (2) is used for measuring the weight of renewable resources on the rotatable platform (20), acquiring pictures of the renewable resources, and uploading the pictures and weight information of the renewable resources to the cloud database (8);

the user terminal (1) is used for receiving and displaying the order corresponding to the renewable resource price information, receiving the confirmed order of the user, and paying the recovery fee through the payment module;

the recovery module (5) is used for recovering the renewable resources and sending the packaging information to the background terminal (3).

2. The big data-based renewable resource recycling system according to claim 1, wherein the cloud database (8) stores renewable resource information, and the renewable resource information comprises: renewable resource type information, renewable resource price information, and renewable resource weight information.

3. The big data-based renewable resource recycling system according to claim 2, wherein the renewable resources in the recycling bin (50) are packaged after the pressure sensor (51) or the distance sensor (52) in the recycling module (5) reaches a threshold value.

4. The big data-based recycling resource recycling system according to claim 1, further comprising: and the recovery module (5) sends packaging information to the background terminal (3) after reaching a threshold value and packaging.

5. A big data-based renewable resource recycling method is characterized by comprising the following steps:

s1, the recognition weighing module (2) measures the weight of the renewable resources on the rotatable platform (20), collects pictures of the renewable resources and uploads the pictures and weight information of the renewable resources to a cloud database (8);

s2, the cloud database (8) receives the renewable resource information uploaded by the identification weighing module (2), compares the received renewable resource picture with pictures in the stored renewable resource information, confirms the type of the renewable resource, and determines the price of the renewable resource according to the confirmed type of the renewable resource and the received weight of the renewable resource;

s3, the cloud database (8) sends the renewable resource price information, the renewable resource type information and the renewable resource price to the user terminal (1);

s4, the user terminal (1) receives and displays the order corresponding to the renewable resource price information and the renewable resource type information;

s5, the user terminal (1) receives the confirmation order of the user and pays the recovery fee through the payment module (6).

6. The big data based recycling method of claim 5, wherein in said S4, if said user terminal (1) does not receive the confirmation recycling resource information beyond the threshold time, then said order is closed, and the recycling module (5) automatically recycles the recycling resource on the rotatable platform (20).

Background

The existing renewable resource recovery system cannot accurately classify renewable resources, needs manual operation and wastes human resources; the price cannot be accurately given even after the renewable resources are classified, and the provided price standard is often outdated information, and the latest price information cannot be provided.

Disclosure of Invention

The invention provides a regeneration resource recovery system based on big data, which aims to overcome the technical problems.

The invention relates to a regeneration resource recovery system based on big data, comprising:

the system comprises a user terminal (1), an identification weighing module (2), a recovery module (5), a payment module (6), a data transmission module (7) and a cloud database (8);

the identification weighing module (2) comprises: the device comprises a pressure sensor (21), a camera (22) and a rotatable platform (20);

the recovery module (5) comprises: a recovery box body (50), a pressure sensor (51) and a distance sensor (52);

the payment module (6) is used for paying the recycling treatment cost of the renewable resources to the user terminal;

the cloud database (8) is used for receiving the renewable resource information uploaded by the identification weighing module (2), storing the renewable resource information, updating the renewable resource information from the Internet at regular time, comparing the received renewable resource picture with a picture in the stored renewable resource information, confirming the type of the renewable resource, and determining the price of the renewable resource according to the confirmed type of the renewable resource and the received weight of the renewable resource; transmitting the regenerated resource information to the user terminal (1);

the identification weighing module (2) is used for measuring the weight of renewable resources on the rotatable platform (20), acquiring pictures of the renewable resources, and uploading the pictures and weight information of the renewable resources to the cloud database (8);

the user terminal (1) is used for receiving and displaying the order corresponding to the renewable resource price information, receiving the confirmed order of the user, and paying the recovery fee through the payment module;

the recovery module (5) is used for recovering the renewable resources and sending the packaging information to the background terminal (3).

Further, the cloud database (8) stores therein renewable resource information, which includes: renewable resource type information, renewable resource price information, and renewable resource weight information.

Furthermore, after a pressure sensor (51) or a distance sensor (52) in the recovery module (5) reaches a threshold value, the renewable resources in the recovery box body (50) are packaged.

Further, still include: and the recovery module (5) sends packaging information to the background terminal (3) after reaching a threshold value and packaging.

The invention also provides a regeneration resource recovery method based on big data, which comprises the following steps:

s1, the recognition weighing module (2) measures the weight of the renewable resources on the rotatable platform (20), collects pictures of the renewable resources and uploads the pictures and weight information of the renewable resources to a cloud database (8);

s2, the cloud database (8) receives the renewable resource information uploaded by the identification weighing module (2), compares the received renewable resource picture with pictures in the stored renewable resource information, confirms the type of the renewable resource, and determines the price of the renewable resource according to the confirmed type of the renewable resource and the received weight of the renewable resource;

s3, the cloud database (8) sends the renewable resource price information, the renewable resource type information and the renewable resource price to the user terminal (1);

s4, the user terminal (1) receives and displays the order corresponding to the renewable resource price information and the renewable resource type information;

s5, the user terminal (1) receives the confirmation order of the user and pays the recovery fee through the payment module (6).

Further, in S4, if the user terminal (1) does not receive the regenerated resource confirmation information beyond the threshold time, the order is closed, and the recycling module (5) automatically recycles the regenerated resources on the rotatable platform (20).

According to the invention, the renewable resources can be classified through the cloud database, so that the human resources are saved and the cost is reduced; meanwhile, the invention updates the price of the renewable resources every day through the cloud database, and can accurately provide the price of the renewable resources.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the system of the present invention;

FIG. 2 is a flow chart of the method of the present invention;

the reference numbers illustrate:

1. the user terminal 2, the recognition weighing module; 3. a background terminal; 4. a user terminal; 5. a recovery module; 6. a payment module; 8. a cloud database; 21. a pressure sensor; 22. a camera; 20. a rotatable platform; 50. a recovery box body; 51. a pressure sensor; 52. a distance sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a block diagram of the system of the present invention, and as shown in fig. 1, the present invention includes: the system comprises a user terminal 1, a payment module 6, an identification weighing module 2, a recovery module 5 and a cloud database 8; the recognition weighing module 2 includes: the system comprises a pressure sensor 21, a camera 22, a rotatable platform 20 and a picture comparison module; the recovery module 5 includes: a recovery tank 50, a pressure sensor 51, and a distance sensor 52; the user terminal 1 is used for confirming the renewable resource information, confirming the payment information, displaying the renewable resource information and displaying the payment information; the recycling module 5 is used for recycling the renewable resources;

specifically, the renewable resource in the present invention refers to a material resource which can be recycled, processed and reused repeatedly, and includes materials which can be recycled, processed and reused again, such as steel, nonferrous metals, rare metals, alloys, inorganic nonmetals, plastics, rubbers, fibers, and paper, which are produced and discarded from minerals.

Preferably, the cloud database 8 stores therein renewable resource information, where the renewable resource information includes: renewable resource type information, renewable resource price information, renewable resource weight information; and the renewable resource information is updated from the Internet at regular time.

Specifically, the cloud database 8 stores information, and the comparison of the types of the renewable resources and the price calculation are not directly performed by the internet, so that the recovery system can still operate normally when the system cannot be connected to the internet. The communication between the cloud and the system does not need the Internet, and can adopt_wAn ifi or a bluetooth module. And cloud database 8 can regularly update renewable resource information from the internet to ensure the accuracy of the renewable resource information, and updating the renewable resource information includes: the type of the renewable resources and the corresponding type of pictures and the corresponding type of unit price so as to compare the pictures and calculate the value of the recycled renewable resources.

Preferably, the renewable resources in the recycling bin 50 are packaged after the pressure sensor 51 or the distance sensor 52 in the recycling module 5 reaches a threshold value.

Specifically, when the renewable resources are stored to a certain weight, the value of the pressure sensor 51 located at the bottom of the recovery tank 50 reaches a threshold value; when the regeneration resource is stored to a certain volume, the value of the distance sensor 52 located at the top of the recovery tank 50 reaches a threshold value. The pressure sensor 51 or distance sensor 52 reaches a threshold value to verify that the weight or volume of the renewable resource within the recovery tank 50 has been recovered.

When the recycling module 5 compresses and packs the renewable resources in the recycling bin 50, if the renewable resources in the recycling bin 50 are not of the type with high hardness such as metal, the compression plate above the recycling bin 50 is lowered at a high speed to compress the renewable resources, and if the renewable resources in the recycling bin 50 are of the type with high hardness such as metal, the renewable resources in the recycling bin 50 are not compressed but directly packed; the renewable resources are packed, so that the space is saved and the processing is convenient.

Preferably, the method further comprises the following steps: and the background terminal 3, after the recovery module 5 reaches the threshold value and packs, sends the packing information to the background terminal 3.

Specifically, the recycling module 5 sends package information to the backend terminal 3, and the package information includes: the packaging time and the packaging type, and the background terminal 3 stores the packaging information so as to reuse the packaged renewable resources according to the type.

Fig. 2 is a flow chart of the method of the present invention, and as shown in fig. 2, the method of the present invention includes:

s1, the pressure sensor 21 measures the weight of the renewable resource on the rotatable platform 20, and the camera 22 collects the picture of the renewable resource;

specifically, the renewable resources are often stacked together, and the renewable resource pictures shot from a single angle cannot completely reflect the characteristics of the types of the renewable resources, and the rotatable platform 20 rotates to enable the camera 22 to shoot the pictures of the renewable resources from multiple angles, and then transfer the multiple pictures to the cloud database 5, so as to accurately identify the types of the renewable resources.

Specifically, after confirming the type of the renewable resource, the cloud database 8 calculates the value of the renewable resource according to the stored unit price of each type of the renewable resource, generates order information, and sends the order information to the user terminal 1.

S2, the identification weighing module 2 uploads the regenerated resource picture and the weight information to the cloud database 8;

specifically, the recognition and weighing module 2 packages the shot renewable resource picture and the renewable resource weight information to the cloud database 8, so as to confirm the type of the renewable resource through the cloud database 8 and confirm the price of the renewable resource through the type and weight of the renewable resource.

S3, the cloud database 8 receives the renewable resource information uploaded by the identification weighing module 2, compares the received renewable resource picture with pictures in the stored renewable resource information, confirms the type of the renewable resource, and determines the price of the renewable resource according to the confirmed type of the renewable resource and the received weight of the renewable resource;

specifically, when the type of the renewable resource is confirmed, a temporary comparison data packet is created in the cloud database 8, the cloud database 8 compares the received renewable resource picture with the renewable resource picture stored in the cloud database 8, and the first three pictures with the highest similarity are selected and stored in the temporary comparison data packet; comparing each received picture, selecting one type which is most appeared in the temporary comparison data packet, and identifying the type of the renewable resource once; after the type of reproduction is identified, the temporary comparison packet is deleted.

S4, the cloud database 8 sends the renewable resource price information and the renewable resource type information to the user terminal 4, and the user terminal 4 displays the renewable resource price information and the renewable resource type information to generate an order;

s5, the user terminal 1 confirms the order and obtains payment through the payment module 6.

Specifically, the generated order information includes the weight, the type, and the price of the renewable resource, and when the user terminal confirms that the weight, the type, and the price are correct and the pricing is reasonable, the user terminal confirms whether the information is accurate, and the user terminal confirms that the information in the order is accurate and then recycles the order.

Specifically, if the user terminal finds that the price, the category, and the weight information are wrong, the renewable resources on the rotatable platform 20 can be taken away, the unconfirmed order can be automatically cancelled after the countdown time after the order is generated is over, and the user terminal can choose not to recycle the order or choose to recycle the order again.

Preferably, in S4, the user terminal 1 confirms that the renewable resource information has a time limit, and if the time is not confirmed, closes the renewable resource recycling order, and the recycling module 5 automatically recycles the renewable resource on the rotatable platform 20.

Specifically, if the user terminal does not confirm the order and abandons the order automatically, the recycling module 5 automatically recycles the recycling resource if the recycling resource exists on the rotatable platform 20, so as to prevent the waste of the recycling resource.

The recycling box 50 has a plurality of compartments corresponding to the types of the renewable resources, and during recycling, the recycling box falls into the corresponding compartment of the recycling box 50 according to the types of the renewable resources, so that subsequent packaging treatment is facilitated, and the renewable resources are recycled according to the types of the renewable resources.

The beneficial effects of the whole are as follows:

according to the invention, the renewable resources can be classified through the cloud database 8, so that the human resources are saved and the cost is reduced; according to the invention, the renewable resource price is updated every day through the cloud database 8, so that the renewable resource price can be accurately provided, the price is more accurate than that of the traditional manual pricing, and the waste of human resources is reduced.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.