KR101999269B1 - Waste resource smart recycling integrated management system - Google Patents

Abstract

The present invention relates to a new structural waste resource smart recycling integrated management system capable of effectively recycling and managing various waste resources generated at households or stores. According to the present invention, the waste resource smart recycling integrated management system integratedly manages and purifies sewage, manure and food waste discharged from each household (1), controls each of amounts of the sewage, manure, and food waste discharged from each household (1), and stores the same in a DB (111) built in a control means (110) so as to charge a proper cost in accordance with the amount of the waste resources discharged from the household (1), thereby effectively managing the waste resources.

Description

Waste resource smart recycling integrated management system {WASTE RESOURCE SMART RECYCLING INTEGRATED MANAGEMENT SYSTEM}

The present invention relates to a waste resources smart recycling integrated management system of a new structure that can effectively recycle and manage various waste resources generated in the home or mall.

In general, households generate inorganic waste resources along with various organic waste resources, including manure, food waste or sewage.

Then, the manure generated in this way is collected in a septic tank, and then transported to a predetermined place using a manure collection truck for processing.

Then, when the food waste is collected and discharged at home, the food waste is transported to a predetermined place using a food waste collection vehicle for disposal.

In addition, sewage or household sewage generated in the toilet is just discharged through the sewer.

As such, the organic waste resources generated in the home are collected, transported, and processed through separate processes, thereby increasing the cost of treating the organic waste resources, and it takes a long time to process them. There was a problem that odor and additional pollution could be generated during transportation of waste resources.

In particular, the sewage generated in the home is discharged through the sewer without going through a separate treatment process, a problem that water pollution occurs.

On the other hand, inorganic waste resources are often divided into waste resources that can be recycled and waste resources that cannot be recycled.

First of all, recycled waste is prepared for a separate collection place to collect it, and the recycled waste collected at the collection place is collected. At this time, odor generated by the recycled waste collected at the collection place causes pests and leachate. The problem of deterioration of aesthetics occurred.

Waste materials that cannot be recycled are incinerated or landfilled. At this time, waste materials that are incinerated generate pollutants that pollute the air, and also have fine dust.

In addition, when the waste resources are reclaimed, the second and third pollutions still remain as soil and groundwater are contaminated by the leachate generated from the waste resources.

This problem has occurred not only in general assumptions, but also in shopping malls used by many people.

Therefore, there is a need for a new method to solve this problem.

Disclosure of Invention The present invention has been made to solve the above problems, and an object of the present invention is to provide an integrated management system for smart resource recycling of waste resources in a new structure capable of effectively recycling waste resources generated in a home or a shopping mall.

The present invention for achieving the above object, the sewage discharge pipe (10) connected to each household (1) or the sewer (4) of the shopping mall to discharge the sewage, and connected to the toilet of each home (1) or shopping mall Manure discharge pipe 20 for discharging the food waste crusher 30, which is provided in each household (1) or shopping mall and configured to measure the amount of the crushed food waste, and connected to the food crusher Connected to the food waste discharge pipe 40 for discharging the food waste discharged from the food waste crusher 30 and the sewage discharge pipe 10 to purify the sewage discharged through the sewage discharge pipe 10 for the storage tank 51 Connected to the sewage treatment means 50 and the manure discharge pipe 20 and the food waste discharge pipe 40 to treat manure and food waste, and to treat biogas and compost generated while treating manure and food waste. Sewage amount to measure the amount of sewage discharged from each household (1) or the mall connected to the bio-processing means 60 and the sewage discharge pipe 10 stored in the tank 61 and the compost storage tank 62 Measuring means 90, the manure amount measuring means 100 for measuring the amount of manure discharged from the toilet connected to the restrooms of each household (1) or the mall, and the sewage measuring means 90 and the manure amount measuring means (100) And connected to the food waste crusher 30 to store the amount of sewage and the amount of manure and the amount of food waste measured by the sewage measuring means 90 and the manure amount measuring means 100 and the food waste crusher 30 Provided is a waste resources smart recycling integrated management system comprising a control means (110).

According to another feature of the invention, the power generation means 70 is connected to the gas tank 61 to generate power using the biogas stored in the gas tank 61, and is connected to the power generation means 70 Waste resource smart recycling integrated management system is further provided, characterized in that it further comprises an electric vehicle charger (71) for charging the electric vehicle using the electricity generated in the means (70).

According to another feature of the present invention, the water storage tank 51 and the toilet (6) provided in each home (1) or the bathroom of the shopping mall is connected to the middle of the water supply pump 81 is provided with the water storage tank ( Provided is a waste resources smart recycling integrated management system, further comprising a water supply pipe (80) for supplying the water stored in the 51) to the toilet (6).

According to another feature of the invention, the bio-processing means 60 is configured to ferment the manure or food waste to generate methane gas and to store the generated methane gas in the gas tank 61, the power generation Means 70 is provided with a waste resources smart recycling integrated management system, characterized in that using a fuel cell for generating electricity using the methane gas.

According to another feature of the invention, the food waste crusher 30 is configured to extend in the vertical direction and the upper and lower ends are formed in the inlet 31a and outlet 31b, respectively, sinks provided in each household (1) or shopping mall It is installed in the outlet (3a) of the (3) and the lower end of the main body 31 to which the food waste discharge pipe 40 is connected, and provided on the upper side of the inside of the main body 31 and driven by a drive motor (32a) A grinding blade 32 for crushing the food waste introduced into the inlet 31a, and a control switch 33 provided at one side of the sink 3 so as to be operated by a user to drive the driving motor 32a; The cover 34 is coupled to the upper end of the main body 31 to open and close the upper end of the main body 31, and has a cylindrical shape with an open upper end, and is coupled to the inner lower side of the main body 31 so as to be lifted and lowered. Collecting the food waste crushed by the grinding blade (32) Collecting means 35, the weight measuring means 36 is connected to the collecting container 35 to measure the weight of the food waste collected in the collecting container 35, and is provided on the upper end of the main body 31 Cover detecting means 37 for detecting that the cover 34 is coupled to the upper end of the main body 31 and the water supply pipe 80 is provided to be located above the grinding blade 32 inside the main body 31. ) Is connected and operated by the control means 110 to spray the water supplied through the water supply pipe 80 into the main body 31 to wash the main body 31 and the grinding blade 32. It includes a washing nozzle 38, the collecting cylinder 35 is formed in a tubular shape of the upper and lower ends and the elevating pipe (35a) is coupled to the elevating inside of the main body 31, the elevating pipe (35a) Is provided at the lower end of the damper (35b) for operation control by the control means 110 to open and close the lower end of the elevating pipe (35a) The control means 110 is connected to the control switch 33, the cover detecting means 37 and the weighing means 36 so that the user turns on the control switch 33 to the inside of the main body 31. When the control switch 33 is turned off after crushing the food waste supplied to the food waste, the signal of the weight measuring means 36 is received to measure the weight of the food waste crushed by the food waste crusher 30, and the user When the cover 34 is coupled to the main body 31 to close the upper end of the main body 31, the washing nozzle 38 is opened to crush water into the main body 31 so that the inside of the main body 31 is closed. And the crushing blade 32 to be washed and at the same time the damper (35b) to open the food waste collected in the collecting container 35 to discharge the food waste discharge pipe 40 characterized in that discharged to the food waste discharge pipe (40). Recycling integrated management system is provided.

According to another feature of the present invention, a living environment 210 composed of a home 1 or a shopping mall, a treatment center 220 in which waste resources are collected and processed through various discharge pipes, and a treatment from the treatment center 220. Collecting facility 230 is collected and collected by collecting the waste resources are each combined with the fuelization facility (A), the networking target unit 200, the waste resources are reprocessed by the fuelization facility (A) and by-products are generated, Integrating the waste resources smart recycling, characterized in that it comprises a monitoring target unit 300, which is measured and generated from the networking target unit 200 is stored in a separate storage facility for real-time monitoring and data analysis A management system is provided.

According to another feature of the invention, the data 310, the data 310 is generated according to the waste resource generation amount 311 and the reprocessing of the waste resources to the data generated amount of the waste resources collected in the living environment 210 Resource circulating big data 312 which dataizes the amount of by-products to be used, facility operation status 313 which dataates the operation status of the facilities according to the operation of the processing center 220 and the fueling facility A, and the processing center. Waste resource smart recycling integrated management system is provided, characterized in that it comprises a 220 and the meter reading the amount of by-products generated in the fueling facility (A) data remote reading data 314.

On the other hand, the description of the technology disclosed herein is only an embodiment for structural or functional description, the scope of the disclosed technology is not to be construed as limited by the embodiments described in the text. That is, the embodiments may be variously modified and may have various forms, and thus the scope of the disclosed technology should be understood to include equivalents capable of realizing the technical idea. In addition, the objects or effects presented in the disclosed technology does not mean that a specific embodiment should include all or only such effects, and thus the scope of the disclosed technology should not be understood as being limited thereto.

In addition, the meaning of the terms described in the present invention will be understood as follows. The terms “first” and “second” are used to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, a first component may be named a second component, and similarly may be named a first component as a second component.

Further, when a component is referred to as being "connected" to another component, it should be understood that there may be other components in between, although it may be directly connected to the other component. On the other hand, when a component is referred to as being "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions that describe the relationship between the components, such as "between" and "between," or "neighboring to," and "direct neighboring to" should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as “include” or “have” refer to features, numbers, steps, operations, components, parts, or parts thereof described. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

Waste resources smart recycling integrated management system according to the present invention by managing the sewage, manure and food waste discharged from each household (1) integrated, purification, sewage, manure and food discharged from each household (1) By managing the amount of trash respectively and storing it in the DB 111 built in the control means 110, it is possible to charge appropriate costs according to the amount of organic waste resources discharged from the home (1), effectively There is an advantage to manage.

1 is a block diagram showing a waste resources smart recycling integrated management system according to the present invention,
Figure 2 is an enlarged view showing the main part of the integrated waste management smart recycling management system,
Figure 3 is a side cross-sectional view showing a food waste crusher of the integrated waste management system smart recycling;
4 is a circuit diagram of the food waste crusher of the integrated waste management system smart recycling,
5 and 6 is a reference diagram showing the operation of the food waste crusher of the integrated waste management system smart recycling,
7 is a conceptual diagram of a waste resources smart recycling integrated management system.

Hereinafter, with reference to a preferred embodiment to which the present invention belongs will be described in more detail.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 illustrate the integrated management system for waste resources smart recycling according to the present invention, illustrating the application to the apartment.

At this time, the machine room 5 is provided in the basement of the apartment.

In addition, the integrated waste resources smart recycling management system according to the present invention is connected to the sewer (4) of each home (1) and the sewage discharge pipe (10) for discharging sewage, and connected to the toilet of each home (1) to the manure The food waste crusher 30 for discharging, the food waste crusher 30, which is provided in each household 1, is configured to measure the amount of the crushed food waste, and is connected to the food crusher. Food waste discharge pipe 40 for discharging food waste discharged from the grinder 30 and the sewage discharge pipe 10 connected to the sewage discharge pipe 10 to purify the sewage discharged through the sewage discharge pipe 10 to be supplied to the storage tank 51. It is connected to the sewage treatment means 50 and the manure discharge pipe 20 and the food waste discharge pipe 40 to process the manure and food waste, and add biogas and compost generated while treating the manure and food waste. Bio-processing means 60 to be stored in the tank 61 and the compost storage tank 62, and a power generation means connected to the gas tank 61 to generate power using the biogas stored in the gas tank 61 ( 70, an electric vehicle charger 71 connected to the power generation means 70 and charging an electric vehicle using electricity generated from the power generation means 70, the water storage tank 51 and the toilet of each home 1 The water supply pipe (80) for supplying the water stored in the water storage tank (51) to the toilet bowl (6) and the sewage discharge pipe (10) are connected to the toilet (6) provided in the middle part. Sewage measuring means (90) for measuring the amount of sewage discharged from each household (1) connected to, and the manure amount measuring means for measuring the amount of manure discharged from the toilet connected to the toilet of each household (1) 100) and the sewage amount measuring means 90 and the manure amount measuring means 100 and the food waste crusher 30 It consists of the control means 110.

In detail, the sewer 4 is provided on the bottom surface of the sink or bath or toilet except for the sewage discharged from the sink 3, and a hole for discharging low polluted water generally used for washing or bathing is provided. it means.

The sewage discharge pipe 10 extends upward along the wall surface of the apartment, and a plurality of branching portions 11 connected to the sewer 4 of each home 1 are formed in the middle part of each home 1. The sewage discharged through the sewer 4 is configured to be supplied to the sewage treatment means (50).

The manure discharge pipe 20 extends upward along the wall surface of the apartment, and a plurality of branch portions 21 connected to the toilet bowl 6 of each home 1 are formed in the middle part of each apartment 1. It is configured to collect the manure generated from the toilet 6 and to supply to the bio-processing means (60).

The food waste crusher 30 is configured to extend in the vertical direction, as shown in Figure 3, the inlet 31a and the outlet 31b is formed in the upper and lower ends, respectively, sink 3 provided in each household (1) The main body 31 is installed in the outlet (3a) of the main body 31 is connected to the food waste discharge pipe 40 and the upper side of the inside of the main body 31 is driven by a drive motor (32a) is the inlet 31a A crushing blade 32 for crushing the food wastes injected into the hopper, and a control switch 33 provided at one side of the sink 3 so as to be operated by a user to drive the driving motor 32a, and the main body. The cover 34 is coupled to the upper end of the 31 and opens and closes the upper end of the main body 31, and has a cylindrical shape with an open upper end, and is coupled to the inner lower side of the main body 31 so as to be lifted and lowered. Collecting container 35 for collecting the food waste crushed by 32), and Weighing means 36 connected to the collection container 35 and measuring the weight of the food waste collected in the collection container 35, and provided on the upper end of the main body 31, the cover on the upper end of the main body 31 The cover detecting means 37 for detecting that the 34 is coupled to the inside of the main body 31 is provided so as to be positioned above the grinding blade 32 and the water supply pipe 80 is connected to the control means ( It is composed of a washing nozzle 38, which is controlled by the operation 110 to spray the water supplied through the water supply pipe 80 into the main body 31 to wash the main body 31 and the grinding blade (32). .

At this time, the lower end inner circumferential surface of the main body 31 is formed so that the engaging jaw (31c) that the collecting cylinder 35 is caught to protrude inward.

The control switch 33 uses a toggle switch for the user to operate the lever on-off the drive motor (32a).

The collecting cylinder 35 is formed in a tubular shape of which the upper and lower ends are opened and provided at a lower end of the elevating pipe body 35a and the elevating pipe body 35a, which are coupled to the inside of the main body 31 so as to be movable. It consists of a damper (35b) for opening and closing the lower end of the elevating pipe (35a).

The lifting pipe (35a) is formed on the outer peripheral surface of the intermediate projection protruding jaw (35c) is caught on the upper surface of the locking jaw (31c).

The damper 35b is connected to the control means 110 to be controlled by the operation signal of the control means 110 uses an electronic damper to open and close the lifting pipe (35a).

The weight measuring means 36 is provided on an upper surface of the locking jaw 31c so that the locking jaw 31c and the projection jaw 35c are located between the weight of the food waste stored in the collection container 35. Use a load cell to measure.

The cover detecting means 37 is provided on the upper circumferential portion of the main body 31, and uses a push switch that detects the cover 34 when the user combines the cover 34 with the upper end of the main body 31.

The washing nozzle 38 is provided on the inner circumferential surface of the main body 31 to face downward, and when opened by the control means 110, the water supplied through the water supply pipe 80 of the grinding blade 32 It is configured to wash the food waste left in the inner peripheral surface of the grinding blade 32 and the main body 31 by spraying to the top.

Accordingly, as shown in FIG. 4, when the user operates the control switch 33 while driving the food waste into the feed opening 31a of the main body 31, the user drives the drive motor 32a. After the food waste is crushed finely by the grinding blade 32, the food waste is discharged into the collecting container 35 and stored.

At this time, the weight measuring means 36 measures the weight of the food waste stored in the collecting container 35 to transmit the control means 110, as shown in Figure 5, the damper 35b is opened When the food waste stored in the collection container 35 is discharged to the bio-processing means 60 through the food waste discharge pipe 40.

The food waste discharge pipe 40 extends upward along the wall surface of the apartment, and a plurality of branch portions 41 are formed in the middle portion, and the food waste grinder 30 provided in the sink 3 of each household 1. By connecting to), the food waste crushed by the food waste crusher 30 is collected to discharge the food waste is discharged to the bio-processing means (60).

The sewage treatment means 50 is provided in the machine room 5 of the basement, and the sewage discharged through the sewage discharge pipe 10 is filtered, deodorized and sterilized to the water level generally used for chores. It is configured to purify and supply to the water storage tank (51).

The bio-processing means 60 is provided in the machine room 5 of the basement, the manure discharged through the manure discharge pipe 20 and the food waste discharged through the food waste discharge pipe 40 using microorganisms. In this case, the biogas, in particular, methane gas and compost is generated, and the biogas and compost generated in this way to be separated and stored in the gas tank 61 and the compost storage tank 62, respectively. It is composed.

Since the bio-processing means 60 has been developed and used in various kinds, a detailed description thereof will be omitted.

At this time, the biogas stored in the gas tank 61 is used as the power of the power generation means 70, the compost stored in the compost storage tank 62 is collected separately and used as a compost for crops.

The power generation means 70 uses a fuel cell that generates electricity using biogas stored in the gas tank 61, in particular, methane gas.

The water supply pipe 80 extends upward along the wall surface of the apartment, and a plurality of branching portions 82 connected to the toilet 6 of each household 1 and the washing nozzle 38 of food waste are formed in the middle portion. When the pump is driven, the water stored in the water storage tank 51 is pressurized to a high pressure, and is supplied to the washing nozzle 38 of the toilet bowl 6 and the food waste crusher 30.

The sewage amount measuring means 90 is provided at each branch portion 11 of the sewage discharge pipe 10 connected to the sewer 4 of each household 1, and discharged through the sewer 4 in each household 1. Use a flow meter to measure the amount of sewage

The manure amount measuring means 100 is provided in the branch portion 21 of the manure discharge pipe 20 connected to the toilet 6 of each household (1), the amount of manure discharged from the toilet of each household (1) Use a flow meter to measure.

The control means 110 receives the signal of the sewage measuring means 90, the manure amount measuring means 100 and the food waste crusher 30, the amount of sewage, manure and food waste discharged from each household (1) It is configured to save.

To this end, the control means 110 is built a DB 111 for storing the amount of sewage and manure and food waste discharged from each home (1).

Therefore, the manager who operates and manages the organic waste resource recycling and integrated management system, according to the amount of sewage, manure and food waste discharged from each household (1) stored in the DB 111, waste in each household (1) Resource processing costs can be charged.

In addition, the control means 110 is connected to the control switch 33, the cover detecting means 37 and the weight measuring means 36, the user turns on the control switch 33 to the inside of the main body 31 When the control switch 33 is turned off after crushing the food waste supplied to the food waste, the weight of the food waste crushed by the food waste crusher 30 is measured by receiving the signal of the weighing means 36.

6, when the user closes the upper end of the main body 31 by coupling the cover 34 to the main body 31, the washing nozzle 38 is opened to open the inside of the main body 31. The water is pulverized so that the inside of the main body 31 and the grinding blade 32 are washed, and at the same time, the damper 35b is opened so that the food waste collected in the collection container 35 is disposed in the food waste discharge pipe 40. To be discharged.

The organic waste resource recycling and integrated management system configured in this way manages and cleans sewage, manure and food waste discharged from each household (1), and cleans and processes sewage, manure and food discharged from each household (1). By managing the amount of waste, respectively, stored in the DB 111 built in the control means 110, it is possible to charge an appropriate cost according to the amount of organic waste resources discharged from the home (1), organic waste resources There is an advantage that can be effectively managed.

In addition, the power generation means 70 is connected to the gas tank 61 to generate power using the biogas stored in the gas tank 61, and is connected to the power generation means 70 and is generated in the power generation means 70. An electric vehicle charger 71 is provided to charge an electric vehicle using electricity, which has an advantage of effectively utilizing biogas generated from organic waste resources.

In addition, the water storage tank 51 is connected to the toilet 6 provided in the toilet of each home (1) and the water supply pump 81 is provided in the middle portion of the water storage tank 51 to the toilet 6 Water supply pipe (80) is further provided to supply to), by recycling the sewage discharged from the home (1), there is an advantage that can minimize the waste of water.

In addition, the bio-processing means 60 is configured to ferment manure or food waste so that methane gas is generated and store the generated methane gas in the gas tank 61, wherein the power generation means 70 is the methane. By using a fuel cell that generates electricity using gas, there is an advantage that can minimize the generation of pollutants when generating electricity using biogas.

In addition, the food waste grinder 30, after crushing the food waste, by measuring the weight of the crushed food waste, not only can accurately measure the amount of food waste generated in each household (1), food waste After the pulverization is completed, by spraying water into the interior of the main body 31 using the washing nozzle 38, there is an advantage that the food waste grinding machine 30 can be kept clean at all times.

In the above-described embodiment, it is illustrated that it is connected to the sewer 4, the sink 3, or the toilet 6 provided in the home 1, but the organic waste resource recycling and integrated management system according to the present invention is applied to a commercial building. It is also possible.

Next, FIG. 7 is a diagram illustrating a conceptual diagram of an integrated management system for waste resource smart recycling, and includes a networking target unit 200 and a monitoring target unit 300 to manage waste resources.

The network target unit 200 is composed of a home (1) or a shopping mall, a living environment 210 where waste resources are generated, a sewage discharge pipe (10), a manure discharge pipe (20) and food and drink connected from the living environment (210). And a treatment center 220 through which waste resources are collected and processed through an exhaust pipe including a waste discharge pipe 40.

The treatment center 220 includes treatment means such as sewage treatment means 50, bio treatment means 60 and the like as described above.

The waste resources processed from the treatment center 220 are collected to the collecting facility 230, and the collecting facility 230 is combined with the fueling facility A, the waste resources are reprocessed, and by-products of the fueling resources are generated.

The monitoring target unit 300 is stored in a separate storage facility of the data 310 measured from the networking target unit 200, and can be used as a data analysis data by real-time monitoring and by loading and analyzing the stored data.

At this time, the data 310 is a waste resource generation amount 311 that data the generation amount of the waste resources collected in the living environment 210, and the resource circulation amount big data 312 that data the amount of by-products generated by the reprocessing of the waste resources ), The operation status of the facility in which the operation status of the facility according to the operation of the treatment center 220 and the fuelization facility A is generated 313 and the by-products generated from the treatment center 220 and the fuelization facility A. The remote reading data 314 obtained by reading the amount is converted into data.

As described above, the networking target unit 200 and the monitoring target unit 300 can exchange and analyze data with each other organically and monitor the data, thereby efficiently managing and supervising waste resources generated in the city. There is this.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below It can be done.

10. Sewer drain pipe 20. Manure drain pipe
30. Food waste crusher 40. Food waste discharge pipe
50. Sewage treatment means 60. Bio treatment means
70. Power Generation 80. Water Supply Pipe
90. Sewage measuring means 100. Manure measuring means
110. Control means 200. Networking subject
300. Target of monitoring

Claims (6)

Sewage discharge pipe (10) connected to each household (1) or shopping district sewer (4) to discharge sewage, manure discharge pipe (20) for discharging manure, and the amount of food waste pulverized and crushed food waste In the integrated waste resources smart recycling integrated management system for managing the waste resources discharged through the food waste discharge pipe 40 discharged through the food waste grinder 30, the integrated management system is
A sewage treatment means 50 connected to the sewage discharge pipe 10 to purify the sewage discharged through the sewage discharge pipe 10 and supply it to the storage tank 51;
It is connected to the manure discharge pipe 20 and the food waste discharge pipe 40 to process the manure and food waste, and the biogas and compost generated while processing the manure and food waste to the gas tank 61 and the compost storage tank 62 Bio-processing means for storing (60),
Power generation means (70) connected to the gas tank (61) to generate power using biogas stored in the gas tank (61), and electricity connected to the power generation means (70) and generated in the power generation means (70). It includes an electric vehicle charger 71 for charging the electric vehicle using,
The toilet 6 is connected to the storage tank 51 and the toilet 6 provided in each home 1 or the restroom of the shopping mall, and a water supply pump 81 is provided at an intermediate portion to provide water to the toilet 6. Further comprising a water supply pipe (80) for supplying,
A sewage amount measuring means (90) connected to the sewage discharge pipe (10) for measuring the amount of sewage discharged from each home (1) or a mall;
A manure amount measuring means (100) connected to each of the households (1) or the mall to measure the amount of manure discharged from the toilet,
Control means 110 is constructed to store the amount of sewage and the amount of manure and the amount of food waste measured by the sewage measuring means 90 and the manure amount measuring means 100 and the food waste crusher 30 is built (110) ),
It includes a networking target unit 200 and the monitoring target unit 300 for exchanging and analyzing data with each other, and monitoring and managing waste resources.
The networking target unit 200 is
Waste resources are discharged through a living environment (210) consisting of a home (1) or a shopping mall, and a discharge pipe including a sewage discharge pipe (10), a manure discharge pipe (20), and a food waste discharge pipe (40) connected from the living environment (210). The treatment center 220 that is collected and processed, and the collecting facility 230 that collects and collects the waste resources processed from the treatment center 220 are combined with the fueling facility A, respectively, to the fueling facility A. Waste material is reprocessed and by-products are produced,
The data 310 measured and generated from the networking target unit 200 is stored in a separate storage facility further comprises a monitoring target unit 300 is a real-time monitoring and data analysis,
The data 310 is
The waste resource generation amount 311 which data-generates the amount of waste resources collected in the living environment 210, the resource circulation big data 312 which dataizes the amount of by-products generated by reprocessing the waste resources, and the processing center ( 220) and the operation status of the facility in accordance with the operation of the fueling facility (A) data (313), and the amount of by-products generated in the processing center 220 and the fueling facility (A) by reading the data Waste resource smart recycling integrated management system comprising a remote reading data (314).
The method of claim 1,
The bio processing means 60 is
Fermentation treatment of manure or food waste to generate methane gas, and stores the generated methane gas in the gas tank 61, the power generation means 70 is a fuel for generating electricity using the methane gas Waste resources smart recycling integrated management system, characterized in that using a battery.
The method of claim 1,
The food waste crusher 30
It is configured to extend in the vertical direction, the upper and lower ends are respectively formed with the inlet 31a and the outlet 31b, the lower inner peripheral surface is formed so that the locking projection 31c protrudes inward, each sink (1) or the sink provided in the mall A main body 31 installed at an outlet 3a of (3) and connected to the food waste discharge pipe 40 at a lower end thereof;
A crushing blade 32 provided above the main body 31 and driven by a driving motor 32a to crush food waste introduced into the inlet 31a;
A control switch 33 provided at one side of the sink 3 to allow the user to drive the driving motor 32a;
A cover 34 coupled to an upper end of the main body 31 to open and close an upper end of the main body 31;
An upper end of which is formed in a cylindrical shape and is coupled to the inner lower side of the main body 31 so as to be lifted and collected to collect the food waste crushed by the grinding blade 32;
A weight measuring means 36 connected to the collecting container 35 and measuring the weight of the food waste collected in the collecting container 35;
A cover detecting means 37 provided at an upper end of the main body 31 to detect that the cover 34 is coupled to an upper end of the main body 31;
The water provided in the main body 31 to be positioned above the grinding blade 32, the water supply pipe 80 is connected and operated by the control means 110, the water supplied through the water supply pipe (80) To the inside of the main body 31 includes a washing nozzle 38 for washing the main body 31 and the grinding blade 32,
The collector 35 is
An elevating pipe body 35a having an upper and lower ends formed in a tubular shape, the elevating pipe body 35a being coupled to the elevating body of the main body 31;
A damper (35b) provided at the lower end of the elevating pipe (35a) and operated by the control means (110) to open and close the lower end of the elevating pipe (35a);
The lifting pipe (35a) includes a protruding jaw (35c) is caught on the upper surface of the locking jaw (31c) on the outer peripheral surface of the intermediate portion,
The control means 110 is connected to the control switch 33, the cover detecting means 37 and the weighing means 36 so that the user turns on the control switch 33 and is supplied into the main body 31. When the control switch 33 is turned off after crushing the food waste, the signal of the weighing means 36 is received and the weight of the food waste crushed by the food waste crusher 30 is measured, and the user covers the cover. When the 34 is coupled to the main body 31 to close the upper end of the main body 31, the washing nozzle 38 is opened to inject water into the main body 31 to crush the inside of the main body 31 and the grinding blade. The waste resources smart recycling integrated management, characterized in that the (32) and at the same time to open the damper (35b) so that the food waste collected in the collecting container 35 is discharged to the food waste discharge pipe (40). system.
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