KR102064932B1 - System and management server for food waste disposal based on internet of things - Google Patents

Abstract

An IoT-based food waste processing system, a management server, and an operation method thereof are disclosed. The IoT-based food waste processing system is installed in the household, the food waste processing unit for crushing and discharging the input food waste into the pipe, connected to the food waste processing unit, the food waste processing unit according to a user input or an external signal IoT smart power unit for determining whether to supply power, and transmits the power supply status signal corresponding to the power supply to the outside, the pipe connected to the pipe, and select the discharge path of the sewage or food waste supplied through the pipe A food waste separator for separating food waste discharged through the pipe selection unit from water and discharging the separated water to a sewer pipe, a food waste storage unit for storing food waste discharged from the food waste separator, and All received from the IoT smart power unit It characterized in that it comprises a management server for controlling the operation state of the pipe selector and the food waste separation unit according to the original supply state signal.

Description

IoT-based food waste disposal system, management server and its operation method {SYSTEM AND MANAGEMENT SERVER FOR FOOD WASTE DISPOSAL BASED ON INTERNET OF THINGS}

The present invention relates to an IoT-based food waste processing system, a management server, and an operation method thereof, and in particular, to recognize the food waste discharge status of each generation through the IoT technology, thereby controlling the pipe selection unit and the food waste separation unit to control energy of food waste. The present invention relates to an IoT-based food waste processing system, a management server, and a method of operating the same.

Since food waste occurs every day in apartments or houses, it is necessary to go out of food waste periodically and there is an uncomfortable smell of food waste.

In order to alleviate this inconvenience, a conventional kitchen crusher (disposer) for crushing food waste and immediately discharging it to a sewer pipe has been used. However, such a conventional kitchen crusher can only discharge a portion of the solids (for example, 20%) into the pipe, and the rest must be discarded separately. Increasing the amount of discharge into the pipe will cause clogging problems.

In addition, if the kitchen waste in the kitchen together with the water in the kitchen waste treatment pipes, the food waste is stored in the basement and then using a solid-liquid separator is also known a technology for separating food waste. However, such a conventional technology also has the disadvantage that excessive labor costs for construction and maintenance are required to install a bulky multi-unit housing tank, solid-liquid separator, fermentation and extinction device, operation panel, etc. Odor is caused by the decay of food waste in the device, and the use of a large motor of the solid-liquid separator and a pump to pump water from the reservoir installed below the sewer pipe has had a problem of increasing energy consumption. Therefore, there is a demand for a food waste disposal method that can solve this problem.

The present invention is to solve the above problems, IoT-based food that can increase the energy efficiency of food processing by controlling the pipe selector and the food waste separation unit by recognizing the food waste discharge state of each generation through the IoT technology An object of the present invention is to provide a garbage disposal system, a management server, and an operation method thereof.

In order to achieve the above object, the IoT-based food waste processing system according to an embodiment of the present invention, the food waste processing unit is installed in the household, the food waste processing unit for pulverizing and discharged into the pipe, the food waste processing unit An IoT smart power unit connected to the food waste processor, determining whether to supply power to the food waste processing unit according to a user input or an external signal, and transmitting a power supply state signal corresponding to the power supply to the outside; Piping selection unit for selecting the discharge path of the sewage or food waste supplied through the pipe, food waste separated from the water discharged through the pipe selection unit and the food waste separation unit for discharging the separated water to the sewer pipe, the food waste Food storing food waste discharged from separator Garbage storage unit, and characterized in that it comprises a management server for controlling the operation state of the pipe selector and food waste separation unit in accordance with the power supply state signal received from the IoT smart power supply.

In order to achieve the above object, the IoT-based food waste processing system according to another embodiment of the present invention, installed in the household, to crush the input food waste is discharged to the pipe, the current state of the food waste crushing operation IoT food waste processing unit for transmitting an operation state signal corresponding to the outside, a pipe selection unit connected to the pipe, selecting a discharge path of the sewage or food waste supplied through the pipe, food discharged through the pipe selection unit A food waste separation unit for separating garbage from water and discharging the separated water to a sewer pipe, a food waste storage unit for storing food waste discharged from the food waste separation unit, and an operation state signal transmitted from the IoT food waste processing unit According to the pipe selector and food waste separation unit Characterized in that it comprises a management server for controlling the operation state of the.

Preferably, the management server, the at least one of the power supply status signal received from the IoT smart power supply unit or the operation status signal received from the IoT food waste processing unit determines the number of food waste processing unit operating in each generation, The operation speed of the food waste separator may be controlled according to the determined number of food waste disposal units.

Preferably, the food waste separator includes a plurality of separators respectively connected to the pipe to separate the food waste from water, and the pipe selector includes a plurality of pipe valves respectively corresponding to the plurality of separators. The management server determines the number of food waste processing units operating in each household according to at least one of a power supply state signal transmitted from an IoT smart power unit or an operation state signal received from an IoT food waste processing unit. The operation state of the plurality of pipe valves and the plurality of separators may be controlled according to the number of food waste treatment units.

Preferably, the food waste storage unit, the food waste state detection unit for detecting the amount of food waste contained in the food waste storage unit, and the amount of food waste detected by the food waste state detection unit in the management server or manager It may include a food waste state transmission unit for transmitting to the terminal.

In order to achieve the above object, the operation method of the IoT-based food waste management server according to an embodiment of the present invention, the server communication unit receives a power supply status signal from the IoT smart power supply, the pipe selection control unit Generating a pipe selector control signal for controlling the operation state of the pipe selector according to the power supply state signal received from the IoT smart power unit, the food waste separation control the food waste according to the power supply state signal received from the IoT smart power unit Generating a food waste separator control signal for controlling an operation state of the separator; and the server communication unit transmits the pipe selector control signal and the food waste separator control signal to the pipe selector and the food waste separator, respectively. Characterized in that it comprises a step of The.

In order to achieve the above object, a computer-readable recording medium according to an embodiment of the present invention, a computer-readable recording medium that stores a program for performing the operation method of the IoT-based food waste management management server It is characterized by that.

In order to achieve the above object, the IoT-based food waste management server according to an embodiment of the present invention, receiving the power supply status signal from the IoT smart power supply, the pipe selector control signal and food waste separation control signal A server communication unit for transmitting a pipe selector and a food waste separation unit, and a pipe selector control signal for controlling an operation state of the pipe selector according to a power supply state signal received from the IoT smart power supply unit and generating a control signal through the server communication unit. A food waste separation unit control signal for controlling an operation state of the food waste separation unit according to a pipe selection control unit for transmitting to the pipe selection unit, and a power supply state signal received from the IoT smart power unit, and the food and beverage through the server communication unit; Well sent to the garbage separator It characterized in that it comprises a plant waste separation control unit.

Preferably, the food waste separation control unit determines the number of food waste processing units operating in each generation according to the power supply state signal received from the IoT smart power unit, and the food waste according to the determined number of food waste processing units The operation speed of the garbage separator can be controlled.

Preferably, the food waste separating unit includes a plurality of separators connected to pipes from which food waste is discharged from each household, and separating the food waste from water, and the pipe selection unit corresponding to each of the plurality of separators. And a plurality of piping valves, wherein the pipe selection control unit is configured to operate the plurality of piping valves so as to correspond to the number of food waste processing units operating in each generation determined according to a power supply state signal received from the IoT smart power supply unit. The food waste separation control unit may control an operation state of the plurality of separators so as to correspond to the number of food waste processing units operating in each generation determined according to a power supply state signal received from the IoT smart power unit. Can be.

Preferably, the pipe selection control unit and the food waste separation control unit, the position of the household that transmitted the power supply state signal and the time that the food waste discharged from each household reaches the piping selection unit or the food waste separation unit. Reflecting at least one of the pipe selector control signal and the food waste separator control signal may be generated respectively.

Preferably, the server communication unit receives the amount of food waste contained in the food waste storage unit from the food waste storage unit, the IoT-based food waste processing management server, the amount of food waste accommodated in the food waste storage unit The food waste collection signal may be further generated, and the food waste storage management unit may transmit the food waste collection signal to an administrator terminal through the server communication unit.

The IoT-based food waste processing system, the management server, and the operation method according to the present invention as described above, by recognizing the state of food waste discharge of each generation through the IoT technology to control the pipe selection unit and food waste separation unit of the food waste processing There is an effect that can increase the energy efficiency.

IoT-based food waste processing system, management server and its operation method according to the present invention, because the food waste separation unit and the storage unit can be implemented in a small size, it is possible to install the food waste separation unit and storage unit higher than the city sewer pipe Since the sewage can be immediately drained into the sewer pipe, there is no need for a separate pump, thereby saving energy.

IoT-based food waste processing system, management server and its operation method according to the present invention, because it does not need to include a large storage tank, solid-liquid separator, fermentation and extinction device, less construction cost, it can also remove the smell due to food corruption It has an effect.

1 is a view showing an IoT-based food waste processing system according to an embodiment of the present invention.
2 is a view showing an IoT-based food waste processing management server according to an embodiment of the present invention.
3 is a view showing a pipe selector and a food waste separation unit of the IoT-based food waste processing system according to another embodiment of the present invention.
4 is a flowchart illustrating a method of operating an IoT-based food waste processing management server according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in describing the embodiments of the present invention, when it is determined that the detailed description of the related well-known configuration or function interferes with the understanding of the embodiments of the present invention, the detailed description thereof will be omitted. In addition, embodiments of the present invention will be described below, but the technical idea of the present invention is not limited thereto and may be variously modified and implemented by those skilled in the art.

Throughout the specification, when a part is "connected" to another part, this includes not only "directly connected" but also "indirectly connected" with another element in between. . Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, except to exclude other components unless specifically stated otherwise.

1 is a view showing an IoT-based food waste processing system according to an embodiment of the present invention. 1, the IoT-based food waste processing system 1000 according to an embodiment of the present invention is a food waste processing unit (120, 130) installed in each generation (100_1, 100_2, 100_3) of the building 100, IoT smart power supply (125, 135) and IoT food waste processing unit 110, and may include a pipe selection unit 200, a food waste separation unit 300, a food waste storage unit 400 is installed underground. can do. In addition, the IoT-based food waste processing system 1000 according to an embodiment of the present invention, the management server 500 and the manager terminal 700 to communicate with the IoT smart power source (125, 135) and the like using the wired and wireless communication network 600. It may further include.

The building 100 may be defined as various buildings such as a group building, an officetel, a hotel, as well as a common house such as an apartment. In FIG. 1, there are three generations 100_1, 100_2, and 100_3 in the building 100, but the number of generations included in the building 100 may be variously changed.

Each household (100_1, 100_2, 100_3) may include a food waste processing unit (120, 130) and IoT smart power supply unit (125, 135), or may be provided with an IoT food waste processing unit (110). Pipe P may be connected to each generation (100_1, 100_2, 100_3), in some embodiments, the pipe (P) may be connected by line in a building, such as an apartment.

The food waste treatment units 120 and 130 are installed in the generations 100_2 and 100_3, and may crush the injected food waste into the pipe P. As one example, the food waste processing unit (120, 130) may be discharged by crushing the food waste finely by rotating the impeller inside. Power may be supplied from the IoT smart power supply units 125 and 135 to the food waste processing units 120 and 130 by connecting the power plugs provided in the food waste processing units 120 and 130 to the IoT smart power supply units 125 and 135.

The IoT smart power supply units 125 and 135 may be connected to the food waste processing units 120 and 130, and may determine whether to supply power to the food waste processing units 120 and 130 according to a user input or an external signal. As an example, the IoT smart power supply units 125 and 135 may include a plug that can be coupled to an existing power outlet and an outlet to which a plug of another electronic device can be coupled. The IoT smart power supply units 125 and 135 may include an interface device existing externally and determine whether the power is on or off according to a user input through the interface device. In addition, the IoT smart power supply units 125 and 135 may include an Internet of Things (IoT) function to determine whether the power is on or off according to an external signal transmitted from the outside. Here, the Internet of Things refers to a technology in which a sensor is attached to an object to exchange data in real time through a communication network.

The IoT smart power supply unit 125 or 135 may transmit a power supply state signal corresponding to whether the power supply to the food waste processing unit 120 or 130 is supplied to the outside. That is, the IoT smart power supply unit 125, 135 transmits a power supply state signal indicating whether power is supplied to the food waste processing unit 120, 130 through the wired / wireless communication network 600, the management server 500 or the manager terminal 700. ) And so on.

The IoT food waste processing unit 110 may be a component in which an IoT function is additionally embedded in the existing food waste processing units 120 and 130. The IoT food waste processing unit 110 may also be installed in the generation 100_1, and may dispose the input food waste into the pipe P. The IoT food waste processing unit 110 may generate and transmit an operation state signal corresponding to the current state of the food waste crushing operation. The operation state signal is a signal indicating whether the IoT food waste processing unit 110 is currently performing a food waste grinding operation, and may be transmitted to the management server 500 or the manager terminal 700 through the wired / wireless communication network 600. have. The operation state signal may include information on the frequency and intensity of the food waste crushing operation performed by the IoT food waste processing unit 110. According to an embodiment, the IoT food waste processing unit 110 may generate a power supply state signal of the IoT food waste processing unit 110 and transmit it to the outside.

The food waste processed by the food waste processing unit 120 or 130 or the IoT food waste processing unit 110 and discharged to the pipe P may reach the pipe selection unit 200.

The pipe selector 200 may be connected to the pipe P and may select a discharge path of sewage or food waste supplied through the pipe P. That is, the pipe selector 200 is to discharge the sewage and food waste from the building 100 directly through the pipe (P) under the control of the management server 500 or the manager terminal 700 to the sewage pipe. Or it may be determined whether to pass the food waste separation unit 300. As an example, the pipe selection unit 200 may be implemented as a valve that can change the path of the dirt flowing through the pipe (P).

When the food waste processing unit 120, 130 or the IoT food waste processing unit 110 does not operate in each generation 100_1, 100_2, and 100_3, only water such as sewage flows down through the pipe P. 200 may determine the discharge path so that the water is discharged directly to the sewer. If, in each household (100_1, 100_2, 100_3), the food waste processing unit 120, 130 or IoT food waste processing unit 110 is in operation, the food waste will come down through the pipe (P), so the pipe selection unit 200 The pipe route may be determined so that the food waste may be injected into the food waste separating unit 300.

The food waste separation unit 300 may separate the food waste discharged through the pipe selection unit 200 from the water, and discharge the separated water into the sewage pipe. The food waste separating unit 300 may discharge the food waste separated from the water to the food waste storage unit 400. The food waste separating unit 300 may be controlled by the management server 500 or the manager terminal 700 whether the power is on / off and whether the food waste separating operation is performed. According to an embodiment, the food waste separation unit 300 may also be connected to the same configuration as the IoT smart power supply (125, 135), IoT function is built-in may communicate with the management server 500 through the wired or wireless communication network 600 have.

As one example, the food waste separation unit 300 may be implemented as a solid-liquid separator of the form, such as green juice. Food waste separation unit 300 can be processed immediately without storing even if the amount of sewage and food waste increases.

The food waste storage unit 400 may store the food waste discharged from the food waste separation unit 300. As an example, the food waste storage unit 400 may be implemented as a small storage tank and the size may be changed in various ways. In the case of an apartment, since the time for simultaneously using the food waste treatment unit for each line is small, the food waste storage unit 400 may be implemented as a small storage tank.

The food waste storage unit 400 may include a food waste state detection unit 410 and a food waste state transmission unit 420. The food waste state detection unit 410 may detect the amount of food waste contained in the food waste storage unit 400. The food waste state detecting unit 410 may be implemented as various types of sensors capable of detecting the amount of food waste, such as an infrared sensor or a weight sensor. The food waste state transmitting unit 420 may transmit the amount of food waste detected by the food waste state detecting unit 410 to the management server 500 or the manager terminal 700. The food waste state transmitter 420 may have a built-in IoT function.

According to an embodiment, the food waste storage unit 400 may further include an odor preventing device (not shown). The odor preventing device may reduce or prevent the smell of food waste stored in the food waste storage unit 400, and transmit the current odor state information to the management server 500 or the manager terminal through the food waste state transmitter 420. 700).

The IoT-based food waste management server 500 may select a pipe selection unit according to at least one of a power supply state signal received from the IoT smart power supply units 125 and 135 or an operation state signal transmitted from the IoT food waste processing unit 110. 200 and the operation state of the food waste separation unit 300 can be controlled. That is, the management server 500 analyzes at least one of a power supply state signal transmitted from the IoT smart power supply units 125 and 135 or an operation state signal transmitted from the IoT food waste processing unit 110 to generate each generation 100_1, 100_2, In operation 100_3, it may be determined whether the food waste is processed by the food waste processing units 110, 120, and 130 to be discharged to the pipe P.

When the food waste processing unit 120, 130 or the IoT food waste processing unit 110 of each household (100_1, 100_2, 100_3) does not operate at all, only the water such as sewage flows down through the pipe (P), thus processing IoT-based food waste. The management server 500 may control the discharge path of the pipe selector 200 to directly face the sewer pipe. When the food waste processing unit 120, 130 or the IoT food waste processing unit 110 of each household 100_1, 100_2, 100_3 is in operation, the food waste crushed product comes down through the pipe P. The discharge path of the 200 may be controlled to face the food waste separation unit 300. In this case, the management server 500 may control the food waste separator 300 to operate so that the food waste discharged from the pipe selector 200 is separated from the water.

According to an embodiment, the management server 500 operates in each generation according to at least one of a power supply state signal transmitted from the IoT smart power supply units 125 and 135 or an operation state signal transmitted from the IoT food waste processing unit 110. The number of the food waste disposal units 110, 120, and 130 being used may be determined, and the operation speed of the food waste separation unit 300 may be controlled according to the determined number of the food waste disposal units 110, 120, and 130. That is, the management server 500 controls the food waste separating unit 300 to operate at a low speed when the food waste processing unit operates only in one household, and the food waste separating unit (if the food waste processing unit operates in several households) ( It is possible to control the operation speed of 300) faster. The management server 500 is implemented on a cloud basis and may be accessible through various terminals. A more detailed description of the configuration and operation of the management server 500 will be described in detail with reference to FIGS. 2 to 4.

The wired / wireless communication network 600 is a communication network capable of IoT communication, and may be configured without any particular communication mode, and may include a personal area network (PAN), a local area network (LAN), It may be configured with various communication networks such as Metropolitan Area Network (MAN) and Wide Area Network (WAN). In addition, the wired / wireless communication network 600 may be a well-known World Wide Web (WWW), and may use a wireless transmission technology used for short-range communication such as infrared (IrDA) or Bluetooth (Bluetooth). It may be. Since the wired / wireless communication network 600 is well known to those skilled in the art, a detailed description thereof will be omitted.

The manager terminal 700 may be various types of terminals or electronic devices capable of data communication in a wired or wireless manner such as a user computer (PC), a mobile phone, a smartphone, a tablet PC, and the like, and variously changed in a range known to those skilled in the art. Can be. The manager can know the state of the food waste storage unit 400 through the manager terminal 700, and can know the food waste disposal status of each household.

IoT-based food waste processing system 1000 according to an embodiment of the present invention, when the food waste processing unit (110, 120, 130) installed in each generation (100_1, 100_2, 100_3) does not operate but discards only the water in the sink The pipe selector 200 may bypass the pipe path to immediately discharge water to the city sewer pipe, and power may be supplied to the food waste treatment units 110, 120, and 130 installed in each generation 100_1, 100_2, and 100_3. Only during the operation time, the management server 500 may operate the food waste separation unit 300.

The IoT-based food waste processing system 1000 according to an embodiment of the present invention does not need to separate all the sewage from the food waste separating unit 300 and the food waste processing unit 110, 120, which can be known by the IoT function. Since the food waste separating unit 300 only needs to operate during the operation time of 130, there is an advantage that both the food waste separating unit 300 and the storage unit 400 can be miniaturized. IoT-based food waste processing system 1000 according to an embodiment of the present invention, since the food waste separation unit 300 and the storage unit 400 can be implemented in a small size, the food waste separation unit 300 and the storage unit ( 400) can be installed above the city sewer pipe, it is possible to immediately drain the sewage into the sewer pipe without a separate pump has the effect of saving energy.

Since the IoT-based food waste processing system 1000 according to an embodiment of the present invention can know the time of driving the food waste processing units 110, 120, and 130 in each household, the food waste processing for each household according to the driving time. It is possible to share costs differently.

On the other hand, Figure 1 is shown that the pipe selection unit 200, food waste separation unit 300, food waste storage unit 400 is installed underground, but this is an exemplary installation location may be changed in various ways.

2 is a view showing an IoT-based food waste processing management server according to an embodiment of the present invention. 2, the IoT-based food waste management server 500 according to an embodiment of the present invention may include a server communication unit 510 and a server control unit 530.

The server communication unit 510 transmits the IoT smart power supply units 125 and 135, the IoT food waste processing unit 110, the pipe selection unit 200, the food waste separation unit 300, and the food waste state through the wired / wireless communication network 600. Data communication with the unit 420 may be performed. The server communication unit 510 may receive a power supply state signal from the IoT smart power supply units 125 and 135, or may receive an operation state signal from the IoT food waste processing unit 110. The server communication unit 510 may transmit the pipe selector control signal and the food waste separator control signal to the pipe selector 200 and the food waste separator 300, respectively.

The server control unit 530 is a component that controls the overall operation of the IoT-based food waste management server 500 according to an embodiment of the present invention, the pipe selection control unit 531, food waste separation control unit 533, food The garbage storage management unit 535 may be included.

The pipe selection controller 531 may operate the pipe selection unit 200 according to at least one of a power supply state signal received from the IoT smart power supply units 125 and 135 or an operation state signal received from the IoT food waste processing unit 110. A pipe selector control signal for controlling the state can be generated. The pipe selector control signal may be transmitted to the pipe selector 200 through the server communication unit 510.

The food waste separation control unit 533 may control the food waste separation unit 300 according to at least one of a power supply state signal received from the IoT smart power supply units 125 and 135 or an operation state signal transmitted from the IoT food waste processing unit 110. The food waste separation unit control signal for controlling the operation state of the can be generated. The food waste separator control signal may be transmitted to the food waste separator 300 through the server communication unit 510.

The food waste separation control unit 533 is based on at least one of a power supply state signal transmitted from the IoT smart power supply units 125 and 135 or an operation state signal transmitted from the IoT food waste processing unit 110. Determine the number of food waste processing unit (110, 120, 130) in operation, and can control the operation speed of the food waste separation unit 533 according to the determined number of food waste processing unit.

According to the embodiment, the pipe selection control unit 531 and the food waste separation control unit 533 is the position and height of the household where the food waste processing unit 110, 120, 130 is operating, the pipe selection unit 200 or food waste from the household The pipe selector 200 and the food waste separation unit 300 may be controlled by reflecting the distance to the separation unit 300. That is, the pipe selection control unit 531 and the food waste separation control unit 533 are the location of the household that transmitted the power supply state signal or the operation state signal and the food waste discharged from each household is the pipe selection unit 200 or the food waste. The pipe selection unit control signal and the food waste separation unit control signal may be generated by reflecting at least one of the times reaching the separation unit 300.

Since the IoT smart power supply units 125 and 135 and the IoT food waste processing unit 110 may be identified from each other using a protocol such as IPv6 (internet protocol version 6), the pipe selection control unit 531 and the food waste separation control unit 533. When the power supply status signal or the operation status signal is received, the food waste processing unit 110, 120, or 130 may know which food waste is discharged from which generation. As an example, the food waste processing unit 130 of the third-floor generation (100_3) is less than the time when the food waste discharged by the IoT food waste processing unit (110) of the first-floor generation (100_1) reaches the pipe selection unit (200). Since the food waste discharged by the operation to reach the pipe selection unit 200 will be longer, the pipe selection control unit 531 and the food waste separation control unit 533 may be piped according to the position and height of the household where the food waste discharge is performed. The operation start time of the selection unit 200 and the food waste separation unit 300 may be adjusted differently. Through this, the IoT-based food waste management server 500 according to an embodiment of the present invention can minimize the operation time of the pipe selection unit 200 and the food waste separation unit 300, in particular in high-rise buildings Energy savings are possible.

In addition, according to the embodiment, the pipe selection control unit 531 and the food waste separation control unit 533, when the food waste is discharged from several generations, the pipe selection based on the shortest time of the time that the food waste arrives from each generation The unit 200 and the food waste separation unit 300 may be controlled to operate. When all of the food waste discharged from several generations reaches the pipe selector 200 or the food waste separation unit 300, the food waste separation control unit 533 further increases the operation speed of the food waste separation unit 300. Can be.

On the other hand, the server communication unit 510 may receive the amount of food waste contained in the food waste storage unit 400 from the food waste storage unit 400, the food waste storage management unit 535, the food waste storage unit 400 The food waste collection signal may be generated according to the amount of food waste contained in). The food waste collection signal may be transmitted to the manager terminal 700 through the server communication unit 510.

For example, in the case of an apartment, since the amount of daily food waste per line is not large, the manager may basically collect the food waste from the food waste storage unit 400 once a day. However, since there may be a case where the food waste is suddenly increased than usual, the food waste through the food waste collection signal transmitted to the manager terminal 700 has an advantage that the manager can know whether it is time to collect food waste. The collected food waste may be transferred to a food drying device or a food weighting device for final disposal.

In addition, according to an embodiment, when the food waste storage unit 400 receives the smell state of the food waste from the food storage unit 400, the food waste storage unit 400 may monitor and transmit the smell state to the manager terminal 700 in real time.

3 is a view showing a pipe selector and a food waste separation unit of the IoT-based food waste processing system according to another embodiment of the present invention. Referring to FIG. 3, the pipe selector 200 may include a plurality of pipe valves 210, 220, 230, and 240, and the food waste separator 300 may include a plurality of separators 310, 320, and 330. It may include.

The plurality of pipe valves 210, 220, and 230 may correspond to the plurality of separators 310, 320, and 330, respectively, and a fourth pipe valve 240 may be separately provided to bypass water to the sewer pipe. .

The plurality of separators 310, 320, and 330 may be connected to pipes P through which food waste is discharged from each household, respectively, to separate food waste from water. The plurality of separators 310, 320, and 330 may separate the food waste discharged through each pipe valve 210 from water and discharge the separated water into the sewer pipe. Food wastes discharged from the plurality of separators 310, 320, and 330 may be stored in the food waste storage unit 400.

The pipe selection control unit 531 and the food waste separation control unit 533 may be configured according to at least one of a power supply state signal transmitted from the IoT smart power supply units 125 and 135 or an operation state signal transmitted from the IoT food waste processing unit 110. It is possible to determine the number of food waste treatment units operating in each household. The pipe selection control unit 531 may control an operation state of the plurality of pipe valves 210, 220, 230, and 240 so as to correspond to the number of food waste treatment units operating in each generation, and the food waste separation control unit 533 may An operation state of the plurality of separators 310, 320, and 330 may be controlled to correspond to the number of food waste processing units operating in each household.

For example, when all households connected to the pipe P do not discharge food waste, the first pipe valve 210, the second pipe valve 220, and the third pipe valve 230 may all be closed. Only the four pipe valve 240 can be opened. Accordingly, the sewage discharged through the pipe P may be discharged directly to the sewage pipe without passing through the food waste separation unit 300.

If the food waste is discharged only in one household, only the first pipe valve 210 may be opened and the remaining pipe valves 220, 230, and 240 may be closed. In this case, only the first separator 310 may be operated and food waste and water may be separated by the first separator 310 to process food waste. When the food waste is discharged from the two generations, the first pipe valve 210 and the second pipe valve 220 may be opened, and only the first separator 310 and the second separator 320 may be operated. In the same principle, when food waste is discharged from three generations, the first to third pipe valves 210, 220, and 230 may be opened, and the first to third separators 310, 320, and 330 may be operated. have.

As such, the plurality of pipe valves 210, 220, 230, and 240 and the plurality of separators 310, 320, and 330 may operate sequentially and variably according to the simultaneous usage of the food waste treatment unit. Therefore, in the IoT-based food waste processing system according to another embodiment of the present invention, when the food waste is discharged at the same time in several generations, the plurality of separators 310, 320, and 330 may all operate, so that the pipe P may be used. You can prevent clogging due to food waste. In addition, according to the embodiment, the food waste separation control unit 533 is equally distributed to each other the operating time of the plurality of separators 310, 320, 330 according to the discharge situation of the food waste, any one separator is excessively operated It can prevent damage.

IoT-based food waste treatment system according to another embodiment of the present invention is provided with a plurality of pipe valves (210, 220, 230, 240) and a plurality of separators (310, 320, 330), even if any one of the failure It is easy to maintain and can control the operation of the plurality of separators 310, 320, 330 according to the discharge of food waste has an excellent energy saving effect.

Meanwhile, the number of pipe valves included in the pipe selection unit 200 and the number of separators included in the food waste separator 300 according to another embodiment of the present invention may be variously changed. have.

4 is a flowchart illustrating a method of operating an IoT-based food waste processing management server according to an embodiment of the present invention. Operation method 2000 of the IoT-based food waste processing management server according to an embodiment of the present invention shown in Figure 4 is an IoT-based food waste processing management server according to an embodiment of the present invention described above with reference to FIG. 500).

Referring to FIG. 6, in the method 2000 of operating an IoT-based food waste management server according to an embodiment of the present invention, the server communication unit 510 transmits a power supply state signal from the IoT smart power supply units 125 and 135. Receiving step (S21) may be included. As an example, the IoT smart power supply unit 125, 135 may periodically transmit a power supply status signal indicating whether power is supplied to the food waste processing unit 120, 130 to the server communication unit 510, or the power supply may change. The server may be transmitted to the server communication unit 510 at this point.

Next, the operation method 2000 of the IoT-based food waste management server according to an embodiment of the present invention, the pipe selection control unit 531 according to the power supply status signals received from the IoT smart power supply unit (125, 135) And generating a pipe selector control signal for controlling an operation state of the pipe selector 200 (S22). As described above with reference to Figures 1 to 3, the pipe selection control unit 531 is a food waste processing unit 110, 120, which is operating in each generation in accordance with the power supply status signal received from the IoT smart power supply (125, 135) The number of 130 may be determined, and the pipe selector 200 may be controlled according to the determined number of food waste treatment units 110, 120, and 130.

Next, the operation method 2000 of the IoT-based food waste management management server according to an embodiment of the present invention, the food waste separation control unit 533 to the power supply status signals received from the IoT smart power supply (125, 135) Accordingly, the method may include generating a food waste separator control signal for controlling an operation state of the food waste separator 300 (S23). As described above with reference to FIGS. 1 to 3, the food waste separation control unit 533 is a food waste processing unit 110 and 120 operating in each generation according to a power supply state signal received from the IoT smart power supply units 125 and 135. , 130 may be determined, and the food waste separating unit 300 may be controlled according to the determined number of food waste processing units 110, 120, and 130.

Next, the operation method 2000 of the IoT-based food waste management management server according to an embodiment of the present invention, the server communication unit 510 is the pipe selection unit control signal and the food waste separation unit control signal pipe selection unit 200 and the food waste separation unit 300 may include transmitting (S24), respectively. The pipe selector 200 and the food waste separator 300 may operate according to the received pipe selector control signal and the food waste separator control signal.

On the other hand, the operation method 2000 of the IoT-based food waste processing management server according to an embodiment of the present invention, the operation received from the IoT food waste processing unit 110 in addition to the power supply status signal from the IoT smart power supply (125, 135) It can also operate based on status signals. In addition, other operations of the IoT-based food waste processing management server 500 according to an embodiment of the present invention described above with reference to FIGS. 1 to 3 may be added to the steps shown in FIG. 4. The order of steps illustrated in FIG. 4 is exemplary, and the order of the present invention may be variously changed or combined without departing from the effects of the present invention, and certain steps may be omitted according to embodiments.

On the other hand, the operation method of the IoT-based food waste management server according to the present invention can be performed by a computer-readable recording medium recorded a program for performing the operation method of the IoT-based food waste management server as described above. have. In addition, the operation method of the IoT-based food waste management server according to the present invention is coupled to the hardware, the computer stored in the medium to execute the operation method of the IoT-based food waste processing management server described above with reference to FIGS. Can be performed by a program. It is possible to implement the operation method of the IoT-based food waste management management server according to the present invention as a computer-readable code on a computer-readable recording medium. Computer-readable recording media include any type of recording device that stores data that can be read by a computer system. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, and floppy. Disk, optical data storage, and the like. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

Various embodiments described herein can be implemented by hardware, middleware, microcode, software, and / or combinations thereof. For example, various embodiments may include one or more application specific semiconductors (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs). ), Processors, controllers, microcontrollers, microprocessors, other electronic units designed to perform the functions presented herein, or a combination thereof.

Also, for example, various embodiments may be embedded in or encoded on a computer-readable medium containing instructions. Instructions embedded in or encoded on a computer-readable medium may cause a programmable processor or other processor to perform a method, for example, when the instructions are executed. Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. The storage medium may be any available medium that can be accessed by a computer. For example, such computer-readable media may include RAM, ROM, EEPROM, CD-ROM, or other optical disk storage media, magnetic disk storage media or other magnetic storage devices, or instructions for accessing the desired program code by a computer or It can include any other medium that can be used to carry or store in the form of data structures.

Such hardware, software, firmware, etc. may be implemented within the same device or within separate devices to support the various operations and functions described herein. In addition, the components, units, modules, components, etc., described herein as "parts" may be implemented together or separately as discrete but interoperable logic devices. The depiction of different features for modules, units, etc. is intended to highlight different functional embodiments and does not necessarily mean that they must be realized by individual hardware or software components. Rather, functionality associated with one or more modules or units may be performed by separate hardware or software components or integrated within common or separate hardware or software components.

Although the operations are shown in the drawings in a specific order, it should not be understood that these operations are performed in the specific order shown, or sequential order, to achieve the desired result, or that all illustrated actions need to be performed. . In some circumstances, multitasking and parallel processing may be advantageous. Moreover, the division of various components in the above-described embodiments should not be understood as requiring such division in all embodiments, and the described components are generally integrated together into a single software product or packaged into multiple software products. It should be understood that it can.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: building 100_1, 100_2, 100_3: household
110: IoT food waste processing unit 120, 130: food waste processing unit
125, 135: IoT smart power supply 200: piping selection
210, 220, 230, 240: piping valve 300: food waste separation unit
310, 320, 330: separator 400: food waste storage unit
410: food waste state detection unit 420: food waste state transmission unit
500: management server 510: server communication unit
530: server control unit 531: piping selection control unit
533: food waste separation control unit 535: food waste storage management unit
600: wired and wireless communication network 700: administrator terminal

Claims (12)

A food waste processing unit installed in the household and crushing the injected food waste to discharge into the pipe;
An IoT smart power unit connected to the food waste processing unit, determining whether to supply power to the food waste processing unit according to a user input or an external signal, and transmitting a power supply state signal corresponding to the power supply to the outside;
A pipe selector connected to the pipe and selecting a discharge path of sewage or food waste supplied through the pipe;
A food waste separation unit separating food waste discharged through the pipe selection unit from water and discharging the separated water to a sewage pipe;
A food waste storage unit storing food waste discharged from the food waste separating unit; And
And a management server controlling an operation state of the pipe selector and the food waste separation unit according to the power supply state signal received from the IoT smart power supply unit.
When all of the food waste treatment unit does not operate, the pipe selector bypasses the discharge path so that the sewage supplied through the pipe is discharged directly into the sewage pipe without passing through the food waste separation unit.
The pipe selector and food waste separation unit,
It is operated reflecting at least one of the position of the household that transmitted the power supply state signal and the time when the food waste discharged from each generation reaches the pipe selector or the food waste separation unit,
When food waste is discharged simultaneously through the pipes in several households, the food waste discharged from each household is operated based on the shortest time of reaching the pipe selection unit or the food waste separation unit. IoT based food waste processing system. An IoT food waste processing unit installed in the household and crushing the injected food waste into a pipe, and transmitting an operation state signal corresponding to the current state of the food waste crushing operation to the outside;
A pipe selector connected to the pipe and selecting a discharge path of sewage or food waste supplied through the pipe;
A food waste separation unit separating food waste discharged through the pipe selection unit from water and discharging the separated water to a sewage pipe;
A food waste storage unit storing food waste discharged from the food waste separating unit; And
And a management server controlling an operation state of the pipe selector and the food waste separation unit according to the operation state signal received from the IoT food waste processing unit.
When the IoT food waste processing unit does not operate at all, the pipe selector bypasses the discharge path so that the sewage supplied through the pipe is discharged directly into the sewer without passing through the food waste separating unit.
The pipe selector and food waste separation unit,
It is operated reflecting at least one of the location of the household that transmitted the power supply status signal and the time when the food waste discharged from each household reaches the pipe selector or the food waste separator,
When food waste is discharged simultaneously through the pipes in several households, the food waste discharged from each household is operated based on the shortest time of reaching the pipe selection unit or the food waste separation unit. IoT based food waste processing system. The method according to claim 1 or 2, wherein the management server,
Determine the number of food waste processing units operating in each household according to at least one of a power supply state signal transmitted from the IoT smart power supply unit or an operation state signal transmitted from the IoT food waste processing unit, and according to the determined number of food waste processing units. IoT-based food waste processing system, characterized in that for controlling the operation speed of the food waste separation unit. The food waste separation unit according to claim 1 or 2,
A plurality of separators respectively connected to the pipes to separate the food waste from water;
The pipe selector,
It includes a plurality of pipe valves respectively corresponding to the plurality of separators,
The management server,
Determine the number of food waste processing units operating in each household according to at least one of a power supply state signal transmitted from the IoT smart power supply unit or an operation state signal transmitted from the IoT food waste processing unit, and according to the determined number of food waste processing units. IoT-based food waste processing system, characterized in that for controlling the operation state of the plurality of pipe valves and the plurality of separators. The food waste storage unit of claim 1, wherein the food waste storage unit includes:
A food waste state detection unit for detecting an amount of food waste contained in the food waste storage unit; And
IoT food waste processing system comprising a food waste state transmitter for transmitting the amount of food waste detected by the food waste state detection unit to the management server or a manager terminal. Receiving, by the server communication unit, a power supply state signal from the IoT smart power supply unit;
Generating a pipe selector control signal for controlling an operation state of the pipe selector according to a power supply state signal received from the IoT smart power supply by the pipe select controller;
Generating, by the food waste separation control unit, a food waste separation unit control signal for controlling an operation state of the food waste separation unit according to the power supply state signal received from the IoT smart power supply unit; And
And transmitting, by the server communication unit, the pipe selection unit control signal and the food waste separation unit control signal to the pipe selection unit and the food waste separation unit, respectively.
The pipe selection control unit,
If all of the food waste treatment unit does not operate, the pipe selector controls to bypass the discharge path so that the sewage supplied through the pipe is discharged directly into the sewer without passing through the food waste separation unit,
The generating of the pipe selector control signal and the generating of food waste separation control signal may include:
The pipe selector control signal and the food waste are reflected by reflecting at least one of a location of a household that transmits the power supply state signal and a time at which food waste discharged from each household reaches the pipe selector or the food waste separator. Generate separate control signals,
When food waste is discharged simultaneously through the pipes in several households, the pipe selector control signal based on the shortest time that the food waste discharged from each household reaches the pipe selector or the food waste separator. And generating a control signal for the food waste separating unit, respectively. A computer-readable recording medium storing a program for performing an operation method of the IoT-based food waste management server according to claim 6. A server communication unit which receives a power supply state signal from the IoT smart power supply unit and transmits a pipe selection unit control signal and a food waste separation unit control signal to the pipe selection unit and the food waste separation unit, respectively;
A pipe selection controller configured to generate a pipe selector control signal for controlling an operation state of the pipe selector according to a power supply state signal received from the IoT smart power supply unit and transmit the control signal to the pipe selector through the server communication unit; And
And a food waste separation control unit for generating a food waste separation unit control signal for controlling an operation state of the food waste separation unit according to the power supply state signal received from the IoT smart power unit and transmitting the control signal to the food waste separation unit through the server communication unit. ,
The pipe selection control unit,
If all of the food waste treatment unit does not operate, the pipe selector controls to bypass the discharge path so that the sewage supplied through the pipe is discharged directly into the sewer without passing through the food waste separation unit,
The pipe selection control unit and the food waste separation control unit,
The pipe selector control signal and the food waste are reflected by reflecting at least one of a location of a household that transmits the power supply state signal and a time at which food waste discharged from each household reaches the pipe selector or the food waste separator. Generate separate control signals,
When food waste is discharged simultaneously through the pipes in several households, the pipe selector control signal based on the shortest time that the food waste discharged from each household reaches the pipe selector or the food waste separator. And the food waste separating unit control signal, respectively. The method of claim 8, wherein the food waste separation control unit,
Determine the number of food waste processing units operating in each generation according to the power supply state signal received from the IoT smart power unit, and controls the operation speed of the food waste separating unit according to the determined number of food waste processing unit. IoT-based food waste management server. The method of claim 8, wherein the food waste separation unit,
A plurality of separators each connected to a pipe from which food waste is discharged from each household, separating the food waste from water;
The pipe selector,
It includes a plurality of pipe valves respectively corresponding to the plurality of separators,
The pipe selection control unit,
Controlling the operation state of the plurality of pipe valves so as to correspond to the number of food waste processing units operating in each generation determined according to the power supply state signal received from the IoT smart power supply unit,
The food waste separation control unit,
IoT based food waste processing management server, characterized in that for controlling the operation state of the plurality of separators to correspond to the number of food waste processing unit operating in each generation determined according to the power supply status signal received from the IoT smart power supply. delete The method of claim 8, wherein the server communication unit,
Receiving the amount of food waste contained in the food waste storage from the food waste storage;
The IoT-based food waste processing management server,
The food waste storage signal is generated according to the amount of food waste stored in the food waste storage unit, and the food waste storage management unit for transmitting the food waste collection signal to the manager terminal through the server communication unit further comprises an IoT. Based food waste management server.

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