KR20100121872A - Automatic collector and operation method for recycle of waste having calculation and totaling function of co2 diminution volume - Google Patents

Abstract

PURPOSE: A waste automatic collector and an operational method of the same are provided to be adapted to governmental policies for reducing the use of carbon dioxide by calculating the reduced amount of the carbon dioxide according to the materials and the weights of collected waste. CONSTITUTION: An inputting unit(10) obtains information related to wasted resources. A calculating unit(20) is in connection with the inputting unit. In the calculating unit, the collected amount of the wasted resources according to materials and weights and the reduced amount of carbon dioxide are calculated based on the information related to the wasted resources. The calculating unit is in connection with network. An outputting unit(30) displays calculated information.

Description

Automatic Collector and Operation Method for Recycle of Waste having Calculation and Totaling Function of CO2 diminution Volume}

The present invention relates to an automatic waste recycling automatic recovery machine having a function of calculating and counting carbon dioxide (CO2) reduction and an operation method thereof, and in particular, a function capable of calculating, counting and displaying a reduction amount of carbon dioxide that is reduced during recycling of recovered waste resources. It relates to a household waste recycling automatic recovery device provided.

As is well known, automatic waste recycling machines have been proposed to sort and collect waste resources such as empty bottles, cans, PET, etc., and recycle them. As a representative example, Korean Laid-Open Patent Publication No. 2003-3978 ( Name of the invention: can empty bottle collection device; hereafter referred to as 'quoting invention'), which is provided with the empty bottle recovery means 100 for recovering empty bottles as shown in Figure 1, on one side of the empty bottle recovery means 100 The can collecting means 200 for collecting cans is installed and consists of a controller 300 installed inside the can collecting means 200 so that empty bottles and cans can be collected and recycled. The empty bottle inlet 111 and the empty bottle outlet 112 and the first coin outlet 192 is provided with the empty bottle recovery body 110, the empty bottle recovery body 110, the display 120 is installed on the top , Ball The first sensor 150 to grasp the size and shape of the first sensor 150 is formed on one side of the empty bottle inlet 111 inside the empty bottle recovery body 110, the first sensor 150 can be rotated downward and one side of the empty bottle inlet 111. The empty bottle transfer panel 140 is installed, the empty bottle transfer panel 140 is coupled to the rotating shaft 241 by the first motor 130 is installed on one side thereof, and transfers the empty bottle to one side of the empty bottle transfer panel 140. The empty bottle conveying belt 160 is installed, the empty bottle conveying member 161 is installed, and the collecting cabinet 180 for storing empty bottles conveyed by the empty bottle conveying belt 160 is installed.

The can collecting means 200 has a can receiving opening 211, a can discharge opening 212 and a second coin discharge opening 295 formed on the front surface thereof to have a predetermined shape, and a can collecting body 210 is provided. 210, the display 220 is installed on the upper portion of the front surface, the can transport panel 130 is rotatably installed on one side of the can return opening 210 inside the can recovery body 210, and the third motor 240 is the can transport panel. Is installed on one side of the 230 is coupled to the third rotary shaft 241, a plurality of second sensors 250 for identifying the size, shape of the can is installed on the upper portion of the can transfer panel 230, can transfer The can inlet 211 and the can discharge port 212 is formed on one side of the panel 230, the can inlet hole 260 through which the can is transferred, and the can dropping hole 271 is formed at one side of the can inlet hole 260. A can compression groove 270 is formed, and a can confirmation sensor 251 for checking whether a can is located is installed at an upper portion of the can compression groove 270, and a can is pressed at one side of the can compression groove 270. Compression panel 280 is installed, one side of the compression panel 280, the panel feed shaft (281) is speech, the panel feed shaft (281) a plurality of compression motor 282 is installed, can drop ( A can collecting box 290 having a collecting unit 291 is installed so that the compressed can falling through 271 is stored.

In addition, the cited invention, as shown in Figure 2, the measurement of the size of the empty bottle through the empty bottle recovery means 100 and can recovery means 200 whether the empty bottle or can is inserted into the first sensor 150 and the second sensor ( A first step (S10) for determining whether the input is an empty bottle or a can; A second step (S20) of determining which company's product is determined to be an empty bottle through the first step; A third step (S30) of checking the weight of the empty bottle to see if there is any foreign substance in the empty bottle through the second step (S20) and checking whether the checked weight is within an error range limit; When the weight exceeds the error range in the third step (S30), the empty bottle is discharged through the empty bottle outlet 112 and at the same time the voice announcement is guided, the fourth step of returning to the first step of recovering the empty bottle (S40); A fifth step S50 of determining whether an empty bottle is large by determining whether the empty bottle is four hops in the third step S30; If it is determined in the fifth step (S50) that the four-hop large empty bottle, the sixth step (S60) to detect the weight again to determine whether there is a foreign body inside; A seventh step S70 of detecting a size in a state where the weight is detected in a sixth step S60; An eighth step S80 of determining whether the size of the detected state is exactly a large bottle in the seventh step S70 and storing it in the empty bottle collection cabinet 180 through the empty bottle conveying member 161; A ninth step (S90) of discharging cyber money or cash corresponding thereto if it is determined in the eighth step (S80) that the bottle 300 has no foreign substance in the empty bottle in the controller 300; A tenth step (S100) of determining the size of the small bottle again if it is not determined that the four-hop bottle is empty in the fifth step (S50); An eleventh step S110 of detecting weight in a state in which the size is detected in the tenth step S100 to detect whether the weight falls within an error range; In the eleventh step (S110), if it is determined by the controller 300 comprehensively again that the three hops are small bottles, the ninth step (S90) of discharging the corresponding cyber money or cash is performed. A thirteenth step (S130) of judging whether the can is put through the can-injecting hole 211 of the can-recovering means 200 in step S100 and sensing the weight of the put can; Detecting a weight in a thirteenth step (S0) to determine whether the detected weight is a weight within an error range limit (S140); When the weight exceeding the error range is measured in the fourteenth step (S140), the can is discharged through the can discharge port 212, and at the same time to inform the user that the can not be recycled can (S150); If the can within the error range in the 14th step (S140) is made of the 16th step (S160) for compressing the can by moving it to the can compression groove 270 to collect waste resources such as cans or empty bottles, and collected waste resources However, the recovery system such as cited invention has not been put to practical use due to lack of public awareness on recycling and lack of public awareness about recycling.

In addition, in order to increase the low recycling rate, the government has implemented a collection collection incentive system, a recycling collection deposit system, and a carbon emission suppression support system, but it is difficult and inaccurate to supply substantial evidence to reduce the amount of CO2 resulting from recycling. It relies only on approximate statistics, which can cause problems in cost accounting.

The purpose of the present invention is to accurately calculate the amount of recycling collection by recycling the amount of waste collection by material and weight of the waste resources to be separated and solved to solve this problem, and to display the amount of carbon dioxide reduction and the amount of carbon dioxide collected and recycled through the network It provides an aggregate recycling function to collect waste resources to be used as aggregate and settlement data, and an automatic waste recycling machine for recycling waste, which has a function of calculating CO2 reduction. Calculate CO2 reduction amount by material and weight of waste resources, or calculate CO2 reduction amount by sending calculated CO2 reduction amount to remote site and use it as settlement data. It provides a method to provide.

In order to achieve the above object, the present invention provides an automatic waste recycling system for recycling household wastes to recover and recycle waste resources, comprising: an input unit for receiving information of recovered waste resources; and information on waste resources recovered from an input unit connected to the input unit; And a calculation unit that calculates and aggregates waste resource recycling collection and CO 2 reduction according to the weight of each material, and displays the CO 2 reduction amount and the aggregate information calculated by the calculation unit connected to the calculation unit and the network, and through the network. It provides an automatic recycling of municipal waste having a function of calculating the amount of carbon dioxide reduction calculated by consisting of an output unit for transmitting the waste resource recycling recovery collection amount and carbon dioxide reduction amount to a remote site,

An input step of inputting waste resource information by scanning barcodes of waste resources recovered by the barcode scanner of the input unit by using the above-mentioned automatic waste recycling machine; The microprocessor of the output unit receives the waste resource information input in the above-described input step, and separates the product information of the waste resource that is recovered and matches the product information of the waste resource in the waste resource DB connected to the microprocessor. Searching for a material and weight, and finding a carbon dioxide reduction amount per unit weight matching the material in the reduction DB connected to the microprocessor; Calculating the carbon dioxide reduction amount of the recovered waste resources by multiplying the weight of the waste resources found in the above-mentioned search step by the carbon dioxide reduction amount per unit weight; A carbon dioxide reduction calculation counting function comprising an output step of storing the carbon dioxide reduction amount calculated in the above calculation step in a separate collection DB to which the microprocessor is connected, counting by date, displaying on the display of the aforementioned output unit, and transmitting the result to a remote site. Operation method of automatic waste recycling machine having a domestic waste,

A measuring step of measuring the weight of the waste resources inputted to the input port through which the weight sensor of the input unit is distinguished for each material; A reduction amount retrieval step of finding a reduction amount of carbon dioxide per unit weight of the material in a reduction amount DB connected to a microprocessor of the aforementioned calculation unit that receives the material distinguished by the weight of the waste resource and the input port measured in the aforementioned measurement step; A reduction amount calculating step of calculating the carbon dioxide reduction amount of the input waste resource by multiplying the carbon dioxide reduction amount per unit weight found in the reduction amount searching step by the aforementioned microprocessor and the weight measured in the measuring step; Calculate the carbon dioxide reduction amount consisting of the reduction amount output step of storing the carbon dioxide reduction amount calculated in the above-described reduction amount calculation step in a separate collection DB to which the microprocessor is connected, counting by date, displaying on the display of the above-described output unit and transmitting it to a remote site. It is to provide a method of operating the automatic recycling of household waste recycling with an aggregate function.

In this way, the present invention can use the calculated and collected waste resource recycling collection and carbon dioxide reduction data as cost settlement data, and is applied to the carbon emission suppression support system such as the recycling collection incentive system or the carbon mileage system implemented by the local government. Not only can it be traded as a right in the international emission market, but it also has social and public effects such as improving the living environment through the separate discharge and recycling of recycled products, raising the public's environmental awareness, and inducing the greening of industries.

Referring to the present invention in more detail with reference to the accompanying drawings as follows. Figure 3 shows the overall configuration of the automatic waste recycling automatic waste recycling machine having a function of calculating the carbon dioxide reduction amount according to the present invention.

As can be seen from the above, the present invention, in the automatic automatic recycling of municipal waste to recover and recycle waste resources, the input unit 10 for receiving the information of the waste resources to be recovered, and is connected to the input unit 10 An output unit 20 which receives information on the waste resources recovered from the input unit 10 and calculates and aggregates the amount of waste resource recycle collection and carbon dioxide reduction according to the weight of each material, and is connected to the calculation unit 20 and a network The output unit 30 may display the amount of the waste resource recycling collection and the carbon dioxide reduction amount and the aggregate information calculated by the calculating unit 20, and transmit the amount of the waste resource recycling collection and the carbon dioxide reduction to a remote location through a network. .

To describe this in more detail for each component, the input unit 10 is to scan the bar code of the recovered waste resources and the product information of the waste resources of the manufacturer, manufacturer, product name, capacity, etc. of the waste resources recorded in the bar code It can be configured to receive the input barcode scanner 11, to distinguish the input port by material so as to recover the waste resources without the bar code, the weight sensor 12 or the waste to recover the weight of the input waste resources It can be composed of a volume sensor for measuring the volume of the resource can receive the information of the waste resources, such as product information, material, weight, volume of the waste resources input for recovery or recovery.

In addition, the above-described calculation unit 20 is a waste resource DB (21) registered material and weight information according to the manufacturer and product name among the product information of the waste resources, and the reduction amount DB (22) of the reduction amount of carbon dioxide per unit weight registered for each material And the waste resource DB 21, the reduction amount DB 22, and the input unit 10 to separate the product information of the waste resource from the waste resource information of the input unit 10, and the product information of the waste resource. The amount and amount of waste resources recovered by matching the above-described waste resource DB 21 is matched with the above-described reduction amount DB 22 to find the amount of carbon dioxide reduction per unit weight of the material of the waste resource. It may be composed of a microprocessor 23 for calculating the carbon dioxide reduction by multiplying the weight, and a separate collection DB 24 for storing the carbon dioxide reduction calculated by the microprocessor 23 and counting the calculated carbon dioxide reduction by date. .

If the waste resource information of the input unit 10 includes material and weight information, the waste resource information is matched with the waste resource product information and the waste resource DB 21 to match the waste resource material and weight information. Since there is no need to find the waste resources DB 21 can be omitted as necessary.

In addition, the amount of carbon dioxide reduction according to the unit weight for each material registered in the above-described reduction amount DB 22 may be registered according to international standards or by a known calculation table, and represents the amount of energy reduced when recycling the waste resources recovered. After converting to various energy sources, carbon dioxide generation amount may be calculated using carbon emission coefficients of the energy sources, and converted into electric power units, and thus, the amount of carbon dioxide reduction may be derived using carbon dioxide emission coefficients.

In detail, the aluminum can can be described with reference to FIG. 4, which shows the amount of energy that can be saved when recycling one ton of material for each material published by the US Environmental Protection Agency (US EPA). , The amount of energy savings saved when recycling steel cans, PET bottles, etc. in terms of power units is shown in Table 1 below.

[Table 1] A table that converts energy reduction amount of recycled products into electric power unit

aluminum
CAN 206.9 MBtu / Ton 60,621.7 kwh Metric Ton Unit 66,837.6 kwh 1 kg unit 66.8 kwh 1 g 66.8 wh Fe CAN 20.5 MBtu / Ton 6,622.4 kwh ( 6.6 wh / g ) PET 53.4 MBtu / Ton 17,250.5 kwh ( 17.3 wh / g )

Where 1 Btu is 0.000293 kwh.

Applying Table 1 to the calculation of CO2 reduction for each material is shown in Table 2 below.

[Table 2] Table that converts reduced power by material into carbon dioxide

 66.8 x 0.424  Per 1g of aluminum can  28.3 g co2  Reduction One aluminum can (11 g) 311 g savings  6.6 x 0.424  Per 1g of iron can  2.8 g co2  Reduction 1 iron can (24 g) 68 g savings  17.3 x 0.424  Per 1g PET Bottle  7.3 g co2  Reduction 1 PET (27 g) 197 g savings

Where 1 kwh is 424 g CO2.

In this way, the amount of carbon dioxide reduction per unit weight (1 g) of each material is calculated and can be used to calculate the amount of carbon dioxide reduction after registering in the reduction amount database 22.

In addition, applying the reduced carbon dioxide amount as shown in Table 2 to the carbon emission control system such as carbon credits or carbon mileage can provide compensation according to the amount of carbon dioxide to be reduced. For example, when the reduced amount of carbon dioxide in Table 2 is converted into a price, according to the carbon credit trading system, it is traded at about 20 euros ($ 27, 36,500 won in won) according to the carbon credit trading system, so it is 0.0365 per gram of carbon dioxide. If the unit price of the carbon credits is applied to Table 2, it is shown in Table 3.

[Table 3] Carbon Dioxide Reduction Price by Material by Carbon Emission Rights

 1 g of aluminum cans 1.415 KRW (28.3 * 0.05) 1 average aluminum can (11 g) 15.565 KRW  Iron can 1 g 0.14 won (2.8 * 0.05) 1 average iron can (24 g) 3.36 KRW  PET 1g 0.365 won (7.3 * 0.05) 1 average PET (27 g) 9.855 KRW

Also, according to the carbon mileage system, when companies reduce 100 Kg of carbon dioxide and 10 Kg of carbon dioxide in their homes, one point of carbon mileage is one point, and one point of carbon mileage is 500 won. According to the system, it is shown in Table 4.

[Table 4] Carbon Dioxide Reduction Price by Material by Carbon Mileage System

 1 g of aluminum cans 0.05 Circle (28.3 * 0.0365) 1 average aluminum can (11 g) 11.3 KRW  Iron can 1 g 0.10 won (2.8 * 0.0365) 1 average iron can (24 g) 2.4 won  PET 1g 0.27 KRW (7.3 * 0.0365) 1 average PET (27 g) 7.3 won

As described above, the microprocessor 23 calculates a carbon dioxide reduction amount by using material and weight information of the recovered waste resources and calculates a carbon dioxide reduction compensation price according to the reduced carbon dioxide amount to provide waste resources for recycling. An input device such as a smart card device and a magnetic card reader capable of compensating the resource provider according to the carbon emission suppression support system to receive the waste resource provider's information is configured as the compensating unit 40, and the aforementioned calculating unit ( 20 is connected to the microprocessor 23 and the separate collection DB 24 and the display 31 and the communication unit 32 of the output unit 30 according to the amount of carbon dioxide reduction calculated by the microprocessor 23 as described above. The compensation price is compensated to the waste resource provider by mileage, points, transportation fees, etc., which are subscribed or linked through the communication unit 32, and displayed on the display 31. It said display may be stored in a separate collection DB (24).

In addition, the above-described separate collection DB 24 can collect and store the cumulative amount and statistics, etc. for each of the above-described carbon dioxide reduction amounts calculated according to material, weight, or volume of waste resources to be recovered. It can be used as a basis for compensation for CO2 reduction.

In addition, the above-described output unit 30 is a display 31 for displaying the carbon dioxide reduction amount and the aggregate information calculated by the above-described calculation unit 20 and the communication unit 32 for transmitting the above-described carbon dioxide reduction amount to a remote location through a network. It can be configured to immediately display the amount of carbon dioxide reduction and the rewards of the waste resources that are recovered to the waste resource provider, so that the recycling rate can be increased, environmental awareness can be promoted, and the green of the industry can be recycled. The carbon dioxide reduction collected by the automatic recovery machine can be transmitted to the central server of the local community, so that the total cumulative amount and statistics by region and group can be aggregated, processed and stored.

In addition, according to the present invention, the method for operating the automatic recycling of household waste recycling having the function of calculating the carbon dioxide reduction amount as shown in FIG. 5 includes an input unit 10 for receiving the above-described waste resource information and a calculation unit for calculating the carbon dioxide reduction amount. And the waste recovered by the barcode scanner 11 of the input unit 10 using the above-mentioned automatic waste recycling machine comprising the output unit 30 which displays the calculated carbon dioxide reduction amount to the display and the remote place. An input step S1 of receiving waste resource information by scanning a barcode of a resource; The microprocessor 23 of the above-described output unit 30 receives the waste resource information input in the above-described input step S1, and separates the product information of the waste resource recovered and is connected to the microprocessor 23. A search for finding a material and weight matching the product information of the waste resource in the waste resource DB 21 and finding a reduction amount of carbon dioxide per unit weight matching the material in the reduction amount DB 22 connected to the microprocessor 23 described above. Step S2; A calculation step (S3) of calculating the carbon dioxide reduction amount of the recovered waste resource by multiplying the weight of the waste resource found in the aforementioned search step (S2) by the carbon dioxide reduction amount per unit weight; The carbon dioxide reduction amount calculated in the aforementioned calculation step S3 is stored in the separate collection DB 24 to which the aforementioned microprocessor 23 is connected, counted by date, and displayed on the display 31 of the output unit 30 described above. It may be configured as an output step (S4) to display and transmit to the remote.

In the above-described search step (S2), if the material and weight information of the waste resource is not found by the manufacturer and product name in the waste resource DB 21, the material and weight information of the waste resource is sent to the waste resource DB 21. Since registration and updating includes a DB construction step (S5) for building the waste resource DB (21).

In addition, the operation method of the automatic recycling of household waste recycling with a function of calculating the amount of carbon dioxide reduction according to the present invention, as illustrated in FIG. 6, when the barcode does not exist in the collected waste resources, the input of waste resources recovered by materials is distinguished. And an input unit 10 for receiving the inputted waste resource information, a calculation unit 20 for calculating a carbon dioxide reduction amount, and an output unit 30 for displaying and transmitting the calculated carbon dioxide reduction amount to a remote site. A measuring step (S11) of measuring the weight of the waste resources put into the inlet through which the weight sensor 12 of the input unit 10 is distinguished for each material by using a recovery device; The unit weight of the material in the reduced amount DB 22 is connected to the microprocessor 23 of the above-described calculation unit 20 receives the material distinguished by the weight of the waste resources and the inlet opening measured in the above-described measurement step (S11) A reduction amount searching step of finding a reduction amount of sugar carbon dioxide (S21); The above-described microprocessor 23 multiplies the amount of carbon dioxide reduction per unit weight found in the aforementioned reduction search step (S21) by the weight measured in the aforementioned measurement step (S11), and calculates the reduction amount of carbon dioxide reduction of the injected waste resource. Step S31; The carbon dioxide reduction amount calculated in the reduction amount calculation step S31 described above is stored in the separate collection DB 24 to which the aforementioned microprocessor 23 is connected, counted by date, and the display 31 of the output unit 30 described above. It can be configured to reduce the output step (S41) to be displayed on and sent to the remote.

Here, the above-described reduction output step (S41) is calculated in the above-described reduction calculation step (S31) when receiving the information of the waste resource provider from the compensation unit 40, such as a smart card device connected to the microprocessor 23 described above. Compensation according to an amount of carbon dioxide reduction may be provided to the waste resource provider, and the compensation step S51 for displaying the details on the display 31 may be provided. The aforementioned output step S4 may also include the aforementioned microprocessor 23. When receiving information of the waste resource provider from the compensation unit 40, such as a smart card device connected to) can provide the waste resource provider with compensation according to the carbon dioxide reduction amount calculated in the above-described calculation step (S3).

1 is a perspective view showing a vending machine for waste resources recovery of the invention.

2 is a flow chart showing a vending machine control method for waste resource recovery of the cited invention.

Figure 3 is a block diagram illustrating the overall configuration of a household waste recycling automatic recovery with a carbon dioxide reduction calculation total function according to the present invention.

Figure 4 is a table of energy savings per ton of material.

5 and 6 are flow charts illustrating the configuration of an operating method of a household waste recycling automatic recovery machine having a function of calculating a carbon dioxide reduction amount according to the present invention;

* Explanation of symbols for the main parts of the drawings

10: Input unit 11: Barcode scanner 12: Weight sensor

20: output 21: waste resources DB 22: low weight DB

23: microprocessor 24: separate collection DB 30: output

31: Display 32: Communication part 40: Compensation part

S1: Input step S2: Search step S3: Calculation step

S4: Output stage S5: DB construction stage S11: Measurement stage

S21: Low loss search step S31: Low loss calculation step S41: Low loss output step

S51: Compensation Step

Claims (9)

In the automatic recycling of household waste recycling to recover and recycle waste resources, An input unit for receiving information of waste resources to be recovered; A calculating unit which is connected to the input unit and calculates and aggregates the collected waste resource recycling collection amount and carbon dioxide reduction amount according to the weight of each material by receiving information of the waste resources recovered from the input unit; The output unit is connected to the calculation unit and the network to display the amount of waste resource recycling collection and carbon dioxide reduction and the aggregate information calculated by the calculation unit, and to transmit the amount of waste resource recycling collection and the carbon dioxide reduction to a remote location through a network. The automatic recycling of municipal waste with the carbon dioxide reduction calculation counting function. The method according to claim 1, The above-described input unit includes a barcode scanner that scans barcodes of recovered waste resources and receives product information of the waste resources, and a weight sensor that measures the weight of the recovered waste resources. Waste recycling automatic recovery machine. The method according to claim 1, The above-described calculation unit and the waste resource DB registered material and weight information according to the product information (manufacturer and product name) of the waste resources, Reduction amount DB registered reduction amount of carbon dioxide per unit weight for each material, It is connected to the above-described waste resource DB, the reduction amount DB and the input unit to separate the product information of the waste resources from the waste resource information of the input unit, and the product information of the waste resources recovered by matching the product information of the waste resources to the waste resource DB A microprocessor that calculates carbon dioxide reduction by multiplying the weight of the collected waste resources by finding the amount of carbon dioxide reduction per unit weight of waste material by matching the material and weight information with the reduction amount DB, and storing the carbon dioxide reduction amount calculated by the microprocessor. And a separate collection DB for aggregating the calculated carbon dioxide reduction amount by date. The method according to claim 3, The above-described output unit comprises a display for displaying the carbon dioxide reduction amount and the aggregate information calculated by the aforementioned calculation unit, and a communication unit for transmitting the carbon dioxide reduction amount to a remote site through a network. Recycle automatic return machine. The method according to claim 4, The microprocessor of the output unit and the display unit of the output unit and the communication unit connected to the waste resource provider to provide waste resources, and provides the waste resource provider with compensation by the amount of carbon dioxide reduction calculated by the above-described calculation unit The automatic recycling of municipal waste with a carbon dioxide reduction calculation counting function, characterized in that the compensation unit consisting of a smart card is provided. It is collected by the barcode scanner of the input unit using an automatic waste recycling machine comprising an input unit for receiving waste resource information, an output unit for calculating the carbon dioxide reduction amount, and an output unit for displaying the calculated carbon dioxide reduction amount and transmitting it to a remote location. An input step of scanning bar code of waste resources and receiving waste resource information; The microprocessor of the output unit receives the waste resource information input in the above-described input step, and separates the product information of the waste resource that is recovered and matches the product information of the waste resource in the waste resource DB connected to the microprocessor. Searching for a material and weight, and finding a carbon dioxide reduction amount per unit weight matching the material in the reduction DB connected to the microprocessor; Calculating a carbon dioxide reduction amount of the recovered waste resources by multiplying the weight of the waste resources found in the above-mentioned searching step by the amount of carbon dioxide reduction per unit weight of the recovered waste resources; Carbon dioxide characterized in that it comprises an output stage for storing the carbon dioxide reduction amount calculated in the above-described calculation step in the separate collection DB connected to the above microprocessor, aggregate by date, display on the display of the above-mentioned output unit and transmit to the remote site Operation method of the automatic recycling of municipal waste with the reduction calculation calculation function. The method according to claim 6, In the above output step, when the waste resource provider's information is input from the smart card device to which the microprocessor is connected, the waste resource provider is provided with the compensation according to the carbon dioxide reduction amount calculated in the above calculation step, and the details are displayed on the display. Method of operating a municipal waste recycling automatic recovery machine having a function of calculating the carbon dioxide reduction amount, characterized in that it comprises a compensation step to. Disposal of waste resources collected by material is distinguished, and automatic recycling of household waste consists of an input unit for inputting the input of waste resource information, a calculation unit for calculating the carbon dioxide reduction amount, and an output unit for displaying and transmitting the calculated carbon dioxide reduction amount to a remote site. A measuring step of measuring a weight of the waste resources inputted into the input port through which the weight sensor of the input unit is distinguished by material using a recovery device; A reduction amount retrieval step of finding a reduction amount of carbon dioxide per unit weight of the material in a reduction amount DB connected to a microprocessor of the aforementioned calculation unit that receives the material distinguished by the weight of the waste resource and the input port measured in the aforementioned measurement step; A reduction amount calculating step of calculating the carbon dioxide reduction amount of the input waste resource by multiplying the carbon dioxide reduction amount per unit weight found in the reduction amount searching step by the aforementioned microprocessor and the weight measured in the measuring step; The reduced amount output step of storing the carbon dioxide reduction amount calculated in the above-described reduction amount calculation step in the separate collection DB connected to the microprocessor, counting by date, displaying on the display of the above-mentioned output unit and transmitting to the remote site. Operation method of the automatic recycling of municipal waste with the carbon dioxide reduction calculation counting function. The method according to claim 8, In the above-described reduction output step, when the waste resource provider's information is input from the smart card device to which the microprocessor is connected, the waste resource provider is provided with the compensation according to the reduction of carbon dioxide calculated in the reduction calculation step described above, and the details are displayed. Operation method of the automatic recycling of municipal waste recycling with the function of calculating the carbon dioxide reduction amount, characterized in that it comprises a compensation step displayed on.

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