JP2004293939A - Recycle determination system of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a recycle determination system of an air conditioner that allows a determination for recycling using an existing portions without any additional cost for parts. <P>SOLUTION: A microcomputer 10 reads detected temperatures from an indoor temperature sensor 6, accumulates an operation time of each component by the detected temperatures, calculates the volume of temperature stress of each component from each detected temperature and the operation time by the detected temperature, corrects the volume of the temperature stress using temperature difference data in accordance with an operation pattern and writes it in an indoor storage component 11 during an air conditioning mode. When a recycle determination mode is made by inputting a special signal, the volume of temperature stress of a component having been written in the component 11 is compared with the reference value being set for the component to determine whether the component should be recycled or not and the result is output. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a reuse determination system that determines whether components of an air conditioner can be reused.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a product having recyclable parts (components), for example, there is a television receiver. The television receiver includes, as main components, an input circuit board including an antenna input terminal and a tuner and an auxiliary input terminal, a signal processing circuit board, a cathode ray tube, a power supply circuit board, and a central processing unit. Each of these components is provided with a sensor for detecting stress information necessary for determination of reuse and a memory for storing the stress information. Further, a diagnostic connector for reading the stress information stored in each memory is provided. When the TV receiver is discarded by the user and collected at the recycling factory, the stress information stored in the memory of each component is read out by the check device via the diagnostic connector, and each component can be reused. Is determined (for example, Patent Document 1).
[0003]
[Patent Document 1]
JP-A-7-130295 (pages 4 to 6, FIG. 1)
[0004]
[Problems to be solved by the invention]
In the above-described conventional television receiver, a sensor and a memory must be provided for each component in order to detect and store stress information, and a checking device used when determining reuse of the component. This necessitates a diagnostic connector to be connected to the device, thus increasing costs and hindering miniaturization.
[0005]
The present invention has been made to solve such a problem, and it is an object of the present invention to provide a reuse determination system for an air conditioner that can determine reuse of existing components without adding parts and increasing costs. Aim.
[0006]
[Means for Solving the Problems]
An air conditioner reuse determination system according to the present invention includes a control unit that controls operation of components constituting an air conditioner, and determines whether or not each component can be reused. A system, wherein the control unit reads a detected temperature from a temperature sensor provided in the air conditioner during operation of the air conditioner, and integrates the operation time of each component for each detected temperature. Calculating means for calculating a temperature stress amount of each component from each detected temperature and an operation time for each detected temperature; and a reference value set in advance for each component, and when a predetermined signal is input, the temperature is calculated. A determination means is provided for comparing the amount of stress with a reference value and determining whether each component part can be reused.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a block diagram of a control system of an air conditioner according to an embodiment of the present invention.
The air conditioner shown in FIG. 1 includes an indoor unit 2 and an outdoor unit 15. The indoor unit 2 displays an indoor control unit 3, a light receiving unit 4 for receiving an operation command signal from the remote controller 1, and operation information. Display unit 5, an indoor temperature sensor 6 and an indoor pipe temperature sensor 7, an indoor fan motor 8 for adjusting the amount of air to be blown, and a vane motor 9 for changing the wind direction via a vane (not shown). I have. These components are the main components constituting the indoor unit 2.
[0008]
The indoor control unit 3 of the indoor unit 2 is inserted between the microcomputer 10, the indoor storage unit 11, the indoor communication unit 12 for performing communication related to the operation with the outdoor unit 15, and the microcomputer 10 and the indoor fan motor 8. It has a speed control unit 13 and a vane driving unit 14 inserted between the microcomputer 10 and the vane motor 9.
[0009]
The indoor storage unit 11 stores a control program for executing the air-conditioning operation mode and the reuse determination mode, and various data necessary for the operation of the indoor unit 2 such as the speed of the indoor fan motor 8 and the angle of the vane. In addition, temperature difference data indicating a difference between the temperature of each component itself and the temperature detected by the indoor temperature sensor 6 that differ depending on the operation pattern, and a reference value for a temperature stress amount set for each component are stored. I have. The indoor storage unit 11 is configured to store the detected temperature of the indoor temperature sensor 6, the operation time of each component, the amount of temperature stress calculated for each component, and the like. The above-mentioned operation time is an integrated value of the operation time for each temperature detected by the indoor temperature sensor 6.
[0010]
The microcomputer 10 enters an air-conditioning operation mode when an operation command signal from the remote controller 1 is received via the light receiving unit 4. At this time, the detected temperature from the room temperature sensor 6 is read, and the operation time of each component is integrated for each detected temperature, and the temperature stress amount of each component is calculated from each detected temperature and the operation time for each detected temperature. Is calculated, and the temperature stress amount is corrected using the temperature difference data corresponding to the operation pattern, and is written in the indoor storage unit 11. The writing timing of the temperature stress amount is performed at an efficient and highly reliable timing, such as at regular intervals, when the operation pattern is changed, immediately before the power supply to the microcomputer 10 is cut off, and the like. Is updated.
[0011]
When a predetermined signal (special signal) is input via the light receiving section 4, the apparatus enters a reuse determination mode. In this case, the temperature stress amount of the component written in the indoor storage unit 11 is compared with a reference value set for this component to determine whether the component can be reused. This determination is performed for each component to be reused, and whether the result can be reused is displayed on the display unit 5, for example. Based on this result, the air conditioner is disassembled and separated into reusable and non-reusable components.
[0012]
The outdoor unit 15 includes an outdoor control unit 16, an outdoor air temperature sensor 17, an outdoor pipe temperature sensor 18, an outdoor fan motor 19 for adjusting an outdoor air flow, and a compressor 20 for compressing a refrigerant. Have been. These components are the main components that constitute the outdoor unit 15.
[0013]
The outdoor control unit 16 of the outdoor unit 15 is inserted between the microcomputer 21, the outdoor storage unit 22, the outdoor communication unit 23 for performing communication relating to the operation with the indoor unit 2, and the microcomputer 21 and the outdoor fan motor 19. It has an outdoor fan control unit 24 and an inverter circuit unit 25 inserted between the microcomputer 21 and the compressor 20.
[0014]
The outdoor storage unit 22 includes a control program for executing an air conditioning operation mode when an operation command signal is input from the indoor unit 2, a control program for executing a reuse determination mode when a special signal is input, and an outdoor fan motor 19. And various data necessary for the operation of the outdoor unit 15 such as the speed of the compressor 20 and the temperature of each component itself which differs depending on the operation pattern and the detected temperature of the outside air temperature sensor 17 as described above. , Temperature difference data indicating the difference between the two, and a reference value for a temperature stress amount set for each component are stored. In addition, in the outdoor storage unit 11, a detected temperature of the outside air temperature sensor 17, an operation time of each detected temperature of each component, a temperature stress amount calculated for each component, and the like are written.
[0015]
When the operation command signal from the indoor unit is received via the outdoor communication unit 23, the microcomputer 21 enters the air conditioning operation mode. At this time, the detected temperature from the outside air temperature sensor 17 is read, the operation time of each component is integrated for each detected temperature, and the temperature stress amount of each component is calculated from each detected temperature and the operation time for each detected temperature. Is calculated, and the temperature stress amount is corrected using the temperature difference data corresponding to the operation pattern, and is written into the outdoor storage unit 22. As described above, the writing timing of the temperature stress amount is performed at regular time intervals or when the operation pattern is changed, immediately before the power supply to the microcomputer 10 is cut off, and each time, the temperature stress amount for each component is updated. Is done.
[0016]
When a special signal is input via the outdoor communication unit 23, the apparatus enters a reuse determination mode. In this case, the temperature stress amount of the component written in the outdoor storage unit 22 is compared with a reference value set for the component to determine whether the component can be reused. This determination result is output to, for example, a dedicated display unit (not shown) via the outdoor communication unit 23.
[0017]
Next, the operation of the air conditioner reuse determination system according to the embodiment will be described based on the flowchart shown in FIG. For convenience of explanation of the operation, the names of the indoor temperature sensor 6 and the outdoor air temperature sensor 17 are simply referred to as “temperature sensors”, and the names of the indoor storage unit 11 and the outdoor storage unit 22 are simply referred to as “storage units”.
In the use stage of the air conditioner, the microcomputer 10 of the indoor unit 2 enters the air conditioning operation mode based on the operation command signal from the remote controller 1, while the microcomputer 21 of the outdoor unit 15 receives the operation command signal from the indoor unit 2 side. The air-conditioning operation mode is entered based on this (step 1). The microcomputers 10 and 21 of the units 2 and 15 read the detected temperatures from the temperature sensors during the air-conditioning operation mode (step 2) and integrate the operation times of the respective components at the detected temperatures (step 3). . The integration of the operation time is performed every time the detected temperature changes. As described above, when a certain time has elapsed, the temperature stress amount is calculated from the detected temperature for each component and the operation time for each detected temperature, and the temperature stress amount is calculated using temperature difference data corresponding to the operation pattern. The temperature stress amount is corrected and written into the storage unit (step 4). The calculation of the temperature stress amount of each component is performed every time the above-mentioned fixed time elapses, and the temperature stress amount is updated each time (step 5). After writing the temperature stress amount in the storage unit, it is determined whether a special signal for shifting to the reuse determination mode has been input (step 6). When the input of the special signal is detected, the process proceeds to step 7, If the special signal has not been input, the process returns to step 1 and repeats the air conditioning operation mode.
[0018]
On the other hand, the air conditioner is transported to the recycling factory upon completion of the use stage, and a special signal is input from the light receiving unit 4 to the indoor unit 2 before disassembly, and a special signal from the outdoor communication unit 23 is input to the outdoor unit 15 When the signal is input, the microcomputers 10 and 21 of each of the units 2 and 15 enter the reuse determination mode (step 7), and perform a self-diagnosis check as to whether or not the operation of each component is possible. (Step 8). Thereafter, the temperature stress amount for each component written in the storage unit is compared with a reference value set for each component to determine whether each component can be reused (step 9). At this time, the microcomputer 10 of the indoor unit 2 outputs the determination result to the display unit 5, and the microcomputer 21 of the outdoor unit 15 outputs the result to the outside through the outdoor communication unit 23 (Step 10). The air conditioner is disassembled according to the output content, and available components can be separated.
[0019]
As described above, according to the embodiment, a reuse determination mode is provided for each of the indoor unit 2 and the outdoor unit 15 of the air conditioner, and each of the microcomputers 11 and 21 determines whether or not each component including itself can be reused. Therefore, there is an effect that resources can be reused without adding parts and increasing costs.
[0020]
At the stage of manufacturing the air conditioner, the date of manufacture is input to the indoor storage unit 11 and the outdoor storage unit 22, and the determination date is included in the special signal for shifting to the reuse determination mode. By calculating the non-energized period in the distribution stage or the use stage, it is possible to determine the reuse of the component in consideration of the amount of stress received during the non-energized period.
[0021]
Further, when a component is replaced due to a failure or the like in a use stage of the air conditioner, repair information is input from the remote controller 1 in the repair stage, for example, the corresponding information written in the indoor storage unit 11 and the outdoor storage unit 22 is written. It is possible to reset the information of the temperature stress amount of the component.
[0022]
Furthermore, although the indoor unit 2 outputs the determination result of the reuse of the component to the display unit 5, the indoor unit 2 may output the determination result from the indoor communication unit 12, or the indoor unit includes a transmission unit that transmits the result to the remote controller. In, the above-described determination result may be output from the transmission unit. Even in this case, the determination result of reuse can be output without adding a component as described above.
[0023]
【The invention's effect】
As described above, according to the present invention, the control unit, which is a component of the air conditioner, reads the detected temperature from the temperature sensor provided in the air conditioner during the operation of the air conditioner, and detects each detected temperature. Time integrating means for integrating the operating time of each component, calculating means for calculating the temperature stress amount of each component from each detected temperature and the operating time for each detected temperature, and when a predetermined signal is input A determination means for comparing the amount of temperature stress with a reference value and determining whether or not individual components can be reused is provided, so that resources can be reused without adding components and increasing costs. There is an effect that it becomes possible.
[Brief description of the drawings]
FIG. 1 is a block diagram of a control system of an air conditioner according to an embodiment of the present invention.
FIG. 2 is a flowchart showing an operation of the air conditioner reuse determination system according to the embodiment.
[Explanation of symbols]
Reference Signs List 1 remote control, 2 indoor unit, 3 indoor control section, 4 light receiving section, 5 display section, 6 indoor temperature sensor, 7 indoor pipe temperature sensor, 8 indoor fan motor, 9 vane motor, 10 microcomputer, 11 indoor storage section, 12 indoor communication Unit, 13 speed control unit, 14 vane drive unit, 15 outdoor unit, 16 outdoor control unit, 17 outdoor air temperature sensor, 18 outdoor pipe temperature sensor, 19 outdoor fan motor, 20 compressor, 21 microcomputer, 22 outdoor storage unit, 23 Outdoor communication unit, 24
Outdoor fan control unit, 25 inverter circuit unit.

Claims (9)

A reuse determination system for an air conditioner, which includes a control unit that controls operation of components constituting the air conditioner, and determines whether each component can be reused,
In the control unit,
During the operation of the air conditioner, time integrating means for reading the detected temperature from the temperature sensor provided in the air conditioner, and integrating the operating time of each component for each detected temperature,
Calculating means for calculating the temperature stress amount of each component from each detected temperature and the operating time for each detected temperature,
A reference value is set in advance for each component, and when a predetermined signal is input, the temperature stress amount is compared with the reference value to determine whether each component can be reused. An air conditioner reuse determination system characterized by the above-mentioned. The air conditioner includes an indoor unit and an outdoor unit. The indoor unit and the outdoor control unit as components of the indoor unit are provided with the time accumulating unit, the calculating unit, and the determining unit. The reuse determination system for an air conditioner according to claim 1, further comprising: When comparing the temperature stress amount with a reference value, the determination unit determines whether the component can be reused in consideration of a preset date of manufacture of the air conditioner. The reuse determination system for an air conditioner according to claim 1 or 2. The arithmetic means has a difference between a temperature of the component itself and a detected temperature which differs depending on an operation pattern as temperature difference data, and corrects the temperature stress amount based on the temperature difference data. The reuse determination system for an air conditioner according to claim 1. The reuse determination of the air conditioner according to any one of claims 1 to 4, wherein the predetermined signal is input using a receiving unit that receives a signal of a remote controller that is a component of the air conditioner. system. The said predetermined signal is received using the indoor communication part and outdoor communication part which perform the communication regarding driving | operation mutually which are the component parts of an indoor unit and an outdoor unit, The reception part in any one of Claims 2-4 characterized by the above-mentioned. The reuse determination system for an air conditioner as described in the above. The air conditioner according to any one of claims 1 to 6, wherein the determination unit displays a determination result of reuse of the component using a display unit that is a component of the air conditioner. Reuse determination system. The said determination means outputs the determination result of reuse of a component using the indoor communication part which is a component of an indoor unit and an outdoor unit, and an outdoor communication part. 2. The air conditioner reuse determination system according to 1. The reuse determination of an air conditioner according to any one of claims 1 to 6, wherein the determination unit outputs a determination result of reuse of the component using a transmission unit that transmits the determination result to a remote controller. system.

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