JP3364422B2 - Air conditioner - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner incorporating an ion generator for generating negative ions. 2. Description of the Related Art It has been known that negative ions have a good effect on the human body, and they are used for improving physiological effects, medical treatment and the like. Conventionally, a large number of air conditioners equipped with an air purifier in a home air conditioner for purifying air at the same time as cooling and heating operations have been used. When such a conventional air conditioner purifies air in summer or winter, the air purifier can be operated simply by turning on a cleaner switch during a cooling / heating operation. [0003] However, the operation of the air conditioner is mainly performed, and the function of air cleaning is not given much importance. Therefore, the air cleaning is performed in the spring or autumn season when the cooling and heating operation is not required. The operation in the case where only the function is used will be described with reference to the flowchart of FIG. 7. First, the air conditioner is operated by the operation switch or the like, and then the operation mode is selected, and the operation mode is the blow operation mode or the air conditioning operation mode. Check the status with a remote control or a display device such as a liquid crystal provided on the main body, etc. If it is not in the ventilation operation mode (in the case of air-conditioning operation mode), switch to the ventilation operation mode with the operation mode switch and then turn on the cleaner switch for the first time A very troublesome operation that can operate only the air cleaning operation without operating the refrigeration circuit. Was needed. The present invention focuses on this point and solves the above-mentioned drawbacks. In particular, the present invention employs a configuration in which a heat exchanger for cooling and heating and an air purifier are provided in a ventilation path in a housing. Used together with the electrostatic dust collection unit for air-conditioning operation and air cleaning operation
That includes a single fan, both when providing the air flow path or the radiation electrode of the ion generating device in the vicinity of the air blowing path, operation instrumentation
The operation device is provided with an operation switch for operating and stopping at least the cooling and heating operation, and an ion cleaner switch for operating both the air cleaning device and the ion generator. If the operation switch is operated when the air conditioner is stopped, at least the fan, the air purifier and the ion generator start operating, and if the ion cleaner switch is operated during operation, at least the air is operated. The cleaning device and the ion generator were stopped. The operation of the ion generator 16 and the air purifier 31 will be described. If the operation switch 34 of the remote control 22 is turned on in ST1 from the completely stopped state of the air conditioner, the air conditioner starts operating. First, in ST2, the cleaner relay 32
Then, the ion relay 29 is turned on, and the operation of the air cleaning device 30 and the ion generator 16 starts. Next, in ST3, the previous operation mode is judged. In the case of the ion cleaner operation mode, the start of the refrigeration circuit in ST4 is skipped and the fan 9 is operated in ST5, and the previous operation mode is executed. In the case of the cooling / heating operation or the dehumidifying operation, the refrigeration circuit such as the compressor is started in ST4,
The fan 9 is operated in ST5, and the ion
The cleaner operation and the air conditioning operation are continued. [0007] Further, when the air conditioner is completely stopped, the process proceeds to ST12.
Ion cleaner switch 35 of remote control 22
Is turned on, the cleaner relay 32 and the ion relay 29 are turned on in ST13, the operation of the air cleaning device 30 and the ion generator 16 is started, and the fan 9 is turned on in ST15.
Starts operation, and continues the ion cleaner operation in ST6. Next, if the ion cleaner switch 35 is turned off in ST7, the current operation mode is determined in ST8. If the cooling / heating operation and the ion cleaner operation are being performed simultaneously, the ion cleaner is switched in ST9. Only the operation is stopped to perform the cooling / heating operation, and the operation switch is turned off in ST10.
The process is continued until F, and in the case of the ion cleaner operation in ST8, the process immediately proceeds to ST11 and the operation is completely stopped. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. Reference numeral 1 denotes an indoor unit of a separate type air conditioner, wherein a casing is formed by a main body casing 2 and a front cover 3 at the front. An open panel 5 having a horizontally elongated slit-shaped suction port 4 is provided from the center to the upper part of the front cover 3, and can be freely opened and closed in front of the front cover 3 using shafts (not shown) provided on the left and right of the upper part of the panel 5 as fulcrums. The upper surface of the front cover 3 is provided with a horizontally elongated outlet 6 from the lower side of the suction port 4, and the upper inlet 7 is provided on the upper surface of the front cover 3 to compensate for the opening area that the inlet 4 lacks. I have. A fin tube type heat exchanger 8 which is horizontally long and vertically bent in multiple stages is provided inside the suction ports 4 and 7.
A cross-flow fan 9 for blowing air is disposed at the rear of the heat exchanger 8. A drain unit 10 integrally formed of a resin foam material is provided below the heat exchanger 8 to receive dew water and blow air from a fan 9 to an outlet 6.
It also functions as an air guide that leads to the air. Reference numeral 11 denotes an electrostatic dust collecting unit for performing air cleaning. A discharge counter electrode 12 in which a large number of aluminum plates connected to a DC power supply of about +2 kv are arranged in parallel in a blowing direction, and an electrostatic dust collecting unit 11 is disposed between the discharge counter electrode 12 and the aluminum plate. And a discharge electrode 13 formed of a wire or a needle-like electrode connected to a DC power supply of -2 kv, and invisible dust or cigarette smoke in the air is charged by the discharge electrode 13 to the discharge counter electrode 12. It is attached to an upper space between the heat exchanger 8 and the front panel 3. A pre-filter 14 made of a resin mesh is provided between the suction ports 4 and 7 and the heat exchanger 8 or between the suction port 4 and the air cleaning unit 11 so as to remove relatively large dust in the air. Capture. On the right side of the outlet 6, there is provided a display unit 15 for displaying the operation state of the air conditioner by a lamp or the like. Further on the right side of the display unit 15, an ion generator 16 is provided.
Radiating electrodes 17 are arranged. The amount of negative ions generated from the radiation electrode 17 and diffused into the room varies depending on the amount of air blown out from the outlet 6, and the larger the amount of air, the larger the amount of negative ions. The display unit 15 includes an operation lamp 18, a cleaner lamp 19 for displaying the operation of the air cleaning device 30, and an ion lamp 20 for displaying the generation of ions by a lamp. FIG. 4 is a graph showing the relationship between the amount of air and the amount of ions in this embodiment. The abscissa indicates the amount of air, the ordinate indicates the number of negative ions per cc, and the height of the center of the room is about 8 tatami. It measures the number of negative ions at a height of about 1 m. The relationship between the air volume and the ion volume is proportional, and strong winds (about 8 m ³ / mi)
In n), about 5,000 ions / cc and about 1,000 ions / cc are measured in a breeze (about 4 m ³ / min), and are proportional to each other even in the middle and low winds. Referring to FIG. 5, a block diagram of the control circuit will be described.
A control unit such as a microcomputer that controls the display unit, a receiving unit 23 of the wireless remote controller 22, a temperature sensor 24, a humidity sensor 25 and the like are connected to an input side, and an output side is a fan motor for driving the display unit 15 and the fan 9. 26
Relay 27 for turning on and off the power supply to the control unit 27 of the outdoor unit and the high voltage generation circuit 28 of the ion generator 16 and the cleaner relay 32 for turning on and off the power supply to the high pressure unit 31 of the air cleaning device 30. It is connected. In this embodiment, an operating device is formed by the wireless remote controller 22 and the receiving unit 23. Instead, a wired remote controller may be used, or the operating device may be provided in the indoor unit 1 itself. Is also good. The air purifying device 30 converts a power of 100 V AC into a DC of approximately +2 kv and a DC of approximately −2 kV by a high voltage unit 31 and supplies the DC to the air cleaning unit 11, and is provided between the high voltage unit 31 and a power source. The controller 21 is operated and stopped by the cleaner relay 32. The high-pressure unit 31 has a current detecting means 33 for monitoring a current value between the discharge counter electrode 12 and the discharge electrode 13 of the dust collecting unit 11, and sends a current value signal to the control device 21 to control the current value. The device 21 determines whether or not this current value is between 30 μA and 200 μA. The wireless remote controller 22 has a number of button-type push switches, and operates a switch 34 for operating and stopping the air conditioner by pressing, operating and stopping the air purifier 30 and operating and stopping the ion generator 16. An ion cleaner switch 35 and an operation mode switch 36 for selecting an operation mode of a cooling / heating operation or a dehumidification operation are provided, and a signal for operating the switches is transmitted to the receiving unit 23 by infrared rays. The operation setting state is displayed on the liquid crystal display unit 37.
The operation mode switch 36 can also select the ion cleaner operation. The operation of the ion generator 16 and the air purifier 31 will be described with reference to the flow chart of FIG. 6. If the operation switch 34 of the remote controller 22 is turned on at ST1 from the completely stopped state of the air conditioner, the air conditioner is started. Start driving,
In ST2, the cleaner relay 32 and the ion relay 29
Is turned on, and the operation of the air cleaning device 30 and the ion generator 16 starts. Next, in ST3, the previous operation mode is determined. In the case of the ion cleaner operation mode, the start of the refrigeration circuit in ST4 is skipped, and the fan 9 is operated in ST5. In the case of the cooling / heating operation or the dehumidifying operation, the refrigeration circuit such as the compressor is started in ST4,
The fan 9 is operated in ST5, and the ion
The cleaner operation and the air conditioning operation are continued. In addition, when the air conditioner is completely stopped, the process proceeds to ST12.
Ion cleaner switch 35 of remote control 22
Is turned on, the cleaner relay 32 and the ion relay 29 are turned on in ST13, the operation of the air cleaning device 30 and the ion generator 16 is started, and the fan 9 is turned on in ST15.
Starts operation, and continues the ion cleaner operation in ST6. By operating the ion cleaner switch 35 once without performing such a complicated operation, the operation of the ion cleaner becomes very simple and easy to understand. Next, if the ion cleaner switch 35 is turned off in ST7, the current operation mode is determined in ST8. If the cooling / heating operation and the ion cleaner operation are being performed simultaneously, the ion cleaner is switched in ST9. Only the operation is stopped to perform the cooling / heating operation, and the operation switch is turned off in ST10.
The process is continued until F, and in the case of the ion cleaner operation in ST8, the process immediately proceeds to ST11 and the operation is completely stopped. As described above, the operation switch 34 and the ion cleaner switch 35 are each set to match the current operation state, so that the operation can be stopped easily, so that anyone can easily operate the air conditioner. became. In this embodiment, the operation switch 34 and the ion cleaner switch 35 are turned on and off.
Although a switch of the type is used, a switch of a type that repeats ON and OFF each time the switch of the pressing type is pressed once may be adopted, and the flowchart of FIG. 6 shows the operation of the operation switch 34 and the ion cleaner switch 35. For simplicity, the operation of the operation mode switch 36 and the repetitive operation of the switches and the like are omitted, but, for example, when the operation switch 35 is turned off during the simultaneous operation of the cooling / heating operation and the ion cleaner operation in ST6. Means that the operation is completely stopped. As described above, according to the present invention, it is possible to start and stop the cooling / heating operation with the operation switch , and to perform ion cleaning.
Start / stop ion cleaner operation with
Each operation was performed, and it was possible to easily start and stop the operation without complicated operations, so that anyone could operate the air conditioner easily.

[Brief description of the drawings] FIG. 1 is a perspective view of an embodiment of the present invention. FIG. 2 is a schematic sectional view of the same. FIG. 3 is a cross-sectional view of the dust collection unit. FIG. 4 is a diagram showing the relationship between the air volume and the amount of negative ions. FIG. 5 is a block diagram of the control circuit. FIG. 6 is a flowchart of the same. FIG. 7 is a flowchart of a conventional example. [Explanation of symbols] 1 indoor unit 4 Suction port 6 outlet 9 fans 11 Dust collection unit 15 Display 17 radiation electrode 34 Operation switch 35 Ion cleaner switch

Continuation of the front page (56) References JP-A-6-241540 (JP, A) JP-A-3-236524 (JP, A) JP-A-2-48217 (JP, A) JP-A-4-106330 (JP) JP-A-60-196542 (JP, A) JP-A-1-124242 (JP, U) JP-A-56-119716 (JP, U) JP-B-7-23777 (JP, B2) (58) Field surveyed (Int. Cl. ⁷ , DB name) F24F 11/02 102

Claims (1)

(57) [Claims] [Claim 1] A heat exchanger for cooling and heating, an electrostatic dust collecting unit of an air purifying device, a cooling and heating operation, and an air
It comprises one of the fan used together in a gas cleaning operation, both when providing the radiation electrode of the air flow path or air flow path near the ion generating device, a control device which operates by a command of the operating device, the operating device includes at least heating and cooling An operation switch for operating and stopping the operation and an ion cleaner switch for operating both the air purifying device and the ion generator are provided. If the operation switch is operated when the air conditioner is stopped, at least the fan, the air purifying device and the ion An air conditioner , wherein the generator starts operating, and if the ion cleaner switch is operated during the operation, at least the air cleaner and the ion generator are stopped.