KR100307226B1 - Operation state display device and method of air conditioner - Google Patents

Abstract

The present invention relates to an operating condition display device and method thereof of an air conditioner, comprising: an intake port for suctioning indoor air, an intake temperature sensor for sensing a temperature of indoor air sucked through the intake port, and a suction port through the intake port; An air conditioner having an indoor heat exchanger for exchanging indoor air and a discharge port for discharging air heat exchanged by the indoor heat exchanger; A discharge temperature sensor detecting a temperature of air discharged through the discharge port; And a timer for counting a refrigerant circulation time of the indoor heat exchanger, and after the time counted by a timer reaches a predetermined time after the indoor fan, the compressor, and the outdoor fan are driven, the suction temperature sensor Control means for determining a difference between the intake air temperature detected by the discharge air temperature and the discharge air temperature detected by the discharge temperature sensor, and comparing the temperature difference within a predetermined predetermined temperature to determine an operation state of the air conditioner; Display means for displaying the operation state of the air conditioner in accordance with the control signal from the control means, by comparing the difference between the inlet temperature and the outlet port temperature is determined within the predetermined temperature to display the operating state of the air conditioner Operation condition of the air conditioner can be checked easily and unnecessary service request is prevented.

Description

Operation state display device and method of air conditioner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operating device of an air conditioner for performing heating and cooling operations. In particular, an operating condition display device and method for displaying an operating condition of an air conditioner by comparing a difference between intake air temperature and discharge air temperature. It is about.

In the conventional air conditioner, as shown in FIG. 1, a suction grill member 5 having a plurality of suction ports 3 through which indoor air is sucked is installed at the front lower part of an indoor main body 1 (hereinafter, referred to as a main body). In addition, a discharge port 7 is formed on the front surface of the main body 1 to discharge air sucked through the suction port 3 and heat-exchanged with cold or warm air to an indoor space where the main body 1 is installed.

In addition, the discharge port 7 is provided with a vertical wind vane 9 for adjusting the direction of the air discharged into the room through the discharge port 7 up and down and the left and right wind vane 11 for adjusting the left and right, the main body On the front surface of (1), the cover member 13 is fixed to the interior of the indoor unit and protects the interior. At the lower side of the cover member 13, the operation mode of the air conditioner (automatic, cooling) , Dehumidification, blowing, heating, etc.) and a start / stop of operation, and an operation unit 15 for adjusting the air volume and the air direction of the air discharged through the discharge port 7.

As shown in FIG. 2, an antibacterial filter member 17 is installed inside the suction grill member 5 to filter foreign substances such as dust floating in the indoor air sucked through the suction port 3. One side of the suction port 3 which is the inner side of the antibacterial filter member 17 is provided with a suction temperature sensor 16 for detecting the temperature of the indoor air sucked through the suction port (3).

Inside the antimicrobial filter member 17, a high voltage is used to decompose and charge the floating dust in the indoor air, and then, by adsorbing and removing the dust on the opposite charged dust collecting plate and simultaneously removing the odor, the charging unit and the dust collecting unit are integrated. A dust collector 18 is installed, and inside the electrostatic precipitator 18, a linear indoor heat exchanger is configured to heat the indoor air sucked through the suction port 3 to cold or warm air by latent heat of evaporation of the refrigerant. 19) is installed.

In addition, the upper part of the indoor heat exchanger 19 sucks indoor air through the suction port 3 and simultaneously discharges air heat-exchanged in the indoor heat exchanger 19 to the room through the discharge port 7. A blower fan 23 (hereinafter, referred to as an indoor fan) that rotates as the fan motor 21 is driven is installed, and the suction port is provided at the same time as the indoor fan 23 is covered with an outer side of the indoor fan 23. The duct member 25 which guides the flow of the air which is sucked in through (3) and discharged to the said discharge port 7 is provided.

In the above-described air conditioning and air conditioner, the user operates the remote controller or the control unit 15 to press the operation / stop key (hereinafter referred to as the operation key), and then the desired operation mode (for example, cooling) and the set temperature. When Ts is input, the indoor fan 23 is sucked into the main body 1 through the suction port 3 while the indoor fan 23 rotates in response to the driving of the indoor fan motor 21.

The temperature Tr (hereinafter referred to as room temperature) of the indoor air sucked through the suction port 3 is detected by the suction temperature sensor 16, and the detected suction air temperature Tr is compared with the set temperature Ts. As a result, when the intake air temperature Tr is higher than the set temperature Ts, the compressor is turned on by determining the operating frequency of the compressor according to the difference between the set temperature Ts and the intake air temperature Tr.

When the compressor is turned on, the indoor heat exchanger 19 is cooled according to the circulation of the refrigerant, so that the indoor air sucked into the main body 1 through the suction port 3 passes through the indoor heat exchanger 19 and the indoor heat exchanger 19. Heat exchanged into the cold air by the latent heat of evaporation of the refrigerant flowing in the inside, and the cold air heat exchanged in the indoor heat exchanger 19 is guided to the top by the guide of the duct member 25 and discharged into the room through the discharge port (7), The cold air discharged through the discharge port 7 performs indoor cooling while the wind direction is adjusted up and down or left and right according to the wind direction angles of the up and down wind vane 9 and the left and right wind vane 11.

In general, the normal operation of the air conditioner is determined to be normal when the temperature difference between the temperature of the inlet port 3 and the discharge port 7 is about 10 to 12 ° C. In the conventional air conditioner, the operation state of the air conditioner is displayed. There is a inconvenience that the user has to check the temperature of the inlet (3) and outlet (7) directly with a thermometer because the device is not provided, the user who does not know how to check the current state of the air conditioner can not check Despite driving conditions, there was a problem that there is a possibility to request a service or file a claim.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and the user determines the operating state of the air conditioner by comparing the difference between the inlet temperature and the outlet temperature within a predetermined temperature and displaying the operating state of the air conditioner. It is an object of the present invention to provide a device and a method for displaying an operation state of an air conditioner which can be easily identified and prevent unnecessary service requests.

In order to achieve the above object, the operating condition display apparatus of an air conditioner according to the present invention includes an intake port for sucking indoor air, an intake temperature sensor for sensing a temperature of indoor air sucked through the intake port, and the intake port. An air conditioner having an indoor heat exchanger for heat-exchanging indoor air to be sucked and a discharge port for discharging air heat-exchanged by the indoor heat exchanger; And a discharge temperature sensor for sensing the temperature of the air discharged through the discharge port, and a timer for counting the refrigerant circulation time of the indoor heat exchanger. The timer is operated after the indoor fan, the compressor, and the outdoor fan are driven. After the time counter reaches the predetermined time, the difference between the suction air temperature detected by the suction temperature sensor and the discharge air temperature detected by the discharge temperature sensor is obtained, and whether the temperature difference is within the predetermined temperature set. Control means for comparing the operation state of the air conditioner with a comparison; And display means for displaying an operating state of the air conditioner in accordance with a control signal from the control means.

In addition, the operating state display method of the air conditioner according to the present invention, in the operating method of the air conditioner for heat-exchanging the air sucked through the inlet and discharged through the discharge port, the temperature and setting of the air sucked through the inlet A cooling and heating operation step of performing a cooling and heating operation by driving a compressor according to a comparison result of temperature, a time discriminating step of determining whether a predetermined time has elapsed since the compressor is driven, and the suction port if it is determined that a predetermined time has elapsed in the time determining step. A temperature sensing step of sensing a temperature of indoor air sucked through the outlet and the air discharged through the discharge port, and whether a difference between the suction air temperature and the exhaust air temperature detected in the temperature sensing step is within a predetermined temperature preset in the control means; Comparing the temperature discrimination step and the temperature discrimination step, the temperature difference is within a predetermined temperature If it is determined, the green lamp is turned on by the display means to display the normal operation state of the air conditioner, and if it is determined that the temperature difference is not within a predetermined temperature, the red lamp is turned on by the display means. It characterized in that it consists of an abnormal operation display step of displaying an abnormal operation state of the air conditioner.

1 is a perspective view showing an indoor unit of a conventional air conditioner,

2 is a longitudinal sectional view showing an indoor unit of a conventional air conditioner;

3 is a longitudinal sectional view showing an indoor unit of an air conditioner according to the present invention;

4 is a control block diagram of an operation state display apparatus of an air conditioner according to an embodiment of the present invention;

5 is a flowchart showing a control operation procedure for displaying the operation state of the air conditioner according to the present invention.

<Explanation of symbols for the main parts of the drawings>

3: inlet port 7: outlet port

8: discharge temperature sensor 16: suction temperature sensor

19: indoor heat exchanger 23: indoor fan

102: operation operation means 104: control means

106: suction temperature sensing means 108: discharge temperature sensing means

130: display means

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

About the same part as a conventional structure, the description which overlaps by specifying the same name and the same code | symbol is abbreviate | omitted.

As shown in FIG. 3, one side of the discharge port 7 is provided with a discharge temperature sensor 8 that senses the temperature of the air that is heat exchanged through the indoor heat exchanger 19 and is discharged through the discharge port 7. .

As shown in FIG. 4, the power supply means 100 converts a commercial AC voltage supplied from an AC power supply terminal (not shown) into a predetermined DC voltage required for the operation of the air conditioner, and outputs the same. Is the operation mode of the air conditioner (automatic, cooling, dehumidification, blowing, heating, etc.) and the air volume (strong wind, weak wind, breeze, etc.) and the air direction, set temperature (Ts), air of the air discharged through the discharge port (7) It is provided with a plurality of function keys for inputting the operation / stop of the conditioner, and this operation operation means 102 is a key operation of the operation part 15 provided on the control panel of the main body 1, and the remote control which is not shown in figure. Is composed of a remote control signal receiver 103 for receiving an infrared signal transmitted from the remote controller.

And, the control means 104 is applied to the DC voltage output from the power supply means 100 to initialize the air conditioner, as well as the air conditioning in accordance with the operation selection signal input by the operation operation means (102) As a microcomputer for controlling the overall operation of the machine, the control means 104 compares whether the difference between the suction air temperature sucked through the suction port 3 and the discharge air temperature discharged through the discharge port 7 is within a predetermined temperature. To determine the operating state of the air conditioner.

Suction temperature detecting means 106 is composed of a suction temperature sensor 16 and the like to detect the temperature (Tr) of the indoor air sucked through the suction port 3 and output to the control means 104, the discharge temperature The sensing means 108 is composed of a discharge temperature sensor 8 or the like to detect the temperature of the air discharged through the discharge port 7 and output it to the control means 104.

The compressor driving means 120 controls the control means according to the difference between the temperature Ts set by the user by the driving operation means 102 and the suction air temperature Tr sensed by the suction temperature sensing means 106. Receiving a control signal output from the 104 to drive control the compressor 121, the wind direction control means 122 is discharged through the discharge port 7 in accordance with the wind direction set by the user by the driving operation means (102) The stepping motor 123 is driven by receiving a pulse signal output from the control means 104 to adjust the direction of the air to move the up, down, left and right wind vanes 9 and 11.

The outdoor fan motor driving means 124 may be configured according to the difference between the temperature Ts set by the user by the driving operation means 102 and the suction air temperature Tr detected by the suction temperature detecting means 106. Receiving a control signal output from the control means 104 controls the rotational speed of the outdoor fan motor 125 to blow the air heat-exchanged in the outdoor heat exchanger to the outside to drive and control the outdoor fan, the indoor fan motor driving means 126 ) Receives the control signal output from the control means 104 in accordance with the air volume set by the user by the operation operation means 102 to the air (cold or hot air) heat exchanged in the indoor heat exchanger 19 to the room By controlling the rotation speed of the indoor fan motor 21 to blow air, the indoor fan 23 is driven and controlled.

In addition, in the drawing, the dust collecting driving means 128 is operated according to the control signal output from the control means 104 to ionize particles such as dust floating in the indoor air sucked through the suction port 3 by an electrical method. Drive control of the electrostatic precipitator 18 so as to collect dust, and the display means 130 controls the operation selection mode (automatic, cooling, dehumidifying) input by the driving operation means 102 under the control of the control means 104. , Blowing, heating, etc.) and temperature and time, as well as lighting the green and red lamps indicating the normal and abnormal operating conditions of the air conditioner.

Hereinafter, the operation state display device of the air conditioner configured as described above and the operational effects of the method will be described.

FIG. 5 is a flowchart showing a control operation procedure for displaying the operation state of the air conditioner according to the present invention, and in FIG. 5, S denotes a step.

First, when power is applied to the air conditioner, the power supply means 100 converts a commercial AC voltage supplied from an AC power terminal (not shown) into a predetermined DC voltage required for driving the air conditioner, thereby driving each circuit and control means ( Output to 104).

Therefore, in step S1, the DC voltage output from the power supply means 100 is input from the control means 104 to initialize the air conditioner.

At this time, when the user operates the operation operation means 102 and presses the operation key, and inputs a desired operation mode (for example, cooling), a set temperature (Ts), and a set air volume of the air conditioner, the operation operation means ( From the 102, an operation selection signal and an operation start signal (hereinafter referred to as operation signal) are input to the control means 104.

Accordingly, in step S2, the control means 104 determines whether the driving signal is input from the driving operation means 102, and maintains the air conditioner in the operation standby state when the driving signal is not input (NO). The operation of step S2 and below is repeated.

As a result of the discrimination in step S2, when an operation signal is input (YES), the control means 104 determines whether or not the operation condition input by the operation operation means 102 is a cooling operation. If it is not the cooling operation (NO), the flow advances to step S31 to return to step S3 while performing the operation of the air conditioner in accordance with the selected operation mode, and repeats the operations of step S3 and below.

As a result of the discrimination in step S3, in the case of the cooling operation (YES), the control means 104 proceeds to step S4 to perform the cooling operation of the air conditioner, and the control means 104 supplies a control signal for driving the indoor fan 23. Output to the indoor fan motor driving means (126).

Accordingly, the indoor fan motor driving means 126 controls the rotation speed of the indoor fan motor 21 according to the air volume set by the user to turn on the indoor fan 23.

When the indoor fan 23 is turned on, the indoor air begins to be sucked into the main body 1 through the suction port 3, and at this time, the suction temperature sensing means measures the temperature Tr of the indoor air sucked into the main body 1. Detect at 106.

At this time, in step S5, it is determined whether the predetermined time t1 (delay time for protecting the compressor, about 3 minutes) has elapsed, and when the predetermined time t1 has not elapsed (NO), the predetermined time t1 The operation below step S5 is repeatedly performed until this elapses.

As a result of the discrimination in step S5, when the predetermined time t1 has elapsed (YES), the flow advances to step S6 and the control means 104 detects the intake air temperature Tr detected by the intake temperature sensing means 106. After receiving analog data of the digital input and converting it into digital, it is determined whether the intake air temperature (Tr) is greater than the set temperature (Ts), and the intake air temperature (Tr) is not greater than the set temperature (Ts). ) Returns to the step S5 while waiting for the operation operation of the outdoor unit, and repeats the operation of the step S5 or less.

As a result of the discrimination in step S6, if the intake air temperature Tr is larger than the set temperature Ts (YES), the flow advances to step S7, and the control means 104 controls the intake air temperature Tr and the set temperature Ts. The control signal for driving the compressor 121 and the outdoor fan is determined by determining the operating frequency of the compressor 121 and the rotation speed of the outdoor fan motor 125 according to the difference between the compressor driving means 120 and the outdoor fan motor driving. Output to the means 124.

Accordingly, the compressor driving means 120 turns on the compressor 121 according to the operating frequency determined by the control means 104, and the outdoor fan motor driving means 124 outdoors according to the rotation speed determined by the control means 104. Turn on the fan.

When the compressor 121 and the outdoor fan are turned on, the indoor heat exchanger 19 is cooled according to the circulation of the refrigerant, and thus the indoor air sucked into the main body 1 through the suction port 3 by the rotational force of the indoor fan 23. Is heat-exchanged with cold air by the latent heat of evaporation of the refrigerant flowing in the indoor heat exchanger 19 while passing through the indoor heat exchanger 19, and the cold air heat-exchanged by the indoor heat exchanger 19 is guided by the duct member 25. The wind direction is adjusted up and down or left and right according to the wind direction angle of the up and down wind vane 9 and the left and right wind vane 11 rotatably installed in the discharge port 7 and starts to be discharged into the room.

At this time, in step S8, the compressor 121 is turned on to determine whether a predetermined time t2 (time until the refrigerant is sufficiently circulated) has elapsed by a timer built in the control means 104, and the predetermined time (t2). If () has not passed (NO), the operation of step S8 or less is repeated until the predetermined time t2 elapses.

As a result of the discrimination in step S8, when the predetermined time t2 has elapsed (YES), the flow advances to step S9 to determine the temperature Tr of the indoor air sucked through the intake port 3, and the suction temperature sensing means 106. Is sensed at, and the discharge temperature sensing means 108 detects the temperature To of the air discharged through the discharge port 7 and outputs it to the control means 104.

Therefore, in step S10 the control means 104 is analog data of the suction air temperature (Tr) detected by the suction temperature detection means 106 and the discharge air temperature (To) detected by the discharge temperature detection means 108. Is converted to digital, and it is determined whether the temperature difference Tr-To between the intake air temperature Tr and the discharge air temperature To is within a predetermined temperature (10-12 ° C.).

As a result of the determination in step S10, when the temperature difference Tr-To between the intake air temperature Tr and the discharge air temperature To is within a predetermined temperature (10-12 ° C) (YES), the process proceeds to step S11. Since the control means 104 outputs a control signal for displaying the normal operation state of the air conditioner to the display means 130, the display means 130 turns on the green lamp indicating the normal operation state of the air conditioner. Returns.

On the other hand, when the determination result in step S10 indicates that the temperature difference Tr-To between the intake air temperature Tr and the discharge air temperature To is not within a predetermined temperature (10 to 12 ° C) (NO) In step S12, since the control means 104 outputs a control signal for displaying an abnormal operation state of the air conditioner to the display means 130, the display means 130 displays a red lamp for displaying an abnormal operation state of the air conditioner. Returns while lighting.

According to the operating state display device and method of the air conditioner according to the present invention as described above, by comparing the inlet temperature and the discharge port temperature to determine whether the difference between the inlet temperature and the predetermined temperature by the user by displaying the operating state of the air conditioner The operation state of the air conditioner can be easily confirmed, and there is an effect of preventing unnecessary service requests.

Claims (3)

A suction inlet for suctioning indoor air, an intake temperature sensor for sensing a temperature of indoor air sucked through the inlet, an indoor heat exchanger for exchanging indoor air sucked through the inlet, and air exchanged by the indoor heat exchanger An air conditioner having a discharge port for discharging; A discharge temperature sensor detecting a temperature of air discharged through the discharge port; And a timer for countering the refrigerant circulation time of the indoor heat exchanger, wherein a time counted by a timer reaches a predetermined time after the indoor fan, the compressor, the indoor fan, the compressor, and the outdoor fan are driven. Thereafter, the difference between the suction air temperature detected by the suction temperature sensor and the discharge air temperature detected by the discharge temperature sensor is obtained, and the operation state of the air conditioner is compared by comparing whether the temperature difference is within a predetermined predetermined temperature. Control means for determining; And a display means for displaying the operation state of the air conditioner in accordance with the control signal from the control means. The display device according to claim 1, wherein the display means lights up a green lamp when the air conditioner is in a normal operating state, and lights up a red lamp when the air conditioner is in an abnormal operating state. In the operating method of the air conditioner to heat the air sucked through the suction port to discharge through the discharge port, A cooling and heating operation step of performing a cooling and heating operation by driving a compressor according to a result of comparing the temperature of the air sucked through the suction port and the set temperature; A time discriminating step of determining whether the compressor is driven and a predetermined time has elapsed; A temperature sensing step of detecting a temperature of indoor air sucked through the suction hole and air discharged through the discharge hole when it is determined that a predetermined time has elapsed in the time discriminating step; A temperature discrimination step of comparing and discriminating whether the difference between the intake air temperature and the discharge air temperature detected in the temperature sensing step is within a predetermined temperature preset by the control means; A normal operation display step of displaying a normal operation state of the air conditioner by lighting a green lamp through a display means when it is determined that the temperature difference is within a predetermined temperature in the temperature discriminating step; If it is determined that the temperature difference is not within a predetermined temperature in the temperature discriminating step, the operating state of the air conditioner comprises an abnormal operation display step of displaying an abnormal operation state of the air conditioner by lighting a red lamp through the display means. How to display.