KR20210016867A - A control device for abnormal temperature on an airconditioner of window type - Google Patents

Abstract

The present invention relates to a control device for an abnormal temperature on a window-type air conditioner, which is able to use an air blower fan, to discharge heat generated in a condenser or a machine unit (or an outdoor unit) to the outside, to have a temperature sensor on an air outlet side, and to stop the air conditioner and output an alarm when a user drives the air conditioner without opening a window. The control device for the abnormal temperature on the window-type air conditioner comprises: a first temperature sensor installed on the air outlet; and a control device which receives the temperature measured by the first temperature sensor, stops a compressor in accordance with the temperature of the first temperature sensor, and cools the outdoor unit. According to the present invention, the control device is able to stop the operation of the compressor and perform a cooling operation through the air blower fan when the temperature on the exhaust unit rises, and to prevent the deformation and disorder of the inside of the device and the surrounding facilities.

Description

{A control device for abnormal temperature on an airconditioner of window type}

The present invention discharges heat generated from the condenser or the mechanical part (or the outdoor part) to the outside by using a blower fan, but has a temperature sensor on the exhaust port side, so that the air conditioner is stopped and an alarm is generated when driving without opening the window. It relates to an apparatus for controlling abnormal temperature of a window type air conditioner that outputs.

In general, an air conditioner has a refrigeration cycle device composed of a compressor, a condenser, a capillary tube, and a heat exchanger. It is a device that keeps you comfortable.

Air conditioners can be classified into window type air conditioners and separate type air conditioners according to the installation method. Window-type air conditioners are equipped with all refrigeration cycle devices in one casing and installed on windows, while separate air conditioners are divided into indoor and outdoor units. An indoor heat exchanger is installed in the indoor unit, and an outdoor heat exchanger and a compressor are installed in the outdoor unit. It is to be installed outdoors [Patent Document 1].

In particular, heat generated in the heat exchanger and the machine room (or outdoor part) is discharged to the outside using a blower fan. However, most of the heat exchangers and mechanical parts are equipped with safety devices for self-protection, but no protection devices are provided for abnormal temperatures emitted to the outside of the device.

However, the window-type air conditioner is installed on the window frame, and in particular, may be installed so that the outer window can be closed. That is, when using a window-type air conditioner, the window must be opened, and when not in use, it can be installed so that the outer window can be closed at least.

However, the window-type air conditioner can be operated with the user forgetting to open the window completely. At this time, the space inside the window frame is sealed, so that the temperature may increase. In particular, since a protection device is not provided for abnormal temperatures that occur in a device of a window-type air conditioner, a breakdown of parts inside the device or deformation of a window frame due to an increase in temperature may cause a breakdown.

Korean Utility Model Registration No. 10-1234489 (Announcement on October 1, 2003)

An object of the present invention is to solve the above-described problems, by installing a temperature sensor in the exhaust part to monitor internal and external temperature changes, and when the temperature rises higher than the set temperature, stop the operation of the compressor and the blower fan (FAN ) To provide a device for controlling the abnormal temperature of a window-type air conditioner that is cooled using.

In addition, an object of the present invention is to cool using a blowing fan when the temperature of the exhaust part rises above the first threshold, and if the temperature does not fall below the second threshold within a predetermined threshold time, it is determined that the window is closed, and the drive is stopped. It is to provide an abnormal temperature control device of a window type air conditioner that generates an alarm.

In order to achieve the above object, the present invention relates to an apparatus for controlling an abnormal temperature of a window type air conditioner, comprising: a first temperature sensor installed at an exhaust port; And a control device for receiving the temperature measured from the first temperature sensor, stopping the compressor according to the temperature of the first temperature sensor, and cooling the outdoor unit.

In addition, the present invention relates to an apparatus for controlling abnormal temperature of a window-type air conditioner, wherein the first temperature sensor is installed to protrude toward the exhaust port in a condenser frame disposed on a side of the condenser of the air conditioner, and at an upper side of the exhaust port It characterized in that it is installed.

In addition, the present invention relates to an apparatus for controlling an abnormal temperature of a window-type air conditioner, wherein the first temperature sensor is installed at a point 1/10 to 1/3 from the top of the exhaust port.

In addition, the present invention relates to an apparatus for controlling an abnormal temperature of a window type air conditioner, the control apparatus comprising: (a) receiving a first measured temperature from the temperature sensor; (b) when the first measured temperature exceeds a preset first threshold temperature, stopping the compressor and driving a second blowing fan to cool the inside of the outdoor unit; (c) receiving a first measured temperature from the temperature sensor; (d) comparing the first measured temperature with a predetermined second critical temperature; And, (e) when the first measured temperature is lower than the second critical temperature, the compressor is operated to drive the air conditioner.

In addition, the present invention relates to an apparatus for controlling abnormal temperature of a window-type air conditioner, wherein the step (e) comprises: (e1) when the first measured temperature is lower than the second critical temperature, the elapsed time and a predetermined first critical time are Comparing; (e2) if the elapsed time is less than the first threshold time, operating the air conditioner normally; And (e3) if the elapsed time is greater than or equal to the first threshold time, stopping the function of the air conditioner and outputting an alarm notifying that the air conditioner is to be ventilated.

In addition, the present invention relates to an apparatus for controlling abnormal temperature of a window-type air conditioner, wherein step (e3) includes: (e31) accumulating the number of abnormal conditions when the elapsed time is greater than or equal to a first threshold time; (e32) comparing the accumulated number of abnormal states with a predetermined first threshold number; And (e33) when the accumulated number is greater than the first threshold number, stopping the function of the air conditioner and outputting an alarm notifying that the air conditioner is to be ventilated.

As described above, according to the abnormal temperature control device of the window-type air conditioner according to the present invention, when the temperature of the exhaust part rises high, the operation of the compressor is stopped and cooling through a blowing fan, thereby preventing deformation and failure of the inside of the device and surrounding facilities. The possible effect is obtained.

In addition, according to the apparatus for controlling abnormal temperature of a window-type air conditioner according to the present invention, an effect of securing safety is obtained by sensing and controlling temperature changes of the device and the external environment to protect the device and surrounding facilities.

1 is a front perspective view of a window type air conditioner according to an embodiment of the present invention.
2 is a rear perspective view of a window type air conditioner according to an embodiment of the present invention.
3 is an internal configuration diagram of a window type air conditioner according to an embodiment of the present invention.
4 is a flowchart illustrating a control method of an apparatus for controlling an abnormal temperature of a window type air conditioner according to the first embodiment of the present invention.
5 is a flowchart illustrating a control method of an apparatus for controlling an abnormal temperature of a window-type air conditioner according to a second embodiment of the present invention.
6 is a flowchart illustrating a control method of an apparatus for controlling an abnormal temperature of a window type air conditioner according to a third embodiment of the present invention.

Hereinafter, specific details for the implementation of the present invention will be described with reference to the drawings.

In addition, in describing the present invention, the same parts are denoted by the same reference numerals, and repeated explanations thereof are omitted.

Next, a schematic configuration of a window-type air conditioner according to an embodiment of the present invention will be described with reference to FIGS. 1 to 2.

1 or 2, the window-type air conditioner 1000 according to the present invention includes a case 10, an evaporator 13 installed indoors within the case 10, and the case 10 It includes a condenser 12 installed on the outdoor side.

Specifically, the condenser 12 is disposed opposite to the rear surface of the case 10, that is, the outdoor side, and an exhaust port 23 through which the air passing through the condenser 12 is exhausted is formed on one side of the condenser 12.

The condenser 12 is disposed to face the outdoor intake grill 21 of the case 10, and is wrapped around the condenser frame 12c.

In addition, the exhaust port 23 is disposed to face the exhaust grill 22 disposed adjacent to the intake grill 21.

In the condenser frame 12c disposed on the side of the condenser 12, the first temperature sensors 51 and TS are installed to protrude toward the exhaust port 23, so that the outdoor temperature can be sensed. In particular, the measurement part of the first temperature sensor 51 is installed in the exhaust port 23 so that the temperature of the air discharged to the exhaust port can be measured.

Preferably, the first temperature sensor 51 is installed on the upper side of the exhaust port 23. More preferably, the first temperature sensor 51 is installed at a point of 1/10 to 1/3 from the top of the exhaust port 23.

Since the exhaust port 23 is small in width and relatively high in height, there may be a difference in temperature of the discharged air depending on the height of the exhaust port 23. In particular, since the air heated by the condenser 12 flows upward, it is possible to more accurately measure the temperature of the hot air that is a problem inside (or outside) the outdoor side.

Of course, the window type air conditioner 1000 according to the present invention includes an expansion valve and a compressor constituting a cooling cycle in the case 10. This will be described in more detail below.

Next, a detailed configuration of the interior of a window type air conditioner according to an embodiment of the present invention will be described with reference to FIG. 3.

As shown in FIG. 3, the window-type air conditioner 1000 according to an embodiment of the present invention condenses the compressor 11 that pressurizes the refrigerant in the case 10 and the refrigerant pressurized by the compressor 11 to condense the temperature. It is an air conditioner having a structure including a condenser 12 for lowering the temperature and an evaporator 13 for performing heat exchange by using a refrigerant whose temperature is lowered by the condenser 12.

In the window-type air conditioner, the inner space of the case 10 is divided into an indoor part 10a and an outdoor part 10b based on the diaphragm panel 19. An evaporator 13 and a first blowing fan 14 for circulating indoor air through the evaporator 13 are mounted in the indoor portion 10a. In addition, a compressor 11, a condenser 12, and a second blowing fan 16 for cooling the condenser 12 using outdoor air are installed in the outdoor unit 10b.

In addition, the first blowing fan 14 and the second blowing fan 16 are connected to the shafts of the motors 15 and 17 and driven by the motors 15 and 17.

Meanwhile, in order to remove moisture generated on the outer surface of the compressor 11, a drying fan 18 may be installed around the compressor 11.

With this configuration, the compressor 11 of the window-type air conditioner compresses the refrigerant gas at high temperature and high pressure, and exchanges heat with the outdoor unit introduced from the condenser 12 by the second blower fan 16. Therefore, the condensed refrigerant liquid is introduced from the evaporator 13 as a low-temperature, low-pressure refrigerant liquid that has been expanded through the expansion valve. As the motor 15 rotates, the temperature of the indoor unit that is heat-exchanged by contacting the outer surface of the evaporator 13 by the first blowing fan 14 interlocked therewith is reduced.

Next, the first temperature sensor 51 is installed on the upper side of the exhaust port 23. Preferably, the first temperature sensor 51 is provided on one side of the condenser frame 12c, in particular, on one side opposite to the exhaust port 23. That is, a mounting groove (not shown) is formed on one side of the condenser frame 12c, and the first temperature sensor 51 is installed in the groove (not shown).

In addition, the measurement portion of the first temperature sensor 51 faces the inside of the exhaust port 23, and the temperature inside the exhaust port 23 may be measured. In particular, the first temperature sensor 51 measures the temperature of air discharged through the exhaust port 23.

In addition, the second temperature sensor 52 is installed on the front side 10c of the case 10 or on the front side of the interior 10a, and measures the air temperature in the room in which the window-type air conditioner 1000 is installed. . Preferably, the second temperature sensor 52 is installed in an operation portion (not shown) installed on the front portion 10c of the case 10.

In addition, the third temperature sensor 53 is an eva sensor installed in a pipe of the evaporator 13 or the like. The third temperature sensor 53 detects the cold temperature converted by the heat exchanger, and prevents ice formation due to a failure or subcooling of the condenser 12 (compressor). That is, the third temperature sensor 53 is used for defrosting.

Next, the control device 30 is installed in the case 10 to control power supply to each element of the window-type air conditioner or other operations.

That is, the control device 30 receives AC power from the outside, and supplies or cuts off power to the compressor 11, the first or second blowing fans 14, 16, and the like. In addition, the speed and the like are controlled through a control signal.

In addition, the control device 30 receives the measured temperature from the first temperature sensor 51 or the second temperature sensor 52, and operates the blowing fans 14 and 16, the compressor 11, etc. according to the measured temperature. Control, or output an alarm or the like through a control unit (not shown).

In particular, the control device 30 stops the operation of the compressor 11 when the temperature (or first measurement temperature) measured by the first temperature sensor 51 is higher than a predetermined threshold (or first critical temperature) The second blowing fan 16 is driven to cool the inside of the outdoor part 10b.

In addition, the control device 30 cooled the inside of the outdoor part 10b because the first measured temperature measured by the first temperature sensor 51 became higher than or equal to the first critical temperature, but for a predetermined time (hereinafter, the first cooling time) ), but does not fall below the second critical temperature, an alarm is output.

Next, a control method of an apparatus for controlling an abnormal temperature of a window-type air conditioner according to a first embodiment of the present invention will be described with reference to FIG. 4.

As shown in FIG. 4, first, the control device 30 receives the temperature measured from the first temperature sensor 51 (hereinafter, the first measured temperature) (S11).

Next, the control device 30 compares the measured first measurement temperature with a predetermined first critical temperature (S12). The first critical temperature is a temperature indicating a criterion at which the outdoor unit 10b of the window type air conditioner is overheated. That is, if the internal temperature of the outdoor part 10b is higher than or equal to the first critical temperature, the outdoor part or the machine room 10b becomes considerably hot and requires cooling.

The first critical temperature is determined and set in advance by experiment or the like.

Next, if the first measurement temperature is less than or equal to the first critical temperature, the control device 30 performs the measurement step (S11) again (S13).

If the first measured temperature exceeds the first critical temperature, the control device 30 stops the compressor 11 and drives the second blowing fan 16 to cool the inside of the outdoor unit 10b ( S20).

Next, the first measurement temperature measured from the first temperature sensor 51 is received (S31), and the measured first measurement temperature is compared with a predetermined second critical temperature (S32). The second critical temperature is a temperature indicating a stable state in which the inside of the outdoor part 10b is cooled. That is, if the internal temperature of the outdoor unit 10b is lower than the second critical temperature, the air conditioner may be driven because it is in a cooled state.

If the first measurement temperature is not lower than the second critical temperature (ie, the first measurement temperature is greater than or equal to the first critical temperature), the measurement step S31 is performed again (S33).

If the first measured temperature is lower than the second critical temperature, the control device 30 operates the compressor 11 to drive the air conditioner (S40). In other words, restart Aiken.

Next, a control method of an apparatus for controlling an abnormal temperature of a window type air conditioner according to a second embodiment of the present invention will be described with reference to FIG. 5.

As shown in FIG. 5, first, the control device 30 receives the first measured temperature measured from the first temperature sensor 51 (S111).

Next, the control device 30 compares the measured first measurement temperature and the first critical temperature (S112). In addition, when the first measurement temperature is less than or equal to the first critical temperature, the control device 30 performs the measurement step (S111) again (S113).

If the first measured temperature exceeds the first critical temperature, the control device 30 stops the compressor 11 and drives the second blowing fan 16 to cool the inside of the outdoor unit 10b ( S120).

Next, the first measurement temperature measured from the first temperature sensor 51 is received (S131), and the measured first measurement temperature and the second critical temperature are compared (S132). If the first measurement temperature is not lower than the second critical temperature, the measurement step (S131) is performed again (S133).

If the first measured temperature is lower than the second critical temperature, the control device 30 compares the elapsed time with a predetermined first critical time (S140).

The elapsed time represents a time elapsed between a time when the compressor is stopped and cooled because the first measured temperature is higher than the first critical temperature above, the current time, or a time elapsed between the time when the first measured temperature is cooled and lower than the second critical temperature. That is, the elapsed time means the time when the compressor is stopped and cooled.

The first critical time refers to the maximum time to be cooled when cooling is normally operated. That is, when cooling is performed for at least the first critical time, it returns to the normal state. However, when the window of the window air conditioner is closed, cooling is not performed well. Therefore, it takes more time than the first critical time to cool down to a normal temperature in an overheated state.

Therefore, if the elapsed time is less than the first threshold time, since it is in a normal state, the control device 30 normally operates the air conditioner (S150).

However, if the elapsed time is greater than the first threshold time, the control device 30 determines that it is in an abnormal state, stops the function of the air conditioner, and outputs an alarm notifying that the air conditioner is to be ventilated (S160). That is, even if the compressor is stopped in an overheated state and cooled with a blower fan, it may be determined that ventilation is difficult to the exhaust port 23 because it does not drop to a desired temperature (second critical temperature).

Next, a control method of an apparatus for controlling abnormal temperature of a window type air conditioner according to a third embodiment of the present invention will be described with reference to FIG. 6.

The third embodiment of the present invention is the same as the second embodiment of the present invention, but when the state in which the temperature does not drop well even after cooling is repeated a predetermined number of times instead of once, the air conditioner is stopped and an alarm is output. There is a difference in

As shown in FIG. 5, first, the control device 30 receives the first measured temperature measured from the first temperature sensor 51 (S211).

Next, the control device 30 compares the measured first measurement temperature and the first critical temperature (S212). In addition, when the first measurement temperature is less than or equal to the first critical temperature, the control device 30 performs the measurement step (S211) again (S213).

If the first measured temperature exceeds the first critical temperature, the control device 30 stops the compressor 11 and drives the second blowing fan 16 to cool the inside of the outdoor unit 10b ( S220).

Next, the first measurement temperature measured from the first temperature sensor 51 is received (S231), and the measured first measurement temperature and the second critical temperature are compared (S232). If the first measurement temperature is not lower than the second critical temperature, the measurement step (S131) is performed again (S233).

If the first measurement temperature is lower than the second critical temperature, the control device 30 compares the elapsed time and the first critical time (S240). If the elapsed time is less than the first threshold time, since it is in a normal state, the control device 30 normally operates the air conditioner (S250).

However, if the elapsed time is greater than or equal to the first threshold time, the control device 30 accumulates the number of abnormal conditions (or the number of elapsed threshold time) (S261).

Next, the control device 30 compares the accumulated number with a predetermined first threshold number (S262). The first threshold number of times means the number of times the abnormal state is repeated. For example, if it is abnormal 3 times in a row, all air conditioners are stopped and a ventilation alarm is output. The reason for setting the abnormal state to two or more times is to prevent the case of incorrectly diagnosing the abnormal state. Due to a temporary environmental factor, there may be a case where the outdoor unit 10b is not cooled so that the critical time elapses. Therefore, if it is repeated a predetermined number of times, it is determined as an abnormal state.

Therefore, if the accumulated number is less than the first threshold number, it ends, and if it is greater than the first threshold number, the control device 30 stops the air conditioner and outputs a ventilation alarm (S262).

In the above, the invention made by the present inventors has been described in detail according to the embodiments, but the invention is not limited to the embodiments, and it goes without saying that various modifications can be made without departing from the gist of the invention.

10: case 10a: interior
10b: outdoor part 10c: front part
11: compressor 12: condenser
12c: condenser frame 13: evaporator
14: first blowing fan 15: first motor
16: second blowing fan 17: second motor
18: drying pan 19: diaphragm panel
21: intake grill 22: exhaust grill
23: exhaust port 30: control device
51: first temperature sensor 52: second temperature sensor
53: third temperature sensor

Claims (6)

In the abnormal temperature control device of a window air conditioner,
A first temperature sensor installed at the exhaust port;
And a control device for receiving the temperature measured from the first temperature sensor, stopping the compressor according to the temperature of the first temperature sensor, and cooling the outdoor unit.
The method of claim 1,
The first temperature sensor is a condenser frame disposed on a side of the condenser of the air conditioner, is installed to protrude toward the exhaust port, and is installed at an upper side of the exhaust port.
The method of claim 1,
The first temperature sensor is an abnormal temperature control device for a window type air conditioner, characterized in that installed at 1/10 to 1/3 from the top of the exhaust port.
The method of claim 1, wherein the control device,
(a) receiving a first measured temperature from the temperature sensor;
(b) when the first measured temperature exceeds a preset first threshold temperature, stopping the compressor and driving a second blowing fan to cool the inside of the outdoor unit;
(c) receiving a first measured temperature from the temperature sensor;
(d) comparing the first measured temperature with a predetermined second critical temperature; And,
(e) When the first measurement temperature is lower than the second critical temperature, the apparatus for controlling an abnormal temperature of a window type air conditioner, characterized in that performing the step of driving the air conditioner by operating the compressor.
The method of claim 4, wherein step (e),
(e1) if the first measured temperature is lower than the second critical temperature, comparing the elapsed time with a predetermined first critical time;
(e2) if the elapsed time is less than the first threshold time, operating the air conditioner normally; And,
(e3) if the elapsed time is greater than or equal to the first threshold time, stopping the function of the air conditioner and outputting an alarm notifying that the air conditioner is to be ventilated.
The method of claim 5, wherein the step (e3),
(e31) if the elapsed time is greater than or equal to the first threshold time, accumulating the number of abnormal states;
(e32) comparing the accumulated number of abnormal states with a predetermined first threshold number; And,
(e33) If the cumulative number is greater than the first threshold number, stopping the function of the air conditioner and outputting an alarm notifying that the air conditioner is to be ventilated.

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