KR102419169B1 - Monitoring device for air conditions apparatus - Google Patents

Abstract

The present invention relates to an air conditioner diagnosis apparatus, comprising: a case having an external appearance and having a plurality of openings formed on the side thereof; a substrate portion disposed inside the case and formed with a plurality of connecting portions exposed to the outside through the plurality of openings; and a control unit disposed on the substrate and configured to determine whether or not the connected components operate normally when a component of the air conditioner is connected to one or more of the plurality of connection units, wherein the plurality of connection units include the air conditioner. one or more motor connection parts connectable to the motor of the conditioner; one or more sensor connection units connectable to sensors for measuring the refrigerant temperature and refrigerant pressure inside the air conditioner; one or more expansion device connection parts connectable to an expansion device for expanding or evaporating the refrigerant inside the air conditioner; The air conditioner may include a valve connection part connectable to a valve for controlling whether or not the refrigerant flows in the air conditioner, and a communication connection part connectable with a communication module for transmitting the diagnosis result of the control unit to an external device.

Description

Diagnostic device for air conditioner {MONITORING DEVICE FOR AIR CONDITIONS APPARATUS}

The present invention relates to a diagnostic device for an air conditioner.

An air conditioner is a device for maintaining the air in a predetermined space in the most suitable state according to the use and purpose. In particular, the internal refrigerant undergoes a phase change while circulating through the compressor, the condenser, the expander, and the evaporator.

In general, the air conditioner includes a compressor, a condenser, an expansion device, and an evaporator, and a refrigerant cycle for performing compression, condensation, expansion and evaporation of the refrigerant is driven to cool or heat the predetermined space. .

The predetermined space may be variously proposed according to a place where the air conditioner is used. For example, when the air conditioner is disposed in a home or office, the predetermined space may be an indoor space of a house or a building. On the other hand, when the air conditioner is disposed in a vehicle, the predetermined space may be a boarding space in which a person rides.

When the air conditioner performs a cooling operation, the outdoor heat exchanger provided in the outdoor unit functions as a condenser, and the indoor heat exchanger provided in the indoor unit functions as an evaporator. On the other hand, when the air conditioner performs a heating operation, the indoor heat exchanger functions as a condenser and the outdoor heat exchanger functions as an evaporator.

Therefore, it is essential to monitor whether the air conditioner is operating properly, particularly whether the cooling or heating cycle is being performed properly.

The invention related to a conventional air conditioner diagnosis system for monitoring the operation of such an air conditioner is disclosed as follows.

[Prior literature]

1. Application No. 10-2012-0127474 (Publication Date: May 22, 2014), Title of Invention: Control device for air conditioner and operating method thereof

However, in the case of the conventional control device for an air conditioner, by monitoring the state of the air conditioner in real time, the configuration of the cooling or heating operation cycle state can be checked, and there is the following problem.

First, it is possible to monitor the overall cycle state of the air conditioner in real time, but there is a problem in that it is impossible to diagnose each component or individual parts in a cooling or heating cycle.

A conventional air conditioner may include a complex configuration, for example, a compressor connected to a motor, an expansion device in the form of an electromagnetic valve, a plurality of solenoid valves, a temperature sensor and a pressure sensor for measuring the temperature and pressure of the refrigerant.

In this case, for example, if a problem occurs in the cooling cycle, there is a problem in that it is not possible to separately determine whether a problem occurs in the motor of the compressor or a problem in the solenoid valve in the conventional case.

Second, in the conventional case, a plurality of parts of the air conditioner cannot be diagnosed with a single diagnostic device, so there is a problem in that an administrator has to carry a plurality of diagnostic devices.

Second, since the control device is not formed as a separate device but is attached to the indoor unit, it is inconvenient for an administrator to directly move to a place where the indoor unit is disposed in order to diagnose a cooling or heating cycle using the control device.

An object of the present invention is to provide a diagnostic apparatus for an air conditioner capable of separately diagnosing parts of the air conditioner in order to solve the above problems.

Another object of the present invention is to provide a diagnostic device for an air conditioner in which a manager can diagnose all parts of the air conditioner with one diagnostic device.

Another object of the present invention is to provide a diagnostic apparatus for an air conditioner capable of diagnosing an outdoor unit or parts of an indoor unit in a state in which a manager individually carries the diagnostic apparatus without moving the indoor unit or the outdoor unit directly.

Another object of the present invention is to provide a diagnostic device for an air conditioner that can transmit a diagnostic result to the outside when the diagnosis is completed through the diagnostic device.

An apparatus for diagnosing an air conditioner according to an embodiment of the present invention includes: a case having an external shape and having a plurality of openings formed on the side thereof in order to diagnose a plurality of parts of the air conditioner; a substrate portion disposed inside the case and formed with a plurality of connecting portions exposed to the outside through the plurality of openings; and a control unit disposed on the substrate and configured to determine whether the connected components operate normally when a component of the air conditioner is connected to one or more of the plurality of connection units.

The plurality of connection parts may include: one or more motor connection parts connectable to a motor of the air conditioner; one or more sensor connection units connectable to sensors for measuring the refrigerant temperature and refrigerant pressure inside the air conditioner; one or more expansion device connection parts connectable to an expansion device for expanding or evaporating the refrigerant inside the air conditioner; The air conditioner may include a valve connection part connectable to a valve for controlling whether or not the refrigerant flows in the air conditioner, and a communication connection part connectable with a communication module for transmitting the diagnosis result of the control unit to an external device, through which the air conditioner It is possible to determine whether a plurality of parts connected to the machine (eg, a motor, an expansion device, a valve, a sensor, etc.) operate normally.

In addition, in order to measure the noise level of the air conditioner, it may further include a noise sensor disposed on the substrate to detect external noise.

The motor connection part may include: a first motor connection part connectable to a compressor motor of the air conditioner; and a second motor connection part to which the fan motor of the air conditioner is connectable, so that a portion to which the compressor motor and the fan motor are connected may be separately formed.

In this case, the plurality of openings, a first opening unit formed on the front side of the case, the power connection part, the first motor connection part, and the valve connection part are arranged in a line; a second opening unit formed on the left side of the case and having the communication connection part formed thereon; a third opening unit formed on the rear side of the case and arranged in a line with the one or more sensor connection parts and the second motor connection part; and a fourth opening unit formed on the right side of the case and arranged with the one or more expansion device connection parts, so that a plurality of connection parts can all be disposed on all sides of the air conditioner diagnosis device.

The expansion device connection unit may include: a first expansion device connection unit to which a gear type expansion device of the air conditioner is connected; and a second expansion device connecting part to which the direct-acting expansion device of the air conditioner is connected, wherein a portion to which the gear-type expansion device and the direct-acting expansion device are connected may be separately formed.

The sensor connection unit may include: a temperature sensor connection unit connectable to a temperature sensor sensing the temperature of the refrigerant inside the air conditioner; and a pressure sensor connection part to which a pressure sensor for sensing the pressure of the refrigerant inside the air conditioner is connectable, and a portion to which the temperature sensor and the pressure sensor are connected may be separately formed.

Also, when the motor is connected to the motor connection unit, the control unit measures the first inductance value of the motor, and when the first inductance value is included in the set inductance value range, it can be determined that the motor operates normally. have.

In addition, the air conditioner diagnosis apparatus may further include a substrate sensor disposed on the substrate unit to measure the temperature and pressure of the substrate, and in this case, the control unit may include, when the sensor is connected to the sensor connection unit, , when the difference between the first temperature value and the first pressure value measured by the sensor and the second temperature value and the second pressure value measured by the substrate sensor is within a set range value, it can be determined that the sensor operates normally have.

In addition, when the expansion device is connected to the expansion device connection part, the control unit measures a plurality of analog output values of the expansion device, and converts the measured plurality of analog output values into a frequency waveform, so that the converted frequency waveform is When the set threshold frequency value is passed, it can be determined that the expansion device operates normally.

In addition, the valve may include a solenoid valve. In this case, when the solenoid valve is connected to the valve connection part, the control unit measures a second inductance value of the solenoid valve, and the inductance to which the second inductance value is set. When it is included in the value range, it may be determined that the solenoid valve operates normally.

In addition, the plurality of connection units may further include a debug connection unit to which a debug module for removing internal errors is connected.

In addition, the case may include: a base on which the substrate unit is placed; and a cover part that is detachably disposed on the upper side of the base and covers the substrate part, thereby simplifying maintenance of the substrate part.

According to the diagnosis apparatus of the air conditioner according to the embodiment of the present invention having the above configuration, the following effects are obtained.

First, the manager directly connects the desired parts among the parts of the air conditioner, thereby diagnosing and managing the state of the parts.

Second, there is an effect of diagnosing all kinds of multiple parts arranged inside the air conditioner with a single diagnostic device.

Third, as the diagnostic device is formed to be portable, there is an effect that the manager can diagnose each part of a plurality of air conditioners while carrying the diagnostic device.

Fourth, when the manager diagnoses the parts of the air conditioner, the diagnosis result is transmitted to an external device (eg, a wireless device or a mobile phone), so that the diagnosis result can be efficiently managed.

1 is a perspective view of an air conditioner diagnosis apparatus according to an embodiment of the present invention;
2 is an exploded view of an air conditioner diagnosis apparatus according to an embodiment of the present invention;
3 is a front side view of an air conditioner diagnosis apparatus according to an embodiment of the present invention;
4 is a left side view of an air conditioner diagnosis apparatus according to an embodiment of the present invention;
5 is a rear side view of an air conditioner diagnosis apparatus according to an embodiment of the present invention;
6 is a right side view of an air conditioner diagnosis apparatus according to an embodiment of the present invention;
7 is a top view of a substrate in the configuration of the air conditioner diagnosis apparatus according to an embodiment of the present invention;

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the structure or method described herein.

1 is a perspective view of an air conditioner diagnosis apparatus according to an embodiment of the present invention, and FIG. 2 is an exploded view of the air conditioner diagnosis apparatus according to an embodiment of the present invention. 3 is a front side view of an air conditioner diagnosis apparatus according to an embodiment of the present invention, FIG. 4 is a left side view, FIG. 5 is a rear side view, and FIG. 6 is a right side view. 7 is a top view of a substrate in the configuration of the air conditioner diagnosis apparatus according to an embodiment of the present invention.

1 to 7, the air conditioner diagnosis apparatus according to an embodiment of the present invention includes a board 200 having a plurality of connection parts to which respective parts of the air conditioner are connected, and the board 200. It is accommodated, forms an exterior, and may include a case 100 in which a plurality of grooves or openings are formed on the side surface.

The case 100 provides a space in which the substrate unit 200 can be accommodated, and is responsible for the appearance of the air conditioner diagnosis apparatus. In detail, the case 100 may include a base 110 on which the substrate part 200 is placed, and a cover part 120 disposed on the upper side of the base 110 and having a plurality of grooves formed on the side surface. have.

The base 110 is in the form of a plate, and constitutes a bottom surface of the air conditioner diagnosis apparatus, and is a part to which the substrate 200 can be coupled. The substrate part 200 seated on the upper surface of the base 110 may be fixedly coupled to the base 110 by a coupling means such as a bolt, and there is no limitation on the coupling method.

The cover part 120 is disposed on the base 110 and covers the substrate part 200 . In detail, the cover part 120 may be detachably coupled to the upper portion of the base 110 . Accordingly, the substrate part 200 can be inspected by removing the cover part 120 from the base 110 .

In addition, a plurality of openings may be formed in the side surface of the cover part 120 . In detail, a plurality of openings extending laterally may be formed on the side surface of the case 100 , and the plurality of openings are formed on the front side surface 123 of the cover part 120 , the first opening unit. 123a, a second opening unit 124a formed on the left side surface 124, a third opening unit 125a formed on the rear side surface 125, and a fourth opening unit 126a formed on the right side surface 126. can

In detail, the cover part 120 may include a first cover part 121 and a second cover part 122 .

The first cover part 121 forms the exterior of the front side surface 123, the left side surface 124, and the right side side 126 of the case 100, and the upper surface part and the rear side surface 125 are opened. It may be the case 100 .

In addition, the second cover part 122 is a part coupled to the first cover part 121 in order to cover a part of the upper surface and the part opened in the rear surface 125 of the first cover. In detail, the second cover part 122 may form the outer part of the back surface 125 of the case 100 .

In addition, the plurality of connection parts may be exposed to the outside through the plurality of openings formed in the cover part 120 . A configuration in which the plurality of connecting portions are exposed through the plurality of openings will be described later.

A circuit board or the like may be used for the board unit 200 , and a plurality of connection units to which a plurality of components of the air conditioner may be connected may be disposed on the upper surface. Hereinafter, a case in which the substrate part 200 has a rectangular shape will be described, but the present invention is not limited thereto, and variations of the embodiment are possible if the same effect can be obtained within the spirit of the present invention.

The control unit 300 may be disposed on one side of the upper surface of the substrate unit 200 . In detail, the control unit 300 may include a micro control unit (hereinafter, MCU: Micro Controller Unit) or a central processing unit (hereinafter, CPU: Central Processing Unit). When a plurality of parts of the air conditioner are connected to the plurality of connection parts, the control unit 300 is a means for diagnosing the parts, ie, determining whether the plurality of parts are in operation and defective. An operation of the control unit 300 to diagnose the plurality of parts will be described later.

The plurality of connection units may include a power connection unit 210 , a valve connection unit 250 , a motor connection unit 220 , a sensor connection unit 230 , an expansion device connection unit 240 , and a communication connection unit 260 .

The power connection part 210 is a part to which a DC or AC type power supply can be connected.

For example, the power supply connected to the power connection unit 210 may be a power supply unit having a connection jack attached to a conventionally used 12V DC adapter, and in this case, the connection jack is the power connection unit 210 By being coupled to or inserted into the substrate, the substrate 200 may receive power from the power supply.

In addition, when the manager uses the air conditioner diagnosis device externally, for portability and convenience of the air conditioner diagnosis device, the air conditioner diagnosis device has an external power supply connected to the power connector 210 (eg, For example, an external battery) may be further included. That is, the air conditioner diagnosis apparatus may be formed in an integral shape in which the external power supply unit is connected to the power connection unit 210 .

The motor connection part 220 is a part to which a motor inside the air conditioner can be connected. In detail, the motor connection part 220 may include a first motor connection part 221 and a second motor connection part 222 .

The first motor connection part 221 is a part to which a first motor can be connected. For example, the first motor may be a built-in motor.

In the case of a general built-in motor used in the air conditioner, seven pin openings into which seven pins can be inserted may be formed in the built-in motor connection jack. Accordingly, when the connection jack of the built-in motor is connected to the first motor connection unit 221, the first motor connection unit 221 includes seven pins that can be inserted into the seven pin openings formed in the built-in motor connection jack. can be The built-in motor may be a compressor motor connected to a compressor of the air conditioner.

The second motor connection part 222 is a part to which a second motor can be connected. For example, the second motor may be an external motor.

In the case of a general external motor used in the air conditioner, three pin openings into which three pins can be inserted may be formed in the external motor connection jack. Therefore, when the connection jack of the external motor is connected to the second motor connection part 222, the second motor connection part 222 has three pins that can be inserted into the three pin openings formed in the external motor connection jack are formed. can be The external motor may be a fan motor connected to a fan of the air conditioner.

When the motor of the air conditioner is connected to the motor connection unit 220, the operation configuration of the control unit 300 will be described.

When the first motor is connected to the first motor connection part 221 or the second motor is connected to the second motor connection part 222, the inductance value generated in the coil of the first motor or the second motor is can be measured

Thereafter, the controller 300 may determine whether the measured inductance value of the first motor or the second motor is included in a set inductance value range.

If the measured inductance value of the first motor or the second motor is included in the set inductance value range, the controller 300 determines that the first motor or the second motor operates normally, If the inductance value of the first motor or the second motor is out of the set inductance value range, the controller 300 may determine that the first motor or the second motor does not operate normally.

The valve connection part 250 may be connected to a valve used inside the air conditioner. For example, the valve may include a solenoid valve.

In detail, the first valve connection part 250 may have a shape corresponding to the connection jack of the solenoid valve. The shape of the first valve connection part 250 may be formed differently depending on the type of the solenoid valve, and there is no limitation thereto.

When the solenoid valve of the air conditioner is connected to the valve connection part 250, the operation configuration of the control unit 300 will be described.

When the solenoid valve is connected to the valve connection part 250 , an inductance value generated in a coil of the first motor or the second motor may be measured.

Thereafter, the controller 300 may determine whether the measured inductance value of the first motor or the second motor is included in a set inductance value range.

If the measured inductance value of the first motor or the second motor is included in the set inductance value range, the controller 300 determines that the first motor or the second motor operates normally, If the inductance value of the first motor or the second motor is out of the set inductance value range, the controller 300 may determine that the first motor or the second motor does not operate normally.

The sensor connection part 230 is a part to which a sensor for sensing the temperature and pressure of the refrigerant inside the air conditioner can be connected.

In detail, the sensor connection part 230 may include a first sensor connection part 231 and a second sensor connection part 232 .

The first sensor connection part 231 is a part to which a temperature sensor for measuring a temperature of a refrigerant inside the air conditioner can be connected. In detail, in the case of a temperature sensor disposed inside the generally used air conditioner, it may be formed to have six pins. In this case, the first sensor connection part 231 may have six pin openings into which six pins connected to the temperature sensor are inserted.

The second sensor connection part 232 is a part to which a pressure sensor for measuring the refrigerant pressure inside the air conditioner can be connected. In detail, in the case of a pressure sensor disposed inside the generally used air conditioner, it may be formed to have three pins. In this case, the second sensor connection part 232 may have three pin openings into which three pins connected to the pressure sensor are inserted.

When a temperature sensor or a pressure sensor of the air conditioner is connected to the sensor connection unit 230 , an operation configuration of the control unit 300 will be described.

The substrate unit 200 may further include a substrate sensor 270 disposed therein to measure at least one of a temperature and a pressure of the substrate unit 200 . The substrate sensor 270 is a means for measuring a comparative temperature and a comparative pressure value for comparison with the temperature and pressure values measured from the sensor connected to the sensor connection part 230 .

When the temperature sensor or pressure sensor is connected to the sensor connection unit 230 , the control unit 300 may measure an analog value of the temperature or pressure measured by the temperature sensor or the pressure sensor. Thereafter, the controller 300 converts the measured analog value of the temperature or pressure into a digital value, and then matches the stored temperature and pressure table values to calculate the temperature and pressure values.

The control unit 300 determines whether a difference between the temperature and pressure values calculated from the temperature sensor or pressure sensor and the comparison temperature or comparison temperature value measured from the substrate sensor 270 is included in a set error range, and the temperature It can be determined whether the sensor or pressure sensor is operating normally.

For example, when the difference between the temperature and pressure values measured from the temperature sensor or pressure sensor and the comparison temperature or comparison temperature value measured from the substrate sensor 270 is included in a set error range, the control unit 300 may control the temperature. It can be determined that the sensor or the pressure sensor is operating normally. Conversely, when the difference between the temperature and pressure values measured from the temperature sensor or pressure sensor and the comparison temperature or comparison temperature value measured from the substrate sensor 270 is out of a set error range, the temperature sensor or It may be determined that the pressure sensor does not operate normally.

The expansion device connection part 240 is a part to which an expansion device for expanding or evaporating the refrigerant inside the air conditioner can be connected.

The expansion device may be an electric expansion valve (EEV) generally used in an air conditioner. In general, an electronic expansion valve used in an air conditioner may have 5 pins or 6 pins on the connection jack. Accordingly, the expansion device connection part 240 may include a first expansion device connection part 241 and a second expansion device connection part 242 for compatibility with the electronic expansion valve. For example, in the case of a direct-acting electronic expansion valve, five pins may be formed, and in the case of a gear-type electronic expansion valve, six pins may be formed.

Accordingly, five pin openings for inserting the five pins of the direct-acting electronic expansion valve may be formed in the first expansion device connection part 241 . In addition, six pin openings for inserting the six pins of the gear-type electronic expansion valve may be formed in the second expansion device connection part 242 .

When the electronic expansion valve of the air conditioner is connected to the expansion device connection unit 240 , the operation configuration of the control unit 300 will be described.

When the electronic expansion valve of the air conditioner is connected to the expansion device unit, the controller 300 may measure an analog output value of the electronic expansion valve.

Thereafter, the control unit 300 may convert the measured analog output value of the electronic expansion valve into a digital output value, and may convert the converted digital output value into a frequency domain. In this case, a Fourier transform may be used for the transform into the frequency domain.

The control unit 300 may determine whether the electronic expansion valve operates normally by comparing the converted frequency value in the frequency domain with a set threshold frequency value. When the electromagnetic expansion valve operates normally, a waveform including a specific frequency component is detected because the electromagnetic expansion valve mechanically rotates. However, when the electromagnetic expansion valve does not operate normally, the waveform is not detected. Accordingly, the control unit 300 may determine whether the electronic expansion valve is operating normally according to whether a plurality of frequency values generated according to the converted frequency domain pass through a set threshold frequency value.

For example, when a plurality of converted frequency values pass a set threshold frequency value, the control unit 300 may determine that the electronic expansion valve operates normally, and the converted plurality of frequency values are set threshold When the frequency value is not reached or does not pass, the control unit 300 may determine that the electronic expansion valve does not operate normally.

The communication connection unit 260 is a part to which a communication module for communication can be connected. In detail, a communication module is connected to the communication connection unit 260 so that the control unit 300 can transmit a diagnosis process and diagnosis result of each component to an external device. For example, a Wi-Fi module may be connected to the communication connection unit 260 , and in this case, the control unit 300 transmits information on the result of diagnosing each part of the air conditioner to an external device (eg, a smartphone). ) can be sent.

For example, when the electronic expansion device connected to the expansion device connection unit 240 operates normally, the control unit 300 connects the expansion device connection unit to an external device through the communication module connected to the communication connection unit 260 ( 240) may transmit a diagnosis result indicating that it is normal.

The substrate 200 may further include a noise sensor 280 disposed on the upper surface to measure external noise. The noise sensor 280 is a means for measuring external noise. The manager may measure the level of external noise by using the air conditioner diagnosis device.

In detail, when the manager attaches the air conditioner diagnosis device to an area where noise is generated, such as an outdoor unit of the air conditioner, the noise sensor 280 can measure a sound signal generated in the noise generation area. In this case, the control unit 300 may receive the sound signal and convert it into a digital value, and convert the converted digital value into a plurality of frequency values in the frequency domain to calculate the sound pressure level.

Also, the control unit 300 may measure the relative noise level by comparing the calculated sound pressure level with a set sound pressure level. For example, when the calculated sound pressure level is higher than the set sound pressure level, the control unit 300 may transmit information indicating that the noise level is large to an external device through a communication module connected to the communication connection unit 260 . In this case, there is an effect that the manager can repair the air conditioner in order to adjust the noise level of the air conditioner.

The substrate unit 200 may further include a debug connection unit disposed on the upper surface to which a debug module may be connected.

The debug module is a module for removing an error when there is an error in the diagnosis result of the air conditioner diagnosis apparatus, and 6 pins may be formed in a connection part of a generally used debug module. Accordingly, six pin openings into which six pins formed in the debug module can be inserted may be formed in the debug connection unit.

Hereinafter, a configuration in which the plurality of connection parts are exposed to the outside will be described in detail.

As described above, a plurality of openings may be formed in the side surface of the case 100 . In detail, when the cover part 120 is coupled to the upper side of the base 110 , the case 100 may have a rectangular box shape, and each side of the case 100 has a laterally extending shape. An opening may be formed.

In detail, in the case 100, the front side 123 of the surface on which the first opening unit 123a is formed, the left side 124 of the surface on which the second opening unit 124a is formed, and the third opening unit 125a are formed. The formed surface is defined as the rear side surface 125 , and the surface on which the fourth opening unit 126a is formed is defined as the right side surface 126 . In more detail, with reference to FIG. 1 , the surface on which the power connection part 210 , the first motor connection part 221 , and the valve connection part 250 are formed is defined as the front side surface 123 .

Also, as an example, the substrate unit 200 may be a rectangular circuit board, and when the substrate unit 200 is disposed inside the case 100 , the substrate unit 200 may have the first opening. A first rim is disposed at a position of the unit 123a, a second rim is disposed at a position of the second opening unit 124a, and a third rim is disposed at a position of the third opening unit 125a, The fourth opening unit 126a may be coupled to the base 110 so that a fourth edge is disposed.

In this case, the power connection part 210 , the first motor connection part 221 , and the valve connection part 250 are arranged in a line on the upper surface of the first rim, and the first opening unit 123a is provided to the outside through the first opening unit 123a. may be exposed.

In detail, the first opening unit 123a has three openings corresponding to the cross-sections of the power connection part 210 , the first motor connection part 221 and the valve connection part 250 , so that the power connection part 210 is formed. ), a connection portion of the first motor connection part 221 and the valve connection part 250 may be exposed to the outside through the first opening unit 123a.

In addition, the communication connection part 260 and the debug connection part may be arranged in a line on the upper surface of the second edge, and may be exposed to the outside through the second opening unit 124a.

In detail, the second opening unit 124a has two openings corresponding to the cross-sections of the communication connection unit 260 and the debug connection unit, so that the connection portion of the communication connection unit 260 and the debug connection unit is connected to the second opening unit 124a. 2 It may be exposed to the outside through the opening unit (124a).

In addition, the first sensor connection part 231 , the second sensor connection part 232 , and the second motor connection part 222 are arranged in a line on the upper surface of the third edge, and are exposed to the outside through the third opening. can be

In addition, the first expansion device connection part 241 and the second expansion device connection part 242 may be arranged in a line on the upper surface of the fourth edge, and may be exposed to the outside through the fourth opening.

That is, a plurality of openings may be formed on the four side surfaces of the case 100 , and all of the plurality of connection parts may be exposed through the plurality of openings. The plurality of connection units may connect a plurality of parts of the air conditioner, respectively, so that the manager can separately manage only the parts that require diagnosis among the parts of the air conditioner.

Claims (14)

Forming an exterior, a case in which a plurality of openings are formed on the side;
a substrate portion disposed inside the case and formed with a plurality of connecting portions exposed to the outside through the plurality of openings; and
a control unit disposed on the substrate and configured to determine whether the connected component operates normally when a component of the air conditioner is connected to one or more of the plurality of connection units;
The plurality of connections,
one or more motor connection parts connectable to a motor of the air conditioner;
one or more sensor connection units connectable to sensors for measuring the refrigerant temperature and refrigerant pressure inside the air conditioner;
at least one expansion device connecting part connectable to an expansion device for expanding or evaporating the refrigerant inside the air conditioner;
a valve connection part connectable to a valve for controlling whether the refrigerant flows in the air conditioner; and
and a communication connection unit connectable to a communication module for transmitting the diagnosis result of the control unit to an external device,
The motor connection part,
a first motor connection part to which the compressor motor of the air conditioner is connectable; and
and a second motor connection part connectable to a fan motor of the air conditioner.
The method of claim 1,
The air conditioner diagnosis device is disposed on the substrate and further comprises a noise sensor for detecting external noise.


delete The method of claim 1,
The plurality of openings,
a first opening unit formed on the front side of the case, the power connection part, the first motor connection part, and the valve connection part being arranged in a line;
a second opening unit formed on the left side of the case and having the communication connection part formed thereon;
a third opening unit formed on the rear side of the case and arranged in a line with the one or more sensor connection parts and the second motor connection part; and
and a fourth opening unit which is formed on the right side of the case and in which the at least one expansion device connection part is disposed.
The method of claim 1,
The expansion device connection part,
a first expansion device connecting part to which the gear-type expansion device of the air conditioner is connected; and
and a second expansion device connecting part to which a direct acting expansion device of the air conditioner is connected.
The method of claim 1,
The sensor connection unit,
a temperature sensor connection unit to which a temperature sensor for sensing the temperature of the refrigerant inside the air conditioner is connectable; and
and a pressure sensor connection part connectable to a pressure sensor for sensing the pressure of the refrigerant inside the air conditioner.
The method of claim 1,
The control unit is
When the motor is connected to the motor connection part, a first inductance value of the motor is measured, and when the first inductance value is within a set inductance value range, it is determined that the motor operates normally. diagnostic device.
The method of claim 1,
The air conditioner diagnosis apparatus further comprising a substrate sensor disposed on the substrate unit to measure the temperature and pressure of the substrate.
9. The method of claim 8,
The control unit is
When the sensor is connected to the sensor connection part, if the difference between the first temperature value and the first pressure value measured by the sensor and the second temperature value and the second pressure value measured by the substrate sensor is within a set range value, An air conditioner diagnosis apparatus, characterized in that it is determined that the sensor operates normally.
The method of claim 1,
The control unit is
When the expansion device is connected to the expansion device connection part, a plurality of analog output values of the expansion device are measured, and the measured plurality of analog output values are converted into a frequency waveform, so that the converted frequency waveform passes a set threshold frequency value When the air conditioner diagnosis device, characterized in that it is determined that the expansion device is operating normally.
The method of claim 1,
The valve is an air conditioner diagnostic device including a solenoid valve.
12. The method of claim 11,
The control unit is
When the solenoid valve is connected to the valve connection part, the second inductance value of the solenoid valve is measured, and when the second inductance value is within the set inductance value range, it is determined that the solenoid valve operates normally. Air conditioner diagnostic device.
The method of claim 1,
The plurality of connections,
The air conditioner diagnostic device further comprising a debug connection to which a debug module for removing internal errors is connected.
The method of claim 1,
The case is
a base on which the substrate part is placed; and
and a cover part which is detachably disposed on the upper side of the base and covers the substrate part.

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