KR20130000592A - Airconditioner control system for heavy construction equipment - Google Patents

Abstract

PURPOSE: An air conditioning control system for construction equipment is provided to control a compressor and an air conditioning system by considering both refrigerant pressure and temperature of cooling air supplied to the interior, thereby preventing the overload of a compressor in advance. CONSTITUTION: An air conditioning control system for construction equipment consists of an air filter, an evaporator(3), a compressor(7), a condenser(9), an evaporator temperature detection sensor(4), a refrigerant pressure detection sensor(8) and a control part. The condenser is installed between the compressor and the expansion valve to exchange heat between a refrigerant and outside air of the operation cabin. The evaporator temperature detection sensor is installed in one side of the evaporator, and detects temperature of air circulated through the evaporator. The refrigerant pressure detection sensor is installed in one side of the compressor, and detects pressure of the refrigerant. The control part selectively blocks the power of the compressor by comparing the performance level preset according to the signal input from the evaporator temperature detection sensor and the refrigerant pressure detection sensor.

Description

Air conditioner control system for construction machinery {AIRCONDITIONER CONTROL SYSTEM FOR HEAVY CONSTRUCTION EQUIPMENT}

The present invention relates to an air conditioner control system for construction machinery, and more particularly, in consideration of the refrigerant pressure of the compressor and the temperature of the air passing through the evaporator to determine the failure of the compressor when operating the air conditioner and does not meet the preset performance level. The present invention relates to an air conditioner control system for construction machinery, which is optionally adapted to display the compressor's shutdown and its status.

In the operation of air conditioners of construction machinery including excavators, when the air conditioner switch installed inside the cab is operated to maintain the cooling and comfort of the cab in the summer or the tropics, heat exchange with the outside air is performed through the outdoor unit installed outside the cab. When the refrigerant passes through the evaporator, the cooled air is supplied into the cab through heat exchange between the air and the refrigerant in the evaporator.

For example, when the air conditioner switch is operated, the indoor air is brought into contact with the evaporator through an indoor air filter installed on the air circulation passage by the rotational operation of the blower, and the cooling air is exchanged between the indoor air and the refrigerant inside the evaporator. Is formed.

The evaporator is connected to a compressor, for example an outdoor unit including a compressor and a condenser, in which a refrigerant evaporated by the operation of the compressor is supplied to the condenser, where the heat exchange between the refrigerant and the air outside the cab is performed. The refrigerant is fed back to the evaporator.

Therefore, the indoor air flowing on the air circulation passage is cooled by the evaporation and condensation of the refrigerant to form a series of air circulation cycles supplied to the cab.

However, in the conventional control of air conditioners for construction machinery, only the refrigerant pressure of the compressor is considered and used as a method of controlling the power supplied to the compressor according to the set pressure. Therefore, the amount of refrigerant according to the external temperature has a disadvantage in that it is not possible to separately determine whether the compressor is broken.

For example, in the tropics, the compressor is operated with a very small amount of refrigerant due to the high outside temperature. Therefore, if the compressor is continuously operated in a state in which the amount of refrigerant is substantially insufficient, overheating problems or sintering problems occur, thereby deteriorating the durability of the parts.

In addition, when the service is performed at a low outside temperature, the additional charge of the refrigerant is determined by simply looking at the pressure of the refrigerant, thereby overcharging in summer, thereby overloading the compressor.

Therefore, the present invention was created in order to solve the above-mentioned problems, in consideration of the temperature of the air passing through the evaporator and the refrigerant pressure of the compressor to determine whether the failure of the compressor when operating the air conditioner and does not meet the preset performance, It is an object of the present invention to provide an air conditioner control system for construction machinery that can display the power supply of the compressor and its status.

In order to solve the above problems, the present invention,

In the air conditioning control system for construction machinery that provides cooling air inside the cab,

An air filter configured to collect foreign substances of air circulated into the cab on the air circulation passage by the rotation of a blower;

An evaporator configured to circulate a refrigerant therein through an expansion valve and be installed between the air filter and the blower on the air circulation passage and form a heat exchange between the air and the refrigerant circulated by the rotation of the blower;

And a compressor connected between the evaporator and the expansion valve, the compressor circulating the refrigerant, and a condenser installed between the compressor and the expansion valve for heat exchange between the refrigerant and the outside air of the cab.

An evaporator temperature sensor installed at one side of the evaporator and detecting a temperature of air circulated through the evaporator; A refrigerant pressure sensor installed at one side of the compressor and detecting a pressure of the refrigerant; And a control unit for selectively shutting off the power of the compressor by comparing with a performance level preset by a signal input from the evaporator temperature sensor and the refrigerant pressure sensor. To provide.

Here, the control unit is configured to further include a display unit for displaying this to the cab when the power of the compressor is cut off.

The controller may include comparing the temperature of the air detected by the evaporator temperature sensor with the temperatures T1 and T2 of a predetermined performance level when there is no abnormality in the refrigerant pressure of the compressor. do.

In addition, the control unit, when the temperature (Tair) of the air sensed by the evaporator temperature sensor than the temperature (T1, T2) of the performance level includes the step of shutting off the power of the compressor.

In the construction machine air conditioner control system according to the present invention, the construction machine air conditioner control system according to the present invention controls the operation of the compressor and the air conditioner in consideration of the refrigerant pressure and the temperature of the cooling air supplied to the room. Overload can be cut off in advance, and there is an advantage of reducing the occurrence of damage or failure of the related components.

1 is a schematic configuration diagram of an air conditioning control system for a construction machine according to an embodiment of the present invention;
2 is a block diagram of an air conditioner control system for a construction machine according to an embodiment of the present invention;
3 is a flow chart of the air conditioner control system for construction machinery according to an embodiment of the present invention,

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may legally define the concept of terms in order to best describe their invention. On the basis of the principle that the present invention should be interpreted as meanings and concepts corresponding to the technical idea of the present invention.

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

1 is a schematic diagram of a construction machine air conditioner control system according to an embodiment of the present invention, Figure 2 is a block diagram of a construction machine air conditioner control system according to an embodiment of the present invention, Figure 3 is the present invention A flue chart of an air conditioning control system for a construction machine according to an embodiment of the present invention. In addition, reference numeral 1 schematically shows an air circulation passage, 2 is an air filter, 3 is an evaporator, 4 is a temperature sensor, 5 is a blower, 6 is an expansion valve, 7 is a compressor, and 8 is a refrigerant pressure sensor. , 9 is a condenser, 11 is a control unit, and 12 is a display unit installed in the cab.

1 to 3, the construction machine air conditioner control system according to an embodiment of the present invention, in the construction machine air conditioner control system for providing cooling air in the cab (not shown),

An air filter (2) which collects foreign substances of air circulated into the cab on the air circulation passage (1) by the rotation of the blower (5);

The refrigerant is circulated through the expansion valve (6), and is installed between the air filter (2) and the blower (5) on the air circulation passage (1), and is circulated by the rotation of the blower (5) An evaporator (3) in which heat exchange is formed between the air and the refrigerant;

The compressor 7 is connected between the evaporator 3 and the expansion valve 6 to circulate the refrigerant, and the compressor 7 and the expansion for heat exchange between the refrigerant and the outside air of the cab. And a condenser 9 installed between the valves 6,

Preferably, the evaporator (3) is installed on one side, the evaporator temperature sensor (4) for detecting the temperature of the air circulated through the evaporator (3); A refrigerant pressure sensor (8) installed at one side of the compressor (7) to sense a pressure of the refrigerant; And a control unit 11 for selectively shutting off the power of the compressor 7 in comparison with a performance level preset by a signal input from the evaporator temperature sensor 4 and the refrigerant pressure sensor 8. It is configured to include.

The control unit 11 may be manufactured by an electronically controlled microcomputer or equipment ECU for diagnosing an air conditioner failure, and is connected to the display unit 12 installed in the cab for displaying information of the air conditioner and the compressor.

Further, typically, the air circulation passage 1 may include an air duct for guiding cooling air into the cab, and when the air is circulated by the rotation of the blower 5, the evaporator 3 The principle that the cooled air is provided inside the cab through the evaporation of the condenser and the condensation of the condenser 9 is the same as the operation of the conventional air conditioner for construction machinery.

For example, when the air conditioner operation switch 13 is activated, the refrigerant in the air conditioner system is circulated through the refrigerant passing through the evaporator 3 and the condenser 9 by the pumping operation of the compressor 3. The air circulated through the evaporator 3 and the blower 5 is cooled below the constant temperature required at the performance level via the evaporator 3 to provide a comfortable environment of the air cooled into the cab.

Preferably, in the embodiment of the present invention, the control unit 11 further comprises a display unit 12 for displaying the power in the cab when the power to the compressor (7).

The display unit 12 is suitable to be installed adjacent to the air conditioner operation switch 13 for visibility of the operator in the cab, it may be set in connection with the equipment electronic control unit (ECU) of the construction machine.

Preferably, when the control unit 11 has no abnormality in the refrigerant pressure of the compressor 7, the temperature of the air detected by the evaporator temperature sensor 4 and the temperature of a preset performance level. And comparing (T1, T2). Here, the evaporator temperature sensor 4 detects the freezing state of the evaporator and the temperature of the air as the air passes through the evaporator.

In addition, the control unit 11, when the temperature (Tair) of the air detected from the evaporator temperature sensor 4 is higher than the temperature (T1, T2) of the performance level, the power of the compressor (7) Blocking the step.

On the other hand, as shown in Figure 3, the control unit 11 is less than the temperature (Tair) of the air detected from the evaporator temperature sensor 4 than the temperature (T1, T2) of the performance level The operation of the air conditioner and the state of the compressor 7 are normally determined, and the power of the compressor 7 is kept in an ON state so that the operation of the air conditioner continues.

In the embodiment of the present invention, the above-described performance level may include two or more levels according to various specifications required for the air conditioner of the construction machine. Even in such a case, as described above, the controller 11 controls the air temperature and the plurality of air temperatures detected by the evaporator temperature sensor 4 when there is no abnormality in the refrigerant pressure of the compressor 7. And sequentially comparing the temperatures T1 and T2 of the preset performance level, respectively.

In this case, the controller 11 sequentially compares the temperature Tair of the air detected by the evaporator temperature sensor 4 and the temperatures T1 and T2 of a plurality of preset performance levels, respectively, at least. In order to stop the compressor 7 when it is determined that the temperature Tair of the air detected from the evaporator temperature sensor 4 is higher than any one of the temperatures T1 and T2 of the respective performance levels. The power of the compressor 7 is cut off and displayed.

For example, in the control of the construction machine air conditioner control system according to the present invention, a plurality of the performance levels can be determined by an operator, and at this time, the operation of the compressor is performed according to whether the performance level is satisfied for a predetermined time. At the same time, it is displayed (displayed) as status information of the air conditioner.

When the compressor 7 is continuously operated in a state where the amount of refrigerant is insufficient, overheating or sintering may occur to reduce durability of the parts. However, the air conditioner control system for construction machinery according to the present invention may provide a refrigerant pressure and an air temperature. In consideration of the control together, the overload of the compressor 7 can be cut off in advance, and damage or defects of related components can be reduced.

In the above, the present invention has been described in detail with reference to the accompanying drawings and embodiments, the accompanying drawings and the above embodiments are described by way of example to help those of ordinary skill in the art to understand the present invention. It is. Accordingly, the above embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention should be construed in accordance with the invention set forth in the appended claims, the scope of which should be understood by those skilled in the art. Include various changes, alternatives, and equivalents by

1: air circulation passage
2: air filter
3: evaporator
4: temperature sensor
5: blower
6: expansion valve
7: compressor
8: refrigerant pressure sensor
9: condenser
11:
12: display unit
13: air conditioner operation switch

Claims (4)

In the air conditioning control system for construction machinery that provides cooling air inside the cab,
An air filter configured to collect foreign substances of air circulated into the cab on the air circulation passage by the rotation of a blower;
An evaporator configured to circulate a refrigerant therein through an expansion valve and be installed between the air filter and the blower on the air circulation passage and form a heat exchange between the air and the refrigerant circulated by the rotation of the blower;
And a compressor connected between the evaporator and the expansion valve, the compressor circulating the refrigerant, and a condenser installed between the compressor and the expansion valve for heat exchange between the refrigerant and the outside air of the cab.
An evaporator temperature sensor installed at one side of the evaporator and detecting a temperature of air circulated through the evaporator; A refrigerant pressure sensor installed at one side of the compressor and detecting a pressure of the refrigerant; And a control unit for selectively shutting off the power of the compressor by comparing with a performance level preset by a signal input from the evaporator temperature sensor and the refrigerant pressure sensor. .
The method of claim 1,
The control unit is an air conditioner control system for a construction machine, characterized in that it further comprises a display unit for displaying it in the cab when the power of the compressor is cut off. The method according to claim 1 or 2,
The controller may include comparing the temperature of the air detected by the evaporator temperature sensor with the temperature T1 and T2 of a predetermined performance level when there is no abnormality in the refrigerant pressure of the compressor. An air conditioner control system for a construction machine. The method of claim 3,
The control unit, when the temperature (Tair) of the air detected from the evaporator temperature sensor is higher than the temperature (T1, T2) of the performance level, the construction comprising the step of shutting off the power of the compressor Air conditioning control system for machinery.

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