KR20240049786A - Sprinkler device for cooling outdoor unit - Google Patents

Abstract

The present invention is a technology designed to obtain an additional cooling effect in the condenser of the outdoor unit of a cooling air conditioning system by using a water-cooled sprinkler device in addition to the air-cooled cooling method.
According to the present invention, a simple device is proposed that detects the state in which the compressor is running in order to specify the point in time when cooling water is to be sprayed to cool the condenser. In addition, the compressor operation and temperature are calculated to prevent the coolant from being sprayed unconditionally based on the outside temperature alone. It was described to sprinkle coolant by finding cases where it makes sense.

Description

Sprinkler device for cooling outdoor unit}

The present invention relates to a sprinkler device for obtaining an additional water-cooled cooling effect for a condenser that cools high-temperature, high-pressure gaseous refrigerant through air-cooled heat exchange in a refrigeration air conditioning system.

A refrigeration air conditioner is a device that maintains the indoor temperature at a desired temperature through the repeated action of absorbing indoor warmth through refrigerant and discharging it to the outdoors.

Refrigeration air conditioners mechanically create four states of refrigerant: compression, condensation, expansion, and evaporation and force them to circulate continuously. Temperature differences occur depending on the states, so the required temperature can be supplied to the desired location.

The compressor of a refrigeration air conditioning system is a device that compresses refrigerant gas. Since each type of refrigerant has an appropriate pressure, it is compressed to reach the appropriate pressure. The pressure created here causes the refrigerant to circulate in one direction and the temperature of the refrigerant rises.

Compression of the refrigerant must be operated below the refrigerant critical point, so if the compression pressure is higher than the specified limit, the device may be damaged and the compressor must stop operating.

The condenser of a refrigeration air conditioning system is a device that lowers the energy heat (enthalpy) of the refrigerant by exchanging heat with the outside air because the refrigerant compressed in the compressor is in a high-temperature, high-pressure gaseous state. It changes the refrigerant into a medium-temperature liquid state.

In the internal operation of operating a refrigeration air conditioner, the compressor is first started to increase the refrigerant pressure, raising the refrigerant temperature and circulating it. As a result, the refrigerant flows in one direction, and the condenser must exchange heat so that all the refrigerant is liquefied and reaches the expansion valve. The expansion valve is a device that atomizes liquid refrigerant. It projects the refrigerant that has passed through a narrow pipe into a wide pipe, lowers the pressure, and breaks it into small liquid particles. The liquid refrigerant that has passed through the expansion valve flows at low temperature and low pressure to the evaporator. The evaporator is a device that turns hot indoor air into cold air through heat exchange. Inside the evaporator, low-temperature, low-pressure liquid refrigerant passes through the liquid pipe and exchanges heat, resulting in vaporization and generating heat of vaporization (cooling). All refrigerant that has passed through the evaporator must be vaporized, but if even a little liquid refrigerant enters the compressor, the compressor will be damaged.

Additionally, in the technology to be achieved by the present invention, the operating state of the compressor is important, so in order to detect this, the operating state of the cooling fan for heat exchange of the condenser is detected. The operation of the compressor and the operation of the cooling fan are closely related. Therefore, the operating state of the compressor can be estimated by monitoring the cooling fan, which provides sufficient precision even based on the level of technology that the present invention aims to achieve.

In order to detect the operating state of a cooling fan, the present invention proposes a wind pressure sensor that has blades that move according to the wind and detects the position of the blades with a light sensor.

A light detector is a component that determines the presence or absence of an object. It emits light from one side of the space where the object to be detected moves, irradiates it to the opposite side placed in front, and receives the light from the opposite side. If an object exists between them, the light detector is a part that determines whether an object exists. It is a sensing device arranged to block light.

A solenoid valve is a device that regulates the flow of fluid in a fluid pipe electrically. It can open or close the valve by driving an object according to the magnetic force created by the power applied to the cylindrical coil.

A part called a sprayer is a device that sprays liquid like a mist and is used to apply liquid to a large area.

Water used to cool objects has a higher specific heat than air and can even act as heat of evaporation, so its cooling efficiency is high.

KR101801069 KR200398404

In order to condense the high-temperature, high-pressure gas refrigerant in the condenser, the temperature of the refrigerant must be higher than the outside temperature for smooth heat exchange. However, if the outside temperature is high, sufficient heat exchange does not occur, so the refrigerant pressure must be increased further.

In order to create high pressure, the compressor is operated at high pressure and when the limit is reached, the compressor stops operating and waits until it cools down to below the limit temperature.

If the refrigeration air conditioner stops frequently, cool air cannot be obtained, or energy is wasted due to abnormal operation, reducing energy efficiency.

Excessive operation of the compressor to create high-pressure refrigerant is the main cause of failure of refrigeration air conditioners due to compressor overheating or excess pressure.

Therefore, it was necessary to solve the problem by installing a sprinkler device so that the compressor could be operated within a safe range.

The existing sprinkler system uses a timer to spray for a certain period of time and then rests for a set period of time, which has the problem of consuming excessive coolant. This was addressed by operating an additional temperature detection device. However, the sprinkler system only relies on temperature detection to operate the system. There was a problem in that it could not filter out thermal noise generated from other heat sources around it.

Thermal noise sources include direct sunlight, reflected light, or the outdoor unit of another refrigeration air conditioner installed nearby. If heat higher than the desired temperature is projected from the thermal noise source, it may cause malfunction, wasting energy, or make it difficult to properly set the desired temperature due to such thermal noise. As a result, there was a problem in which the sprinkler system could not be operated on time.

Recently, various methods have been introduced to operate the sprinkler system according to sensing values such as the temperature of various refrigerant pipes of the refrigeration and air conditioning system, the refrigerant pressure, and the status of the cooling fan.

In order to use a method to measure the refrigerant pressure generated from the compressor when operating a sprinkler system, the complex and difficult task of installing a pressure sensing device in a part of the refrigerant pipe had to be preceded, and the operation status of the cooling fan was detected to detect the sprinkler system. Likewise, in the case of control, complex and difficult work must be done first, but a simple and highly effective technology for operating the sprinkler system was needed.

The outdoor unit of the refrigeration air conditioner is generally installed in a well-ventilated place, such as outdoors or on a rooftop. Cooling water is supplied to the main sprinkler system through water supply equipment or water storage tank equipment, but there is no way to control water at the main sprinkler inlet. Equipped with a solenoid valve device.

In the present invention, the spraying device can be operated depending on the outside temperature and sprayed or stopped cooling water depending on the cooling fan discharge wind temperature.

In cases where a more efficient method is desired or when malfunction cannot be prevented through temperature detection alone, the sprinkler device can be operated by additionally introducing a method of detecting discharge wind to measure the condition more precisely.

According to the present invention, refrigeration air conditioners, which were forced to operate excessively even at hot ambient temperatures, can be operated efficiently within a safe operating range, thereby preventing frequent breakdowns or stoppages with simpler technology, thereby saving expensive breakdown repair costs. It also has the effect of ensuring the desired comfortable temperature.

Figure 1 is a sprinkler device installation diagram
Figure 2 is a schematic diagram
Figure 3 is a wind pressure sensing device

Hereinafter, preferred embodiments of the present invention will be described in detail with the help of the attached drawings.

The sprinkler device according to the present invention is a water-cooled sprinkler device that is additionally installed to cool the condenser (9) of the refrigeration air conditioner, and thus operates by connecting with cooling water (60) supplied from the outside.

As shown in Figures 1 and 2, a water pipe 51 for supplying cooling water is connected to the inlet of the solenoid valve 12 provided in the sprinkler device to supply cooling water, and a sprayer 13 is installed at the outlet of the solenoid valve 12. A plurality of spray pipes 50 are connected to a water pipe. This spray pipe 50 should be installed in a place where it can spray coolant well into the condenser.

According to the idea of the present invention, in order to detect the operating state of the outdoor unit 10, the outside air temperature and discharge wind temperature are detected. The outside air temperature must measure the air temperature before being sucked into the outdoor unit, and the discharge wind temperature must be measured at the wind outlet after heat exchange. The discharge wind must be measured directly from the side.

Therefore, the outdoor temperature sensing device 21 should be installed at a location around the outdoor unit, but a location with the least interference with the discharge wind would be appropriate, and the appropriate location for the discharge wind temperature sensing device 22 would be the edge of the cooling fan outlet through which the discharge wind directly flows. It would be location.

The controller 52 that drives the sprinkler system performs calculation processing using the temperature value detected in this way to operate the sprinkler.

By detecting the outside air temperature, it is possible to determine whether the sprinkler system is in operation. In environments where it is difficult to determine based on the outside temperature alone, a more accurate judgment can be made by additionally installing the discharge wind detection device 30. This is achieved by detecting the discharge wind. This is because it provides a way to prevent malfunctions caused by heat sources.

In order to operate the detection value measured from the sensor installed in this way, a set value called set temperature and a calculated value called temperature difference are proposed. The set temperature is a preset value for comparison with the outside temperature value, and the temperature difference is the difference between the discharge wind temperature and the outside air. It is a value obtained by subtracting the temperature, and when the outdoor unit operates, the temperature difference changes from moment to moment.

According to the present invention, first, when the outside temperature exceeds the set temperature, the water spray device is converted to an operable state. When the temperature difference increases, the water spray is applied for a certain period of time and when the temperature difference decreases, the operation of stopping the water for a certain period of time is continuously repeated, but a discharge wind detection device is installed. In this case, the discharge wind is detected to verify the discharge wind temperature detection value, and when the outside air temperature falls below the set temperature, the operation of the sprinkler device is stopped.

For example, if we assume that the outside temperature does not change immediately and that the temperature difference changes every moment, for example, if the temperature is measured every 10 seconds, the outside temperature is constant and the temperature difference is degenerative, and the temperature sensor precision is generally 0.5. If the degree is guaranteed, the change in temperature trend can be tracked to about 0.1 degree Celsius by using the accumulated value over a certain period of time (for example, 5 minutes), so the temperature difference can be compared with a precision of about 1 degree Celsius to determine whether it is high or low. This can be sufficiently judged.

The discharge wind detection device (30) is a wind pressure detection device installed on the wind discharge port of the outdoor cooling fan. It is a detection device that operates for the purpose of detecting the operation of the cooling fan. It is equipped with a light detector (33) inside and is located in the center of the opening inside the detector. Wind blade (32) detects objects.

It is equipped with a wind blade (32) that bends according to wind pressure, and an elastic body (34) that pushes out with a certain pressure on the opposite side of the wing. A hole is made in one side of the cover (31), and the wind blade parts are shaken with a slight gap in the center. The shaft is fixed, and the elastic body 34 pushes the wind blade 32 with a tensile force sufficient to detect the discharge wind, and is compressed when the discharge wind blows above a certain pressure.

Since wind can blow around a well-ventilated place, a cover (31) is placed on the discharge wind detection device to block wind blowing from an unwanted direction and to limit the tilting angle of the wind blade (32). Make sure to move within a safe range.

The discharge wind detector 10 configured as shown in FIG. 3 causes the wind blades to bend in the direction in which the wind flows due to the wind generated by the operation of the discharge fan, so the optical detector 33 detects this and sends an output signal to the controller 52. It will become something.

In this way, a preferred embodiment of the present invention has been described, and since this is an example for carrying out the present invention, the rights according to the spirit of the invention should not be limited due to the text, and the terms described in the present invention are used as intended. It should not be construed or interpreted in general terms or as different from the description or terminology commonly used in the field of the present invention.

8 compressor 9 condenser
10 Outdoor unit 11 Cooling fan
12 solenoid valve 13 sprayer
21 Outdoor temperature sensor 22 Discharge wind temperature sensor
30 Discharge wind detector 31 Cover
32 Wind blades 33 Light detector
34 Elastic body 35 Fastener
50 Spray pipe 51 Water pipe
52 Controller 60 Coolant

Claims (2)

It is a device for cooling the condenser of a refrigeration air conditioner.
In order to operate the device, at least two temperature devices are installed, one installed outside the outdoor unit to detect the outside air temperature and the other installed at the cooling fan wind discharge area to detect the discharge wind temperature, etc. to sense the temperature,
In order to operate the above device, if necessary, a discharge wind detector to detect the cooling fan discharge wind pressure can be installed at the cooling fan wind discharge area,
If the detected value of the outside air temperature is higher than the preset value, the sprinkler device is switched to an operable state, and if it is lower, the sprinkler device is allowed to operate,
When the temperature difference obtained by subtracting the external temperature detection value from the discharge wind temperature detection value is greater than the preset difference value, the water spray operates for the preset operation time. When the above temperature difference falls below the difference value, the water spray is stopped and the preset pause time is maintained. Take a break,
When the discharge wind detector is installed, the sprinkler device restricts the above spraying operation to only when it detects the discharge wind blowing. According to clause 1,
A light detector ( 33), and when the wind blade 32 shakes according to the wind, it blocks or does not block the light so that the light sensor 33 can recognize the presence of an object,
A fixing part with a hole is provided to hold the wind blade 32 and support its limited movement so that it does not escape, and a cover 31 on one side to block wind blowing from directions other than the direction from which the wind to be detected is blowing. The other side, which is then extended, is a device that detects wind pressure and has a fixing part so that it can be attached to another object with a fastener (35). It is a discharge device that operates to transmit the detected value to the controller (52). A sprinkler device that uses a wind detection device for operation control when it is installed.