KR0124554B1 - Method for conduction temperature data of airconditioner system - Google Patents

Abstract

The air conditioner consists of the remote controller(1), the indoor temperature detecting sensor(2), the outdoor temperature detecting sensor(3), the micom(4), the cooler unit(5), the heater unit(6), the remote controller receiving means(7), and the wind direction fan control means(8). The starting is begun following the given function to the system, and temperatures of several points is detected. The detected temperature data of several points is calculated to the temperature variation data following the time. The inclination data is calculated with the each calculated temperature variation data. The direction of ascent or descent for temperature variation is calculated. Each temperature data following the time variation at each detecting point is compared with each other, so as to calculate the distribution data of space temperature. The control condition is decided according to the calculated distribution data of space temperature. The operation of the system is controlled by the calculated control condition. The accurate judgement of the cooler and the heater functions decrease the power consumption.

Description

Temperature Data Processing Method of Air Conditioner System

1 is a flowchart for explaining a control method of a conventional air conditioner system,

2 is a convex diagram of a control circuit to which the present invention is applied,

3 is a flowchart for explaining the control method of the present invention.

* Explanation of symbols for main parts of the drawings

1: remote controller, 2: indoor temperature sensor,

3: room temperature sensor, 4: microcomputer,

5: cooling means, 6: heating means,

7: remote control receiver, 8: wind direction wing control,

9: compressor driving unit

The present invention relates to a temperature data processing method of an air conditioner system, and in particular, by comparing the temperature data detected from the remote control and the temperature data detected from the indoor temperature sensor according to the set reference data, the temperature data according to the time distribution By calculating the data, the present invention relates to a temperature data processing method of an air conditioner system to increase the operating efficiency of the system.

Referring to the control method of the conventional air conditioner system with reference to Figure 1, first starting the system and the room temperature sensor of the two points of the indoor space through the room temperature sensor attached to the indoor side of the system and the room temperature sensor installed in the remote control The data is detected, and in the next step, the room temperature data detected by the operation is compared with the preset reference data.

That is, the temperature of the point where the remote control is present is detected from the indoor temperature sensor of the remote control located at a certain place in the indoor space, and the detected temperature data is transmitted to the remote control receiver of the system.

Then, the temperature data of the remote control location point is compared with the preset reference data. At this time, the current temperature data of the installation location point of the system is also received from the room temperature sensor of the system. Therefore, the microcomputer compares the temperature data of these two points with the built-in program.

In the next step, the cooling / heating function set according to the comparatively determined operation data is performed.

However, the control method of the conventional air conditioner as described above detects the current temperature data of the two measuring position points as measurement data that can be compared with the reference data, so that temperature distribution data for the spaces other than these two points is obtained. As a result, the operating efficiency of the system is considerably reduced due to the inability to perform cooling and heating functions under the operating conditions suitable for the installation space of the system. Also, the temperature distribution data calculated according to the operation is inaccurate and the temperature of the space is Since it is not suitable as the temperature distribution data according to the change, there is a problem that a lot of unnecessary power consumption is consumed when the system is operated according to such data.

Accordingly, the present invention has been invented to solve the above problems, and compares the temperature data transmitted from the remote controller and each temperature data detected from the indoor temperature sensor according to the set reference data and determines the determined temperature data for a time. By calculating the temperature distribution data according to the change, the cooling and heating function of the system is performed according to the calculated temperature distribution data, thereby increasing the operating efficiency of the system and of course, changing the temperature with respect to the temperature change of the installation space. The purpose of the present invention is to provide a temperature data processing method of an air conditioner system that can reduce power consumption accordingly by performing the cooling / heating function by accurately determining the power consumption.

The present invention for achieving the above object, the step of starting the system by the set function and detecting the temperature of a plurality of points, the temperature change over time of each temperature data of the plurality of points detected by the detecting step Calculating the gradient data based on the calculated temperature change data, calculating the rising / falling direction of the temperature change, and calculating the temperature data according to the time change. Calculating spatial temperature distribution data by comparing each temperature data according to time variation of each other, and determining the control conditions of the system according to the spatial temperature distribution data calculated during the step, and It characterized in that the step consisting of controlling the operation.

Hereinafter, the control circuit of the air conditioner system to which the method of the present invention is applied will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the control circuit to which the present invention is applied includes an indoor temperature sensor 2 installed in the remote controller 1 to detect the temperature of the indoor space, and installed in a part of the system main body to surround the system. The room temperature sensor 3 detects the temperature of and the temperature change of two points input from the two sensors 2 and 3, respectively, and detects the difference between the data for each temperature change of the two detected points. Calculates the temperature distribution of the indoor space and then circulates the refrigerant according to the cooling cycle by the microcomputer 4 which controls the system collectively according to the calculated temperature distribution data, and the drive control signal of the microcomputer 4. The cooling means 5 and the heating means 6 which generate heat by the drive control signal of the microcomputer 4 and perform a heating function.

In addition, the microcomputer 4 is provided with a remote controller receiving unit 7 to receive a user's remote control signal, and can control the air volume by adjusting the wind vane in various directions by the operation control signal of the microcomputer 4. Wind vane adjustment unit 8 is also connected.

Next, the control method of the present invention applied to the control circuit of the above configuration will be described.

First, as shown in FIGS. 2 and 3, when the user transmits a transmission signal of a required function, for example, a cooling or heating function, to the remote control receiver 7 using the remote controller 1, the remote controller receiver 7 transmits the signal. The signal is loaded into the microcomputer 4, and the microcomputer 4 determines the signal to control the air conditioner system with the required function. In this case, when the cooling function is set, the cooling means 5, that is, the compressor driving unit. The compressor (9) is driven to circulate the refrigerant according to the cooling cycle.

As the above operation is performed, heat exchange is performed between the sucked indoor air and the cooled refrigerant to cool the indoor air, and the cooled indoor air is discharged to the indoor space through the discharge port to perform a cooling function. Done.

At this time, the discharged indoor air causes convection with existing air in the indoor space. In the next step, as shown in FIG. 2, the current temperature of various points of the indoor space is continuously detected through the sensors 2 and 3 according to time, and the current temperature of each detected point is stored according to the built-in program. Comparing judgment, the temperature data according to time change is calculated for each point.

That is, the microcomputer 4 continuously receives the current temperature data for each hour from the indoor temperature sensor 2 of the remote control, which is located at a predetermined position of the indoor space through the remote controller receiver 7, and the input temperature data (current The detected temperature data D _DET1 is compared with the _pre -stored temperature data D _ref1 (| D _ref1 -D _DET1 | = | D _r1 |).

Then, the determination result D _r1 is stored in the memory means, and in the next step, the absolute temperature change data D _r1 is stored according to equation (1).

It calculates the slope.

At this time, the slope can determine whether the temperature of the measurement space changes with time, that is, whether the temperature rises or falls.

In the next step, it is determined whether the measurement time by the internal timer is constant. If the measurement time is kept constant, the process returns to the first step and repeats the loop.

However, as a result of the determination in the above step, if the specific time is not kept constant, it proceeds to the predetermined program and repeats the program.

In addition, at the same time as the remote control measurement operation, the room temperature sensor 3 installed at the periphery of the system continuously receives the temperature of the surrounding space by time and stores the input temperature data (currently detected temperature data S _DET ). The comparison with the temperature data (S _ref ) is made (| S _ref -S _DET = S _r |).

Then, the determination result (S _r ) is stored in the memory means, and the absolute temperature change data (S _r ) is stored in the next step according to equation (2).

It calculates the slope.

At this time, the inclination can also determine whether the temperature of the measurement space changes with time, that is, whether the temperature rises or falls, as with the remote control measuring slope.

On the other hand, in the next step, the absolute temperature difference (| D _r -S _r |) and the temperature gradient data for the two points calculated during the step are calculated according to equations (3) and (4).

It calculates the spatial temperature distribution data according to the time change of the measuring point.

In the next step, a control condition for maintaining a suitable temperature for the indoor space is set according to the embedded program based on the calculated spatial temperature distribution data, and in the next step, the operation of the system is controlled according to the set control condition. .

That is, by adjusting the wind vane through the wind vane adjustment unit 8, it is possible to increase or decrease the amount of air emitted to the indoor space or to further strengthen or weaken the cooling / heating function.

Here, the data transmission of the remote control may continue to transmit the detection data to the microcomputer 4, or may transmit the detection data at a predetermined time period.

Therefore, the power consumption according to the data transmission of the remote controller can be reduced by selecting the above method.

As described above, the present invention compares the temperature data transmitted from the remote controller with each temperature data detected by the indoor temperature sensor according to the set reference data, and calculates the determined temperature data as temperature distribution data according to time change. By performing the cooling and heating function of the system according to the calculated temperature distribution data, the operating efficiency of the system is increased accordingly, and the temperature change is accurately judged against the temperature change of the installation space. As a result, the power consumption can be reduced accordingly.

Claims (1)

A temperature detection step of starting the system by a set function and detecting a temperature of a plurality of points, and calculating temperature data of a plurality of points detected by the temperature detection step as temperature change data over time, and calculating the calculated temperature change. The temperature change operation step of calculating the rising / falling direction of the temperature change by calculating the slope data based on the data, and comparing each temperature data according to the time change of each measuring point calculated by the temperature change operation step, A temperature distribution calculation step of calculating spatial temperature distribution data; and a control step of determining a control condition of the system according to the spatial temperature distribution data calculated in the temperature distribution calculation step, and controlling the operation of the system by the determined control assistance. Temperature data processing method of the air conditioner system, characterized in that made.