KR20060014157A - Control apparatus for ventilation system and control method thereof - Google Patents

Abstract

The present invention compares the reference value and the maximum output of the ventilation system for ventilating the indoor space, the indoor pollution detection sensor for detecting the contamination of the indoor space, and the indoor pollution detection sensor and resets the reference value if the difference is greater than a set value. It includes a control unit.

According to the present invention, by resetting the reference value of the indoor pollution detection sensor for detecting indoor pollution, it is possible to eliminate the adverse effect of the sensor error, even if the low-cost sensor can accurately detect the pollution of the indoor air, while reducing the economic burden Product reliability can be further increased.

Description

Control Apparatus For Ventilation System And Control Method Thereof}

2 is a view showing the output characteristics of the carbon dioxide sensor for the concentration of carbon dioxide.

3 is a view showing the output voltage of the carbon dioxide sensor for the concentration of carbon dioxide.

4 is a diagram illustrating a relationship between a reference value and an output voltage of a carbon dioxide sensor.

5 is a block diagram of a control device of the ventilation system according to the present invention.

6 is a view for explaining a process of resetting the reference value of the carbon dioxide sensor according to the present invention.

7 is a flowchart illustrating a control method of a ventilation system according to the present invention.

* Description of the symbols for the main functions of the drawings *

10: control unit

11: memory

20: ventilation system

30: carbon dioxide sensor

The present invention relates to a ventilation system and a control method thereof, and more particularly, to a ventilation system and a control method for resetting the reference value of the indoor pollution detection sensor.

As the pollution of indoor space is intensified due to the breathing of people living in the indoor space, a ventilation system is introduced to exhaust indoor air and supply outdoor air to make the indoor space clean.

The general ventilation system is to perform the ventilation operation automatically when the indoor pollution detected by the indoor pollution detection sensor reaches the set value.

As shown in FIG. 1, the carbon dioxide concentration in the indoor air is periodically displayed with the lowest concentration (standard concentration) of carbon dioxide in the atmosphere, and is affected by the number of people living in the room and the amount of activity, but is constant every 24 hours. Appears as a pattern.

As illustrated in FIG. 2, the carbon dioxide sensor has a relationship in which the sensor output voltage is logically low with respect to the concentration of carbon dioxide. In FIG. 3, the output voltage of the sensor is lower at 1000 ppm than at the concentration of 350 ppm of carbon dioxide in the indoor space.

The carbon dioxide sensor applies an output voltage corresponding to the concentration of carbon dioxide in the indoor air to the control unit and applies the control to the ventilation operation. However, as time passes, the reference value of the carbon dioxide sensor changes. That is, even if the concentration of carbon dioxide is the same, the maximum output power of the sensor decreases as shown in FIG. 4 due to the deterioration of the performance of the carbon dioxide sensor and the indoor environment. Therefore, the reference value is initially set to the maximum output of the carbon dioxide sensor, but as time passes, the difference between the output voltage and the reference value of the carbon dioxide sensor increases, as in Q1. The difference between the output voltage and the reference value becomes larger and this sensor error prevents accurate detection of the carbon dioxide concentration in the indoor air. This is especially true for low-cost carbon dioxide sensors using semiconductor or solid electrolytes, which are commonly used in home ventilation systems.

Accordingly, even if the output voltage of the carbon dioxide changes, the process of resetting the reference value of the carbon dioxide sensor according to the change, it is required to efficiently perform the ventilation operation by resetting the reference value corresponding to the sensor maximum output as shown in Q2 of FIG. .

The present invention is to solve the above-mentioned problems, an object of the present invention is to provide a ventilation system and control method that can be applied to the ventilation operation by accurately detecting the indoor air pollution state even using a low-cost sensor.

The present invention for achieving the above object is a ventilation system for ventilating the indoor space; An indoor pollution detection sensor for detecting pollution of the indoor space; And a control unit for comparing the reference value of the indoor pollution detection sensor with the highest output and resetting the reference value if the difference is greater than a set value.

The indoor pollution detecting sensor has at least one highest output and the lowest output at regular intervals.

The indoor pollution sensor is a carbon dioxide sensor for detecting the concentration of carbon dioxide.

The control unit controls the ventilation system to force the ventilation and then resets the reference value.

The apparatus may further include a memory configured to store a reference value of the indoor pollution detecting sensor.

The memory stores the reset reference value when resetting the reference value.

The memory is an electrically erasable RAM (EEPROM) for preserving reference values stored in preparation for instantaneous power failure.

The controller applies the reference value stored in the memory when the momentary power failure occurs and then returns.

The control unit initializes the reference value after the system initialization operation is completed and forced ventilation by the ventilation system.

The reference value is a voltage at which the output of the indoor pollution detection sensor is saturated.

The present invention for achieving the above object, in the control method of the ventilation system having a ventilation system for ventilating the indoor space and the indoor pollution detection sensor for detecting the contamination of the indoor space, the system initialization operation, When the initialization operation is completed, after forced ventilation by using the ventilation system, the output of the indoor pollution detection sensor is detected, the maximum output and the reference value of the indoor pollution detection sensor are compared, and the maximum output and the reference value of the indoor pollution detection sensor. If the difference is greater than the set value, characterized in that for resetting the reference value of the indoor pollution detection sensor.

The indoor pollution sensor detects the carbon dioxide concentration, and the carbon dioxide concentration is stored every predetermined time.

If the carbon dioxide concentration is greater than the ventilation start setting value set to start the ventilation operation, the ventilation operation is started, and if the carbon dioxide concentration is smaller than the ventilation end setting value set to end the ventilation operation, the ventilation operation is terminated.

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

5 is a block diagram of a control device of the ventilation system according to the present invention.

As shown, the control device of the ventilation system according to the present invention performs a ventilation operation by controlling the ventilation system 20 according to the output of the carbon dioxide detection sensor 30 and the carbon dioxide detection sensor for detecting the carbon dioxide concentration of the indoor space. The control unit 10 is provided.

The present invention also includes a memory 11 for storing the reference value of the carbon dioxide sensor. The memory 11 is embodied as an electrically erasable ROM (EEPROM) that preserves stored data even when a momentary power failure occurs.

The ventilation system 20 includes components such as an air supply fan, an indoor fan, and a heat exchanger for exhausting indoor air and supplying outdoor air.

The controller 10 resets the reference value of the carbon dioxide sensor according to the output voltage of the carbon dioxide sensor 30. When the reference value of the carbon dioxide sensor 30 is set in this way, the control unit 10 determines the maximum output of the sensor as the reference value after forcibly performing the ventilation operation.

As shown in FIG. 6, the maximum output K1 of the carbon dioxide sensor matches the initial reference value, and when time passes, there is a difference between the maximum output K2 and the reference value of the carbon dioxide sensor, and the difference is allowed. That's enough. As time elapses, the difference between the peak output K3 of the carbon dioxide sensor and the reference value becomes larger than the set value at the time Ta. At this time, the controller 10 controls the ventilation system 20 to reset the reference value to match the highest output K4 of the sensor after the forced ventilation operation.

When the power is supplied to the system, the initial operation is performed. In the initial operation, the sensor is supplied with power for a set time, for example, 20 minutes, to maintain the normal capability before the forced ventilation operation. However, when returning after instantaneous power failure, only the forced ventilation operation may be performed because the reference value stored in the memory 11 may be applied.

The control method of the ventilation system which concerns on this invention which has the said structure is demonstrated.

First, when power is supplied to the system, it initializes for a set time (101). In the initial operation, the carbon dioxide sensor 30 is in an aging state to exhibit a normal sensing capability, and usually takes 20 minutes. After the initialization operation, the controller 10 controls the ventilation system 20 to forcibly ventilate the indoor space. The air supply fan and the exhaust fan (not shown) are driven to discharge indoor air and supply outdoor air into the indoor air (103). ).

After completing the forced ventilation, the controller 10 determines whether the output of the carbon dioxide sensor 30 is saturated and reaches a maximum output (105). As a result of the determination, when the sensor output is saturated, the reference value is initially set as the maximum output of the carbon dioxide sensor 30 (107), and the initially set reference value Cb is stored in the memory 11 (109).

After initial setting the reference value, the controller 10 determines whether the carbon dioxide concentration detected by the carbon dioxide sensor 30 is greater than a preset ventilation start setting value to start the ventilation operation (111).

The controller 10 controls the ventilation system 20 to perform immediate forced ventilation of the indoor space (102) without performing a separate initialization operation when returning after an instantaneous power failure occurs, and proceeds to operation 111.

If the carbon dioxide concentration is greater than the ventilation start setting value in operation 111, the controller 10 controls the ventilation system 20 to ventilate the indoor space (113). During the ventilation operation, it is determined whether the carbon dioxide concentration is smaller than the preset ventilation end set value for ending the ventilation operation (115). When the carbon dioxide concentration is smaller than the ventilation end set value, the controller 10 controls the ventilation system 20 to stop the ventilation operation (117).

If the ventilation operation is stopped in operation 117 or if the carbon dioxide concentration is not greater than the ventilation start setting value in operation 111, the carbon dioxide concentration detected by the carbon dioxide sensor 3 is stored at the memory 11 at the reference time set in the memory 11. (119).

Subsequently, the controller 10 checks the lowest value of the carbon dioxide concentration detected for the last 24 hours, for example, the driver for the last 24 hours, that is, the largest maximum output Ca of the sensor output (121), and the maximum output Ca is the memory. It is determined whether it is larger than the reference value Cb stored in (11) (123). If the maximum output Ca is greater than the reference value Cb, the reference value is updated with the maximum output Ca (125), the updated reference value Ca is stored in the memory 11 (127), and the operation proceeds to operation 111.

If the maximum output Ca is not greater than the reference value Cb stored in the memory 11 as a result of the determination in operation 123, it is determined whether the difference between the stored reference value and the maximum output Cb-Ca is greater than the set value Cg ( 129). As a result of the determination, if the difference is greater than the set value, the driving force is reset according to the operations 103 to 109 and the reference value is reset.

If the difference is not greater than the set value as a result of the determination of operation 129, operation 111 is performed.

According to the present invention as described above, by resetting the reference value of the indoor pollution detection sensor for detecting indoor pollution, it is possible to exclude the adverse effect of the sensor error, thereby accurately detecting the contamination of the indoor air even using a low-cost sensor It can reduce the economic burden and increase the reliability of the product.

Claims (13)

A ventilation system for ventilating the interior space; An indoor pollution detection sensor for detecting pollution of the indoor space; And And a control unit for comparing the reference value of the indoor pollution detection sensor with the highest output and resetting the reference value if the difference is greater than a set value. The apparatus of claim 1, wherein the indoor pollution detecting sensor has at least one highest output and the lowest output at regular intervals. The apparatus of claim 2, wherein the indoor pollution sensor is a carbon dioxide sensor that detects a concentration of carbon dioxide. The apparatus of claim 1, wherein the controller controls the ventilation system to forcibly vent and reset the reference value. The apparatus of claim 1, further comprising a memory configured to store a reference value of the indoor pollution detection sensor. The apparatus of claim 5, wherein the memory stores the reset reference value when the reference value is reset. 7. The apparatus of claim 6, wherein the memory is an electrically erasable RAM (EEPROM) for preserving reference values stored in case of instantaneous power failure. The control device of a ventilation system according to claim 6, wherein the control unit applies a reference value stored in the memory when returning after instantaneous power failure occurs. The control device of a ventilation system according to claim 1, wherein the control unit initially sets the reference value after the system initialization operation is completed and forced ventilation by the ventilation system. The apparatus of claim 1, wherein the reference value is a voltage at which the output of the indoor pollution detection sensor is saturated. In the control method of the ventilation system having a ventilation system for ventilating the indoor space and the indoor pollution detection sensor for detecting the contamination of the indoor space, When the system initialization operation is performed and the initialization operation is completed, after forced ventilation using the ventilation system, the output of the indoor pollution detection sensor is detected, the maximum output of the indoor pollution detection sensor is compared with a reference value, and the indoor pollution detection is performed. The control method of the ventilation system to reset the reference value of the indoor pollution detection sensor when the difference between the maximum output of the sensor and the reference value is larger than the set value. The method of claim 11, wherein the indoor pollution detection sensor detects carbon dioxide concentration, and the carbon dioxide concentration is stored every predetermined time. The ventilation operation according to claim 12, wherein when the carbon dioxide concentration is greater than the ventilation start setting value set to start the ventilation operation, the ventilation operation is started and the carbon dioxide concentration is smaller than the ventilation end setting value set to end the ventilation operation. Method of controlling the ventilation system to shut down.

Images