JPS62169953A - Air conditioner of underground living room - Google Patents

Abstract

PURPOSE:To make it possible to control the air conditioning of an underground living room to a state suitable for living by providing the air conditioner with a control part inputted with measured values of respective sensors within the underground room, controlling the operation of a ventilation fan and the air conditioner and forcibly setting the air conditioner into a dehumidifying mode when the temperature of a floor surface or wall surface is less than a dew point temperature. CONSTITUTION:A control part is provided a temperature sensor 6 for measuring the temperature within an underground living room 1, a humidity sensor 7 for measuring a relative humidity therein, a floor surface temperature sensor 10 for measuring the floor surface in the underground room, a wall surface temperature sensor 11 for measuring the wall surface temperature within the underground room, a ventilation fan 4 for introducing external air into the underground room, and an air conditioner 5 for controlling the environmental conditions within the underground room. The control part is inputted with measured values from respective sensors, controls the operation of the ventilation fan and the air conditioner, and forcibly sets the air conditioner into a dehumidifying operation in a case where the temperature of the floor surface or the wall surface is less than the dew point temperature led from the temperature and the relative humidity of the underground room, thereby preventing the generation of condensed dew.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an air conditioner for a residential basement that controls the air environment of the residential basement to a state suitable for living.

[Conventional technology]

BACKGROUND ART In recent years, attempts have been made to utilize basements as living spaces from the perspective of effective use of living spaces, and these efforts have been attracting attention.

By the way, an empty basement usually has a higher relative humidity than the outside air, and fresh outside air must be introduced into the basement in order to use it for residential purposes. Condensation is likely to form on the floors and walls.

In particular, when hot and humid outside air, such as during the rainy season, is introduced into a basement where the temperature is lower than the outside temperature, condensation is likely to occur.

Therefore, perfect air conditioning is required, including controlling temperature and humidity to prevent condensation from forming on floors and walls, and introducing fresh outside air into the basement.

Air conditioners that control indoor environmental conditions through dehumidifying operation and ventilation fans that introduce outside air are essential.

In this case, the drive of the air conditioner and ventilation fan is controlled based on the temperature and relative humidity in the basement, and the air environment in the basement is adjusted to a state suitable for living. Condensation may occur depending on the temperature of the surface or wall, and it is difficult to prevent condensation from occurring.

[Problem that the invention seeks to solve]

Therefore, a technical object of the present invention is to provide an air conditioner that can reliably prevent dew condensation from occurring on the floor and walls of a basement.

[Failure to solve the problem]

This invention relates to an air conditioner for a residential basement, including a temperature sensor and a humidity sensor that measure the temperature and relative humidity in the residential basement, and a floor and wall sensor that measures the temperature of the floor and wall surfaces in the basement. a temperature sensor, a ventilation fan that introduces outside air into the basement, an air conditioner that controls the environmental condition in the basement, and the measurement values of each of the sensors are inputted to control the driving of the ventilation fan and the air conditioner. and a control unit that forces the air conditioner to operate in a dehumidifying mode when the temperature of the floor or wall surface is below the dew point temperature derived from the temperature and relative humidity in the basement. .

[For production]

Therefore, in the residential basement air conditioner of this invention,
In the control unit, the absolute humidity and dew point temperature in the room are derived from the temperature and relative humidity in the basement, and when the basement reaches an air conditioning condition that causes condensation on the floor or wall, the temperature of the floor or wall increases. When the temperature drops below the dew point, the air conditioner is controlled to dehumidify, reducing the absolute humidity and preventing condensation.

〔Example〕

Next, the present invention will be explained in detail with reference to drawings showing one embodiment thereof.

First, in FIG. 1, which shows the outline of the apparatus, (1) is a basement installed underground (2), and the upper part of the basement (1) is led out from the underground (2) to above ground. (3) is a building above ground, (4), (4) is a basement exposed above ground (1
) is a ventilation fan installed on the side wall of the basement (1) to introduce fresh outside air into the basement (1).It takes in the oxygen necessary for the human body and also exhausts carbon dioxide and cigarette smoke. (5) is a heat pump air conditioner installed on the upper wall of the basement (1) to control the indoor environmental condition, and has cooling, heating, and dehumidification functions.

(6) and (7) are indoor temperature sensors and indoor humidity sensors that measure the temperature and relative humidity inside the basement (1), respectively; (8) and (9) are outside the basement (1), that is, the temperature and relative humidity of the outside air; An outside air temperature sensor and an outside air humidity sensor that respectively measure humidity, αq and Q, are a floor temperature sensor and a wall temperature sensor that respectively measure the temperature of the floor and wall inside the basement (1).

In addition, Fig. 2 shows the configuration of the device in a block diagram, where the same symbols as in Fig. 1 indicate the same things, and 0 success indicates each indoor sensor (61, (7), αO2αυ, and each outdoor sensor). The measured values of the sensors (g) and (9) are input, and the ventilation fan (4) and air conditioner (5) are turned on according to the fixed values on each side.
) to maintain a comfortable air environment inside the basement (1), the controller is a microcomputer or other control unit that operates according to the program shown in the flowchart of FIG. This control section (2) is equipped with a function of converting relative humidity into absolute humidity based on the input measured values of temperature and relative humidity, and a function of converting the dew point temperature from the absolute humidity. In addition, the control unit (2) is a ventilation fan (4).
) and the air conditioner (5) are not driven at the same time.

Next, the operation of the embodiment will be explained.

The control unit (6) has various sensors (61,
(7).

(8) , (9) Measured values from αO1αυ are constantly input, and the control unit (6) operates according to the flowchart in FIG. 3 based on each measured value.

That is, first, the absolute humidity in the basement (1) and the dew point temperature at this absolute humidity are derived from the respective measured values of the indoor temperature sensor (6) and the indoor humidity sensor (7), and the It is determined whether each measured value of the temperature sensor αυ is higher than this dew point temperature (step ■).

If at least one of the floor surface temperature and wall surface temperature is below the dew point temperature, the judgment in step (2) is passed as N0, and the air conditioner (5) is controlled to dehumidify operation for a certain period of time (for example, 20 minutes) (step (2)). , the absolute humidity in the basement (1) is reduced. During this time, the program of the control unit 0.2 is in a blank state, and after this certain period of time has passed, when the air conditioner (5) is stopped, the program returns to step 1) The dew point temperature is derived from the internal temperature and relative humidity, and the temperature of the floor and wall surfaces and the dew point temperature are compared.

Furthermore, if the temperature of both the floor and wall surfaces becomes higher than the dew point temperature, the judgment in step
) It is determined whether the relative humidity within ) exceeds a predetermined value (step ■). This predetermined value varies depending on the season, but is approximately 65% in summer.

If YES in this judgment, that is, if the indoor relative humidity is higher than a predetermined value, then the outdoor absolute humidity based on the outdoor air temperature and the outdoor air relative humidity is compared with the indoor absolute humidity that is added to the indoor temperature and indoor relative humidity. (Step ■) If the indoor absolute humidity is higher than the outside air absolute humidity, the ventilation fan (4) is driven (Step ■), and low-humidity outside air is introduced into the basement (1), and high-humidity air is introduced into the basement (1). Internal air is exhausted to the outside to control indoor humidity.

When this ventilation fan (4) is operated, it is determined whether the indoor relative humidity has become lower than a predetermined value (step ■), and the answer is YES.
If so, the ventilation fan (4) is stopped (step ■) and NO
In this case, that is, if the indoor relative humidity is still higher than the predetermined value, the process returns to step 2 and compares the absolute humidity of the outside air and indoors again, and either the indoor relative humidity becomes lower than the predetermined value or The ventilation fan (4) continues to be driven until the humidity becomes equal to or higher than the absolute humidity of the outside air.

Next, when the indoor relative humidity is higher than a predetermined value,
If the indoor absolute humidity is lower than the outdoor absolute humidity, or
Low-humidity outside air is brought into the room by driving the ventilation fan (4), and the absolute humidity inside and outside is at the same level, but if the indoor relative humidity is still higher than the predetermined value, the judgment in step ① is NO.
If the condition is satisfied and the ventilation fan (4) is running, it is stopped, and the air conditioner (5) is then driven (step ■), and the air conditioner (5) performs dehumidifying operation. After that, it is determined whether the indoor relative humidity has become lower than a predetermined value (step ■), and the operation of the air conditioner (5) continues until the condition of YES is satisfied, and when this condition is satisfied, the air conditioner (5) is stopped. (step [phase]).

Furthermore, as described above, when the indoor relative humidity is controlled to be lower than the predetermined value by the ventilation fan (4) or the air conditioner (5), the program returns to step ■, and if the condition of YES is established in step ■, This time, it is determined whether room temperature control is necessary, that is, whether the indoor temperature is within the comfortable temperature range, based on the measured value by the indoor temperature sensor (6), etc. (step (2)).

This comfortable temperature range is the range of the comfortable temperature inside the living room relative to the outside temperature. For example, in the summer, the outside temperature is 3.
When the temperature is 1°C or higher, the comfortable temperature range is 27.5°C to 28°C.
．． The temperature is around 5°C, and the outside temperature is 15°C in winter.
When the temperature is below C, the comfortable humidity range is 20.0'C・-21,
The temperature will be around 5℃. Therefore, if the indoor temperature is outside the comfortable temperature range relative to the outside temperature, room temperature control is required.

If it is determined that room temperature control is necessary, the air conditioner (
5) is activated to perform indoor cooling or heating operation (step @), and then it is determined whether the indoor temperature has decreased or increased to within the comfortable temperature range (step 1, YES condition is met). This state continues until the YES condition is satisfied, the air conditioner (5) is stopped (step 2), and the process returns to step 2 again.

In the above embodiment, when the indoor relative humidity in the basement (1) exceeds a predetermined value, the air conditioner (5) is operated only when the indoor absolute humidity is equal to or higher than the outdoor absolute humidity, and the air conditioner (5) is operated otherwise. Humidity control is performed only by the ventilation fan (4) without using the ventilation fan (4), but this is partly because the purpose of this is to actively use the ventilation fan (4), which consumes less power than the air conditioner (5). Compared to the case where humidity control is performed by driving the air conditioner (5), power consumption can be reduced, and humidity control by this ventilation fan (4) introduces a new type of low-humidity outside air into the room. Since this is carried out, the natural environment is actively introduced, which has the advantage of making it possible to obtain a more comfortable indoor environment.

〔Effect of the invention〕

As described above, according to the residential basement air conditioner of the present invention, when the air conditioning condition in the basement is such that dew condensation occurs on the floor or wall surface, the air conditioner immediately dehumidifies, thereby preventing the occurrence of condensation. It is possible to reliably prevent the occurrence of bacteria, mold, etc. that are thought to be caused by condensation, and create a sanitary environment.

As a result, the purpose of use of residential basements can be greatly expanded, and due to the quiet nature of basements, they can be used not only as bedrooms, acoustic rooms, and studies, but also as humidification in basements, which was previously impossible. This also makes it possible to use it with .

[Brief explanation of drawings]

The drawings show one embodiment of the air conditioner for a residential basement according to the present invention, with FIG. 1 being a schematic sectional view, FIG. 2 being a block diagram, and FIG.
The figure is a flowchart for explaining the operation. (1)... Residential basement, (4)... Ventilation fan, (5
N... Air conditioner, (61... Indoor temperature sensor, (7
)... Indoor humidity sensor, α0... Floor temperature sensor,
αυ...Wall surface temperature sensor, (6)...Control unit.

Claims (1)

[Claims] (1) A temperature sensor and a humidity sensor that measure the temperature and relative humidity inside a residential basement; a floor and wall temperature sensor that measures the temperature of the floor and walls inside the basement; A ventilation fan that introduces the ventilation fan, an air conditioner that controls the environmental condition in the basement, and the measured values of each of the sensors are input, and the temperature of the floor or wall surface is controlled by the temperature of the floor or wall. An air conditioner for a residential basement, comprising: a control unit that forcibly puts the air conditioner into a dehumidifying operation when the temperature is below the dew point temperature derived from the temperature and relative humidity inside the basement.