JPS62272049A - Air conditioner for underground room of dwelling house - Google Patents

Abstract

PURPOSE:To enable a variation in temperature to be restricted by a method wherein when a difference between an outdoor temperature and an indoor temperature is lower than or higher than a desired value, a ventilation fan and a ventilation fan of heat exchanger type are selectively driven by a control part. CONSTITUTION:Measured values of both indoor sensors 6 and 7 as well as outdoor sensors 8 and 9 are always inputted to a control unit 10, and both ventilation fans 4a, 4b and an air conditioner 5 are controlled for their operation in response to a measured value of each of the sensors. The control part 10 is provided with a function of calculating a difference in temperature of outdoor temperature and indoor temperature. Thus, for example, in case that a ventilation is to be performed with a temperature in a under-floor room 1 increased up to a set value due to heating by the air conditioner 5, a heat exchanger type ventilation fan 4b is selectively driven, so that the indoor temperature increased at once up to a value near the set value decreases down to a value near the outdoor temperature under an operation of the ventilation fan 4a and so it is not necessary to repeat the heating operation from the beginning.

Description

Detailed Description of the Invention 3. 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, the relative humidity inside a basement is usually higher than that outside, and fresh outside air must be introduced into the basement if it is to be used for residential purposes, resulting in damage to the floor and walls inside the basement. Condensation occurs, especially 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.

Therefore, it is necessary to perfect the air conditioning system by controlling the temperature and humidity to prevent condensation from forming on the floors and walls of the basement, and by introducing fresh outside air into the basement.
For dehumidifying operation, it is essential to install an air conditioner to control the air condition inside the building and a ventilation fan to introduce outside air.

At this time, some kind of control means controls the operation of the air conditioner based on the temperature inside the basement, the temperature outside, etc., and also periodically drives the ventilation fan to introduce fresh outside air.

[Problem that the invention seeks to solve]

However, when the room temperature is maintained at a predetermined temperature by operating the air conditioner, if outside air that is lower or higher than the room temperature is introduced by the ventilation fan, the temperature inside the heated or cooled basement may drop or rise to near the outdoor temperature. However, after ventilation, the air conditioner must be used to heat or cool the room again to a predetermined temperature, which means that the air conditioner, which consumes a large amount of power, must be operated all the time, resulting in a problem that it is very inefficient and lacks economic efficiency.

Therefore, in this invention, a normal ventilation fan and a heat exchange type ventilation fan are selectively driven to provide ventilation based on the temperature difference between the outdoor temperature and the indoor temperature, thereby suppressing the change in indoor temperature due to the introduction of outside air. The technical challenge is to efficiently control the air condition inside the basement.

[Means for solving the problems] This invention has been made with the above points in mind, and
an indoor temperature sensor installed in a residential basement to measure indoor temperature, an outdoor temperature sensor installed outside the basement to measure outdoor temperature, a first ventilation fan and a heat exchange type second installed in the basement. A ventilation fan, an air conditioner that controls the environmental condition inside the basement, and the temperature measured by both sensors are inputted to control the operation of the air conditioner and detect the difference between the indoor temperature and outdoor temperature during ventilation. The air conditioner for a residential basement is characterized by comprising a control unit that selectively drives the first ventilation fan and the second ventilation fan when the ventilation fan is smaller and larger than a predetermined value, respectively.

[Effect]

Therefore, according to the present invention, the temperature difference between the outdoor temperature and the indoor temperature measured by the outdoor temperature sensor and the indoor temperature sensor during ventilation is derived by the control unit, and when the temperature difference is smaller than a predetermined value, and when the heat exchange type is large, the first ventilation fan and the second heat exchange type ventilation fan are selectively driven by the control unit, suppressing temperature changes in the basement due to the introduction of outside air, and efficiently controlling the air condition in the basement. is performed, and power consumption can be reduced.

〔Example〕

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

First, in FIG. 1 showing an outline of the apparatus, (1) is a basement chamber provided underground (2), and the upper part of the basement chamber (1) is led out from the underground (2) to above ground. (3) is an above-ground building, (4a) and (4b) are underground rooms exposed above ground (1
) is installed on the side wall of the basement (1) to introduce fresh outside air into the basement (1), and a second heat exchange type ventilation fan is installed on the side wall of the basement (1) to introduce fresh outside air into the basement (1). etc. are discharged. (5) is a heat pump type air conditioner installed on the upper wall of the basement (11) to control the indoor environmental condition, and is equipped with cooling, heating, and dehumidification operating functions.

(6) and (7) are indoor temperature sensors and indoor humidity sensors that respectively measure the indoor temperature and indoor relative humidity of the basement (1), and (8) and (9) are installed outside the basement (1) and measure the outdoor temperature and They are an outdoor temperature sensor and an outdoor humidity sensor that respectively measure outdoor relative humidity.

Fig. 2 shows the configuration of the device in a block diagram, and the same symbols as in Fig. 1 indicate the same things. (6), (7) and both outdoor sensors (8
The measured values of each of 1 and (9) are constantly input, and the operation of both ventilation fans (4a), (4b) and air conditioner (51) is controlled according to the measured value of each sensor, and the inside of the basement (1) is controlled. It is designed to control a comfortable air environment, and operates according to the program shown in the flowchart in Figure 3.The control unit aO also converts relative humidity to absolute humidity based on the input measured values of temperature and relative humidity. , a function to convert the absolute humidity to the dew point temperature, and a function to calculate the temperature difference between the outdoor temperature and the indoor temperature.

Next, the operation of the above embodiment will be explained using the flowchart shown in FIG.

Now, as shown in FIG. 3, in step 81, the controller V controls the temperature based on the measured value of the indoor temperature sensor (6) and the preset indoor temperature setting value.

It is determined whether or not the air conditioner (5) should be operated for heating, and if the result of this judgment is negative, that is, NO, the process moves to step S2, and in step S2, the control unit 00 determines whether the air conditioner (5) should be operated for cooling. If the result of the determination is No, the process returns to step S1 again.

On the other hand, if the result of the determination in step S1 is YES, in step S3, the control unit 00 controls the air conditioner (
5) is operated for heating for a certain time t1, and in step S4, after one hour has elapsed, the air conditioner (5) is stopped by the control unit 00. Prior to ventilation, in step S5, the indoor and outdoor temperature sensors ( 6).

Based on the measured value in (8), the control unit 00 determines the temperature difference Ts (= lTo −
It is determined whether Ti l ) is larger than a predetermined threshold T set in advance, and if the result of the determination is YES, in step S6, the control unit (l(') turns on the second ventilation fan. (4b) is driven for a constant 2 hours, ventilation is performed while suppressing temperature changes in the basement (1), and if the result of the determination in step S5 is No, in step S7, the controller (1) , 0, the first ventilation fan (4a) is driven for the predetermined time t2 to perform ventilation, and then in step S8, after 2 hours have elapsed, the control unit 00 starts the second ventilation fan (4b). Alternatively, after the first ventilation fan (4a) is stopped, the process returns to step 81 again.

Then, if the indoor temperature Ti is lower than the preset indoor temperature setting value, step sl,
Through the process of s3, the heating operation of the air conditioner (5) is repeated, and the ventilation operation after step S4 is repeated, and these routines are repeated until the indoor temperature Ti becomes equal to the set value. If the temperature T1 becomes equal to the set value, step S1.82 is NO.
It passes through and goes into standby mode.

Next, if the result of the determination in step S2 is YES, in step S9 the air conditioner (5) is operated for cooling for one hour by the control unit aO, and in step J
In o, after the air conditioner (5) is stopped by the control unit (10) after the lapse of the time t1, and prior to ventilation,
In step 811, the controller 00 controls the outdoor temperature T.
It is determined whether the temperature difference TS between o and the room temperature Ti is larger than the preset threshold value T, and if the result of the determination is YES, in step 812, the control unit 00 2 ventilation fan (41)) at the constant t
It is driven for 2 hours, and ventilation is performed while suppressing the temperature change in the basement (1), and if the result of the determination in step Jt is No, in step Sta, the controller tt
a, the first ventilation fan (4a) is driven for the constant two hours to perform ventilation, and then in step 814, after the time t2 has elapsed, the second ventilation fan (4b) is operated by the control port 0 after the time t2 has elapsed. After the ventilation fan (4a) is stopped, the process returns to step 81 again.

And the indoor temperature is T! is higher than the preset room temperature set value, step S2 as described above;
The cooling operation of the air conditioner (5) is repeated by the processing of Sg, and the ventilation operation from step S4 onwards is repeated, and these routines are repeated until the indoor temperature Ti becomes equal to the set value, and the indoor temperature Ti reaches the set value. If it is equal to the value, both steps s1 and s2 are No.
It passes through and goes into standby mode.

In addition, the indoor temperature sensor (6) and the indoor humidity sensor (7)
) Based on the measured values, the absolute humidity and dew point temperature in the basement (1) are derived by the control unit +10, and when the inside of the basement (1) is in an air-conditioned state that causes dew condensation on the floor and walls, The air conditioner (5) is forcibly switched to dehumidifying operation by the control unit aO, and when the indoor absolute humidity reaches the indoor humidity set value 1 or approximately equal to the outdoor absolute humidity, the air conditioner (5) is switched on again. 5) can be switched back to the original cooling or heating mode.

For example, when the outdoor and indoor temperatures To and Ti are both 10°C, and the indoor temperature set value is 20°C, steps S1 and S3 of the flowchart in FIG.
As a result of the process, the air conditioner (5) is operated for heating for t1 hours,
Thereafter, the air conditioner (5) is stopped and the ventilation fan is operated for ventilation.

At this time, assuming that the indoor temperature Ti has only risen to 13°C, if the threshold value T in step S5 is, for example, 5 ["c], then the temperature difference between the outdoor and indoor temperatures 'r
If s is ``3'' (=43°C - 10°C), the threshold T = 5 (``If it is less than CI, the first ventilation fan (4a) will also be driven for 2 hours to perform ventilation. On the other hand, if the indoor temperature Ti has risen to 18°C, the temperature difference Ts between the outdoor and indoor temperatures is ゝゝ8'' (=18°
c-10'c), and the threshold T = 5 ('C)
Since the basement ill is larger, the second heat exchange type ventilation fan (4b) is driven for the time t2 to perform ventilation in order to suppress temperature changes in the basement ill.

Therefore, when performing ventilation when the temperature inside the basement (1) has risen to near the set value due to heating by the air conditioner (5), the second heat exchange type ventilation fan (4b) is selectively driven. However, by driving the first ventilation fan (4a), the indoor temperature, which once rose to near the set value, drops to near the outdoor temperature, eliminating the need to repeat heating from the beginning and shortening the operating time of the air conditioner (5). Therefore, it is possible to reduce power consumption.

Incidentally, even in the case of cooling operation, power consumption can be reduced by shortening the operating time of the air conditioner (5), as in the above-described heating operation.

In the above embodiment, the air conditioner (5) is operated for heating and cooling for an hour t1, and then the ventilation fan is operated for ventilation. However, during the continuous heating and cooling operation of the air conditioner (5+), Of course, it is also possible to drive the vehicle.

In addition, the operating time tl of the air conditioner (5), the ventilation fan (4a)
.

The drive time of (4b) is also 2. It goes without saying that the temperature difference threshold T can be changed as appropriate.

〔Effect of the invention〕

As described above, according to the residential basement air conditioner of the present invention, when the difference between the outdoor temperature and the indoor temperature is smaller or larger than a predetermined value, the first ventilation fan and the heat exchange type second By selectively driving the ventilation fan by the control unit, it is possible to suppress temperature changes in the basement due to the introduction of outside air during ventilation, and it is possible to reduce power consumption by shortening the operating time of the air conditioner, making it possible to efficiently operate the ventilation fan. It becomes possible to control the air condition inside the basement, which is very economical and has extremely large effects.

[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. 3 being a flowchart for explaining the operation. fi+-・basement, (4a), (4b)...1st.
Second ventilation fan, (5)...Air conditioner, (6)...Indoor temperature sensor, (8)...Outdoor temperature sensor, GO...
・Control unit.

Claims (1)

[Claims] 1. An indoor temperature sensor installed inside the residential basement to measure the indoor temperature, an outdoor temperature sensor installed outside the basement to measure the outdoor temperature, and a first ventilation fan and a heat exchange type first ventilation fan installed in the basement. The temperature measured by the ventilation fan No. 2, the air conditioner that controls the environmental condition in the basement, and both of the sensors is input, and the temperature measured by the two sensors is inputted to control the operation of the air conditioner and to detect the difference between the indoor temperature and outdoor temperature during ventilation. An air conditioner for a residential basement, comprising: a control unit that selectively drives the first ventilation fan and the second ventilation fan when the air conditioner is smaller than a predetermined value and when it is larger than a predetermined value, respectively.