JPH0331636A - Ventilation device - Google Patents

Abstract

PURPOSE:To enable a positive air conditioning operation to be performed by a method wherein a displaying part for displaying a measured signal from a sensor is cooperated with an alarm displaying part to be displayed by an output signal of a calculation circuit for processing the measured signal and then an air supplying or discharging air blower is automatically operated. CONSTITUTION:An operation of an air supplying and discharging blower 14 is started and a simultaneous air supplying and discharging operation is carried out from an air intake port 11 to an air supplying port 20 and from a discharging port 21 to an air discharging port 20 through an air passage 19. In this case, an output is set to a displaying part 31 through various sensors and a calculation circuit 26. Interior air state and outdoor air state are measured by inputs from an indoor temperature sensor 24, an indoor humidity sensor 25 and an outdoor air temperature sensor 23 and by the calculation circuit 26. Assumption of an indoor wall surface temperature TW and an indoor dew point temperature TD are set by this calculation circuit 26. At a state of TW<TD, a dehumidifying alarm is displayed at an alarm displaying part 40 of the displaying part 31 and at the same time an operating instruction of the air supplying and discharging blower 14 is outputted to a motor 17.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a ventilation system in which a blower is provided with various sensors and an arithmetic circuit.

[Conventional technology]

Conventionally, as shown in Fig. 7, this type of ventilation system has a main body (3) having a blower (1) and a heat exchanger. A device is known in which the value detected by the element (4) is displayed on a temperature display meter (6) provided on the front panel (5) of the main body (3) (for example, (See Publication No. 23031).

[Problem to be solved by the invention]

In the conventional ventilation system as described above, only the temperature is displayed by the temperature sensing element (4), for example, temperature detection is performed, and this detected value is displayed as a warning via, for example, an arithmetic circuit.
There was a problem in that it was not possible to instruct the blower (1) to operate automatically, and the air conditioning function as a ventilation device was not sufficient.

This invention was made to solve the problem,
The purpose of this invention is to provide a ventilation system that can ensure air conditioning through warning displays and automatic blower operation.

[Means to solve the problem]

The ventilation device according to the present invention includes an outer casing that is attached to a wall and has an air intake port and an exhaust port on the outdoor side, and an outer casing that is detachably provided on the indoor side and communicates with the air intake port and the exhaust port. A grill provided with an air supply port and an air discharge port forming an air path, and an air supply/exhaust blower provided in the air path, and a plurality of sensors and measurement signals from the sensors are displayed on the grill. A display section, an arithmetic circuit that processes the measurement signal, and a warning display section that is displayed based on the output signal of the arithmetic circuit are provided, and the supply/exhaust blower is automatically operated in conjunction with the warning display section. This is how it was done.

In addition, an outside air temperature sensor is installed on the outdoor side of the outer casing, and an indoor temperature sensor and a humidity sensor are installed on the indoor side.These sensors and an arithmetic circuit set the assumed indoor wall surface temperature and the indoor dew point temperature. When the assumed temperature value is smaller than the indoor dew point temperature value, a warning is displayed and the air supply/exhaust blower is operated.

Additionally, a barometric pressure sensor is installed in the grille, and a weather forecast display function is provided via an arithmetic circuit.

In addition, the grill is equipped with a time display function, a heat exchanger is disposed inside the outer casing, and a single arithmetic circuit is used.

In addition, the display section and the operation section connected thereto are placed separately and placed at hand.

[Effect]

In this invention, the grill includes a plurality of sensors, a display section that displays measurement signals from the sensors, an arithmetic circuit that processes the measurement signals, and a warning display section that is displayed based on the output signal of the arithmetic circuit. In addition, since the air supply/exhaust fan is automatically operated in conjunction with the warning display section, the air supply/exhaust fan is operated simultaneously with the warning display displayed on the grill.

In addition, an outside air temperature sensor is installed on the outdoor side of the outer casing, and an indoor temperature sensor and a humidity sensor are installed on the indoor side.These sensors and an arithmetic circuit set the assumed indoor wall surface temperature and the indoor dew point temperature. When the assumed temperature value is larger than the indoor dew point temperature value, a warning is displayed and the air supply/exhaust fan is operated, so that moisture on the indoor wall surface is removed by the air supply/exhaust fan.

In addition, a barometric pressure sensor is installed in the grill, and a calculation circuit is used to provide a weather forecast display function, as well as a time display function on the grill, making it easy to know the weather forecast and time.

Furthermore, by disposing a heat exchanger inside the outer casing, suction and exhaustion can be performed without changing the temperature of the indoor air.

Furthermore, since a single arithmetic circuit is used, the device body becomes smaller.

In addition, since the display section and the operating section connected thereto are placed separately and placed at hand, the main body of the device can be operated and the display can be understood from the hand.

〔Example〕

FIGS. 1(a), (b) to 4 are views showing an embodiment of the present invention. An air intake port (ll) and an exhaust port (12) are provided, and an opening (13) is provided on the indoor side. (14) is a supply/exhaust blower disposed inside this outer casing, and the exhaust blower (15) faces the exhaust port (12).
), a supply air blower (1) facing the air intake port (11)
6) and a motor (17), (18) is a grill that is detachably attached to the indoor side of the outer casing [81] and communicates with the air intake port (11) and the exhaust port (12). An air supply port (20) and a discharge port (21) forming an air passage (19).
). (22) is a heat exchanger disposed inside the outer casing (8), which is located on the air passage (19) and performs heat exchange without changing the indoor air temperature. (23) is an outside air temperature sensor, and the air intake port (11
) located nearby. (24) and (25) are an indoor temperature sensor and an indoor humidity sensor installed in the grill (18), and (26) is an arithmetic circuit;
), the outside air temperature sensor (23), the indoor temperature sensor (24) and the indoor humidity sensor (25).
The measurement signal is input, and the air supply/exhaust blower (16
) for automatic operation (not shown)
is built-in. (27) is a barometric pressure sensor, which is built into the grill (18). (28) is a weather forecast calculation circuit which calculates the signal from the atmospheric pressure sensor (27) and outputs a weather forecast. (29) is the above grill (18)
), the clock circuit <30) is also installed in the grill (1
8) is a miscellaneous gas sensor provided, (31) is a display provided in the grill (18), and (32) is a clock display, which is output from the clock circuit (29). (33) is a weather forecast circuit, which is outputted from the weather forecast calculation circuit (28).

(34) is the indoor dirt display, and the above miscellaneous gas sensor (30)
) is output. (35) and (36) are indoor temperature display and indoor humidity display, (37) is outside temperature display, and (38)
), (39), and (40) are the warning display parts output from the arithmetic circuit (26), Ti is the indoor temperature, H is the indoor humidity,
To is the outside air temperature, and TD is the indoor dew point temperature, which is set by an outside air temperature sensor (23), an indoor temperature sensor (24), an indoor humidity sensor (25), and an arithmetic circuit (26). TW is the indoor wall temperature.

In the ventilation system configured as above, the motor (
17), the supply/exhaust blower (1
4) operation is started, and simultaneous supply and exhaust action is performed from the air intake port (11) to the air supply port (20) and from the discharge port (21) to the exhaust port (20) via the air path (19). . in this case,
The display section (31) is made up of various sensors and arithmetic circuits (26).
), but in one embodiment shown in Fig. 3, inputs from seven indoor quality sensors (24), indoor humidity sensors (25), and outside air temperature sensors (23) and arithmetic circuits ( 26), the indoor and outdoor air conditions are i1+1
1 is determined by this arithmetic circuit (26), the indoor wall 1f11
The warm melon TW assumption and the indoor dew point temperature TD are set. Then, when TW <TO, a dehumidification warning is displayed on the warning display section (40) of the display section (31), and an instruction to operate the air supply/exhaust fan (14) is output to the motor (17).

On the other hand, when the outdoor temperature To < L 0℃ and the indoor humidity [(<40%, a humidification warning display (38) is displayed, and when the outdoor temperature To>25℃ and H>60%, a dehumidification warning display (
39) is performed. In this way, the measurement signal of the sensor, the arithmetic circuit (26) that processes this measurement signal, the output display section (31) from this arithmetic circuit (26), and the air supply/exhaust blower (14) The automatic driving function enables automatic driving by determining indoor dirt and temperature/humidity conditions, creating an appropriate indoor environment and preventing condensation on walls in winter. In addition, it is possible to prevent dehumidification during the rainy season and summer, and to prevent excessive dryness indoors in winter, and to prevent stains, mold, and dust mites on the wall 001, and to maintain a sense of comfort for people in the room.

In this invention, the weather forecast calculation circuit (28) is provided separately from the calculation circuit (26), but as shown in FIG. The circuit can be made smaller and the ventilation device (9) can be made lighter.

In addition, as shown in Fig. 6, the display section (31) and the operation section (41) connected to the display section (31) are placed separately, so that the display section (31) is easy to see and operate. It has improved performance and can be made smaller.

〔Effect of the invention〕

Since the present invention is configured as described above, it produces the effects described below.

The ventilation device according to claim (1) includes an outer casing that is attached to a wall and has an air intake port and an exhaust port on the indoor side, and an outer casing that is detachably provided on the indoor side and has the air intake port and the exhaust port. A grill is provided with an air supply inlet and an air outlet that form an air passage that communicates with the air passage, and an air supply/exhaust blower installed in the air passage. A display section for displaying , an arithmetic circuit that processes the measurement signal, and a warning display section that is displayed based on the output signal of the arithmetic circuit are provided, and in conjunction with the warning display section, the air supply and exhaust blower automatically operates. By being operated, the indoor air condition can be judged and the air supply/exhaust blower can be automatically operated to create an appropriate indoor environment.

In the ventilation system according to claim (2), an outside air temperature sensor is arranged on the outdoor side of the outer casing, and an indoor temperature sensor and a humidity sensor are arranged on the indoor side, and the estimated indoor wall surface temperature and the indoor dew point are determined by these sensors and an arithmetic circuit. When the temperature is set and the estimated value of the indoor wall surface temperature is lower than the indoor dew point temperature value, a warning display and the air supply/exhaust fan are operated, which removes moisture from the indoor wall surface and eliminates condensation. It can prevent stains such as mold on the wall surface.

In the ventilation system according to claim (3), since the air pressure sensor is provided in the grill and a weather forecast display function is provided via the arithmetic circuit, the weather forecast is displayed immediately and the usage efficiency is further improved.

In the ventilation system according to claim (4), since the grill is provided with a time display function, the time is displayed immediately and the usage efficiency is further improved.

In the ventilation system according to claim 9, since the heat exchanger is disposed within the outer casing, the indoor air is supplied and exhausted without changing the temperature, and the air condition is stabilized.

In the ventilation device according to claim (6), since a single arithmetic circuit is used, the ventilation device is made smaller and lighter in weight.

In the ventilation system of claim (■), since the display section and the operation section connected thereto are placed separately and placed at hand,
Improved operability and usage efficiency.

[Brief explanation of drawings]

FIGS. 1(a) and (b) are a front view of a display section and a sectional view of a ventilation system showing one embodiment of the present invention, and FIG. 2 is a configuration diagram of the same.
FIG. 3 is a flowchart diagram, FIG. 4 is a block diagram showing another embodiment of the present invention, FIG. 5 is a block diagram showing another embodiment of the present invention, and FIGS. 6(a) and (b). ) also shows a front view and a sectional view of a ventilation device showing other embodiments of the invention,
FIG. 7 is a front view of a conventional ventilation system. In addition, the door is the outer casing, α is the wall, (11) is the air intake, and (
12) is an exhaust port, (14) is a supply/exhaust blower, (18)
is the grill, (19) is the air passage, (20) is the air supply port, (21)
) is the exhaust port, (22) is the heat exchanger, (23) is the outside temperature sensor, (24) is the indoor temperature sensor, (25) is the indoor humidity sensor, (26) is the calculation circuit, (27) is the atmospheric pressure sensor, (31) is the display part, (38), (39), (4
0) is a warning display section, and (41) is an operation section. Figure 1 (S)

Claims (7)

[Claims] (1) An outer casing that is attached to a wall and has an air intake port and an exhaust port on the outdoor side, and an air passage that is detachably provided on the indoor side of the outer casing and communicates with the air intake port and the exhaust port. The grille includes a grill provided with an air supply port and a discharge port, and a supply/exhaust blower provided in the air passage, a plurality of sensors on the grille, a display section that displays measurement signals from the sensors, and the above-mentioned an arithmetic circuit that processes measurement signals;
A ventilation system characterized in that a warning display section is provided which is displayed based on an output signal of the arithmetic circuit, and the air supply/exhaust blower is automatically operated in conjunction with the warning display section. (2) An outside air temperature sensor is installed on the outdoor side of the outer casing, and an indoor temperature sensor and a humidity sensor are installed on the indoor side, and the assumed indoor wall surface temperature and indoor dew point temperature are set by these sensors and a calculation circuit. 2. The ventilation system according to claim 1, wherein a warning is displayed and an air supply/exhaust fan is operated when the assumed value of the wall surface temperature is smaller than the indoor dew point temperature value. (3) The ventilation system according to claim 1, characterized in that a barometric pressure sensor is provided in the grille, and a weather forecast display function is provided via an arithmetic circuit. (4) The ventilation system according to claim 1, characterized in that the grill is provided with a time display function. (5) The ventilation system according to claim 1, characterized in that a heat exchanger is disposed within the outer casing. (6) The ventilation device according to claim 1, characterized in that a single arithmetic circuit is used. (7) Claim 1, characterized in that the display section and the operating section connected thereto are placed separately and placed at hand.
Ventilation equipment as described in section.