JPH08193748A - Air conditioner - Google Patents

Abstract

PURPOSE: To enable an energy saving to be attained and further a more comfortable air conditioned environment to be realized by a method wherein an air conditioner, an amount of air of an air discharging fan and a degree of opening of an anti-fire damper are controlled in response to a state of a changing-over switch to be changed over in reference to a state of practical use of the air conditioner. CONSTITUTION: During a cooling operation, a cooling circuit is operated in a reverse cycle to that of a heating operation. That is, a refrigerant circuit is operated as a freezer. At this time, an amount of air in an air conditioning controller 14 and a degree of opening of a damper are controlled in response to a state of each of changing-over switches 86a to 86c. An air blowing amount of an air discharging fan 80 is mainly controlled in response to a state of each of the changing-over switches 86a to 86c, and an amount of air discharged from each of air discharging ports 64a to 64d is individually controlled by each of dampers 76a to 76d controlled by each of the damper controllers 74a to 74d. Dampers 76a to 74c which may act as anti-fire dampers are mainly controlled in response to the state of each of the changing-over switches 86a to 86c.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner,
In particular, the present invention relates to an air conditioner that air-conditions a room provided with equipment that requires exhaust, such as fire equipment and experimental equipment.

[0002]

2. Description of the Related Art In the conventional air conditioner 1 shown in FIG.
Air supply fan 3 for rotating air (outside air) heated or cooled to a predetermined temperature through the indoor coil 2 at a constant rotation speed
Therefore, the air is supplied to the room 5 to be air-conditioned through the air supply duct 4.

[0003]

The required air volume in the room 5 changes depending on the usage of the fire facility 6 such as a gas stove. That is, when the fire facility is used, the amount of oxygen consumed is large, and thus the required air amount is large. On the other hand, when the fire facility is not used, the amount of oxygen is consumed and the required air amount is small.

However, in the prior art, the rotation speed of the air supply fan 3, that is, the amount of air supplied to the room 5 to be air-conditioned, is set to a constant value regardless of the state of use of the fire equipment. If the fire equipment 6 is not used, it is against energy saving. On the other hand, if the air supply amount is set to be small, the fire equipment 6 will be in an oxygen-deficient state or the predetermined room temperature cannot be secured. I was afraid.

Therefore, a main object of the present invention is to provide an air conditioner which can save energy and realize a more comfortable air conditioning environment.

[0006]

SUMMARY OF THE INVENTION The present invention is an air conditioner for air conditioning a room provided with a plurality of equipments that require exhaust air, the air being heated or cooled to blow air into the room. Exhaust ports provided in the room in relation to each of the harmony machine and equipment, exhaust ducts that connect each of the exhaust ports with the outdoors, and provided in association with each of the exhaust ports and block flames in case of fire and exhaust Fire dampers that individually control the amount of exhaust from each of the mouths, exhaust fans that are provided in relation to the exhaust duct and that control the total amount of exhaust from the room, and that are provided in association with each of the facilities and each of the facilities. A changeover switch that can be switched according to the state of use, and a control unit that controls the air volume of the air conditioner and the exhaust fan and the opening degree of the fire protection damper according to the state of the changeover switch. Obtain an air conditioner.

[0007]

According to the state of each changeover switch provided in association with each of the plurality of facilities that require exhaust, the opening degree of each fire protection damper provided in association with the corresponding exhaust port is adjusted, and all of them are adjusted. The air volumes of the air conditioner and the exhaust fan are controlled according to the state of the changeover switch. For example, if all the change-over switches are in the "OFF" state, all fire protection dampers associated with each equipment are closed, and the exhaust port provided independently of the equipment can be used to provide the minimum required amount of ventilation. In addition, the air conditioner and the exhaust fan are operated with the minimum air volume.
On the other hand, when all the changeover switches are set to "large", all the fire protection dampers associated with each facility are opened, and the air conditioner and the exhaust fan are operated at the maximum air volume. Also, when the changeover switch is set to "small" or "medium", the fire protection dampers related to each equipment are opened at the opening according to the state of the corresponding changeover switch, and all the changeover switches are in the state. Accordingly, the air volumes of the air conditioner and the exhaust fan are controlled.

Further, when each equipment is a fire equipment and the amount of gas or electricity supplied to the fire equipment exceeds a predetermined value, the exhaust port corresponding to the fire equipment is irrespective of the state of the changeover switch. All of the associated fire protection dampers are opened and the airflow of the air conditioner and the exhaust fan is increased.

[0009]

As described above, according to the present invention, the opening of the fireproof damper and the air volume of the air conditioner and the exhaust fan are controlled according to the load of the equipment that requires exhaust, so that the comfort according to the load is achieved. It is possible to realize an air-conditioning environment and save energy. Also, when the amount of gas or electricity supplied to the fire equipment exceeds a predetermined value, the opening of the fire protection damper is increased and the air volume of the air conditioner and exhaust fan is increased. Even if you make a mistake, you can always secure the outside air volume required for ventilation.

The above-mentioned objects, other objects, features and advantages of the present invention will become more apparent from the detailed description of the embodiments below with reference to the drawings.

[0011]

EXAMPLE An air conditioner 10 of this example shown in FIG.
Is for air-conditioning the room 12 to be air-conditioned by the air conditioner 16 controlled by the air-conditioning controller 14. The air conditioner 16 includes an indoor unit 18 installed indoors and an outdoor unit 20 installed outdoors, and the indoor unit 18 includes a housing 22. Openings 24 and 26 are formed in the upper surface and the lower side surface of the housing 22, and
An air supply fan 28 and an air filter 30 are provided in the interior of the fan in association with the openings 24 and 26, respectively. An indoor coil 32 is provided in the center of the lower portion of the housing 22, and a bypass fan 34 for returning the air passing through the indoor coil 32 to the inlet of the indoor coil 32 is provided above the indoor coil 32. An inverter 36 for controlling the number of revolutions of the air supply fan 28 to adjust the amount of air blow is provided outside the housing 22.

On the other hand, the outdoor unit 20 includes a housing 38. An opening 40 is formed on the upper surface of the housing 38, and an opening 42 is formed on the side surface of the housing 38. An outdoor coil 46 and a compressor 48 are provided inside the housing 38.
A four-way valve 50 is provided and an exhaust fan 52 is provided in association with the opening 40. And housing 3
An inverter 54 and the like for controlling the capacity of the compressor 48 are provided outside the unit 8. The indoor coil 32, the outdoor coil 46, the compressor 48, and the four-way valve 50 are communicated with each other via a pipe 56 through which a refrigerant passes, thereby forming a refrigerant circuit.

The inverters 36 and 54 are connected to the AO (analog output) terminal 58 of the air conditioning controller 14, and the bypass fan 34, the four-way valve 50 and the exhaust fan 52 are connected to the DO (digital output) terminal 60. It On the other hand, there are 3
One air supply port 62a, 62b and 62c and four air exhaust ports 64a, 64b, 64c and 64d are formed, and each of the air supply ports 62a to 62c and the opening 24 (the outlet of the air conditioner 28) of the indoor unit 18 are formed. Each of the exhaust ports 64a to 64d communicates with each other through the air supply duct 66, and the exhaust port 68 opened to the outside communicates with each other through the exhaust duct 70. A temperature sensor 72 is provided near the inlet of the air supply duct 66, and the exhaust duct 70 has a temperature sensor 72.
The damper controllers 74a, 74b, 74 are respectively associated with the exhaust ports 64a, 64b, 64c and 64d.
damper 76 whose opening is controlled by c and 74d
a, 76b, 76c and 76d are provided. Dampers 76a, 76b and 76c corresponding to the fire facilities 84a, 84b and 84c described later function as a fire protection damper. Also, in connection with the exhaust port 68, an inverter 78
An exhaust fan 80 whose rotation speed is controlled by is provided.

Inside the room 12, exhaust ports 64a, 64 are provided.
an exhaust hood 82 associated with each of b and 64c.
a, 82b and 82c, fire facilities 84a, 84b and 84c such as a gas range that require exhaust, and changeover switches 86a, 86b and 86c, and gas supply for supplying gas to each of the fire facilities 84a to 84c. The pipe 88 has a gas flow meter 9 for detecting the flow rate of gas.
0 is provided. Here, each of the changeover switches 86a to 86
c is the corresponding fire equipment 84a-8 as shown in FIG.
It is configured to be able to switch between four states (“OFF”, “small”, “medium”, “large”) according to the usage status of 4c (magnitude of thermal power, etc.). Furthermore, room 12
The air conditioner 16 is turned on / off at a predetermined position of
A room switch 94 including a main switch 92 for selecting an operation mode and a temperature detector and a temperature setter (not shown) is provided.

Then, the temperature sensor 72 and the gas flow meter 90
And the room thermostat 94 are connected to the AI (analog input) terminal 96 of the controller 14, and the inverter 78
And the damper controllers 74a, 74b and 74c are connected to the AO (analog output) terminal 58, the changeover switches 86a, 86b and 86c and the main switch 92 are connected to the DI (digital input) terminal 98, and the damper controller 74d is connected. It is connected to a DO (digital output) terminal 60.

The numbers of the air supply port 62, the air exhaust port 64, the gas appliance 84, the changeover switch 86, etc. may be increased or decreased as necessary, and the room thermostat 94 may be a gas supply for setting the air supply temperature. A device including an air temperature setting device may be used. In operation, when the air conditioner 16 is turned on by the main switch 92 and the heating operation mode is selected, the air supply fan 28, the bypass fan 34, the exhaust fan 52, and the exhaust fan 80 are driven, and the air conditioner 16 operates. The refrigerant circuit is operated in the heating cycle. That is, the refrigerant circuit operates as a heat pump. Then, in the indoor unit 18 of the air conditioner 16, air (outside air) from the outside is taken into the housing 22 through the opening 26, and dust is removed through the air filter 30.
It is heated through the indoor coil 32. Then, the air that has passed through the indoor coil 32 is sucked by the air supply fan 28, and is supplied by the air supply fan 28 through the air supply duct 66 from the air supply ports 62a to 62c into the room 12. At this time, part of the air that has passed through the indoor coil 32 is returned to the inlet of the indoor coil 32 by the bypass fan 34, and is further heated through the indoor coil 32. Air supply fan 28
The amount of blown air is controlled mainly based on the states of the changeover switches 86a to 86c.

In the outdoor unit 20, air (outside air) from the outside is taken into the housing 38 through the opening 42, heat-exchanged (cooled) through the outdoor coil 46, and then discharged from the opening 40 to the outside by the exhaust fan 52. It The heat pumped from the outside air in the outdoor coil 46 is used to heat the outside air in the indoor coil 32. Then, the capacity of the compressor 48 is controlled by the inverter 54 so that the temperature of the room 12 detected by the room thermostat 94 becomes equal to the set temperature set by the room thermostat 94.

On the other hand, in the room 12, the exhaust fan 8
By 0, the air in the room 12 is discharged to the outside. At this time, the amount of air blown by the exhaust fan 80 is mainly the changeover switch 86.
The exhaust ports 64a are controlled based on the states of a to 86c.
The volume of air discharged from ~ 64d depends on each damper controller 7.
It is individually controlled by each of the dampers 76a to 76d controlled by 4a to 74d. The dampers 76a to 76c functioning as fire protection dampers are mainly changeover switches 86a to 86.
It is controlled based on the state of c.

As described above, the air flow rates of the air supply fan 28 and the exhaust fan 80 and the opening degrees of the fire protection dampers 76a to 76c are controlled mainly based on the states of the changeover switches 86a to 86c, but the output of the gas flow meter 90. Is equal to or greater than a predetermined value, regardless of the state of each of the changeover switches 86a to 86c, the opening degree of each of the fire protection dampers 76a to 76c is increased so that the outside air amount corresponding to the amount of gas used can be secured and the air supply fan is increased. The air flow rates of 28 and the exhaust fan 80 are increased. When a fire signal from a fire detection switch or the like (not shown) is input to the controller 14, all the dampers 7 are irrespective of the states of the changeover switches 86a to 86c.
6a to 76d are closed, and the air conditioner 16 is stopped to block smoke and flame.

During cooling, the refrigerant circuit is operated in the reverse cycle during heating. That is, the refrigerant circuit operates as a refrigerator. Below, the air conditioning controller 1 based on the states of the changeover switches 86a to 86c according to the flow chart of FIG.
The control operation of the air volume and the damper opening in 4 will be described. However, in this embodiment, the maximum air volume A of the air supply fan 28 is 3000 m ³ / hr, and the exhaust volume B to be discharged from the exhaust port 64d provided independently of the fire facility is 600 m ³ / hr.
Is set to Also, the exhaust ports 64a, 64b and 64
Exhaust volumes C ₁ , C ₂ and C to be discharged from each of c
Each of ₃ is "0 m ³ / hr" when the state of each of the changeover switches 86a to 86c is "OFF", and "40" when it is "small".
0 m ³ / hr ”,“ medium ”is set to“ 600 m ³ / hr ”, and“ large ”is set to“ 800 m ³ / hr ”.

When the air volume control operation in the air conditioning controller 14 is started, it is first determined in step S1 whether or not the main switch 92 is turned on. If it is determined that the main switch 92 is turned on, then the process proceeds to step S3 and the air conditioner is operated. 1
When the operation of 6 is started, the damper 76d is fully opened. On the other hand, when it is determined in step S1 that the air conditioner 16 is not turned on, the air conditioner 16 is stopped in step S5, and the damper 76d is closed and the main switch 92 is waited for being turned on.

In the following step S7, the displacement C₁, C₂
Or C₃The largest of the C_MAXIs detected. Tato
For example, that of the changeover switches 86a, 86b and 86c.
Whether each state is "OFF", "Medium" and "Large"
For example, displacement C₁, C₂And C ₃Each is 0m³/ hr
 , 600m³/ hr and 800m³/ hr, so maximum
Displacement C_MAXIs 800 m³/ hr (= C₃) Is said.

Then, in step S9, the respective openings C ₁ ′, C ₂ ′ and C ₃ ′ of the dampers 76a, 76b and 76c are obtained in accordance with the equation ( ₁ ), and in the next step S11 the dampers 76a, 76b and 76c are damper controllers 74a, 74b and 74
The opening degrees C ₁ ′, C ₂ ′ and C ₃ ′ are controlled by c.

[0024]

## EQU1 ## C _n ′ = (C _n / C _MAX ) ^m × 100 [%] (1 ≦ m ≦ 2 n = 1,2,3) In the following step S13, the air supply fan 28 is turned on according to the equation of Expression 2. The percentage of the maximum air flow is calculated, and the calculation result E is given to the inverter 36.

[0025]

[Equation 2] E = {(B + C ₁ + C ₂ + C ₃ ) / A} × 10
0 [%] Therefore, in step S15, the air supply fan 28 is operated at the maximum air volume E (%). For example, the changeover switch 86a, the respective states of 86b and 86c is "OFF", if "medium" and "large", each exhaust amount C _1, C ₂ and C ₃ is 0m ³ / hr, 600m ³
/ hr and 800 m ³ / hr, therefore, if the value of the order m in the equation of Equation 1 is set to "1", the values of the openings C ₁ ′, C ₂ ′ and C ₃ ′ obtained in step S9 are respectively 0%, 75% and 100%, step S
The value (air volume) E obtained in No. 13 is 66.66 ...%
Becomes

The value of the degree m in the equation 1 is 1 ≦ m ≦
The range that can be arbitrarily set within the range of 2 is that if the damper opening is close to 0%, the rate of change of the air volume with respect to the opening change is small, and if the damper opening is close to 100%, the air volume with respect to the opening change is small. This is because the damper characteristic that the rate of change is large is taken into consideration. When the order m is "1.5",
The relationship between the air volume and the opening can be represented by a graph as shown in FIG. 4, for example, and the air volume can be controlled more appropriately according to the damper characteristics.

According to this embodiment, the fire equipment 84a-8
4c according to the state of use, the total amount of air supply and exhaust, and each exhaust port 64a related to the fire equipment 84a to 84c.
Since the displacement from ~ 64c is controlled,
It is possible to save energy and realize a comfortable air conditioning environment. Moreover, since the gas flow meter 90 monitors the gas usage amount and the outside air amount corresponding to the gas usage amount is secured regardless of the states of the changeover switches 86a to 86c, the operation error of the changeover switches 86a to 86c is prevented. Even if there is, problems such as oxygen deficiency do not occur.

In the above embodiment, the indoor coil 3
2, outdoor coil 46, compressor 48 and four-way valve 5
Although the case where the air conditioner 16 of the type that heats or cools the outside air is adopted by operating the refrigerant circuit having 0 or the like as a heat pump or a refrigerator is shown, for example, as shown in FIG. An air conditioner 10 that heats or cools the outside air through hot water or cold water
2 may be adopted.

Further, in the above-mentioned embodiment (FIGS. 1 and 5),
Although a gas appliance is used as the fire equipment 84a to 84c, this may be replaced with an electric appliance. In this case, electric power is supplied in place of gas, and an electric energy meter is provided in place of the gas flow meter 90. When the output of the electric energy meter becomes a predetermined value or more, the outside air amount according to the amount of electric power used is changed. The opening degree of each of the fire protection dampers 76a to 76c is increased so that the air supply fan 28 and the exhaust fan 80 can be secured.
The air volume of is increased.

Further, in place of the fire equipment 84a to 84c of the above-mentioned embodiment (FIGS. 1 and 5), experimental equipment or the like which does not use fire but requires exhaust may be provided. In this case, the gas supply pipe 88, the gas flow meter 90, etc. are unnecessary.

[Brief description of drawings]

FIG. 1 is an illustrative view showing one embodiment of the present invention;

FIG. 2 is an illustrative view showing a changeover switch in the embodiment in FIG.

FIG. 3 is a flowchart showing an air volume control operation in the embodiment of FIG.

FIG. 4 is a graph showing an air volume-opening characteristic of a damper.

FIG. 5 is an illustrative view showing a modified example of the air conditioner.

FIG. 6 is an illustrative view showing a conventional technique.

[Explanation of symbols]

 10 ... Air conditioning system 12 ... Room 14 ... Air conditioning controller 16, 102 ... Air conditioner 28 ... Air supply fan 32 ... Indoor coil 36, 54, 78 ... Inverter 64a-64d ... Exhaust port 74a-74d ... Damper controller 76a-76d ... Exhaust dampers 84a to 84c ... Fire equipment 86a to 86c ... Changeover switch 90 ... Gas flow meter

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Norio Kuzuoka 6-5-30 Akasaka, Minato-ku, Tokyo Kashima Construction Co., Ltd. (72) Inventor Tadashi Uchiyama 6-5-30 Akasaka, Minato-ku, Tokyo Kashima Construction Co., Ltd. (72) Inventor Shuzo Akita 28 Hiraide Industrial Park, Utsunomiya City, Tochigi Prefecture Kubota Train Co., Ltd. Tochigi Plant (72) Inventor Tomoaki Horio 2-6-6 Motoasakusa, Taito-ku, Tokyo Tokyo Nissan Taito Building Kubota Train Co., Ltd. In-house (72) Inventor Ken Nakano 28 Hiraide Industrial Park, Utsunomiya City, Tochigi Prefecture Kubota Train Co., Ltd. Tochigi Plant

Claims (2)

[Claims] 1. An air conditioner for air-conditioning a room provided with a plurality of equipments requiring exhaust air, the air conditioner heating or cooling the outside air to blow the air into the room, each of the equipments. An exhaust port provided in the room in relation to the exhaust port, an exhaust duct that communicates each of the exhaust ports with the outside, a flame provided at the time of each of the exhaust ports and blocking the flame at the time of a fire A fire damper for individually controlling the exhaust amount from each, an exhaust fan provided in association with the exhaust duct and controlling the total exhaust amount from the room, and provided in association with each of the facilities and of the facility A changeover switch that is switched according to each usage state, and the air volume of the air conditioner and the exhaust fan according to the state of the changeover switch and the fire protection. A control means for controlling the opening of the damper, the air conditioner. 2. When the equipment is a fire equipment, a supply means for supplying gas or electricity to each of the fire equipment and a total supply amount of the gas or electricity provided in association with the supply means are detected. When the output of the detection means is greater than or equal to a predetermined value, the control means increases the air volume of the air conditioner and the exhaust fan and the fire damper when the output of the detection means is greater than or equal to a predetermined value. The air conditioner according to claim 1, wherein the opening degree of the air conditioner is increased.