JP3446154B2 - Method of controlling smoke emission and pressurization in elevator shaft in high-rise building - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention belongs to the technical field of noise prevention measures and smoke prevention measures in a fire in an elevator shaft of a high-rise building.

[0002]

2. Description of the Related Art In an elevator shaft of a high-rise building, a chimney effect caused by the difference in specific gravity between outside air and indoor air and the height of the building greatly affects the indoor environment in winter. The effect is particularly noticeable on the lowest floor or the first floor of the building, which is open to the outside. That is, in the lower floors, the pressure inside the building is negative, so there is a large amount of outside air entering and the heating does not work, and because the entering outside air is sucked into the elevator shaft with a strong force, an uncomfortable air flow is felt. At the same time, there is a problem that an unpleasant sound is generated and the opening and closing of the elevator door is hindered.

Conventionally, in order to solve this problem, a windbreak chamber is installed or a revolving door is installed to shut off the air from the outside to prevent the intrusion of wind. In many cases, it is not preferable because the entrance and exit is restricted. Therefore, Japanese Patent Laid-Open No. 4-213579 proposes to pressurize the inside of the elevator shaft to reduce the chimney effect and prevent noise.

[0004]

However, the above-mentioned conventional method requires a special fan for pressurizing the inside of the elevator shaft only for the purpose of preventing noise during the winter season, which increases the initial cost. .
On the other hand, in recent years, a method of preventing smoke flow from the elevator shaft to another floor by pressurizing the inside of the elevator shaft during a fire has come to be adopted,
Also in this case, it is necessary to specially install a fan for pressurizing the inside of the elevator shaft only for an emergency, which increases the initial cost and also requires the maintenance and inspection as emergency equipment. There is.

The present invention is to solve the above-mentioned problems, and by effectively utilizing a fan, it is possible to eliminate noise in a high-rise building and to prevent smoke in a fire at low cost. It is an object to provide a method for controlling the pressure in smoke and elevator shafts.

[0006]

To this end, a method of controlling smoke exhaust in a high-rise building and pressurization in an elevator shaft according to the present invention includes an elevator shaft and a smoke exhaust duct provided through each floor of a high-rise building, A smoke exhaust fan provided at the top of the smoke exhaust duct, a plurality of air conditioners for air-conditioning the room on each floor or every several floors, a pressure fan and a first fan connected to the bottom of the elevator shaft. A damper, a pressurizing / outside air intake fan connected to the air conditioner via a second damper and connected to an elevator shaft via a third damper, and provided outside the building and inside the elevator shaft. A temperature sensor and a fire detector provided at a required location in the building, and when the temperature outside the building falls below the temperature of the elevator shaft and exceeds a specified value, the first damper is provided. When the air temperature outside the building is lower than the air temperature of the elevator shaft and exceeds the specified value, the pressure fan is operated, and in the event of a fire, the operation of the air conditioner is stopped and the second damper is closed. And the third damper is opened to operate the pressurizing fan, the smoke exhausting fan, and the pressurizing and outside air intake fan.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an example of a method for controlling smoke emission and pressurization in an elevator shaft in a high-rise building of the present invention. The skyscraper 1 is provided with an elevator shaft 2 and a smoke exhaust duct 3 penetrating each floor. In addition, a plurality of air conditioners 5 (one air conditioner is shown and other air conditioners are omitted) are installed on each floor or every several floors. In addition, 4 has shown the elevator hall.

A pressurizing fan A and a damper a are connected to the lowermost part of the elevator shaft 2 so that the outside air can be taken in. A smoke exhaust fan B is connected to the top of the smoke exhaust duct 3. The air conditioner 5 has a pressurizing and outside air intake fan D.
Is connected via a damper d, and the pressurizing / outside air intake fan D is connected to the elevator shaft 2 via a damper e. The air conditioned by the air conditioner 5 is supplied to the room (SA), the return air (RA) is connected to return to the air conditioner, and the exhaust air (EA) in the room is exhausted through the exhaust fan C. Further, the smoke exhaust (SE) is connected to the smoke exhaust duct 3 via the damper b.

The dampers a, d, and e are controlled to open and close by an actuator such as an electric motor or a solenoid. The damper b is opened and closed manually. Temperature sensors T1, T2, T3, T4, T5 are provided outside the building 1, at the bottom of the elevator hall 4 (the floor leading to the outside) and at the bottom, middle, and top of the elevator shaft 2, respectively. A fire detector F is provided at a required location in the building 1 and is connected to the control device 6. The control device 6 outputs a control signal to each of the fans A to D and the dampers a, d, e by the control described later.

The control of the present invention having the above structure will be described with reference to FIG. At normal times (when there is no fire and when there is no noise), the damper d is opened and the dampers a, b and e are closed, and the air conditioner 5, the exhaust fan C and the pressurizing and outside air intake fan D are The pressurizing fan A and the smoke exhausting fan B are operated, and the operation is stopped (step S1). Air conditioner 5 is SA
To the air conditioner 5 via RA from the room, and fresh outside air is supplied from the OA to the air conditioner 5 through the pressurization / outside air intake fan D and the damper d as a part of the air supply. To be done. A part of the return air is exhausted to the outside of the room by the exhaust fan C through EA.

In addition to the above-described normal air conditioning control, the pressurization control for preventing noise during the winter, in addition to the normal temperature T1 outside the building, is lower than the temperature T4 in the middle of the elevator shaft 2 and exceeds the specified value α. Sometimes the damper a is opened (step S3,
S4). As a result, the outside air flows into the elevator shaft 2, the temperature inside the elevator shaft 2 decreases, and the pressure inside the elevator shaft 2 increases. as a result,
By reducing the temperature difference between the inside of the elevator shaft 2 and the outside of the building and reducing the pressure difference between the inside and outside of the elevator shaft, the chimney effect can be reduced and the noise of the elevator shaft can be suppressed.

The temperature T1 outside the building is further lower than the temperature T4 in the middle of the elevator shaft 2 and the specified value β (β>
When α is exceeded, the pressure fan A is operated with the damper a open (steps S5 and S6). As a result, the outside air further flows into the elevator shaft 2 and the temperature inside the elevator shaft 2 due to the pressurizing fan A further decreases, and at the same time, the pressure inside the elevator shaft 2 increases and the noise of the elevator shaft is suppressed. it can.

In this example, the temperature T1 outside the building is compared with the temperature T4 in the middle portion of the elevator shaft 2, but the temperature T1 outside the building and the temperature T in the elevator hall are compared.
2 or the temperature T3 at the bottom of the elevator shaft 2, the temperature T5 at the top of the elevator shaft 2, or a composite value thereof (for example, an average value of T3 to T5) may be compared.

The smoke exhaust pressure control at the time of fire is performed in step S7 by the fire occurrence signal from the fire detector F in step S2.
Then, the damper d is closed, the dampers a, b, and e are opened, and the pressurizing fan A, the smoke exhausting fan B and the pressurizing and outside air intake fan D are operated, and the air conditioner 5 and the exhaust fan C are operated. Is put into a shutdown state. By operating the pressurizing fan A and the pressurizing / outside air intake fan D to pressurize the inside of the elevator shaft 2, it is possible to prevent smoke from flowing to another floor via the elevator shaft 2. At the same time, by operating the smoke exhaust fan B, smoke on the fire floor can be discharged to the outside through the damper b.

FIG. 3 is a block diagram showing another example of the pressurization control device in the elevator shaft in the high-rise building of the present invention. It should be noted that the same components as those in the example of FIG. In this example, in addition to the configuration of FIG. 1, an exhaust fan E is added to the uppermost part of the elevator shaft 2 via a damper f, and the dampers a and f are opened when the building is not operating at night, and The pressurizing fan A and the exhaust fan E are operated as necessary, and the outside air is circulated in the elevator shaft 2 to lower the temperature inside the elevator shaft 2 to reduce the operation of the pressurizing fan A during building operation. Is.

The control of the present invention having the above configuration will be described with reference to FIG. Under normal conditions (when there is no fire and when there is no noise), the damper d is opened and the dampers a, b, e, f are closed,
Further, the air conditioner 5, the exhaust fan C, and the pressurizing and outside air intake fan D are operated, and the pressurizing fan A, the smoke exhausting fan B, and the exhaust fan E are in the stopped state (step S1).
1). The air conditioner 5 supplies air to the room through SA and R
Air is returned to the air conditioner 5 via A, and fresh outside air is supplied from the OA to the air conditioner 5 via the pressurizing / outside air intake fan D and the damper d as part of the air supply. A part of the return air is exhausted to the outside of the room by the exhaust fan C through EA.

In winter, pressurization control for preventing noise is performed by the following control in addition to the above-described normal air conditioning control. First, when the building is not operating at night, open the dampers a and f,
Further, the pressurizing fan A and the exhaust fan E are operated as necessary (step 20) to circulate the outside air into the elevator shaft 2 to lower the temperature inside the elevator shaft 2.

When the building is in operation, the temperature T1 outside the building
Is below the temperature T4 in the middle of the elevator shaft 2 and exceeds the specified value α, the damper a is opened, the damper f is closed and the exhaust fan E is stopped (steps S14, S1).
5). As a result, the outside air flows into the elevator shaft 2, the temperature inside the elevator shaft 2 decreases, and the pressure inside the elevator shaft 2 increases. As a result, the temperature difference between the inside of the elevator shaft 2 and the outside of the building is reduced, and the pressure difference between the inside and outside of the elevator shaft is reduced, so that the chimney effect can be reduced and the noise of the elevator shaft can be suppressed. .

The temperature T1 outside the building is further lower than the temperature T4 in the middle of the elevator shaft 2, and the specified value β (β>
When α is exceeded, the pressure fan A is operated with the damper a open (steps S16 and S17). As a result, the outside air further flows into the elevator shaft 2 and the temperature inside the elevator shaft 2 due to the pressurizing fan A further decreases, and at the same time, the pressure inside the elevator shaft 2 increases and the noise of the elevator shaft is suppressed. it can.

The smoke exhaust pressure control at the time of fire is performed in step S12.
In response to the fire occurrence signal from fire detector F, step S
18, the dampers d and f are closed, and the dampers a, b and e are closed.
And the pressurizing fan A, the smoke exhausting fan B, the pressurizing and outside air intake fan D, and the exhaust fan E are operated, and the air conditioner 5
The exhaust fan C and the exhaust fan C are stopped. By operating the pressurizing fan A and the pressurizing and outside air intake fan D to pressurize the inside of the elevator shaft 2, smoke flow from the elevator shaft 2 to other floors can be prevented and the smoke exhausting fan E causes the elevator to flow. The smoke in the shaft 2 can be discharged to the outside. At the same time, by operating the smoke exhaust fan B, smoke on the fire floor can be discharged to the outside through the damper b.

As is apparent from the above description, according to the present invention, a fan having a small capacity is used for preventing noise and a fan for preventing noise is added to the air conditioning for smoke prevention in case of fire. By using the outside air intake fan for the machine, it is possible to effectively use the existing fan and take noise prevention measures and smoke prevention measures during a fire at low cost.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an example of a method for controlling smoke emission and pressurization in an elevator shaft in a high-rise building of the present invention.

FIG. 2 is a flowchart for explaining the control method of FIG.

FIG. 3 is a configuration diagram showing another example of a method for controlling smoke exhaust and pressurization in an elevator shaft in a high-rise building of the present invention.

FIG. 4 is a flowchart for explaining the control method of FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... High-rise building, 2 ... Elevator shaft, 3 ... Smoke exhaust duct 4, Elevator hall, 5 ... Air conditioner, 6 ... Control device A ... Pressurization fan, B ... Smoke exhaust fan, D ... Pressurization and outside air intake fan E ... Exhaust fan, a ... First damper, d ... Second damper, e ... Third damper f ... Fourth damper, F ... Fire detector

─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Takeyasu Shin 2-3 1-3 Shibaura, Minato-ku, Tokyo Within Shimizu Construction Co., Ltd. (56) Reference JP-A-4-213579 (JP, A) JP-A-SHO 54-52854 (JP, A) JP-A-53-34397 (JP, A) JP-B 47-10956 (JP, B1) (58) Fields investigated (Int.Cl. ⁷ , DB name) F24F 7/04 -7/06

Claims (2)

(57) [Claims] 1. An elevator shaft and a smoke exhaust duct provided through each floor of a high-rise building, a smoke exhaust fan provided at the top of the smoke exhaust duct, and indoors at each floor or every several floors. A plurality of air conditioners for air conditioning, a pressure fan and a first damper connected to the bottom of the elevator shaft, a second damper connected to the air conditioner via a second damper, and a third damper connected to the elevator shaft. The building is equipped with a pressurizing and outside air intake fan connected via a temperature sensor, a temperature sensor provided outside the building and inside the elevator shaft, and a fire detector provided at a required location inside the building. The first damper is opened when the temperature falls below the temperature of the elevator shaft and exceeds the specified value, and when the temperature outside the building falls below the temperature of the elevator shaft and exceeds the specified value, the pressurizing flap is opened. Fan, and in case of fire, stop the operation of the air conditioner, close the second damper and open the first and third dampers, pressurizing fan, smoke exhaust fan and pressurizing and outside air intake fan. For controlling smoke emission in a high-rise building and pressurization in an elevator shaft, which is characterized by: 2. An exhaust fan is connected to the uppermost portion of the elevator shaft via a fourth damper to open the first and fourth dampers when the building is not operating, or in addition to this. The method for controlling smoke in a high-rise building and pressurization in an elevator shaft according to claim 1, wherein a pressurizing fan and an exhaust fan are operated.