KR200234237Y1 - A auto-devise for removing smoke of building - Google Patents

Abstract

The present invention detects the temperature, gas, and pressure difference generated in the emergency passage inside the building in case of fire, and performs an appropriate ventilation, so that it is easy for people to evacuate to the emergency passage to save lives. It is about.

As a result, the present invention allows the optimum wind to flow into the emergency passage through the air blower, thereby preventing emergency doors opening to the emergency passage, or preventing smoke or heat from entering, thereby allowing people to evacuate safely. It is a useful design that provides a condition.

Description

A auto-devise for removing smoke of building}

The present invention relates to an automatic fire removal device for firefighting of buildings, and more particularly, it is easy for people to evacuate to an emergency passage by detecting a temperature, gas, and pressure difference generated in an emergency passage inside a building by performing an appropriate ventilation. The present invention relates to an automatic ventilation device for a building to save lives.

Conventionally, the well-known smoke control apparatus was installed in the building.

However, most of these dehumidification devices are passive, especially in controlling the damper according to the internal pressure of the emergency passage and the pressure difference outside the building. If the air pressure difference is more than a certain value, the manager confirms this and then opens the damper. Control was performed.

However, such a manual control could not exert the optimal ventilation function and missed the damper opening time due to the inadvertent surrounding of the manager.

The present invention has been devised to solve the above problems, the object of the present invention is to control the damper through the emergency passage provided in the building and the pressure difference (hereinafter referred to as 'differential pressure') outside the building, as well as inside the emergency passage The damper is also controlled according to the temperature of the gas and the presence or absence of gas in order to provide an automatic ventilation device of the building to maximize the smoke removal effect of the emergency passage in an emergency.

Another object of the present invention is to provide an automatic ventilation device for a building that allows a manager to easily recognize the differential pressure, temperature and degree of gas in an emergency passage.

Another object of the present invention is to provide an automatic ventilation device for a building to automatically adjust the degree of opening of the damper according to the differential pressure, temperature and the degree of gas generated in the emergency passage, and finally to control the air volume.

In order to achieve the above object, the present invention provides a smoke control device for allowing wind to flow through a blower path by an operation of an impeller in an emergency such as a fire in an emergency passage formed in a building, and a gas sensor for detecting internal smoke of the emergency passage. A gas detector for amplifying the weak signal detected by the gas sensor, a temperature sensor for detecting the internal temperature of the emergency passage, a temperature detector for amplifying the temperature signal detected by the temperature sensor, and a pressure in the emergency passage And a differential pressure sensor for detecting a pressure outside the building, a differential pressure detection unit for forming a differential pressure through the pressure detected by the differential pressure sensor, a display unit for displaying information such as a differential pressure value, a temperature value, and a gas value, and the gas detection unit. Receives the signals output from the temperature detector and the differential pressure detector, and drives the damper motor already set according to the level of the signal. It is equipped with a control unit that selects the output time and outputs a damper motor driving signal, and a plurality of function keys such as a setting key for the differential pressure, a damper motor forward, reverse rotation key, and a manual operation of the damper motor. A key input unit input to the control unit, a motor driving unit for driving the damper motor forward or reverse rotation according to the output of the control unit, a damper motor driven by the output of the motor driving unit, and an emergency damper according to the output of the control unit It is characterized by consisting of a timer that turns off the damper motor after a predetermined time by turning off the motor or by manual operation.

1 is a schematic view of the automatic smoke control device of a building according to the present invention,

Figure 2 is a control block diagram of the automatic smoke control device of a building according to an embodiment of the present invention,

3 is a control flowchart of the automatic smoke removing device for a building according to an embodiment of the present invention;

4 is a control block diagram of the automatic smoke removing device of a building according to another embodiment of the present invention.

<Brief description of symbols for the main parts of the drawings>

10: gas sensor 20: gas detection unit

30: temperature sensor 40: temperature detector

50: differential pressure sensor 60: differential pressure detection unit

70: display unit 80: control unit

90: key input unit 100: timer unit

110: motor drive unit 120: damper motor

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of an automatic smoke control device for a building according to the present invention.

As shown, the building (B) is necessarily provided with an emergency passage (E) in which a staircase is formed, the emergency passage (E) is an air blower (D) by the operation of the impeller 130 in an emergency state due to a fire To let the wind in. Therefore, by blocking the smoke or heat flowing into the emergency passage (E) serves to make people safe evacuation.

In addition, a damper 121 is installed in the blower path D to control the blower.

In this conventional structure, the present invention provides a gas sensor 10 for detecting the degree of smoke, ie, gas flowing into the emergency passage E, a temperature sensor 30 for detecting a temperature in the emergency passage E, By installing a differential pressure sensor 50 that detects the indoor pressure 52 and the outdoor pressure 51 and detects the differential pressure, the environment of the emergency passage E is detected and the degree of opening of the damper 121 is based on this information. In other words, by controlling the opening angle is an apparatus for adjusting the amount of air flowing into the emergency passage (E) in the optimal state.

Figure 2 is a control block diagram of the automatic smoke control device of a building according to an embodiment of the present invention.

As shown, the gas sensor 10 for detecting the internal smoke of the emergency passage, the gas detection unit 20 for amplifying the weak signal detected by the gas sensor 10 and inputs it to the control unit 80, A temperature sensor 30 for sensing the internal temperature of the emergency passage, a temperature detector 40 for amplifying the temperature signal detected by the temperature sensor 30 and inputting it to the controller 80, and a pressure in the emergency passage; Differential pressure sensor 50 for detecting a pressure outside the building, and the differential pressure detection unit 60 for forming the differential pressure through the pressure detected by the differential pressure sensor 50 and inputs it to the controller 80, and the controller 80 A display unit 70 for displaying information such as a differential pressure value, a temperature value and a gas value according to the control output of the control unit, and based on data input from the gas detector 20, the temperature detector 40, and the differential pressure detector 60. Control unit for outputting a corresponding damper motor 120 driving signal according to And a plurality of function keys such as a setting key for the differential pressure, a damper motor 120 forward, a reverse rotation key, and a manual operation key of the damper motor 120 to the control unit 80 to input a key command accordingly. A key input unit 90, a motor driver 110 for driving the damper motor 120 forward or reverse rotation according to the output of the controller 80, and a damper driven by the output of the motor driver 110. The motor 120 and the timer unit 100 for turning off the damper motor 120 when the overload or turning off the damper motor 120 after a predetermined time.

The display unit 70 includes a power display, a central control room control display, an alarm display lamp (LED), and the like.

The controller 80 stores damper motor driving output data for a damper opening degree according to the degree of gas, temperature, and differential pressure in a memory (EEPROM) not shown. The drive output data is a time of an ON signal for driving the motor, and the controller 80 controls the drive so that the output is counted so that an appropriate damper is opened.

In addition, the control unit 80 may receive a control directly from the central control room of the building.

The operation of the present invention configured as described above will be described with reference to the control flowchart of FIG. 3.

First, when power is applied to the device, the controller 80 resets the system (step S1). The controller 80 determines whether the current system mode is an automatic mode or a manual mode (step S2).

In the determination step S2, if the current system is in the manual mode, the manual switch is detected through the key input unit 90, and the damper force operation is performed accordingly (steps S3 and S4). The operation at this time is to drive the damper motor 120 in accordance with the output of the controller 80.

In addition, in the determination step S2, if the current system is in the automatic mode, the environment of the emergency passage is sensed through the temperature sensor 30, the gas sensor 10, and the differential pressure sensor 50 (step S5).

Here, the automatic and manual mode is a term expressed for convenience, and the manual mode is to directly operate the switch by the administrator, and the automatic mode is to automatically drive the damper motor 120 by the detection of the sensor.

Therefore, the controller 80 determines whether the temperature of the emergency passage input through the temperature sensor 30 and the temperature detector 40 is greater than or equal to a predetermined value (step S6). If it is determined that the temperature of the emergency passage is higher than a predetermined value, the controller 80 sets the damper motor 120 on time according to the temperature to perform motor output control to the motor driving unit 110. Therefore, the damper morpher 120 is driven for a predetermined time, so that the damper 121 is rotated by a predetermined angle so that the wind flows into the emergency passage (E) through the ventilation path (D) (step S7).

In addition, in the determining step (S6), if the temperature of the emergency passage input through the temperature sensor 30 and the temperature detector 40 is not more than a predetermined value, the controller 80 is the gas sensor 10 and the gas. It is determined whether the delay of the emergency passage input through the detection unit 20 is greater than or equal to a predetermined value (step S8). If it is determined that the smoke of the emergency passage is more than a predetermined value, the controller 80 sets the damper motor 120 on time according to the smoke to perform the motor output control to the motor driving unit 110. Therefore, the damper morpher 120 is driven for a predetermined time, so that the damper 121 is rotated by a predetermined angle so that the wind flows into the emergency passage (E) through the air blower (D) (step S9).

In addition, in the determination step (S8), if the smoke of the emergency passage input through the gas sensor 10 and the gas detector 20 is not more than a predetermined value, the controller 80 is the differential pressure sensor 50 and the differential pressure. It is determined whether the emergency passage inputted through the detector 60 and the differential pressure outside the building are above a predetermined value (step S10). If the differential pressure is determined to be greater than or equal to a predetermined value, the controller 80 sets the damper motor 120 on time according to the differential pressure to perform motor output control to the motor driving unit 110. Therefore, the damper motor 120 is driven for a predetermined time, so that the damper 121 is rotated by a predetermined angle so that the wind flows into the emergency passage (E) through the air blower (D) (step S11).

4 is a control block diagram of the automatic smoke removing device of a building according to another embodiment of the present invention.

As shown, the gas sensor 10A for detecting the internal smoke of the emergency passage, the gas detection unit 20A for amplifying the weak signal detected by the gas sensor 10A and input to the control unit 80A, A temperature sensor 30A for detecting the internal temperature of the emergency passage, a temperature detector 40A for amplifying the temperature signal detected by the temperature sensor 30A, and inputting it to the controller 80A, and the gas detector 20A ) And a control unit 80A for outputting a corresponding damper motor 120A driving signal based on data input from the temperature detection unit 40A, and a forward, reverse rotation key and a damper motor 120A to the control unit 80A. The damper motor 120A is provided with a plurality of function keys such as a manual operation key and inputs a key command accordingly, and the damper motor 120A is rotated forward or reverse according to the output of the controller 80A. Motor drive unit 110A for driving and exit of the motor drive unit 110A A damper motor 120A driven by a force, and a timer unit 100A for turning off the damper motor 120A when overloaded, or turning off the damper motor 120A after a predetermined time.

According to another embodiment of the present invention configured as described above, it will be shown that the smoke control device can be implemented without having the differential pressure sensor 50 and the display unit 70 and the like.

The operation is also the same as the embodiment of the present invention, but only to sense the temperature or smoke in the emergency passage (E) to drive the damper motor.

As described above, the present invention detects the environment of the emergency passage of the building, that is, temperature, smoke, and differential pressure, such that the optimum wind flows into the emergency passage through the blower in case of an emergency such as a fire, It is a useful design that provides conditions for people to evacuate safely by preventing emergency doors from opening or preventing smoke or heat from entering.

Claims (5)

In the smoke control device that allows the wind flows through the air blower by the operation of the impeller in case of emergency, such as fire to the emergency passage formed in the building, Gas sensors 10 and 10A for detecting internal smoke of emergency passages; A gas detector (20, 20A) for amplifying the weak signal detected by the gas sensor; A temperature sensor (20, 20A) for sensing the internal temperature of the emergency passage; A temperature detector (40, 40A) for amplifying the temperature signal detected by the temperature sensor; A controller (80, 80A) for receiving a signal output from the gas detector, the temperature detector, and the differential pressure detector, selecting a preset damper motor drive output time according to the level of the signal, and thereby outputting a damper motor drive signal; ; A key input unit (90, 90A) having a plurality of function keys such as a setting key for a differential pressure, a damper motor forward, a reverse rotation key, and a damper motor manual operation key to input a key command according to the control unit; A motor driving unit (110, 110A) for driving the damper motor forward or reverse rotation according to the output of the controller; Damper motors 120 and 120A driven by the output of the motor driver; Automatic control device of the building, characterized in that consisting of a timer unit (100, 100A) for turning off the damper motor in an emergency or OFF the damper motor after a predetermined time in accordance with the output of the control unit. According to claim 1, wherein the automatic smoke control device and the differential pressure sensor for detecting the pressure in the emergency passage and the pressure outside the building; A differential pressure detection unit (60) which forms the differential pressure through the pressure detected by the differential pressure sensor; And a display unit (70) for displaying information such as differential pressure value, temperature value and gas value. According to claim 2, wherein the display unit 70, the automatic smoke control device of the building, characterized in that further comprises a power display, a central control room control display, an alarm display lamp (LED) and the like. The apparatus of claim 1, wherein the controller (80, 80A) stores damper motor driving output data for the damper opening degree according to the degree of gas, temperature, and differential pressure in a memory (EEPROM). . The apparatus of claim 1, wherein the control unit (80, 80A) is configured to receive a control directly from the central control room of the building.