KR20020039849A - Difference pressure test system - Google Patents

Abstract

The present invention is an auxiliary room of the special evacuation stairs and emergency lift platform (hereinafter referred to as the smoke control area), to allow the indoor air flows through a certain portion of the fire door to measure the pressure difference between the room and the smoke control area without opening the fire door A differential pressure test apparatus and method, comprising: a cap for blocking flame, etc., in and out of air and fire; The first inlet pipe through which air is introduced by the air pressure difference between the ventilation area and the room, a case for preventing damage and intrusion of flame due to external pressure or impact, and connected to one side of the first inlet pipe It consists of a second inlet pipe that can support the washer, a washer that prevents wear and breakage of the connecting part and improves airtightness, and a transparent film that can observe the inside and outside through the passage of air. The air flows into the detector through a tube connected to a certain part of the fire door, and the air in the smoke control area is introduced into the detector through a tube exposed to the smoke control area to detect the difference in air pressure when the fire door is closed.

Therefore, by measuring the air pressure difference in the closed state without opening the fire door, it is possible to accurately measure the air pressure difference between the room and the smoke control area.

Description

DIFFERENCE PRESSURE TEST SYSTEM

The present invention relates to a smoke control system, and more particularly, the differential pressure test apparatus for measuring the pressure difference between the indoor (non-smoke zone) and the smoke zone without opening the fire door by allowing air to flow through a portion of the fire door And to a method.

The air supply pressure method is to inject a large amount of air in the ventilation area to maintain a higher pressure than the room to prevent smoke from entering the ventilation area from the room in the event of a fire.

In general, in order to block smoke entering the ventilation area from the room, the air pressure difference between the room and the ventilation area should always be maintained at 40 to 60 Pa, and the ventilation area should be completely sealed to maintain a constant air pressure. The barometric pressure difference with the study area could not be measured.

Therefore, in order to measure the air pressure between the room and the smoke control area, a tube for introducing air in the smoke control area is connected to one side of the air pressure measuring device installed in the control area, and the air in the room is introduced to the other side. The pressure difference between the two zones was measured by connecting a tube.

At this time, in order to introduce indoor air, the fire doors installed in the firewall blocking the indoor and ventilation areas should be opened and the tube connected to the other side of the measuring device should be drawn out of the firewall.

However, when the tube is drawn to the outside, the air inside the room enters the ventilation area through the fire door, which is the outlet of the tube, so that the air pressure difference between the two areas cannot be accurately measured because the air between the room and the ventilation area is not completely blocked. have.

The present invention has been made in view of the above-described problems, and its object is to allow air to flow through a certain portion of the fire door to measure the air pressure difference between the room and the smoke control area without opening the fire door in a completely closed state. This is to accurately measure the pressure difference between the two zones.

1 is an exploded perspective view according to an embodiment of the present invention.

2 is a cross-sectional view in accordance with an embodiment of the present invention.

3 is a cross-sectional view according to another embodiment of the present invention.

4 is an exemplary view of the present invention.

* Description of the symbols for the main parts of the drawings *

1 cap 3 first inlet pipe

5: case 7: 2nd inflow pipe

9: washer 11: transparent film

The configuration of the present invention for achieving the above object is made as follows.

1. A differential pressure measuring instrument (20) closely formed by forming a hole (15) in a fire door (13), comprising: a cap (1) for blocking air in and out; A first inlet pipe 3 through which air flows due to a pressure difference between the room and the smoke control area; A case (5) for preventing damage due to external pressure or impact and intrusion of flame and smoke; A second inflow pipe 7 connected to one side of the first inflow pipe 3 to support the structure; A washer 9 for preventing abrasion or breakage of the connection portion; A transparent film 11 capable of observing inside and outside through a passage through which air is introduced; The cover 2 is provided with a riveting the upper side of the cap (1) and the flow is configured to block the ingress of flame and smoke when the transparent film 11 is damaged.

Another configuration of the present invention for achieving the above object is made as follows.

The air in the room is introduced into the detector (differential pressure gauge) 19 through a tube connected to a predetermined portion of the fire door 13, and the air in the smoke compartment is introduced into the detector 19 through a tube exposed in the smoke compartment. It consists of detecting the difference of air pressure in the state which closed the fire door 13. As shown in FIG.

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

First, as shown in FIG. 4, a tube 14 capable of introducing air in a ventilation area is connected to one side of the detector 19 capable of measuring an air pressure difference of the air introduced therein, and the other side of the detector 19 is connected to a room. The tube 14 that can enter the air of the connection, but the tube that can enter the air of the room is connected to the hole 15 generated on one side of the fire door (13).

At this time, as shown in FIG. 2, a case 5 is inserted into the hole 15 to prevent damage due to external pressure or impact, and intrusion of a flame or smoke, and the inside of the case 5 may be The first inlet pipe 3 through which air is introduced by the pressure difference and the second inlet pipe 7 connected to one side of the first inlet pipe 3 to support the structure prevent wear and closely Combined with the washer 9 for fixing, the air in the room can be introduced into the restricted area as shown in FIG.

The case 5 can be detachably attached to the cap (1) in the form of a screw to control the entry and exit of air and to prevent the ingress of flame and smoke, and to form a through hole in the center of the cap (1) By inserting and fixing the transparent membrane 11, the inside and the outside can be observed through the passage through which air is introduced.

On the other hand, since the transparent film 11 installed at the center of the cap 1 may be damaged by a fire in case of fire, the transparent film 11 may be installed by the cover 2 to be riveted and flow on the upper side of the cap 1. Even if 11) is damaged, it is not affected by flame or smoke, and when the room is observed, the cover 2 is flowed to facilitate observation.

In addition, the case 5 may be provided with a cap (4) of the plug type that can adjust the inlet and outlet of air as shown in FIG.

The method for measuring the air pressure difference between the room and the ventilation zone will be described in detail with reference to FIGS. 1 and 4.

With the fire door 13 closed, the cap 1 for controlling the inflow and outflow of air is opened, and one side of the first inflow pipe 3 and one side of the detection unit 19 are connected to the tube 14 by the tube 14. The other side connects the tube 14 exposed in the ventilation area.

At this time, the indoor air flows through the first inlet pipe 3 and the second inlet pipe installed in the hole 15 of the fire door 13 to the front end of the cap 1.

The air introduced to the front end of the cap 1 flows into the detection unit 19 through the tube 14 connected to the first inlet pipe 3, and the air in the ventilation zone receives the tube 14 exposed in the ventilation zone. Through the detection unit 19 is introduced.

As described above, in order to measure the difference in air pressure between the room and the ventilation zone, the air pressure difference in the airtight door is completely closed without opening the door by allowing the indoor air flowing into the ventilation zone to flow through one side of the fire door. It can be measured more precisely than the air pressure measured in the open state.

Therefore, it is possible to obtain accurate test value by reducing the error of air pressure difference, and to be able to equip perfect ventilation equipment by measuring to maintain constant air pressure at all times. It is a useful invention that can be reduced.

Claims (5)

A cap for blocking the entry and exit of air; A first inlet pipe through which air is introduced due to an air pressure difference caused by air inflow between the room and the smoke control area; A case for preventing breakage due to external pressure or impact and intrusion of flame or smoke; Differential pressure test apparatus, characterized in that consisting of a second inlet pipe connected to one side of the first inlet pipe to support the structure. The method of claim 1, wherein a transparent film is formed at the center of the cap, and a cover is provided to allow the flow to be riveted above the cap to block the intrusion of flame or smoke in case of damage to the transparent film due to fire. Differential pressure test device characterized in that. The differential pressure test apparatus according to claim 1, wherein the cap is in the form of a screw. The differential pressure test apparatus according to claim 1, wherein the cap is formed of a plug type which can be opened and closed. The air in the room enters the detector (differential pressure gauge) through a tube connected to a certain part of the fire door, and the air in the smoke compartment enters the detector through a tube exposed to the smoke control area, closes the fire door and completely closes the smoke control area. Differential pressure test method characterized in that for detecting the difference in the air pressure.