KR200438563Y1 - Pressure measuring device of smoke control system - Google Patents

Abstract

The present invention relates to a pressure measuring device of a smoke control system, and more particularly, the first coupling sphere 10 and the second coupling sphere 20 having an internal threaded hole 22 to form a threaded rod 12. The first and second coupling holes 10 and 20 are configured to have the same maximum diameter L, and the first and second coupling holes 10 and 20 are disposed between the first and second coupling holes 10 and 20, respectively. It is configured to adjust the overall length (L2) is installed by configuring the connector 30 to form a screw portion 33 by adjusting the screw rotation of the first and second coupler, the first and second coupler (10) The outer flange of 20 forms a polygon or a knurling and forms a nipple portion 35 for tube insertion connection on one side of the connector 30, thereby drilling a single hole in the fire door or firewall surface by a simple structure. It is easy to install and use, and it is also easy to insert and connect the tube of measuring device, so it is easy to install and use. In addition, since the airtightness between the ventilation area and the room is excellently maintained due to the improvement of the screw coupling structure, the characteristic of maximizing the reliability of the device is minimized by minimizing the occurrence of errors in the conventional air pressure measurement.

Smoke Control Facility, Pressure Measurement, Fire Door, Pressure Difference, Indoor, Smoke Control Space

Description

Pressure measuring device of smoke protection

1 is a perspective view showing an example of the present invention.

2 is a cross-sectional view of the present invention.

3 is an exploded cross-sectional view of the present invention.

Figure 4 is an installation state of the present invention.

5 is a perspective view showing another example of the present invention.

Figure 6 is a perspective view showing another example of the present invention.

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

5: insertion hole 10: first coupling hole

12: screw rod 13: through hole

20: second coupler 22: screw hole

30: connector 33: screw part

34: through-hole 35: nipple part

37: face portion 40: cap

The present invention relates to a smoke control system, and more specifically, it is installed to distribute internal and external air on a fire door or a firewall, so that the pressure difference between the indoor (non-smoke area) and the smoke control area without opening the fire door. The present invention relates to an improvement in the pressure measuring device of a smoke control system.

In general, when a fire occurs, a large amount of air is injected into the ventilation zone to maintain a higher pressure than a room, thereby providing a safe evacuation because smoke cannot be introduced.

The air pressure in these ventilation zones is required to maintain a pressure difference of about 40 to 60 Pa with the room.

In order to measure the air pressure in the ventilation area and the room, conventionally, one side of the air pressure measuring device is connected to a tube capable of introducing air from the ventilation area, and the other side is connected to a tube capable of introducing air inside the ventilation area. The pressure difference between the two zones was measured.

At this time, in order to introduce the 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 through the fire door of the firewall.

Therefore, in the case of the fire door there is a problem that the air pressure difference between the two zones can not be accurately measured because the air between the room and the smoke control area is not completely blocked.

In order to solve this problem, Patent No. 10-384579 discloses a differential pressure measuring instrument for measuring the air pressure difference between the room and the smoke control area without opening the fire door.

The differential pressure measuring port is connected to the first inlet pipe inserted into the case and the second inlet pipe inserted from the other side of the fire door is inserted into the case is screwed inside the second inlet pipe,

The through-hole is formed in the second inlet pipe, it is usually made of a structure for coupling the cap on the outside of the case.

The differential pressure measuring port is connected to the air in the ventilation zone to one side of the measuring device and connected to the air in the room to the other side, by inserting into the groove formed at one end of the first inlet pipe by using a tube to connect Since the indoor air flows through the inner through-hole of the first inlet pipe, the pressure difference with the smoke control zone is measured.

However, the conventional differential pressure measuring instrument has the following problems.

First, since the outer diameters of the case and the second inlet pipe inserted into both sides of the fire door are different from each other, there is a hassle to drill different insertion holes.

In addition, there is a problem that the assembly operation is very inconvenient because it is difficult to assemble the sensor uniformly while drilling the two insertion holes differently.

Second, since the tube of the air pressure measuring device is connected to the insertion hole of one end of the first inlet pipe, it is difficult to insert the diameter of the tube to be inserted into the insertion hole of the first inlet pipe, resulting in poor workability. There was a problem.

Third, because the measuring sphere has a structure in which the first inlet pipe is screwed into the second inlet pipe, the gap between the second inlet pipe and the first inlet pipe is exposed in the direction in which air pressure is introduced, so that the ventilation zone There is a problem that an error occurs in the measurement of the air pressure difference with the room because of high leakage of air pressure.

That is, there was a problem that it is not possible to accurately measure the air pressure difference between the room and the smoke control area.

The present invention is devised to solve all the problems of the prior art as described above, the installation and use on the fire door or the firewall surface is provided by a simple structure, as well as the insertion and connection of the tube of the measuring device is simply provided to install and use Its purpose is to provide excellent workability.

The present invention aims to maximize the reliability of the device by minimizing the occurrence of errors in measuring the air pressure difference while maintaining excellent airtightness between the smoke control area and the room.

This invention,

A first coupler forming a screw rod and a second coupler having internal threaded holes, wherein the first and second couplers are formed to have the same diameter,

The first and second coupler between the first and second coupling holes on both sides to form a connector forming a screw portion is characterized in that the use of adjusting the overall length is installed by adjusting the screw rotation of the first and second coupler.

The present invention is characterized in that the nipple portion for inserting and connecting the tube to the end of the connector and the surface portion as a step protrusion for the rotation operation.

The present invention is characterized in that the outer flange portion of the first and second coupler is formed in a polygon (square, hexagon or octagon, etc.) or to form a nuring to facilitate the rotation operation.

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

That is, the pressure measuring device of the regeneration facility of the present invention, as shown in Figure 1 to 4,

In inserting and installing in the insertion hole formed by the fire door and the firewall, the air in the other space is introduced into the through hole inside to measure the pressure difference.

The first and second coupling holes 10 having an inner threaded hole 22 and a first coupling hole 10 to form a through hole 13 together with the screw rod 12, but the first and second couplings Sphere 10 (20) is formed to have the same diameter (L) to be inserted into the insertion hole 5 of the fire door, firewall,

Between the first and second coupling holes 10 and 20, the screw hole 32 is screwed to the screw rod 12 of the first coupler on one side and the screw hole 22 of the second coupler is screwed on the other side. The connector 30 is formed to form the thread part 33 and the through hole 34 is formed therein so as to adjust and use the entire length L2 installed by adjusting the screw rotation of the first and second coupling holes.

At this time, the second coupler side end of the connector 30 is configured to form a nipple portion 35 for inserting and connecting the tube to the outside and the surface tooth portion 37 by the step projection 36 for the rotation operation.

In addition, the first and second coupler 10, 20 is a polygon (square, hexagon or octagon, etc.) to facilitate the rotational operation of the outer flange portion (11) 21 as shown in Figs. It is possible to form or to form a kneading (11 ', 21') to the outer periphery.

As an unexplained reference numeral 40 denotes a cap that is coupled to the second coupler 20.

Next will be a look at the operation and action of the subject innovation configured as described above.

First, the device of the present invention drills the insertion hole (5) on the fire door, the firewall (2) installed between the indoor and the smoke control area.

At this time, the insertion hole (5) is drilled in a single diameter so that the operation is not only easy to form the center at both sides in the same position.

After drilling the insertion hole 5 as described above, the first coupling tool 10 is inserted into one side, and the connector 30 is inserted from the other side to rotate the first coupling tool 10 by the first coupling. Sphere 10 and the connector 30 is screwed.

At this time, the connector 30 may be screwed by rotating the connector 30. At this time, the connector 30 may be rotated by using the surface teeth 37 on the stepped protrusion 36 formed at one end of the connector 30.

After coupling the connector 30 as described above, the second coupling tool 20 and the connector 30 are screwed by inserting and rotating the second connector 20 on the other side.

At this time, according to the thickness of the fire door, the firewall (2) the total length (L2) of the screw coupling degree of the first and second coupling holes 10, 20 that are screwed to both sides of the connector 30 is automatically adjusted and installed It will be used to adjust the thickness of fire doors and firewalls.

In addition, the present invention in the process of rotating operation to couple the first and second coupler 10, 20 and the connector 30, the outer side of the first and second coupler, as shown in FIG. The flanges 11 and 21 may be formed in polygons (squares, hexagons, octagons, etc.) to facilitate rotational operations, or may be used by forming nurings 11 'and 21' with outer periphery.

In this way, after installing the device of the present invention, the cap 40 is used in a state in which it is closed by screwing the cap 40 to the second coupler 20.

And if you want to measure the air pressure between the room and the ventilation zone is to connect the air in the ventilation zone to one side of the measuring device (not shown) and to introduce the air in the room to the other side.

This inserts the tube of the measuring device into the nipple portion 35 of the connector 30 in a state in which the cap 40 coupled to the second coupler 20 is removed.

That is, by forcibly pressing and coupling the tube 50 to the nipple part 35, the tube may be separated or the air pressure may be leaked during the measurement process.

When the tube of the measuring device is connected in this way, the air in the room is introduced into the measuring device through the device of the present invention, and the through hole 13 of the first coupler 10 and the through hole 34 of the connector 30 are connected. It will flow through.

In this process, the screw rod 12 of the first coupler 10 is screwed to be inserted into the screw hole 32 of the connector 30, the connector 30 is the thread of the second coupler (20) Screwed to be inserted into the threaded hole 22, because the screw is connected to each other in a position displaced from the inside and outside to prevent the leakage of air pressure in the ventilation area through the screwed gap in the process of introducing indoor air, The same measurement error can be minimized.

As described above, the present invention can be easily installed and used by drilling a single hole in the fire door and the firewall surface by a simple structure, and also inserting and connecting a tube of the measuring device can be easily performed using the nipple part. Excellent workability is provided, and the screw coupling structure is improved to maintain excellent airtightness between the smoke control area and the room, thereby minimizing the occurrence of errors in the air pressure measurement, thereby maximizing the reliability of the device. will be.

Claims (4)

delete The screw rod of the first coupler on one side between the first coupler 10 and the second coupler 20 having the inner threaded hole 22, together with the screw rod 12 to form the through hole 13 therein ( 12 is connected to the connector 30 to form a screw hole 32 is screwed to the screw hole 32 and the other side screw hole 22 is screwed on the other side screwed to form a threaded portion 33 and the through hole 34 therein So; In the pressure measurement device of the smoke control system to be installed by inserting the insertion hole formed in the fire door, the firewall, and to measure the pressure difference by introducing air from the other space into the inside, The first and second coupler 10, 20 is formed to have the same diameter (L) to be inserted into the insertion hole of the fire door, firewall, The connector 30 forms a nipple portion 35 for inserting and connecting the tube to the end portion of the second coupler and a surface portion 37 on the stepped projection 36 for rotational operation, The connector 30 is the pressure measurement of the smoke control facility, characterized in that made to adjust the overall length (L2) installed by adjusting the screw rotation of the first and second coupling holes 10, 20 screwed on both sides. Device. The method of claim 2, The first and second coupler (10) (20) is a pressure measuring device of the smoke control facility, characterized in that formed by the outer flange portion (11) (21) in a polygonal shape to facilitate the rotation operation. The method of claim 2, The first and second coupler 10, 20 is formed by forming the knurling (11 ', 21') to facilitate the rotation operation of the outer flange portion (11) (21), the pressure of the smoke control facility Measuring device.

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