KR200460580Y1 - Differential pressure gauge for fire door - Google Patents

Abstract

The present invention relates to a differential pressure measuring instrument for a fire door, and more particularly, it is installed to penetrate through the fire door that partitions the front chamber and the inner chamber, the fixed tube forming a communication path between the front chamber and the inner chamber; It is fixed to the measuring tube of the differential pressure measuring instrument, and comprises a connecting tube for connecting the fixed tube and the measuring tube of the differential pressure measuring instrument by assembling the fixed tube, a simple and stable assembly structure is formed between the fixed tube and the connecting tube. The present invention relates to a differential pressure measuring device for a fire door configured to form a simple and stable hermetic seal between a fixed tube and a connecting tube.

Description

Differential pressure gauge for fire doors {DIFFERENCE PRESSURE TESTER}

The present invention relates to a differential pressure measuring instrument for a fire door, and more particularly, it is installed to penetrate through the fire door that partitions the front chamber and the inner chamber, the fixed tube forming a communication path between the front chamber and the inner chamber; It is fixed to the measuring tube of the differential pressure measuring instrument, and comprises a connecting tube for connecting the fixed tube and the measuring tube of the differential pressure measuring instrument by assembling the fixed tube, a simple and stable assembly structure is formed between the fixed tube and the connecting tube. The present invention relates to a differential pressure measuring device for a fire door configured to form a simple and stable hermetic state of a fixed tube and a connecting tube.

As is well known, in a high-rise building with 15 floors or more, a ventilation structure of air supply pressurization is formed on each floor, and the internal pressure of the room is forcibly raised through the air supply action by the air supply damper installed in the front room at the time of the fire. By configuring the internal chamber to have a higher internal pressure, the toxic gas generated by the internal chamber fire is prevented from entering the evacuation stairs, which are common evacuation routes, through the entire chamber.

In general, when a fire occurs, a differential pressure of 40 to 60 Pa should be formed between the internal chamber and the front chamber, and the engine managing the engine periodically operates the air supply damper at random, and then measures the differential pressure formed between the interior chamber and the front chamber to determine the abnormality of the air supply damper. Checking whether or not.

The measurement of the differential pressure between the inner chamber and the front chamber can be accurately measured when the inner chamber and the front chamber are completely sealed, but in the related art, the path between the chamber and the front chamber is not secured. After opening the compartment fire door slightly, the measuring tube is drawn out between the open spaces to measure the differential pressure between the interior room and the front room. With this type of measurement, it is difficult to accurately measure the differential pressure between the interior room and the front room. Have

An object of the present invention devised to solve the above problems, the fixed pipe body is installed to penetrate through the fire doors partitioning the front room and the interior room, forming a communication path between the front room and the interior room; It is fixed to the measuring tube of the differential pressure measuring instrument, and comprises a connecting tube for connecting the fixed tube and the measuring tube of the differential pressure measuring instrument by assembling the fixed tube, a simple and stable assembly structure is formed between the fixed tube and the connecting tube. It is to provide a differential pressure measuring sphere for the fire door to facilitate the assembly of the fixed tube and the connecting tube and to form a stable airtight state.

The above object is achieved by the following configuration provided in the present invention.

The differential pressure measuring instrument for a fire door according to a preferred embodiment of the present invention,
A fixed tube installed to penetrate the fire doors that divide the front and inner chambers; It is connected to the measuring tube of the differential pressure measuring instrument, and comprises a connecting tube for connecting the measuring tube of the differential pressure measuring instrument and the fixed tube connected to each other through the assembly with the fixed tube installed in the fire door,
A head is formed at the rear of the fixed tube, and the front of the connecting tube is formed so that the receiving groove surrounding the outer surface of the head of the fixed tube is concave, and when the receiving groove of the connecting tube is accommodated in the fixed tube, The outer diameter surface of the formed head and the inner diameter surface of the receiving groove formed in the connecting pipe are configured to face each other, while the inner diameter surface of the receiving groove part, or the head outer diameter surface of the fixed tubular body opposite thereto, or both of them are recessed. Formed in this installation groove is provided with an annular hermetic ring,

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When the head of the fixed tube enters the receiving groove of the connecting tube to assemble the fixed tube and the connecting tube in communication with each other, the inner surface of the head of the fixed tube facing each other and the inner diameter of the connecting tube accommodating groove which surrounds each other are in an annular hermetic ring. It is characterized in that it is elastically in close contact with each other, so that a stable hermetic state is formed therebetween.

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Preferably, the fixed tube is composed of a ferromagnetic material that is attached to the magnet, the connecting body coupled to the magnet is installed, the connecting tube is configured to form a closer assembly state with the fixed tube by the magnetic force generated in the magnet do.

More preferably, the fire door through which the fixed tube penetrates is formed so that the installation hole is penetrated, and the fastening portion is formed at the tip of the fixed tube body, and the tip of the fixed tube body entering the installation hole of the fire door is fastened with the adjustment nut having the fastening portion. It is configured to be fixed to the fire door through, and the front end of the fixed tube enters the installation hole of the fire door, the head is larger than the diameter of the installation hole in the rear and the control tube formed with a fastening portion for fastening to the fixed tube body at the end It is configured to be fixed to the fire door through fastening.

In addition, a vent hole communicating with the hollow portion of the fixed tube is formed on the side surface of the head of the control tube, and the control tube is provided with a shield plate which is erected in a forward direction by a spring. The shielding plate is transported in the direction by the tungsten and shielded between the head and the fixed tube of the control tube in which the vent hole is formed, and the shield plate which is carried forward by the spring by the pressure of the insertion tube entering the hollow part of the fixed tube is When transported to the rear, it is configured to ensure a communication state of the vent formed in the control tube and the hollow portion formed in the fixed tube.

As described above, in the present invention, the measuring tube and the fixed tube of the differential pressure measuring instrument are assembled through a fixed tube body penetrating through the fire door that divides the front chamber and the internal chamber, and a fixed tube body installed on the measuring tube of the differential pressure gauge. It is proposed a differential pressure measuring device for a fire door comprising a connecting body for communicating with each other.

In the present invention, the fixed tube and the connecting tube are configured to be connected to each other by inserting, so as to facilitate the convenience of assembly and separation.

Particularly, in the present invention, an airtight ring is formed between the inner and outer diameter surfaces of the fixed tube and the connecting tube which face each other in the assembled state. A stable airtight is formed between the measuring pipes, and the differential pressure of the front room and the interior room can be accurately measured through the differential pressure measuring instrument.

In addition, the fixed tube is configured to be fixed to the installation hole of the fire door through the fastening with the adjusting nut, or the control tube, by adjusting the amount of fastening between the fixed tube and the adjusting member can be installed in a fire door of various thickness. Do.

In addition, the control tube is provided with a shield plate supported by a spring, by the elastic shielding action through the shield plate, is opened only during the measurement of the differential pressure, normally the fixed tube is closed to the front room and the internal chamber by the fixed tube Since the closure is achieved, the odor and noise flow in and out of the room can be suppressed by communicating with the entire room and the internal chamber through the fixed tube, and in particular, a phenomenon in which smoke flows in or out through the fixed tube can be suppressed. have.

1 and 2 is a view showing the overall configuration and the assembled state of the differential pressure measuring sphere for the fire door proposed as a preferred embodiment in the present invention,
3 and 4 show the overall configuration and assembled state of the differential pressure measuring sphere for the fire door proposed as a preferred embodiment in the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the differential pressure gauge for a fire door that is proposed as a preferred embodiment in the present invention.

1 and 2 show the overall configuration and the assembled state of the differential pressure measuring sphere for the fire door proposed as a preferred embodiment in the present invention, Figure 3 and Figure 4 is a differential pressure for the fire door proposed as a preferred embodiment in the present invention It shows the overall configuration and assembly of the measuring instrument.

Differential pressure measuring sphere (1, 1 ') for the fire door according to the present invention, as shown in Figures 1 to 4, and a hollow fixed tube 10 which is installed to penetrate through the fire door 230 that partitions the front chamber and the inner chamber; It is connected to the end of the measuring tube 110 of the differential pressure measuring instrument 100, the measuring tube 110 and the fixed tube 10 of the differential pressure measuring instrument 100 by assembling the fixed tube 10 installed in the fire door 230 It is configured to include a connecting body 20 to communicate with each other.

In the present invention, the fixed pipe body 10 and the connecting pipe body 20 forming the differential pressure measuring spheres 1 and 1 'for the fire door are configured to be assembled and communicated with each other without additional fastening. It is configured to facilitate the convenience of assembly and separation.

In Figures 1 and 2 showing a preferred embodiment of the present invention by forming the entry pipe portion 21 is inserted into the hollow portion 10a of the fixed tube 10 on the front of the connecting tube 20, fixed tube 10 The entry pipe portion 21 of the connecting pipe 20 is inserted into the hollow portion 10a of the c), so that the fixed pipe 10 and the connecting pipe 20 are in communication with each other.

3 and 4 show another embodiment, the receiving groove 22 is formed in the front surface of the connecting pipe 20 so as to be fixed to the receiving groove 22 of the connecting pipe 20. The head (10b) formed in the rear of the) is inserted, so that the fixed tube body 10 and the connecting tube body 20 is in communication with each other to be assembled.

At this time, the inner diameter surface 10d of the hollow portion 10a of the fixed tube body 10 and the entrance tube portion 21 outer diameter surface 21a of the connecting tube body 20 inserted into the hollow portion 10a as shown in FIG. 2C. Between and between the outer diameter surface (10b-a) of the head (10b) of the fixed tube 10 and the receiving groove portion 22, the inner diameter surface (22a) of the connecting tube 20 wrapped therebetween as shown in Figure 4c.

In this embodiment, an airtight ring 41 is formed between these opposing inner diameter surfaces 10d and 22a and outer diameter surfaces 21a and 10b-a, and the fixed tube body is sealed by the sealing ring 41. (10) and the connecting tube 20 are configured to communicate with each other by forming a stable airtight state.

To this end, in FIGS. 1 and 2, an installation groove 10e is recessed in the inner diameter surface 10d of the hollow portion 10a formed in the fixed tube 10, and an annular hermetic ring (11) is formed in the installation groove 11e. 3 and 4, an installation groove 22b is formed in the inner diameter surface 22a of the accommodation groove 22, and an annular hermetic ring 41 is formed in the installation groove 22b. Is installing.

The outer diameter surface 21a of the entry pipe part 21 of the connecting pipe 20 inserted into the hollow part 10a of the fixed pipe body 10 is the inner diameter of the hollow part 10a of the fixed pipe body 10 as shown in FIG. The head 10b of the fixed tubular body 10 is elastically in close contact with the annular hermetic ring 41 formed on the surface 10d, and is accommodated in the receiving groove 22 of the connecting tube 20 as shown in FIG. When the assembly of the fixed tube 10 and the connecting tube 20 to enter, the head (10b) outer diameter surface (10b-a) of the fixed tube 10 facing each other and the connecting tube 20 receiving groove 22 wrapped therein The inner diameter surface 22a of the) is elastically in close contact with the annular hermetic ring 41, so that a stable hermetic seal is formed therebetween, and the fixed tube body 10 and the connecting tube body 20 are formed by the hermetic ring 41. More stable assembly can be maintained.

In addition, in the present invention, the fixed tubular body 10 is composed of a ferromagnetic material that adheres to a magnet, and the connecting tubular body 20 coupled thereto is provided with a magnet 42 to be assembled to the fixed tubular body 10. 20 is to form a more stable and tight coupling state with the fixed tube 10 by the magnetic force generated by the magnet 42.

Meanwhile, the installation hole 231 is formed in the fire door 230 through which the fixed tube 10 penetrates, and the head 10b having a larger diameter than the diameter of the installation hole 231 is formed at the rear of the fixed tube body 10. And a fastening part 10c formed at the tip.

Then, the fixed tubular body 10 configured as described above enters the installation hole 231 of the fire door 230, and then the front end is fastened through an adjustment member having a fastening portion, and the installation of the fire door 230 through fastening with the adjustment member. A state fixed to the ball 231 is achieved.

Therefore, since the total length of the fixed tube body 10 and the adjusting member fastened to the fixed tube body 10 is determined according to the amount of fastening therebetween, the operator can determine the fastening amount of the fixed tube body and the adjusting member according to the thickness of the fire door 230. It is configured to have the total length of the fixed tube and the adjusting member corresponding to the thickness of the fire door by adjusting.

Here, as the adjustment member for fixing the fixed tube 10 entered into the installation hole 231 of the fire door 230, as shown in Figure 1 and Figure 2 and the head larger than the diameter of the installation hole 231 ( 31a) is formed and a fastening portion in the inner diameter as shown in Figures 3 and 4, including the control tube 31 formed with a fastening portion 31c for fastening with the fastening portion 10c of the fixed tube body 10 at the tip end thereof. The adjusting nut 32 formed with the 32a can be adopted.

As shown in the drawing, the control tube 31 adopted as the adjusting member has a head 31a larger than the diameter of the installation hole 231 formed at the rear side as shown in FIGS. 1 and 2, and has a fixed tube body 10 at the front end thereof. The fastening part 31c for fastening is formed, and the side of the head 31a of the control tube 31 has a vent hole 31b communicating with the hollow portion 10a of the fixed tube body 10 is formed. do.

When the vent hole 31b is formed on the side of the head 31a of the control tube 31 as described above, the hollow portion 10a of the fixed tube body 10 and the vent hole 31a of the control tube 31 are aligned in a straight line. It is not located, and accordingly through the hollow portion (10a) of the fixed tube (10) and the ventilation hole (31b) of the control tube (31) in communication with the unauthorized room in the front room, or the situation of the front room in the room Unauthorized viewing can be suppressed.

In addition, in the present embodiment to implement such a differential pressure measuring sphere (1) for the fire door, by installing a shield plate 31d-a which is carried forward by the spring 31d-b on the control tube 31 2A, the shielding plate 31d-a is transferred to one side by the fingering by the spring 31d-b in the state in which the connecting pipe 20 is not assembled as shown in FIG. 2A. 31 is shielded between the head 31a and the fixed tube 10, and as shown in FIG. 2B, the pressure of the entry pipe 21 of the connecting tube 20 entered into the hollow portion 10a of the fixed tube 10 is reduced. When the shielding plate 31d-a held in one direction by the spring 31d-b is transferred to the other side, the hollow portion 10a formed in the vent hole 31b formed in the control tube 31 and the fixed tube 10 ) To ensure the communication status.

Therefore, the hollow portion 10a of the fixed tube body 10 does not always form an open state by a kind of pressurized valve structure composed of a shielding plate 31d-a and a spring 31d-b. Since the open state only when measuring the shielding pressure by assembling with 10), the phenomenon that the smell, noise, etc. can be prevented from flowing through the fixed tube 10 which normally communicates the inner chamber and the entire chamber, In particular, when the fire can be prevented from entering or exiting the toxic gas through the fixed tube (10).

1, 1 '. Differential pressure gauge for fire door
10. Fixture 10a. Hollow part
10b. Tofu 10b-a. OD
10c. The fastening portion
10d. Inner diameter 10e, mounting groove
20. Connector 20a. Hollow part
21. Entry tube 21a. OD
22. Receiving groove 22a. Inner mirror
22b. Home
31. Regulatory body 31a. tofu
31b. Aerator 31c. The fastening portion
31d. Pressure valve 31d-a. Shielding plate
31d-b. spring
32. Adjusting nut 32a. The fastening portion
41. Airtight Ring 42. Magnet
100. Differential pressure gauge 110. Instrumentation
230. Fire door 231. Installation

Claims (6)

delete A fixed tube installed to penetrate the fire doors that divide the front and inner chambers; It is connected to the measuring tube of the differential pressure measuring instrument, and comprises a connecting tube for connecting the measuring tube of the differential pressure measuring instrument and the fixed tube connected to each other through the assembly with the fixed tube installed in the fire door,
A head is formed at the rear of the fixed tube, and the front of the connecting tube is formed so that the receiving groove surrounding the outer surface of the head of the fixed tube is concave, and when the receiving groove of the connecting tube is accommodated in the fixed tube, The outer diameter surface of the formed head and the inner diameter surface of the receiving groove formed in the connecting pipe are configured to face each other, while the inner diameter surface of the receiving groove part, or the head outer diameter surface of the fixed tubular body opposite thereto, or both of them are recessed. Formed in this installation groove is an annular hermetic ring,
When the head of the fixed tube enters the receiving groove of the connecting tube to assemble the fixed tube and the connecting tube in communication with each other, the inner surface of the head of the fixed tube facing each other and the inner diameter of the connecting tube accommodating groove which surrounds each other are in an annular hermetic ring. The pressure difference measuring instrument for fire doors, which is configured to be elastically in close contact with each other so that a stable hermetic state is formed therebetween. The method of claim 2, wherein the fixed tube is composed of a ferromagnetic material that is attached to the magnet, the coupling body coupled to the magnet is installed, the connecting tube is formed closer to the fixed tube body by the magnetic force generated in the magnet Differential pressure gauge for a fire door, characterized in that configured to. According to claim 2, wherein the fire door through which the fixed tube passes through the installation hole is formed through the fastening portion is formed in the front end of the fixed tube body, the front end of the fixed tube entering the installation hole of the fire door and the adjustment nut having a fastening portion Differential pressure gauge for a fire door, characterized in that configured to be fixed to the fire door through the fastening. According to claim 2, wherein the front end of the fixed tube enters the installation hole of the fire door, the head is larger than the diameter of the installation hole in the rear through the fastening with the control tube formed with a fastening portion for fastening to the fixed tube body at the end While configured to be fixed to the fire door, the differential pressure measuring sphere for the fire door, characterized in that the vent hole communicating with the hollow portion of the fixed tube formed on the side of the head of the control tube. The control tube according to claim 5, wherein the control tube is provided with a shield plate that is held in one direction by a spring, and in the state in which the connecting tube is not assembled, the shield plate is transferred to one side by a finger touch by a spring to form a ventilation hole. When the shielding plate carried forward by the spring is shielded between the head and the fixed tube of the fixed tube and the insertion tube entered into the hollow of the fixed tube is transferred to the other side, the communication between the vent formed in the control tube and the hollow formed in the fixed tube Differential pressure gauge for fire door, characterized in that configured to ensure the state.

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