KR20110115562A - Gas type fire-fighting apparatus for a ship with double detective function - Google Patents

Abstract

The present invention relates to a gas fire extinguishing system for detecting a fire generated in a protection zone inside a ship by a smoke detection means and supplying digestion gas such as carbon dioxide to the protection zone, and more particularly, according to the operation of an air blower unit. In addition to the sampling pipe for supplying air to the smoke detection unit, a smoke detector as a fire detection sensor is installed on another air discharge passage provided for ventilation and explosion protection of the protection area, and the smoke detector detects smoke. By additionally connecting the unit, it is possible to quickly and accurately detect the occurrence of a fire in the protection area, which makes it possible to extinguish the fire generated in the protection area inside the ship more safely. Do not perform structural changes or additional plumbing on the gas fire extinguishing system. If not, the present invention relates to a double-sensing marine gas fire extinguishing system capable of sufficiently satisfying the requirements of marine gas fire extinguishing facilities, which have recently been proposed more strictly.
To this end, the present invention, the sampling pipe 2 for supplying the internal air of the protective zone (1) to the smoke detection unit 4 in accordance with the operation of the blower unit (5), and extinguishing the compressed fire extinguishing gas is stored Installed on the gas container 6, the gas supply pipe (6a) extending from the extinguishing gas container (6) and connected to the sampling pipe (2), and the connection portion of the sampling pipe (2) and the gas supply pipe (6a) In the ship gas fire extinguishing system (10) comprising a three-way valve device (8) for selectively opening the air passage and the digestive gas passage, each protection zone (1) is a distribution fan with a blowing fan (12) A duct 11 is provided, and a smoke detector 13 as a fire detection sensor is installed inside the exhaust fan duct 11 corresponding to the upper or lower side of the ventilation fan 12. Each smoke detector 13 is connected by a cable 13a. Group detection unit 4 is installed and connected, the smoke detection unit 4 is characterized in that a fire alarm panel (7a) and the connection established by the cable (4a).

Description

Gas type fire-fighting apparatus for a ship with double detective function}

The present invention provides a smoke detector on another air discharge passage provided for the purpose of ventilation and explosion protection of the protection zone, together with a sampling pipe for supplying air into the smoke detection unit according to the operation of the blower unit. By installing the smoke detector additionally connected to the smoke detection unit, it is possible to quickly and accurately detect the occurrence of a fire in the protection zone, so that the fire can be suppressed more safely, as well as the existing gas fire extinguishing equipment. The present invention relates to a double-sensing ship gas fire extinguishing system that is capable of satisfying the more stringent ship safety regulations in recent years even if no structural changes or additional piping facilities are carried out.

In general, the fire extinguishing equipment used for extinguishing a fire in a protected area is roughly classified into a water extinguishing system and a gas-based fire extinguishing system, and an aqueous fire extinguishing system is used to extinguish a fire in a protective area. The fire extinguishing means is to use fire extinguishing means, and the gas fire extinguishing equipment uses extinguishing gas such as carbon dioxide or nitrogen for extinguishing fires in the protection area.

The gas-based fire extinguishing system prevents contamination and damage of various peripheral devices in the protection zone during extinguishing the fire while extinguishing the fire by extinguishing water. Due to the advantage of greatly reducing post-treatment work such as cleanup, it is applied to various fields. In particular, in the case of ships, such gas fire extinguishing facilities are mandatory.

Representative examples of the gas fire extinguishing equipment applied to the ship as described above, as shown in Figure 1, extending the sampling pipe (2) from each of the protective zone (1) existing inside the ship in the CO ₂ room (3) It is connected to the installed smoke detection unit (4), and the three-way valve device (8) is installed in each sampling pipe (2), while extinguishing gas (CO ₂ gas) gas from the extinguishing gas container (6) compressed and stored at high pressure The supply pipe 6a is extended to connect with the three-way valve device 8 of the sampling pipe 2.

The three-way valve device 8 is a manual ball valve is generally used, but an automatic pneumatic valve may be used, if necessary, the smoke detection unit 4 via the exhaust duct (5a) exhaust fan unit (5) It is connected to the fire alarm panel 7a provided in the ship wheelhouse (steering room) 7 by the cable 4a, and is not shown by the power cable 9 and the emergency power cable 9a. Connected to a power supply and a battery (emergency power supply).

Therefore, during normal operation, the internal air of the protective zone 1 is sucked into the smoke detection unit 4 through the sampling pipe 2 in accordance with the operation of the air blower unit 5, and at the same time, The fire detection sensor installed at the exit of each sampling pipe (2) from the inside continuously checks whether a fire has occurred in the protective zone (1), and in the event of a fire, the smoke detection unit (4) A fire occurrence signal is transmitted to the fire alarm panel 7a to inform the protection zone 1 where the fire has occurred.

As described above, when the firehouse 7 detects the protective area 1 in which the fire has occurred and notifies the worker who resides in the CO ₂ room 3, the worker who resides in the CO ₂ room 3 has a corresponding protection area. The three-way valve device (8) of the sampling pipe (2) connected to (1) is operated, which causes a protection zone in which a fire occurs along the gas supply pipe (6a) and the sampling pipe (2) from the extinguishing gas container ( Fire can be extinguished by supplying extinguishing gas in 1).

In addition, in the case of using an automatic pneumatic valve as the three-way valve device 8, the smoke detection unit 4 transmits a fire occurrence signal to the fire alarm panel 7a of the wheel house 7 to protect the fire zone. (1) and at the same time, the smoke detection unit (4) is to operate the three-way valve device (8) of the sampling pipe (2) connected to the protection area (1), in this case the smoke detection unit (4) Of course, the three-way valve device 8 should also be connected with a control cable, not shown.

However, the conventional gas fire extinguishing system for ship 10 as described above, in accordance with the operation of the air blower unit 5, induces the internal air of each of the protection zone (1) to the inside of the smoke detection unit (4). Since the sampling pipe 2 having a relatively small diameter is clogged by foreign matter or the like, or when a leaking part occurs in the air passage provided by the sampling pipe 2, the protection zone 1 It is difficult to accurately determine whether a fire has occurred.

In other words, by applying a structure in which the sampling pipe 2 is extended from each protection zone 1 and connected to one smoke detection unit 4, each protection zone 1 according to the operation of the blower unit 5 is applied. Since the air present in the inside of the air is collected in the smoke detection unit 4 and then integratedly discharged along the exhaust duct 5a, even if one of the pipes of the sampling pipe 2 is blocked, the blower unit 5 Operation of the gas fire extinguishing system 10 by means that it is performed in a state that does not detect this.

On the other hand, when a leak occurs in the air passage provided by the sampling pipe 2, the internal air of the protective zone 1 is not supplied to the smoke detection unit 4 in accordance with the operation of the exhaust fan unit 5. In addition, there is a high possibility that the air present in a place other than the protective area 1 is supplied to the smoke detection unit 4, but in this case, the operation of the gas fire extinguishing system 10 by the exhaust fan unit 5 is likewise performed. Is performed without detecting it.

Therefore, when a fire occurs in a blocked or leaky protective area 1 provided by the sampling pipe 2, the smoke detection unit 4 cannot determine this quickly and accurately, and thus the fire suppression cannot be timely. This will cause a situation that can not lead to a large fire or explosion accidents, so in recent years the regulations for ship gas fire extinguishing system 10 has been more strictly enforced.

In order to supplement the above problems, if the gas fire extinguishing facility 10 shown in Figure 1 based on each protective zone (1) in duplicate, the narrow space and complex wiring and gas fire extinguishing equipment inside the ship Considering the installation cost of (10) as a whole, it is not preferable because it is a very uneconomical and inefficient way, and based on such a situation, there is a search for a way to maximize the fire suppression performance while having a more economical and reasonable way. .

The present invention has been made to solve the above conventional problems, the double-sensing vessel gas fire extinguishing equipment according to the present invention, the sampling pipe for supplying the internal air of the protection zone to the smoke detection unit in accordance with the operation of the blower unit. In addition, by installing a smoke detector as a sensor for fire detection on another air discharge passage provided for ventilation and explosion protection of the protection zone, the smoke detector is further connected to the smoke detection unit, It is possible to quickly and accurately detect whether a fire has occurred, and this makes it possible to extinguish fires in the protection zone inside the ship more safely, as well as to structural changes or additional piping of existing gas fire extinguishing facilities. Even if the facility is not in operation, safety regulations have recently been stricter. To which to meet and exceed the requirements of marine gas fire-fighting equipment and as a technical challenge.

The present invention as a means for solving the above technical problem, the sampling pipe for supplying the internal air of the protective area to the smoke detection unit in accordance with the operation of the exhaust fan unit, and a fire extinguishing gas container in which the extinguishing gas for fire suppression is compressed and stored; A gas supply pipe extending from the extinguishing gas container and connected to the sampling pipe, and a three-way valve device installed at a connection portion of the sampling pipe and the gas supply pipe to selectively open the air passage and the digestion gas passage; In the installation, each of the protection zone is provided with a ventilation fan duct installed with a ventilation fan, the smoke detector as a fire detection sensor is installed in the interior of the ventilation fan duct corresponding to the upper or lower portion of the ventilation fan. The smoke detector is connected to the smoke detection unit by a cable. The smoke detection unit is characterized in that a fire alarm panel and the connection established by the cable.

In addition, each cable connected to the smoke detector is connected to the fire detection unit for relaying and amplifying the signal generated from the smoke detector, the fire detection unit is connected to the smoke detection unit by an output cable, characterized in that the installation The exhaust fan provided in each of the exhaust fan ducts may be connected to the fire detection unit by a control cable, and a case-shaped dust filter may be installed outside the smoke detector.

On the other hand, the smoke detector is composed of a detector body with a built-in sensor for detecting smoke, and an inlet pipe and a discharge pipe which are respectively protruded from the lower side and the upper side of the detector body, the detector body of the ventilation fan duct It is installed on the outside, the inlet pipe and the discharge pipe is inserted into the inside of the exhaust fan duct, the inner space of the detector body provides an air passage in communication with the inlet pipe and the discharge pipe, the lower portion of the inlet pipe A plurality of air inlet hole is formed, characterized in that the cable is connected to the sensor unit of the detector body, characterized in that the pipe-shaped mesh filter is inserted into the inside of the inlet pipe, the front end of the inlet pipe Is formed by a bolt portion is installed to penetrate the wall opposite the ventilation fan duct, the ventilation fan duck A fixing nut in close contact with the exhaust fan duct may be fastened to the front end bolt portion of the inflow pipe that protrudes to the outside.

On the other hand, the smoke detector is installed in the outer casing fan duct in a state built into the outer casing, the cable is installed through the outer casing and connected to the smoke detector, the outer casing is in a position past the blowing fan And an inlet tube extending from the exhaust fan duct and an outlet tube extending from the exhaust fan duct at a previous position of the exhaust fan, wherein the inlet tube is provided with an air filter. While the inlet and outlet of the air is connected to the "Y" shape, the mesh filter is inserted into the inside of the inlet is characterized in that the Y-filter, the inlet tube and the discharge tube is connected to the exhaust fan duct It is characterized in that the funnel-shaped accumulator is installed on the site, the inlet tube is provided with an orifice It is characterized by.

According to the present invention as described above, by additionally applying the fire detection function by the smoke detector on the basis of the existing gas fire extinguishing equipment, it is possible to detect the effect of the fire in the protection area more quickly and accurately double. Even if the sampling pipe is blocked by foreign matter or the like, or a leaking part occurs in the air passage provided by the sampling pipe, the smoke detector has an effect of judging whether or not a fire has occurred in the protective zone.

Therefore, the fire extinguishing performance of the existing gas fire extinguishing facilities can be compensated for, and the fire extinguishing performance can be provided. Since there is no need to perform the plumbing installation, it is possible to provide a marine gas fire extinguishing system that can be applied in an economical and reasonable manner while sufficiently satisfying the recently stricter safety regulations.

1 is a piping diagram showing a conventional gas fire extinguishing equipment for ships.
Figure 2 is a piping diagram showing a gas fire extinguishing facility for a ship according to an embodiment of the present invention.
3 is a piping diagram showing a gas fire extinguishing facility for a ship according to another embodiment of the present invention.
4 is an enlarged view of the fire detection unit shown in FIG.
Figure 5 (a) and (b) is a schematic cross-sectional view showing the structure of the ventilation fan duct of the protection zone to which the present invention is applied.
6 is a schematic cross-sectional view showing another example of application of the smoke detector installed in the exhaust fan duct.
7 is an enlarged cross-sectional view of the main portion of FIG. 6.
8 is a cross-sectional view illustrating an inflow pipe structure installed in the smoke detector of FIG. 7.
9 is a sectional view showing still another installation state of the smoke detector;
10 is an enlarged cross-sectional view of the smoke detector shown in FIG. 9;
11 is a sectional view showing still another installation state of the smoke detector;
12 is an enlarged view of the main portion excerpt of FIG.

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

As shown in FIG. 2, the double-sensing marine gas fire extinguishing system 10 according to the present invention supplies the internal air of the protection zone 1 to the smoke detection unit 4 according to the operation of the exhaust fan unit 5. A sampling pipe 2, a digestion gas container 6 in which the extinguishing gas for fire suppression is compressed and stored, a gas supply pipe 6a extending from the extinguishing gas container 6 and connected to the sampling pipe 2; It is the same as the conventional case that is provided at the connection portion of the sampling pipe 2 and the gas supply pipe 6a to include a three-way valve device 8 for selectively opening the air passage and the digestion gas passage.

In addition, in the present invention, the three-way valve device 8 is a manual ball valve, but an automatic pneumatic valve may be used if necessary, and the smoke detection unit 4 is an exhaust fan unit via an exhaust duct 5a. And connected to the fire alarm panel 7a by a cable 4a, and a power source and a battery (emergency power source) not shown by the power cable 9 and the emergency power cable 9a. Connection is installed.

The fire alarm panel 7a is generally provided in a ship wheelhouse (steering room) 7 as described in the related art, but the fire alarm panel 7a is located in an engine room or other place in addition to the wheelhouse 7. In addition, it is desirable to have a person who resides on the ship immediately check whether a fire has occurred at any time and notify a worker who resides in the CO ₂ room (3).

In addition, in the case of the sampling pipe (2), the metal hose up to the part where the three-way valve device 8 is installed, and the connection hose made of rubber or soft plastic from the part past the position where the three-way valve device 8 is installed. (2a) so that the sampling pipe (2) part and the connecting hose (2a) part, which are metal pipes, can be disassembled and assembled, so that the setting of the smoke detection unit (4) based on the sampling pipe (2) It is desirable to be able to easily perform the separation and replacement work.

The components constituting the main portion of the gas fire extinguishing system 10 according to the present invention are provided with a blowing fan duct 11 provided with a blowing fan 12 on the wall constituting each protection zone (1), the blowing A smoke detector 13 as a fire detection sensor is installed inside the exhaust fan duct 11 corresponding to the upper or lower part of the fan 12, and each smoke detector 13 includes a cable ( 13a) is to be connected to the smoke detection unit (4).

The ventilating fan duct 11 corresponds to another air discharge passage provided for ventilation or explosion protection of the protection zone 1, and is provided in advance in each protection zone 1. It may be used as it is, or may be additionally installed in the protection zone (1) as needed for the installation of the gas fire extinguishing system 10 according to the present invention.

As shown in (a) and (b) of FIG. 5, the exhaust fan duct 11 is provided with a fan motor 12a inside the duct passage for discharging the air of the protective area 1 to the outside. The fact that the exhaust fan 12 is installed is made the same, the only difference is whether or not the duct cover (11a) is installed at the outlet of the upper side of the exhaust fan duct (11).

As shown in (a) of FIG. 5, when the duct cover 11a is provided at the outlet side of the ventilation fan duct 11, it is preferable to fix the smoke detector 13 to the lower side of the duct cover 11a. Most preferably, when the duct cover 11a is not provided at the outlet side of the ventilation fan duct 11 as shown in (b) of FIG. 5, the smoke detector 13 is disposed inside the ventilation fan duct 11. This can be fixed at any position on the side.

In addition, the position where the smoke detector 13 is installed is most preferably a position corresponding to the upper portion of the air blowing fan 12, but in some cases, the smoke detector 13 may be installed on the lower side of the air blowing fan 12. In order to maintain the detection function of the smoke detector 13 at a constant level, it is preferable to install the dust filter 14 having a case shape outside the smoke detector 13.

The smoke detector 13 is a product widely used as a fire detection sensor, and there are two types of photoelectric type and ionization type, and the photoelectric smoke detector is generated by a fire that proceeds slowly. It is more effective to detect the smoke being smoked, and the ionized smoke detector is more effective at detecting the fine smoke particles generated by the fast-paced fire.

Therefore, in consideration of the type or form of fire that may occur in the protection area (1), it is only necessary to install and use a product necessary in the above two types in the fan fan duct (11), two types of smoke detector (13) It is also possible to install a mixed in the wind fan duct (11), in addition to the above-mentioned type, any sensor can be used as long as it can detect smoke by detecting smoke.

The smoke detector 13 detects smoke particles when a fire occurs and outputs a specific electromotive force as a signal, the signal is transmitted to the smoke detection unit 4 via a cable 13a, and then the smoke detection unit 4. It is transmitted from the cable 4a to the fire alarm panel 7a so that the location of the fire protection area 1 can be grasped, and the smoke detector 13 is protected together with the existing sampling pipe 2. It is to perform the function of double detecting whether the fire of the zone (1).

On the other hand, the dust filter 14 is preferably used in the form of a mesh that allows the passage of the smoke particles, but the passage of foreign substances such as dust, and the like, in addition to dust on the sensing surface of the smoke detector 13 Any type of filter may be applied as long as the sensing function of the smoke detector 13 can be maintained at a constant level by not being attached.

In FIG. 2, the cable 13a for the smoke detector 13 extends from a ventilation fan duct 11 installed in each protection zone 1 to one line, and is connected to the smoke detection unit 4. This is a simplified illustration of the cable 13a line for the smoke detector 13 in order to avoid the complexity of the drawing, and substantially for the smoke detector 13 from the ventilation fan ducts 11 installed in the respective protection zones 1. The cable 13a is individually extended and connected with the smoke detection unit 4.

In other words, since four air protection fan ducts 11 are provided in the four protection zones 1 in the drawing, the cable 13a for the smoke detector 13 connected to the smoke detection unit 4 also has a total of four lines. As shown in the figure, the number of the ventilation fan ducts 11 installed in the protection area 1 may be about 1 to about 4, and the smoke detectors 13 may be provided for each ventilation fan duct 11. Although it is preferable to install, it is enough to apply one smoke detector 13 to one protective zone 1.

As another application example, when the cable 13a for the smoke detector 13 extending from the four protection zones 1 in the drawing is to be integrated and installed in one line, the signal output from each smoke detector 13 is provided. By differently, it should be possible to determine the protection area 1 in which the fire has occurred from the signal value, and it is preferable to apply the cable connector 13b rather than to use the long cable 13a.

In the gas fire extinguishing system 10 according to another embodiment of the present invention, as shown in FIGS. 3 and 4, the signals 13a connected to the smoke detector 13 are generated from the smoke detector 13. Is connected to the fire detection unit 15 for relay and amplification of the fire detection unit 15, and the fire detection unit 15 is connected to the smoke detection unit 4 by an output cable 17a, and to the control cable 16a. It is to be installed so as to be connected to the ventilation fan 12 provided in each of the ventilation fan duct (11).

Each cable 13a, 16a, 17a is connected to the fire detection unit 15 through a cable port 15a disposed along the periphery of the fire detection unit 15, and the output cable 17a. Is extended from the second relay board 17 provided to the fire detection unit 15 and connected to the smoke detection unit 4, and the control cable 16a is connected to the first relay board 16 provided to the fire detection unit 15. Is connected to the exhaust fan 12.

The control cable 16a stops the operation of the ventilation fan 12 installed in the ventilation fan duct 11 of the corresponding protection zone 1 when a fire occurs in the protection zone 1, thereby causing smoke. Does not discharge to the outside of the protective zone (1), which causes the smoke to cover the other interior spaces of the ship except for the protective zone (1) and the confusion caused by it. It can be prevented.

On the contrary, since the internal air of the protection area 1 introduced into each sampling pipe 2 is discharged to the outside of the ship through the air blower unit 5 and the exhaust duct 5a, the air blower unit 5 at the time of fire occurrence. ) Need not be disabled.

As described above, the fire detection unit 15 used in another embodiment of the present invention determines the position of the protective zone 1 in which the fire has occurred as an electrical signal, and the blowing fan 12 of the corresponding protective zone 1. An electronic control device for stopping the operation, electrical components and programs necessary for the determination of the signal input from the smoke detector 13, the amplification and relay of the signal, the fire signal and the output of the stop fan 12 stop signal, etc. It is built.

In the case of the fire detection unit 15, as in the smoke detection unit 4, the power cable 9 and the emergency power cable 9a are respectively connected and installed, and the control cable 16a is a fan of the exhaust fan 12. Bars connected to the motor 12a to control the operation of the blower fan 12, the state in which the control cable 16a is connected to the blower fan 12 is not shown separately in FIG. 3 to avoid the complexity of the drawing. In addition, the output cable 17a is connected to the smoke detection unit 4, and it is also clearly shown that only one cable line is shown in order to avoid the complexity of the drawing.

6 and 7 show another application example of the smoke detector 13 installed in the air blowing fan duct 11, and includes a detector body 19 in which a smoke detection sensor unit 19a is incorporated, and the detector. It consists of an inlet pipe 20 and a discharge pipe 21 protrudingly installed on one side lower and upper portions of the main body 19, respectively.

In addition, the detector body 19 is installed outside the ventilation fan duct 11, the inlet pipe 20 and the discharge pipe 21 is inserted into the ventilation fan duct 11, the detector The inner space of the main body 19 provides an air passage communicating with the inlet pipe 20 and the discharge pipe 21, and the cable 13a is connected to the sensor unit 19a of the detector body 19.

Therefore, a part of the air discharged through the exhaust fan duct 11 is introduced into the detector body 19 through the inlet pipe 20 and then into the exhaust fan duct 11 through the exhaust pipe 21. In this process, the smoke detection sensor unit 19a installed inside the detector body 19 detects smoke in the air and checks whether a fire occurs in the corresponding protection zone 1. .

The smoke detector 13 having the above configuration can detect smoke at various wind speeds ranging from 0.5 m / s to 20 m / s, and can be detachably mounted on the exhaust fan duct 11 so as to periodically In addition to easy maintenance, if an additional external casing (IP66 grade or higher) 18 is additionally installed on the outside of the detector body 19, the smoke detector 13 can be used even under very poor conditions. There is an advantage.

In particular, as shown in FIG. 8, when the pipe-shaped mesh filter 24 having a plurality of small filter holes is formed inside the inflow pipe 20, a detector having a sensor unit 19a embedded therein. By being able to block the incorporation of dust or foreign matter into the main body 19, it is possible to prevent the degradation of the local sensing function by the sensor unit 19a in advance, and the inflow pipe 20 It is preferable to install a rubber seal 23 at the portion through which the exhaust pipe 21 penetrates the ventilation fan duct 11 and as a complement to airtightness and noise or vibration.

9 shows another installation state of the smoke detector 13, and when the protection zone 1 is present in the lower part of the deck 27, the protection zone 1 is removed from the protection zone 1. The ventilation fan duct 11 extends to the upper side of the deck 27, in which case the smoke detector 13 is placed on the ventilation fan duct 11 corresponding to the ventilation fan 12 and the lower part of the deck 27. The reference numeral 26 schematically shows a ladder provided to allow the worker to descend below the deck 27.

As described above, the part of the exhaust fan duct 11 extending from the protection zone 1 located below the deck 27 has a relatively thin thickness of the metal plate constituting the duct passage, so that the maintenance during the installation of the smoke detector 13 is performed. And a reinforcement plate 25 having a thickness of about 6 mm is further provided between the outer casing 18 and the ventilation fan duct 11 in consideration of durability, while the inflow extending into the ventilation fan duct 11 is introduced. The front end side of the pipe 20 is provided so as to penetrate the wall opposite the exhaust fan duct 11.

More specifically, as shown in FIG. 10, the tip of the inflow pipe 20 of the smoke detector 13 is formed as a bolt portion 20b so as to penetrate the wall opposite to the exhaust fan duct 11. In addition, the fixing nut 28 which is in close contact with the exhaust fan duct 11 is fastened and installed at the tip side bolt portion 20b of the inflow pipe 20 protruding to the outside through the exhaust fan duct 11.

9 and 10, the air inlet hole 20a and the mesh filter 24 are installed only at a portion corresponding to 1/2 of the entire length of the inlet pipe 20, and thereafter, the air inlet hole 20a and Although the mesh filter 24 is not shown, the air inlet hole 20a and the mesh filter 24 may be installed over the entire length of the inlet pipe 20 except for the bolt portion 20b. have.

In addition, the air inlet hole 20a and the mesh filter 24 are not installed in the bolt portion 20b protruding to the outside through the fan fan duct 11, as well as the inlet pipe having the bolt portion 20b formed therein ( It is a matter of course that the tip end of 20) is sealed to prevent leakage of the internal air of the exhaust fan duct 11 to the outside. If necessary, the inlet pipe 20 is kept airtight even if the inlet pipe 20 penetrates the ventilation fan duct 11. Of course, you can also install a rubber seal 23 for vibration and noise reduction.

As described above, when the front end side of the inflow pipe 20 is fastened to the fixing nut 28 through the ventilation fan duct 11, the smoke detector 13 is more firmly mounted to the ventilation fan duct 11. The separation phenomenon of the pipe 20 can be prevented in advance, and a more effective mounting structure can be provided for various vibrations and noises. The mounting structure of the pipe 20 includes a smoke detector 13 as a ventilation fan. Of course, it is also possible to apply the case installed in the upper portion (12).

11 and 12 are the optimal installation state of the smoke detector 13 used in the present invention, the smoke detector 13 is the outer side of the wind fan duct 11 in a state embedded in the outer casing (18). The cable 13a is connected to the smoke detector 13 by passing through the outer casing 18, and the outer casing 18 is installed at the position past the exhaust fan 12 and the exhaust fan duct 11 By being installed in connection with the inlet tube 29 extending from the outlet tube 30 extending from the exhaust fan duct 11 at the previous position of the exhaust fan 12, it provides a circulating passage of sampling air.

The inlet tube 29 and the outlet tube 30 may also be a pipe made of metal or hard plastic, or may be a hose made of rubber or soft plastic, and an exhaust fan duct 11 and an outer casing 18 and End sides of the inlet tube 29 and the outlet tube 30 to be connected may be made of a metal or hard plastic pipe, and the rest of the inlet tube 29 and the outlet tube 30 may be rubber or soft plastic hoses. 18) is preferably formed into a sealed case using a metal or plastic material.

In addition, the inlet tube 29 is provided with an air filter 31, the air filter 31 is connected to the inlet portion 31a and the discharge portion 31b of the air "Y" shape, Then, the Y-filter is a mesh filter 34 is inserted into the inlet portion 31a.

The mesh filter 34 is formed as a compact filter hole is formed at a tight interval over the small cylindrical body surface, is detachably assembled into the inlet portion 31a by the filter assembly bolt 34a, Such a Y-filter is a known product widely used in the air filter field.

When the above-described Y-filter is used as the air filter 31, foreign matters in the sampling air flowing into the smoke detector 13 from the ventilation fan duct 11 can be more effectively removed by the swing method. The filter assembly bolt 34a together with the mesh filter 34 provides an advantage of being easily separated and cleaned from the inlet portion 31a.

On the other hand, a funnel-shaped accumulator (32) for assisting the circulating flow of sampling air is installed at a portion where the inlet tube (29) and the outlet tube (30) are connected to the exhaust fan duct (11). Orifice 33 is installed in the inlet tube 29 corresponding to the position past the air filter 31.

The accumulator 32 is configured to induce sampling air through the inlet tube 29 from the high pressure region inside the exhaust fan duct 11 corresponding to the upper side of the exhaust fan 12 and from the exhaust tube 30. Air discharge through the low pressure region inside the exhaust fan duct 11 corresponding to the lower side of the exhaust fan 12, that is, circulating flow of sampling air via the smoke detector 13 can be performed more quickly and efficiently. The accumulator 32 may be provided only on the inlet tube 29 side as necessary.

On the other hand, the orifice 33 is installed for the purpose of increasing the flow rate of air flowing to the smoke detector 13 side along the inlet tube 29, it is usually installed in the form of a banuri tube forming a narrow neck portion In addition, in order to more actively control the flow rate of the air through the inlet tube 29, it is also possible to install a flow control valve in place of the orifice (33).

In addition, at the end sides of the accumulator 32, the air filter 31, the inlet tube 29 and the discharge tube 30 by forming a flange (Flange) that can be assembled by bolts and nuts, each component as necessary It is most preferable in view of the cleaning of the air filter 31 or the maintenance of the device so that it can be disassembled or assembled.

When the smoke detector 13 is installed in the above manner, the high pressure region (emission pressure: 54.6 mmHg) is formed at the position (the upper side of the blower fan in the drawing) past the blower fan 12 during operation of the blower fan 12. Outside of the exhaust fan duct 11 by using a relatively large pressure difference between the low pressure region (suction pressure: around 44.4 mmHg) formed at the previous position of the exhaust fan 12 (lower side of the exhaust fan on the drawing). It is possible to more reliably guide the flow of sampling air to the smoke detector 13 installed in the.

For this reason, the smoke detector 13 more accurately detects the occurrence of a fire in the protective zone 1 and enables rapid fire extinguishing, as well as the smoke detector 13 even under the conditions of using a large fan or a wind speed of 20 m / s or more. It is possible to detect the fire caused by the fire, and as all the parts including the smoke detector 13 and the air filter 31 are connected and installed in a pipe form outside the airflow fan duct 11, the air filter 31 Cleaning and maintenance work can also be done more easily.

According to the gas fire extinguishing system 10 of the present invention as described above, by applying a fire detection function by the smoke detector 13 on the basis of the existing gas fire extinguishing system, whether or not a fire occurs in the protective zone (1) Can be detected more quickly and accurately, and even if the sampling pipe 2 is blocked by foreign matter or the like, or leaks occur in the air passage provided by the sampling pipe 2, the fire in the protection zone 1 It is possible to determine whether or not the smoke detector (13).

Therefore, the fire extinguishing performance of the existing gas fire extinguishing system can be provided to compensate for the disadvantages of the existing gas fire extinguishing system. Since there is no need to carry out the double plumbing of the ship, it is possible to provide a marine gas fire extinguishing system 10 that can be applied in an economical and rational manner while fully satisfying the recently more stringent safety regulations.

1: Protection zone 2: Sampling pipe 2a: Connection hose
3: CO ₂ Room 4: Smoke Detection Units 4a, 13a: Cable
5: Exhaust fan unit 5a: Exhaust duct 6: Extinguishing gas container
6a: gas supply pipe 7: wheelhouse 7a: fire alarm panel
8: Three way valve device 9: Power cable 9a: Emergency power cable
10: gas fire extinguishing equipment 11: exhaust fan duct 11a: duct cover
12: exhaust fan 12a: fan motor 13: smoke detector
13b: cable connector 14: dust filter 15: fire detection unit
15a: Cable port 16: First relay board 16a: Control cable
17: second relay board 17a: output cable 18: outer casing
19: detector body 19a: sensor unit 20: inlet pipe
20a: air inlet hole 20b: bolt portion 21: discharge pipe
22: bracket 23: rubber sealing 24, 34: mesh filter
25: reinforcement plate 26: ladder 27: deck
28: fixing nut 29: inlet tube 30: discharge tube
31 air filter 31a inlet 31b outlet
32: accumulator 33: orifice 34a: filter assembly bolt

Claims (13)

A sampling pipe (2) for supplying the internal air of the protection zone (1) to the smoke detection unit (4) according to the operation of the exhaust fan unit (5), a digestion gas container (6) in which the extinguishing gas for fire suppression is compressed and stored; And a gas supply pipe 6a extending from the extinguishing gas container 6 and connected to the sampling pipe 2 and installed at a connection portion between the sampling pipe 2 and the gas supply pipe 6a. In the marine gas fire extinguishing system (10) comprising a three-way valve device (8) for selectively opening a furnace,
Each of the protection zones 1 includes an exhaust fan duct 11 having an exhaust fan 12 installed therein, and a fire inside the exhaust fan duct 11 corresponding to an upper side or a lower side of the exhaust fan 12. A smoke detector 13 as a sensor for detection is installed,
Each smoke detector 13 is connected to the smoke detection unit 4 by a cable 13a, and the smoke detection unit 4 is connected to a fire alarm panel 7a by a cable 4a. Double-sensing vessel gas fire extinguishing equipment, characterized in that. According to claim 1, Each cable 13a connected to the smoke detector 13 is connected to the fire detection unit 15 for relaying and amplifying the signal generated from the smoke detector 13, the fire detection unit 15 is a double-sensing marine gas fire extinguishing system, characterized in that the output cable (17a) is connected to the smoke detection unit (4). The double-sensing marine gas according to claim 2, wherein the exhaust fan (12) provided in each of the exhaust fan ducts (11) is connected to the fire detection unit (15) by a control cable (16a). Fire extinguishing system. The double-sensing marine gas fire extinguishing system according to any one of claims 1 to 3, wherein a case-shaped dust filter (14) is provided outside the smoke detector (13). The detector according to any one of claims 1 to 3, wherein the smoke detector (13) includes a detector body (19) in which a smoke detection sensor unit (19a) is incorporated, and a lower portion of one side of the detector body (19). Consisting of the inlet pipe 20 and the discharge pipe 21 are respectively installed to protrude from the top,
The detector body 19 is installed on the outside of the ventilation fan duct 11, the inlet pipe 20 and the discharge pipe 21 is inserted into the ventilation fan duct 11,
The inner space of the detector body 19 provides an air passage communicating with the inlet pipe 20 and the outlet pipe 21, and a plurality of air inlet holes 20a are formed at the lower side of the inlet pipe 20. ,
The cable (13a) is connected to the sensor unit (19a) of the detector main body 19, characterized in that the gas fire extinguishing equipment for a double sensing type. The double-sensing marine gas fire extinguishing system according to claim 5, wherein a pipe-shaped mesh filter (24) is inserted into the inlet pipe (20). The tip of the inflow pipe (20) of the smoke detector (13) is formed by a bolt portion (20b) is installed so as to pass through the wall opposite the exhaust fan duct (11), the ventilation fan duct (11) Double-sensing ship gas fire extinguishing, characterized in that the fixing nut 28 is in close contact with the exhaust fan duct 11 is installed in the front end bolt portion (20b) of the inflow pipe 20 protruding to the outside. equipment. The smoke detector (13) according to any one of claims 1 to 3, wherein the smoke detector (13) is installed on the outside of the ventilation fan duct (11) in a state of being embedded in the outer casing (18). It is connected to the smoke detector 13 through the casing 18,
The outer casing 18 extends from the inlet tube 29 extending from the exhaust fan duct 11 at a position past the exhaust fan 12 and from the exhaust fan duct 11 at a previous position of the exhaust fan 12. Double-sensing marine gas fire extinguishing facility, characterized in that connected to the discharge tube 30 The double-sensing gas fire extinguishing system according to claim 8, wherein an air filter (31) is installed in the inlet tube (29). The air filter (31) of claim 9, wherein the air inlet (31a) and the outlet (31b) is connected in a "Y" shape, while the mesh filter (inside) of the inlet (31a) Double-sensing marine gas fire extinguishing system, characterized in that the Y-Filter (34) is inserted into 10. The dual sensing marine gas fire extinguishing method according to claim 9, wherein a funnel-shaped accumulator (32) is installed at a portion where the inlet tube (29) and the outlet tube (30) are connected to the exhaust fan duct (11). equipment. 10. The double-sensing gas fire extinguishing system according to claim 9, wherein an orifice (33) is installed in the inflow tube (29). The double-sensing marine gas fire extinguishing system according to claim 11, wherein an orifice (33) is installed in the inflow tube (29).

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