KR20200009901A - Method of preventing water damage of wet sprinklers - Google Patents

Abstract

The present invention relates to a water damage prevention method for wet sprinklers, which is used to prevent damage caused by firefighting water leaked from a secondary pipe of a wet sprinkler, capable of minimizing damage caused when firefighting water is leaked by a corroded or cracked secondary pipe even without the occurrence of a fire. To achieve the purpose, according to the present invention, a firefighting water flow detection means (51) is installed on a primary pipe (50) connected to a water pump (40) and a leak detection means (70) is installed on a secondary pipe (60) installed in each floor, and also, a solenoid valve (91) is installed on a connection pipe (90) connecting a first drain pipe (80) to the secondary pipe (60) in each floor, and a vacuum pump (100) is installed in the bottom of the first drain pipe (80). Therefore, as the leak detection means (70) installed on the secondary pipe (60) detects a water leak in a state in which pressure which is lower than atmospheric pressure is applied to the first drain pipe (80), a control part (110) opens the solenoid valve (91) in a corresponding floor in which the water leak occurs, thereby draining the firefighting water, charged in the secondary pipe (60) in the floor with the water leak, through the first drain pipe (80).

Description

Method of preventing water damage of wet sprinklers

The present invention relates to a method of preventing damage to a water sprinkler of a wet sprinkler so that damage is not caused by fire water leaking from the secondary pipe of the wet sprinkler, and more specifically, corrosion or cracking of the secondary pipe. The present invention relates to a method of preventing damage of a wet sprinkler to minimize damage caused by fire water leakage even though a fire does not occur.

Generally, wet sprinkler is one of various fire extinguishing equipment that accurately detects the point of fire and automatically fires the fireman at the fire and automatically fires the fixed fire extinguishing, which plays an important role in preventing the fire early and preventing loss. Facility.

There are two types of installation of the wet sprinkler according to the type of the building, one of which is a public house or an officetel, the sprinkler head is covered by the ceiling finishing material so that the secondary pipe to which the fire water is supplied is not exposed to the outside. Only installed to be exposed to the outside.

On the contrary, in warehouse buildings such as general industrial facilities or large discount stores, sprinkler heads installed on the ceiling with the secondary pipe branched from the fire hydrant supplied with the extinguishing water exposed to the outside are installed at equal intervals in the secondary pipe. It is installed to be exposed to the outside, which provides convenience in maintaining the sprinkler.

The wet sprinkler is composed of a fire hydrant supplied with fire water from the outside, a plurality of secondary pipes branched from the fire hydrant and installed on the ceiling at equal intervals, and a sprinkler head installed at equal intervals on the secondary pipe. consist of.

The nozzle of the sprinkler head to which the fire water is injected is provided with a bulb tube of glass material that is damaged by heat. When the high temperature breaks the bulb tube due to a fire, fire water is sprayed through the nozzle of the sprinkler head to extinguish the fire.

1 is a schematic view showing a conventional wet sprinkler, the water supply device 31 and the primary side pipe 32 for supplying the fire water, and the plurality of sprinkler head 35 is installed in a branched form from the primary side pipe ) Is equipped with a secondary side pipe 34 to be mounted, and the primary side pipe 32 is provided with a check valve 36 that is selectively opened by the pressure difference.

The principle that the fire water is sprinkled through the sprinkler head 35 is as follows.

When the sealed state of the sprinkler head 35 is released due to a fire, in the state where the fire water pressurized (6 to 10 atm) is filled with the primary pipe 32 and the secondary pipe 33, the secondary pipe is discharged. Fire water filled in 34 is sprinkled through the sprinkler head 35.

As the fire water in the secondary side pipe 34 is sprinkled through the sprinkler head 35, if a pressure difference occurs between the secondary side pipe 33 and the primary side pipe 32, a check valve ( 36 is opened so that the fire water of the water supply device 31 is supplied to the secondary pipe 34 through the primary pipe 32 and the fire water is continuously sprayed from the sprinkler head 35.

(Prior art document)

(Patent Document 0001) Republic of Korea Utility Model Registration Publication 20-428462 (October 02, 2006)

(Patent Document 0002) Republic of Korea Registered Utility Model Publication 20-439623 (2008.04.16.Registration)

(Patent Document 0003) Republic of Korea Patent Publication 10-1630742 (2016.06.09. Registration)

(Patent Document 0004) Republic of Korea Patent Publication 10-1631163 (Jun. 10, 2016 registration)

However, the wet sprinkler having such a conventional structure has the following problems.

First, when sprinkler installed in a residential facility performs regular inspection, replaces sprinkler head, or expands the sprinkler head by extending the secondary pipe, the fire water in the secondary pipe is drained. The water supply system adds fire to the secondary pipe.

In this way, when the fire water is supplemented by the secondary pipe, an air layer is generated inside the secondary pipe due to the secondary pipe which is constructed in a complicated structure, so that the fire water to be filled with high pressure air remains in the secondary pipe by the supplementary fire water. As a result, the oxygen in the air is dissolved in the fire water, and the concentration of dissolved oxygen is increased. As a result, a pin hole is formed in the secondary pipe by a macro cell phenomenon, causing leakage.

Second, in industrial facilities and warehouse-type buildings where secondary pipes including sprinkler heads are exposed to the outside, maintenance work for freight transportation and facility management using a forklift truck is performed indoors. If the sprinkler head or secondary pipe is inadvertently impacted, the secondary pipe will be damaged, and the fire water that was added to the secondary pipe will be sprayed.

Therefore, when an externally exposed sprinkler is installed in a production line that produces electronic and electrical equipment, the production line must be stopped to prevent secondary damage such as an electrical short circuit due to fire water sprayed due to the simple carelessness of the operator. There was a problem.

The present invention has been made in order to solve such a problem in the prior art, even if the fire does not occur in the floor, even if the fire is sprayed in the secondary pipe or sprinkler head due to corrosion or impact, the leak of the corresponding floor The goal is to quickly drain firefighters to minimize secondary damage from firefighters being sprayed.

According to an aspect of the present invention for achieving the above object, the fire water flow detection means is installed in the primary side pipe connected to the water pump and the leakage pipe is installed on the secondary side pipes installed in each floor, A solenoid valve is installed at a connection pipe connecting the secondary pipe and the first drain pipe, and a vacuum pump is installed at the lower end of the first drain pipe so that the first drain pipe has a pressure lower than atmospheric pressure. As the leak detecting means installed in the secondary pipe detects the leak, the control unit opens the solenoid valve on the floor in which the leak occurred and drains the fire water filled in the secondary pipe in the leaked floor to the first drain. Provided is a method for preventing damage to a wet sprinkler, characterized in that the.

According to the present invention, even if the fire water leaks from the secondary pipe or the sprinkler head due to corrosion or impact of the secondary pipe filled with fire water, the leak detection means installed on the floor detects it quickly so that the vacuum pump is connected to the secondary pipe. It quickly drains the fire water that has been added to the outside, thereby minimizing the secondary damage caused by undesired watering.

1 is a schematic view showing a conventional wet sprinkler
Figure 2 is a schematic view showing a wet sprinkler of the present invention
3 is a flowchart for explaining the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. It is noted that the figures are schematic and not drawn to scale. The relative dimensions and ratios of the parts in the figures have been exaggerated or reduced in size for clarity and convenience in the figures and any dimensions are merely exemplary and not limiting. And the same reference numerals are used to represent similar features in the same structures, elements or parts that appear in more than one figure.

Figure 2 is a configuration diagram showing a wet sprinkler of the present invention, the present invention is installed in the primary pipe 50 connected to the water pump 40, the fireman flow detection means 51 for detecting the flow of the fireman is installed and each Leakage detecting means 70 for detecting whether the secondary pipe 60 is installed in the floor is corroded, the leak occurs due to the airtight destruction at the connection or breakage of the sprinkler head 61. ) Is installed.

In one embodiment of the present invention as the fire water flow detection means 51, a flow switch or a pressure switch, etc. was applied, and as the leak detection means 70, the pressure switch 71 on the secondary side pipe 60 of each floor. Respectively installed the second side pipe 60, the fire water is leaked to detect the leakage as the pressure of the secondary side pipe 60 drops, or by installing an alarm valve 72 to install the secondary side pipe (60) It will be appreciated that a leak may occur in) so that the alarm valve 72 detects a leak of the fireman as the flow of the fireman is detected.

And the solenoid valve 91 is installed in the connecting pipe 90 for connecting the secondary side pipe 60 and the first drain pipe 80 of each layer, and the lower end of the first drain pipe 80 is -0.7 bar or less The vacuum pump 100 is applied is applied to the vacuum pressure of.

Therefore, the leak detection means 70 of any one or more of the leak detection means 70 installed in the secondary side pipe 60 of each floor in a state that the pressure lower than the atmospheric pressure is applied to the first drain pipe (80) As it detects, the control unit 110 opens the solenoid valve 91 of the corresponding floor in which the leak occurs, and drains the fire water filled in the secondary pipe 60 of the leaked floor to the first drain pipe 80. It is supposed to be.

However, if the fire detector 120 detects the fire and the fire water flow detection means 51 detects the flow of the fire water by driving the water pump 40 by the controller 110, the driving of the vacuum pump 100 is stopped. Fire water is sprinkled by the sprinkler head 61 in the made state.

Referring to the operation of the present invention below.

3 is a flow chart for explaining the present invention, the water supply pump 40 is provided at the end of the primary side pipe 50 after the fire water is supplied to the secondary side pipe 60 at a predetermined pressure (6 to 10 atm). ) Off and driving the vacuum pump 100 installed at the lower end of the first drain pipe 80 so that the vacuum pump 100 has a vacuum pressure of -0.7 bar or less. Done.

In this state, the leak detection means 70 respectively installed in the secondary side pipe 60 of each floor detects whether the fire water leaks at all times.

That is, when the pressure switch 71 is installed as the leak detection means 70, the secondary side pipe 60 in which the pressure switch 71 provided on the secondary side pipe 60 of each floor is set by the controller 110. It is determined whether the internal pressure is normally maintained.

Accordingly, when the pressure switch 71 provided in the secondary side pipe 60 of each floor maintains the normal pressure, the driving of the water supply pump 40 is turned off to the lower end of the first drain pipe 80. Since the installed vacuum pump 100 is driven (on), the vacuum pump 100 maintains a vacuum pressure of -0.7 bar or less.

However, when any pressure switch 71 installed in the secondary side pipe 60 of each floor falls below the set pressure, the controller 110 determines that a leak is occurring in the secondary side pipe 60, and thus the pressure is increased. Since the solenoid valve 91 of the connection pipe 90 connected to the secondary side pipe 60 of the separated floor is quickly opened, the fire water that has been filled in the secondary side pipe 60 of the floor where the water is leaked is first discharged. The vacuum pump 100 installed at the lower end of the drain pipe 80 drains the first drain pipe 80.

At this time, the driving of the water supply pump 40 is stopped.

On the other hand, when the alarm valve 72 is installed in the secondary side pipe (60) as the leak detection means 70, the leakage occurs in the secondary side pipe (60) to the secondary side pipe (60) of the floor. The installed alarm valve 72 detects the flow of the fire water, and accordingly, the controller 110 determines that a leak is generated in the floor of the alarm valve 72 that detects the flow of the fire water. Since the solenoid valve 91 of the connection pipe 90 connected to) is quickly opened, the fire water supplied to the secondary pipe 60 of the floor where the water is leaked is installed at the bottom of the first drain pipe 80. The pump 100 drains the first drain pipe 80.

At this time, the driving of the water supply pump 40 is similarly stopped.

However, the fire water is supplied to the secondary side pipe 60 at a predetermined pressure, so that the water pump 40 installed at the end of the primary side pipe 50 is turned off, and the lower end of the first drain pipe 80 is turned off. When the fire detector 120 detects a fire in a normal state in which the vacuum pump 100 installed in the driving state is turned on, the controller 110 stops driving the vacuum pump 100 installed at the bottom of the first drain pipe 80. At the same time (off), the water pump 40 is turned on (on).

As such, when the driving of the vacuum pump 100 is stopped and the water supply pump 40 is driven, the water supply pump 40 continuously pumps the fire water in the reservoir 130 as in the conventional sprinkler, so that the fire water is piped to the primary side. Water is sent to the secondary side pipe (60) of each floor through (50), so that it can be sprayed through the sprinkler head 61, so that the fire can be quickly suppressed.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, it will be understood by those skilled in the art that the present invention may be implemented in other specific forms without changing the technical spirit or essential features. will be.

Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention described in the above detailed description is represented by the following claims, and the meanings of the claims and All changes or modifications derived from the scope and equivalent concepts thereof should be construed as being included in the scope of the present invention.

40: water supply pump 50: primary side piping
51: fire water flow detection means 60: secondary side piping
61: sprinkler head 70: leak detection means
71: pressure switch 72: alarm valve
80: first drain pipe 90: connection pipe
91: solenoid valve 100: vacuum pump
110: control unit 120: fire detector

Claims (5)

Fire water flow detection means (51) is installed in the primary pipe (50) connected to the water pump (40), and leak detection means (70) is installed in the secondary pipe (60) installed on each floor. The solenoid valve 91 is installed in the connection pipe 90 connecting the second side pipe 60 and the first drain pipe 80 of the floor, and the vacuum pump 100 is installed at the lower end of the first drain pipe 80. Thus, the controller 110 leaks as the leak detecting means 70 installed in the secondary side pipe 60 of each floor detects a leak in a state in which a pressure lower than atmospheric pressure is applied to the first drain pipe 80. Of the sprinkler of the wet sprinkler, characterized by opening the solenoid valve 91 of the corresponding floor in which the gas is generated and draining the fire water that has been filled in the secondary pipe 60 of the leaked floor to the first drain pipe 80. How to avoid damage.
The method according to claim 1,
When the fire detector 120 detects the fire and the fire water flow detection means 51 detects the flow of the fire water by driving the water pump 40, the sprinkler head 61 in the state where the driving of the vacuum pump 100 is stopped. Damage prevention method of the wet sprinkler characterized in that the fire water to be sprayed.
The method according to claim 1,
Damage to the damage of the wet sprinkler, characterized in that the vacuum pump 100 to take a vacuum pressure of -0.7bar or less.
The method according to claim 1 or 2,
The leak detection means 70 is a damage switch of the wet sprinkler, characterized in that the pressure switch (71) or the alarm valve (72) installed in the secondary side pipe (60) of each floor.
The method according to claim 1 or 2,
Damage prevention method of the water sprinkler, characterized in that the fire water flow detection means 51 is a flow switch or a pressure switch.

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