KR102113127B1 - A fire hydrant - Google Patents

Abstract

The present invention relates to a fire hydrant, and more particularly, to a fire hydrant that allows a single person to easily operate the fire hydrant. The present invention in a fire hydrant for extinguishing a fire by spraying water provided from a water outlet into a fire hose, a solenoid valve (300) controlled by an electrical signal between the water outlet (100) and the connection port of the fire hose (200), The control device 400 for controlling the solenoid valve 300, a communication module 500 connected to the control device 400, and the nozzle 600 of the fire hose 200 is installed in the control device ( 400) includes a remote control remote control 700 for controlling, and the remote control remote control 700 includes a wireless communication module 710 for communicating with the communication module 500.

Description

Fire hydrant {A FIRE HYDRANT}

The present invention relates to a fire hydrant, and more particularly, to a fire hydrant that allows a single person to easily operate the fire hydrant.

Indoor fire hydrants in buildings are classified as manual or automatic depending on the pump starting method. Since the manual type does not normally have water up to the angle valve, a start switch capable of starting the pump is provided separately in the indoor fire hydrant, and when the pump starts, it is necessary to operate the pump start switch if necessary by drawing water up to the water outlet. On the other hand, the automatic type always has a water-filled configuration up to the angle valve before indoor fire extinguishing.

According to all educational materials related to firefighting, the method of initial suppression by indoor firefighting is set to 2 persons, and 1 person moves to the fire point with a radiation nozzle and then is called “opening the valve” to another person who remains before firefighting The angle valve is rotated to the left to open the sound to pass the fire extinguishing water.

In other words, education / training requires at least two people to use indoor fire hydrants for the initial fire extinguishing. This is because the pressure of the extinguishing water required for extinguishing the fire requires a high pressure of at least 0.17 MPa, so if you run to an indoor fire hydrant and open the angle valve, the high pressure water is immediately discharged, so the fire hose and the radiation nozzle cannot extinguish the fire due to uncontrollable Because.

The related prior documents will be described below. The identification numbers in the following prior documents are irrelevant to the present invention.

Republic of Korea Patent Publication No. 1999-0073382 'indoor fire hydrant device that does not require fire extinguishing piping' is connected to one end of the hose 120, solenoid valve 190 for switching operation, and is connected to the hose 120 The extinguishing agent container 170 filling the reinforcing liquid extinguishing agent, the nitrogen container 172 connected to the hose 120 and filling nitrogen, and the extinguishing agent container 170 and the nitrogen container 172 do not flow. It is attached to the upper end of the binding member 180 and the extinguishing agent container 170 and the nitrogen container 172 to support a solid installation without discharging through the hose 120 when operating the solenoid valve 190 It is an indoor fire hydrant device that does not require fire extinguishing piping, characterized in that it consists of a valve 196 that is controlled as much as possible, and the structure of the facility is simple, so that even the general public can easily control the fire and install it in a narrow space. It can reduce installation cost.

Patent Registration No. 10-1602563 'Open detection type angle valve and indoor fire hydrant system including the same' is an open detection type angle valve and an indoor fire hydrant system including the same with respect to an angle valve which is opened and closed by manual operation and an indoor fire hydrant system including the same It is, a hollow body having an inlet through which water is introduced and an outlet through which water is formed and formed perpendicular to the inlet; An opening / closing disk positioned in the hollow to open and close the inlet; A rotating shaft having a center line coinciding with the center line of the inlet, one end connected to the opening / closing disk, and the other end passing through the main body and exposed to the outside; Opening and closing handle coupled to the other end of the rotating shaft; And a rotating shaft sealing seal provided between the outer surface of the rotating shaft and the main body to prevent leakage of water to the outside of the main body and to provide lubrication for rotation and movement of the rotating shaft. It is made of, but when the opening and closing disc is opened by manual operation of the opening and closing handle, an open detection electric switch unit in which an off switch is turned on; and an open detection type angle valve including The indoor fire hydrant system, which includes this, has the technical features of building safety personnel and residents to immediately recognize the location of the fire, which can help the residents to quickly evacuate and promptly respond to the fire brigade, and enable the immediate start of the fire pump. , When operating the angle valve, it has the effect of contributing to the achievement of the rapidity of water supply and the economic effect of reducing the construction cost of the indoor fire hydrant, and it has the effect of reducing the cost for freeze prevention and freeze prevention.

Patent Publication No. 1999-0073382 'Indoor fire hydrant device that does not require fire extinguishing piping' Date of publication October 05, 1999 Registered patent 10-1602563 'Open detection type angle valve and indoor fire hydrant system including the same' notice date March 10, 2016

Technical problem to be achieved by the present invention is to provide a fire hydrant that can easily extinguish a fire even with one person.

The technical problem to be achieved by the present invention is not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by a person having ordinary knowledge in the technical field to which the present invention belongs from the following description. There will be.

In order to achieve the above technical problem, an embodiment of the present invention is provided with a solenoid valve directly connected between the rear end of the waterproofing port installed before the normal indoor fire extinguishing and the fire hose connecting port, but is kept closed at all times, and wireless communication is performed in the standby mode. When the operation command of the remote control is monitored, and if the operation switch is artificially operated, such as fire suppression, the corresponding relay is operated with the control signal promised to the received request command to start the pump or between the water outlet and the fire hose connection. Open the solenoid valve and let the fire hose pass through. If the indoor fire hydrant facility is an automatic starting method, water flow starts when the solenoid valve is opened to lower the pressure in the pipe and provide a fire hydrant in which the pump starts automatically.

According to an embodiment of the present invention, two or more people are required to initially extinguish a fire by using an indoor fire hydrant facility, but only one person can initially extinguish, so even a worker, such as at night or on a holiday, can start a fire hydrant with one person and pump it. It can open / close the fire hydrant so it can extinguish the fire early.

It should be understood that the effects of the present invention are not limited to the above-described effects, and include all effects that can be deduced from the configuration of the invention described in the detailed description or claims of the present invention.

1 is an explanatory diagram of a fire hydrant of the present invention.
Fig. 2 is an explanatory diagram of the remote control of the present invention.
Figure 3 is a flow chart for explaining the operating sequence of the water remote control of the hydrant of the present invention.
4 is a flow chart for explaining the operating procedure of the fire hydrant control device of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings. However, the present invention may be implemented in various different forms, and thus is not limited to the embodiments described herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and like reference numerals are assigned to similar parts throughout the specification.

Throughout the specification, when a part is "connected (connected, contacted, coupled)" with another part, it is not only "directly connected" but also "indirectly connected" with another member in between. "It also includes the case where it is. Also, when a part “includes” a certain component, this means that other components may be further provided instead of excluding other components, unless otherwise stated.

The terms used herein are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, terms such as “include” or “have” are intended to indicate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, and that one or more other features are present. It should be understood that the existence or addition possibilities of fields or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance.

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

1 is an explanatory diagram of a fire hydrant of the present invention, and FIG. 2 is an explanatory diagram of a water remote control of the present invention. The present invention in a fire hydrant for extinguishing a fire by spraying the water provided from the water outlet with a fire hose,

A solenoid valve 300 controlled by an electric signal between the water-proof port 100 and the connection port of the fire hose 200,

A control device 400 for controlling the solenoid valve 300,

A communication module 500 connected to the control device 400,

It is installed on the nozzle 600 side end or the nozzle 600 of the fire hose 200 and includes a remote control remote control 700 for controlling the control device 400,

The remote control remote control 700 provides a fire hydrant comprising a wireless communication module 710 for communicating with the communication module 500.

The remote control remote control 700 has a rechargeable battery 720 and a charging input port 730, the charging input port 730 is a charging plug 800 is supplied with power from an external power supply, the charging plug 800 ) When the combination of the charging input port 730 is released, the water-receiving remote control 700 is preferably operated with power from the rechargeable battery 720.

The present invention can be suppressed initially by only one person with the configuration as described above.

The solenoid valve (300) operating on the electrical signal in the indoor fire extinguishing box is directly closed between the water-proof port (100) and the contact port of the fire hose (200) and kept closed at all times, and the communication module (500) and water flow sensing device 310, a control device 400 for controlling a switch interface unit for operation, and the like is installed.

The remote control remote control 700 for the user to control them includes a wireless communication module 710, a rechargeable battery 720, a charging input port 730, a remote control control device 740, a display device 750 and a voice module 760. It includes. The voice module 760 includes both a speaker and a microphone.

Normally, the charging input port 730 of the remote control remote controller 700 maintains a state in which the charging plug 800 is fastened. The power from the charging plug 800 charges the rechargeable battery 720 through the charging input port 730. The all input ports 730 and the charging plug 800 can electrically check the fastening state of the all input ports 730 and the charging plug 800 through means such as detection of an applied voltage and a hook switch. desirable. The present invention is not limited to the means for checking the fastening state.

The nozzle 600 is preferably in the form of a rifle with two handles (620, 630). This is because the waterproof water is at a high pressure of 0.17MPa or more, so that the user needs to have a stable grip in order to grip the nozzle 600 while operating the remote controller 700.

However, in order to install the system of the present invention to the fire hydrants installed in the related art, it is configured by fastening the water-receiving remote control 700 of the present invention to a general conventional hose or nozzle using a fastening means such as a band. According to the above configuration, the control of the waterproof is made by direct operation in the hydrant as well as the water-control remote control 700.

The input device 770 of the remote control remote control 700 is composed of function keys for specific functions, for example, opening and closing of the solenoid valve 300, operation on / off of the pump 1000, signals to nearby devices, and the like. It is preferred. The input device 770 is connected to the remote control controller 740 and the wireless communication module 710, and sends a signal to the user to initiate waterproofing to the communication module 500.

The display device 750 of the remote control remote control 700 preferably displays the current state information of the fire hydrant. Displayed information includes opening and closing of the solenoid valve 200, operation of the pump 1000, the length of the loosened fire hose 200 and the remaining length of the fire hose 200, waterproof time, contact to surroundings including the fire department It can be time, temperature, etc. This information can be used by the user for operating status, fire reporting status, and fault diagnosis. The trigger 610 of the nozzle 600 is a switch that physically controls the injection of water directly through the opening and closing of the end of the nozzle 600, separately from the input device 770 and the solenoid valve 300 of the water remote control 700. desirable.

Figure 3 is a flow chart for explaining the operating sequence of the water remote control of the hydrant of the present invention. In the present invention, in the method of operating a hydrant using the hydrant, an initialization step (s100) of initializing information of the remote control remote control 700; A reception information display step (s200) of displaying the current status of the control device 400; Charging port separation confirmation step (s300) to check whether the charging input port 730 installed on the nozzle 600 at the tip of the fire hose 200 is separated from the charging plug 800 of the hydrant; A notification transmission step (s400) of transmitting a notification signal of operation start to a neighboring device having the same protocol through the communication module 500; An operation step (s500) in which the user operates the input device 770 to send an opening / closing signal to the solenoid valve 300 or the pump 1000 of the remote control remote control 700; A notification transmission step (s600) of transmitting an operation signal of the input device 770 to an adjacent device having the same protocol; A control command transmission step (s700) of sending an opening / closing signal for opening and closing of the solenoid valve 300 or the pump 1000 by the operation of the input device 770; An acknowledgment response reception step (s800) of receiving an acknowledgment response signal of the control device 400; A waterproofing start step of starting waterproofing (s900); A waterproof error signal transmission step (s1000) of transmitting an error signal to adjacent devices having the same protocol through the wire / wireless communication through the communication module 500 and the voice module 900 when the waterproof is not made; It provides a fire hydrant operating method comprising a.

After the initializing step (s100), the current status of the control device 400 is displayed in the receiving information displaying step (s200). This may be achieved through means such as lighting of the display device 410 such as LED.

In the charging port separation confirmation step (s300), it is checked whether the charging input port 730 installed on the nozzle 600 at the tip of the fire hose 200 is separated from the charging plug 800 of the fire hydrant. This can be confirmed through the above-described hook switch, piezoelectric switch, magnetic force switch, fire hose 200 being released over a certain length from the reel.

The fact that the charging input port 730 is separated from the charging plug 800 of the fire hydrant can be interpreted as meaning that the user took the end of the fire hose 200 to the fire point for extinguishing the fire.

When the charging input port 730 is separated from the charging plug 800 of the fire hydrant, the control device 400 prepares for operation, remembers the start time, and transmits the communication module 500 and the voice module in the notification transmission step (s400). 900) to inform neighboring devices having the same protocol. The adjacent device having the same protocol may be an adjacent fire hydrant or a reception board installed in a building. The reception panel is a management room or facility for managing fire hydrants in a building, and can transmit a notification to a fire department, police station, etc. through the reception panel. The content of the notification is information such as whether the charging input port 730 is separated from the charging plug 800 of the hydrant, whether the solenoid valve 300 is opened or closed, and whether the pump 1000 is operated.

When the user moves the nozzle 600 of the fire extinguishing hose 200 to the fire point and operates the input device 770 connected to the remote control remote control 700 according to the fire situation, the corresponding control command passes through the control command transmission step (s700). It is sent to the control device 400 by the wireless communication module 710. In addition, the adjacent device having the same protocol is notified through the notification transmission step (s600).

After confirming that the control command has been transmitted to the control device 400 in the reception acknowledgment reception step (s800), waterproofing is started in the waterproofing start step (s900).

If it is not waterproof, in the waterproof error signal transmission step (s1000), the waterproof error signal is notified to an adjacent device having the same protocol. This is accomplished by detecting the running water through the running water detecting device 310. Alternatively, a separate flow sensor may be provided in the nozzle 600 as necessary.

According to the method of the fire hydrant, the operation of the pump 1000 is also controlled by the control device 400. When waterproofing is started in the waterproofing start step (s900), the waterproofed elapsed time is displayed in the elapsed time display step (s1100) through the display device 750 of the remote control 700.

Through this configuration, the operator operates / stops the solenoid valve 200 and the pump 1000 through the water control remote control 700, or extinguishes the nozzle 600 through the information on the display 750 of the water control remote control 700. If the number does not radiate normally, the cause and condition can be easily identified.

For example, the pressurized water pump 1000 is in operation, but the nozzle 600 does not emit fire water, the operator reaches the fire point and operates the solenoid valve 200, so that water does not come out, but the pump 1000 or It is possible to determine the cause through the status information of the solenoid valve (200).

As described above, the trigger 610 of the nozzle 600 may control the physical opening of the nozzle 600. This is a hose reel (Reel) low-pressure / small-diameter (25mm) hose, the pressure of the water / hose thickness is reduced to 25mm so that it is easy to handle by yourself, the solenoid valve 200 is already opened, so that the high-pressure water is supplied to the fire hose 200. This is because the user can handle the vehicle even when it is full, and the user can manipulate the physical opening of the nozzle 600 at the fire point. However, such a configuration cannot be applied in an indoor fire hydrant with a flow rate of 40 mm and high pressure water. In the 40mm diameter, it is not possible to control the "waterproof" by opening a separate manual valve at the tip of the nozzle because it cannot be controlled by filling the hose in advance.

4 is a flow chart for explaining the operating procedure of the fire hydrant control device of the present invention. The control device 400 of the present invention includes an initialization step (s10) of initializing information of the control device 400; A reception information display step (s20) of displaying the current status of the control device 400; Charging port separation confirmation step (s30) to check whether the charging input port 730 installed on the nozzle 600 at the tip of the fire hose 200 is separated from the charging plug 800 of the fire hydrant; A notification transmission step (s40) of transmitting a notification signal of operation start to a neighboring device having the same protocol through the communication module 500; An operation command reception step (s50) in which the user receives an operation command through the input device 770 to send an open / close signal to the solenoid valve 300 or the pump 1000 of the remote control remote control 700; A notification transmission step (s60) of transmitting an operation signal of the input device 770 to an adjacent device having the same protocol; A control command output step (s70) for sending an opening / closing signal to the solenoid valve 300 or the pump 1000 by the operation of the input device 770; Waterproof state that transmits information such as the operating state of the pump 1000, the opening and closing state of the solenoid valve 300, and the transmission state of the control command to the remote controller 700 and the adjacent device having the same protocol through the communication module 500. Information transmission step (s80); has an operation sequence including.

The control command output step (s70) is a solenoid valve 300 or a pump 1000, the control command signal in the control command transmission step (s700) for sending and closing signals for opening and closing of the solenoid valve 300 or the pump (1000) ).

Although the present invention has been described in conjunction with the accompanying drawings, it is only one embodiment of various embodiments including the gist of the present invention, and is intended to be easily carried out by those skilled in the art. It is clear that there is a purpose, and the present invention is not limited to the above-described embodiment. Therefore, the protection scope of the present invention should be interpreted by the following claims, and all technical spirits within the equivalent range by modification, substitution, replacement, etc. without departing from the gist of the present invention are the rights of the present invention. Will be included in the scope. In addition, some components of the drawings are for explaining the components more clearly, and it is clarified that they are exaggerated or reduced than actual ones. In addition, the claims are not intended to limit the shape and structure of the present invention to the accompanying drawings only to aid understanding.

100. Waterproof
200. Fire Hose
300. Solenoid valve
400. Control
500. Communication module
600. Nozzle
700. Tongsu Remote Control
710. Wireless communication module
720. Rechargeable battery
730. Charging input port
740. Remote control controller
750. Display
760. Speaker
800. Charging plug
900. Voice module
1000. Pump

Claims (2)

delete In the method of operating a fire hydrant to extinguish a fire by spraying the water provided by the water outlet with a fire hose,
The fire hydrant is a solenoid valve 300 which is controlled by an electrical signal between the water inlet 100 and the connection port of the fire hose 200,
A control device 400 for controlling the solenoid valve 300,
A communication module 500 connected to the control device 400,
It is installed on the nozzle 600 side end or the nozzle 600 of the fire hose 200 and includes a water control remote control 700 for controlling the control device 400,
The remote control remote control 700 includes a wireless communication module 710 for communicating with the communication module 500,
The remote control remote control 700 has a rechargeable battery 720 and a charging input port 730, the charging input port 730 is a charging plug 800 is supplied with power from an external power supply, the charging plug 800 ) And the charging input port 730 is released, the water remote control 700 operates with power from the rechargeable battery 720,
The water remote control 700 is around the solenoid valve 200, whether the opening and closing of the pump 1000, the operation of the pump 1000, the length of the loosened fire hose 200 and the remaining length of the fire hose 200, waterproof time, the fire department Equipped with a display device 750 for displaying the information of the contact time, temperature,
The nozzle 600 is to have a rifle type with two handles (620, 630);
How to operate the above hydrant
Initialization step (s100) of initializing the information of the remote control remote control 700;
A reception information display step (s200) of displaying the current status of the control device 400;
Charging port separation confirmation step (s300) to check whether the charging input port 730 installed on the nozzle 600 at the tip of the fire hose 200 is separated from the charging plug 800 of the hydrant;
A notification transmission step (s400) of transmitting a notification signal of operation start to a neighboring device having the same protocol through the communication module 500;
An operation step (s500) in which the user operates the input device 770 to send an opening / closing signal for opening or closing the solenoid valve 300 or the pump 1000 of the remote control remote control 700;
A notification transmission step (s600) of transmitting an operation signal of the input device 770 to an adjacent device having the same protocol;
A control command transmission step (s700) of sending and closing a signal to the solenoid valve 300 or the pump 1000 by the operation of the input device 770;
An acknowledgment response reception step (s800) of receiving an acknowledgment response signal of the control device 400;
A waterproofing start step of starting waterproofing (s900);
A waterproof error signal transmission step (s1000) of transmitting an error signal to an adjacent device having the same protocol through the wire / wireless communication through the communication module 500 and the voice module 900 when the waterproof is not made;
Fire hydrant operating method comprising a.

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