KR102076795B1 - Fire protection system - Google Patents

Abstract

According to the present invention, the engine pump functioning as a main pump can also function as a charge pump (auxiliary pump) function, so it is not necessary to install a separate charge pump, so the installation structure is simplified and compact, the installation cost is reduced and the installation place is small. It is to provide a fire-fighting system that automatically checks the normal operation of the engine pump and does not require a separate valve opening / closing operation to test the operation of the engine pump. To this end, one or more sprinklers installed on the ceiling of the building, a reservoir for storing the fire extinguishing water supplied to the sprinkler to extinguish the fire in the building, an engine pump for supplying the water stored in the reservoir to the sprinkler through a pipe line, In the fire-fighting system comprising a pressure measuring means for measuring the pressure in the pipe line, the engine pump is a secondary pump specification that operates to supplement the pressure when the pressure in the pipe line falls to the first set pressure; It is designed to be driven with a two-stage operating system of the main pump specifications to operate when the second set pressure is set lower than the first set pressure lower than the predetermined set due to the fire occurs, the pressure measured by the pressure The number of revolutions set by the engine pump as an auxiliary pump (charge pump) when it is detected that the first set pressure has been reached; Outputs a first control function sequence for controlling the engine pump to start and stop after reaching the normal upper limit pressure, and when it is detected that the pressure measured by the pressure measuring means has reached the second set pressure; Engine pump control means for outputting a second control function sequence for controlling the engine pump to spray water to the fire site through the sprinkler to maintain the sprinkler operating pressure by starting the engine pump at the rotational speed and function of the main pump specifications. It is composed.

Description

Fire protection system

The present invention relates to a fire-fighting system that is installed to automatically extinguish the fire in the building initially.

There are many ways to extinguish a fire, but water extinguishing equipment is most effective and economical in extinguishing most general fires except oil fires, electric fires and special fires.

Accordingly, in the case of a multi-use or large-scale building, a fire protection system, which is an indoor fire hydrant, is to be built as a means to prevent the spread of fire through early suppression of fire in the event of a fire. A system that installs a sprinkler, runs a fire pump (engine pump) in case of fire, supplies water to the sprinkler, and sprays it indoors including a fire site.

According to the Enforcement Decree of the Installation Maintenance and Safety Management Act of Fire-fighting Facilities, fire-fighting objects to which sprinkler facilities should be installed have a capacity of 100 or more, and the floor area of the floor used for movie theaters is provided in basement or windowless. At least 500 m², in case of other floors, at least 1,000 m2, in case of stage part on basement floor, windowless floor, or at least 4 floors, the area of stage part is at least 300 m2. It is mandatory to install sprinkler in buildings where the floor area of sales and sales facilities is more than 6,000 square meters and buildings with more than 4 floors as floors with less than 5,000 square meters. In the case of sales or sales facilities, the building has three floors or less and the total floor area of the sales and sales facilities is more than 6,000㎡. A building with four or more floors, where the floor area of sales and sales facilities totals more than 5,000 m2, an apartment building with more than 11 floors, an elderly person facility, or a mental health facility pursuant to Article 3 (2) of the Mental Health Act. Installation of sprinkler equipment is mandatory in facilities with a total floor area of 600m2 and a rack-type warehouse with a ceiling or half height of more than 10m and a floor area of more than 1,500m2.

In order to supply water to the sprinkler, a fire extinguishing tank for storing a large amount of water is provided in a building, and a fire pump for supplying water to a required place, that is, a fire place, is installed in the building.

The fire pump receives mechanical energy through a drive unit such as an electric motor or an internal combustion engine (engine) to give pressure and speed to the liquid (water for fire extinguishing), which is used to extinguish fire by supplying fire extinguishing water to a sprinkler through a pipe. Facility.

1 is a view showing the piping and signal system of the existing fire protection system, a plurality of sprinkler 60 is installed on the ceiling of the building, the sprinkler 60 is connected to the main pump 64 through the piping line 62 The main pump 64 is connected to a reservoir (not shown) for storing fire extinguishing water through a pipe line 66.

The main pump 64 is installed to have a pump capacity for supplying the amount of extinguishing water required for fire extinguishing, and the pipe line 62 is maintained at a predetermined pressure at all times until a fire occurs.

However, as time passes, the water in the pipe line 62 leaks little by little or is lost by evaporation, so that the pressure drops, together with the main pump 64 to compensate for the reduced amount of water (jockey pump, auxiliary pump). (68) are separately installed (see NFPA [National Fire Protection Association], item A.5.24).

The charge pump 68 is a fire-fighting facility installed on the discharge side of the fire-fighting main pump, which is installed to maintain the pressure in the pipe line for supplying the extinguishing water (water) at a predetermined level or more, that is, to maintain the set pressure in the pipe line 62. If a small amount of water is lost due to leakage or evaporation, and the pressure is lowered, if the main pump 64 is immediately operated for pressure compensation, the facility itself may be overwhelmed and the capacity is smaller than that of the main pump. When the pressure pump 68 is set aside and the amount of water naturally lost becomes a predetermined amount or more, that is, when the water is lost and the pressure of the pipe line 62 drops to a predetermined value, the pressure is switched to the switch sensor 72. The pressure pump 68 is operated through the operation signal output of the control means 74 to supply water so that the inside of the pipe line 62 maintains a predetermined target pressure at all times.

The capacity of the charge pump (auxiliary pump) is 60 LMP or less for fire fighting methods. However, if the rated discharge amount is more than 60 LPM and 200 LPM or less, the effective main pressure is installed near the discharge side of the pump. If it is possible to start the engine, the NFPA-20, which is a US regulation, calculates the amount of leakage that may occur at the connection part of the pressurized pipe line, and the charge pump can be started and refilled within 10 minutes. It is prescribed to determine the capacity of the charge pump based on the larger of the capacity and 3.8LPM (1GPM).

However, according to the conventional fire-fighting equipment regulations, as described above, the charge pump (auxiliary pump) 68 is installed separately from the main pump 64, which increases the cost and requires a lot of installation space. The main pump 64 and the charge pump 68 may not be installed separately in the same space due to lack of structure or installation space, and thus there is a problem that the installation cost increases due to the complexity of the piping line.

Another problem is that the main pump 64 should be operated periodically to check whether the main pump 64 maintains its normal operating condition. In many cases, the main pump 64 may be left unmanaged for a long time. 64) is not normally operated, causing failure of the initial fire suppression, leading to a large fire accident, the main causes of the cooling water, engine oil and engine oil used in the engine pump fire pump (64) Lack of fuel oil and neglect of battery discharge have been pointed out, and in order to prevent this, the manager must periodically test the main pump 64 to check whether it is operating normally. It is difficult to avoid the increase, and in particular, the sprinkler 62 is broken during the test operation of the main pump 64 so that the extinguishing water is not ejected. Since the test drain line 70 is to be separately installed in the pipe line 62 to separate out the pumped water, and the water drained through the drain line 70 must be treated, the facility structure becomes complicated. Have.

[Non-Patent Document 1] NFPA [National Fire Protection Association] A.5.24 Item [Non-Patent Document 2] Fire Protection Handbook, 17th Edition (1991)

The present invention has been proposed to solve the above problems, the engine pump functioning as the main pump can also be used as a charge pump (auxiliary pump) function, so it is not necessary to install a separate charge pump, the installation structure is simple and compact It is to provide a fire protection system that reduces installation cost and requires a small installation place.

It is another object of the present invention to provide a fire protection system that automatically checks whether the engine pump is normally operated while functioning as a charge pump for supplementing pressure when the pressure inside the pipe line reaches a lower set value.

Still another object of the present invention is to provide a fire protection system that does not require a separate valve opening and closing operation for the operation test of the engine pump.

In order to achieve the above object, the fire-fighting system of the present invention includes one or more sprinklers installed on the ceiling of a building, and a storage tank for storing fire extinguishing water supplied to the sprinkler to extinguish a fire in the building, and An engine pump for supplying water to a sprinkler through a pipe line, and a pressure measuring means for measuring the pressure in the pipe line, wherein the engine pump, the pressure in the pipe line is the first set pressure To operate with a two-stage operating system of the auxiliary pump specification that operates to replenish the pressure when it is lowered and the main pump specification that operates when the second set pressure is set lower than the first set pressure due to a fire. The engine pump when it is detected that the pressure measured by the pressure measuring means has reached the first set pressure. Outputs a first control function sequence for controlling the engine pump to start and stop after the pump reaches its normal upper limit pressure by setting the auxiliary pump (charge pump) specifications and the pressure measured by the pressure measuring means. The engine pump is controlled to spray water to the fire site through the sprinkler to start the engine pump at the rotational speed and function of the main pump specification to maintain the sprinkler operating pressure when the second set pressure is detected. And an engine pump control means for outputting a second control function sequence.

According to the invention, the pressure measuring means is characterized in that it comprises a pressure switch sensor for the auxiliary pump operation and the pressure switch sensor for the main pump operation.

According to the present invention, the rotation speed of the main pump specification is characterized by having a rotation speed higher than the rotation speed of the auxiliary pump specification.

According to the present invention, the driving is controlled by the control means so that one engine pump can be used in combination with the main pump function specification and the auxiliary pump function specification, it is possible to omit the auxiliary pump conventionally installed with the main pump. As the installation cost is greatly reduced and the installation space is small, the freedom of installation of the fire-fighting equipment is greatly increased in the small space, and the engine pump periodically functions as a supplementary pump function to compensate for the pressure drop in the piping line. As it starts up, it is not necessary to test whether it functions as a main pump, so management and maintenance are easy, and a separate test for maintaining the main pump function can be omitted.

In particular, there is an advantage of not having to operate a separate valve for the operation test of the engine pump.

1 is a view schematically showing a pipe and a signal system of a conventional fire fighting system.
2 is a view schematically showing the piping and signal system diagram of the fire fighting system according to the present invention.
3 is a control block diagram of an engine pump of the fire fighting system according to the present invention.
Figure 4 is a graph showing the operating specifications of the engine pump used in the fire fighting system according to the present invention.

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

The embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, and the following examples can be modified in many different forms, and the scope of the present invention is as follows. It is not limited to an Example. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the inventive concept to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

2 is a view schematically showing a fire fighting system according to the present invention, FIG. 3 is a control block diagram of a fire fighting system according to the present invention, and FIG. 4 is an engine pump for use in the fire fighting system according to the present invention. This graph shows the operating specifications.

In FIG. 2, the fire protection system of this invention is equipped with one single engine pump 10 which integrated the function of a main pump and an auxiliary pump (charge pump).

The engine pump 10 is a combination of the pump (10b) for pumping and feeding water and the engine (10a), which is an internal combustion engine that generates the driving force of the pump, attaching the actuator to the governor shaft of the engine, the reducer to the actuator It includes a small DC motor, a switch, and an accelerator, and is configured to control the engine speed and power by controlling the lever of the accelerator to be pushed and pushed. The main pump function and the auxiliary pump (charge pump) function It is designed to be used as both.

The engine pump 10 is connected to the pump inlet side through a water tank 12, which is a water tank for storing water for fire extinguishing, and a pipe line 14, and the outlet side thereof is a sprinkler installed on a ceiling of a building through a pipe line 16. Is connected to (18), one or more sprinkler 18, a plurality is installed along the pipe line 16 according to the building structure, the sprinkler 18 detects this if the temperature of the room is above the specified value and sends out a signal. When the temperature sensor is installed, or when the set temperature is reached, the temperature sensor is damaged to spray water in the pipe line 16.

A branch line 20 is connected in the middle of the pipe line 16, and a pressure tank 22 is installed at the end of the branch line 20 so that the pressure in the pipe line 16 is always maintained in the pressure tank 22. And a pressure measuring means 24 for measuring the internal pressure thereof, for example, the pressure switch sensor 26 for auxiliary pump operation and the main pump operation. A pressure switch sensor 28 is provided.

Pressure information detected by the auxiliary pump operation pressure switch sensor 26 and the main pump operation pressure switch sensor 28 is input to the composite receiver 34 connected by signal lines 30 and 32, and the composite receiver 34. Outputs the received information to the engine pump control means 40 through the signal lines 36 and 38, and based on the received information, the engine pump control means 40 is the engine 10a of the engine pump 10. To control the number of revolutions.

Here, reference numerals 50, 58, 60 are valves provided to selectively open and close various pipe lines, reference numeral 52 is a pressure measuring gauge for measuring pressure inside the pipe line 16, and reference numerals 54 and 56 are engine pumps. Water discharge line (54, 56) through the relief valve to protect the pipe 16 for safety when the 10 function as the main pump or the auxiliary pump (charge pump), 62 is a flow meter for measuring the flow rate to be.

Reference numerals 52, 56, 58, 60, and 62 are pipe parts for performance test for supplying water to be pumped to the pipe line 16 when the engine pump 10 operates to function as a main pump, but checks the flow rate and head. As a performance test method, (1) the valve (50) attached to the pipe line (16) is closed, (2) the valve 58 at the T-join branch branched from the pipe line (16) is completely opened, and (3) the discharge valve (60). ) Is a device that checks the flow rate with ④ flow meter 62 and ⑤ the pressure gauge according to the flow rate with the pressure measuring gauge 52.

The engine pump 10 integrates the functions of a conventional main pump and an auxiliary pump (charge pump). In order to perform the auxiliary pump function, the internal pressure of the pipe line 16, that is, water leaks or evaporates, and thus the pressure tank. (22) is operated when the pressure in the pipe line 16 does not meet the prescribed conditions and falls to a predetermined pressure to pump water so that the pumping stops when the pressure in the pipe line 16 reaches the prescribed upper limit value, and functions as a main pump. In order to carry out water (sintered water) in which the fire is detected on the sprinkler 18 side or the sprinkler 18 reaches the set temperature and the seal is broken to maintain a predetermined pressure in the pipe line 16. ) Is sprayed through the sprinkler 18 so that the pressure in the pipe line 16 is rapidly lowered to reach the set pressure, the operation is controlled to function as the main pump.

The method of setting up the auxiliary pump (charge pump) function is at least 2kg / cm ² greater than the natural pressure of the hose connection of the uppermost layer, the rated discharge amount should not be less than the normal leakage amount, and the discharge amount sufficient to allow the indoor fire hydrant to operate automatically. Should be designed to maintain

As such, the rated discharge pressure for performing the auxiliary pump function is set at least 2 kg / cm ² larger than the natural pressure of the highest hose connection port because of the water tank installed on the roof of the building when the water pressure in the pipe is lower than the standard pressure. This is because it is necessary to set the starting pressure of the auxiliary pump (charge pump) so as to prevent replenishment by the natural pressure and to always be supplemented by the start of the charge pump. Since it cannot be pressurized, it will continue to operate, and eventually the main pump function will be activated and the pressure should be replenished. Therefore, when the charge pump function is operated to prevent such a situation, the head is operated for the main pump function. It should be designed to have the same head lift as the head of the city.

In general, if the high-cost fire hydrant water tank (reservoir 12) installed on the roof takes 0.5kg / cm ² , it is designed to have a head that can take 0.5 + 2.0 and take more than 2.5kg / cm ² when the auxiliary pump functions. Therefore, if the height from the top hydrant to the engine pump outlet is 15m, it is 0.5 + 2.0 + 1.5kg / cm ² to have a head of 40m or more, or it is designed with the same size as the head of the main pump function. It is desirable to consider the friction loss head.

3 is a block diagram of the engine pump operation control of the present invention, the pressure information in the pipe line 16 detected by the pressure measuring means 24 is transmitted to the multiple receiver 34, the engine pump control means by the signal 40 controls the operation of the engine pump 10.

The engine pump control means 40 is largely comprised of three elements, the CPU 42, the control part 44, and the detection part 46, and the control part 44 preheats, starts and stops, and the acceleration / deceleration of the rotation speed of the engine. Speed control, the detection unit 46 detects the engine speed rpm, fuel amount, coolant temperature, engine oil pressure, engine start confirmation, etc. of the engine pump through a variety of sensors to determine the abnormal operation of the engine pump alarm signal And outputs the first control function sequence to the engine according to the detected pressure information, and controls the engine to be driven by the auxiliary pump function. It is controlled to operate with the main pump function.

Figure 4 is a graph showing the specification of the auxiliary pump function and the main pump function of the engine pump of the present invention, the pumping capacity per unit time (m ³ / min) decreases if the pump head increases when the number of revolutions of the pump is constant The higher the pump speed, the higher the pump head when the pumping capacity is the same as the lower pump speed.If the pump is the same, the pump with the higher pump speed has a higher pumping capacity than the pump with the lower pump speed. Indicates.

For example, in FIG. 4, when the auxiliary pump function of the engine pump 10 of the present invention is designed to rotate at 2,050 rpm, and the engine is designed to rotate at 2,200 rpm when performing the main pump function, the head is lifted. In the correlation between (m, head) and pumping capacity (m ³ / min), changes in head and pump output according to the rotational rpm of the auxiliary pump and the rotational rpm of the main pump are shown in red and blue curves, respectively. Indicated.

When the main pump function and the auxiliary pumps are designed to have the same head height of 57 m each, the pump discharge volume of the 57 m head, which is the specification point of the auxiliary pump function (marked with an X in the red curve), is 0.06 rubes (m ³ / min). In the case of 57m lift which is the main pump function specification point (marked with X in blue curve), the pump discharge amount is 1.0 lube (m ³ / min).

Hereinafter, the operation of the present invention will be described in more detail with reference to specific embodiments exemplified above.

Referring to the operation example when the engine pump is the main pump function and the auxiliary pump (charge pump) function, if the upper limit of the normal pressure in the piping line 16 is designed to 4kg / cm ² , the lower limit for the pressure supplement (first set pressure) is set to than 1kg / cm ² low degree 3kg / cm ^2, the pressure in the first pipe line 16 is the pressure is maintained so that the 4kg / cm ^2. When the water leaks or evaporates from the pipe line gradually over time, and the pressure in the pipe line decreases and reaches the lower limit, that is, the first set pressure of 3 kg / cm ² , the pressure switch sensor for operating the auxiliary pump of the pressure measuring means 24. 26 detects this and transmits a signal to the composite receiver 34, and this information is transmitted back to the engine pump control means 40 so that the engine pump control means 40 sends the first control function sequence to the engine 10a. The engine 10a rotates at a preset speed of 2,050rpm by outputting an operation signal, thereby sucking the water in the reservoir 12 and discharging it in an amount of 0.06 rubes per minute, and the head lift is 57m. .

The discharged water is supplied to the pipe line 16, the internal pressure of the pipe line 16 increases in proportion to the increase of the amount of water flowing in, and when it is detected that the upper limit pressure of 4kg / cm ² is reached, The detection signal is applied to the engine pump control means 40 through the composite receiver 34, and the engine pump control means 40 determines that the replenishment of pressure has been completed to the normal value based on the detection signal information, and the engine 10a ) To turn off the drive.

This operation is such that the engine pump is driven with the auxiliary pump function specification (2,050 rpm set in the embodiment) whenever the first set pressure is detected by the pressure drop gradually due to leakage in the pipe line under no fire. The stop is repeated, and the test operation of whether the engine pump 10 is normally operated while maintaining the pressure at a normal level is also performed. In other words, the operation of the engine to perform the auxiliary pump function is to confirm that the same can be operated with the main pump function of high speed.

On the other hand, the pressure condition (starting point pressure: second set pressure) for operating the engine pump to function as the main pump in case of fire is 2.0 kg / cm ² lower than the first set pressure, for example, the auxiliary pump function driving pressure. It is set to about kg / cm ² (second set pressure).

If a fire occurs and the sprinkler 18 bursts in response to an increase in temperature, the pressure in the pipe line 16 quickly flows through the sprinkler 18 to a fire site in the room. When the internal pressure suddenly drops and reaches the second set pressure of 2.0 kg / cm ² , the pressure switch sensor 28 for operating the main pump of the pressure measuring means 24 detects this and sends a signal to the composite receiver 34. The signal is applied to the engine pump control means 40 again, and the engine pump control means 40 determines that a fire has occurred based on the detected signal information, and outputs a second control function sequence so that the engine advances. It rotates at 2,200rpm designed for the main pump function and discharges 1 lube of water per minute from the engine pump. At this time, the head lift is 57m and the discharge pressure is set to 1 ~ 2kg / cm ² higher than the first set pressure. 5kg / cm ² (or 6kg / cm ²⁾ while spraying the water through the sprinkler 18 to the indoor scene of the fire is to extinguish the fire automatically.

According to the present invention, one engine pump is designed to function by combining the main pump function and the auxiliary pump function, the auxiliary pump can be omitted, the engine pump periodically by the auxiliary pump operation function for charging pressure Since it is automatic, the main pump function maintenance test does not need to be performed separately.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and alterations are possible within the scope without departing from the technical spirit of the present invention, which are common in the art. It will be apparent to those who have knowledge.

10: engine pump 12: fire extinguishing tank (water tank)
14: piping line 16: piping line
18: Sprinkler 20: Branch line
22: pressure tank 24: pressure measuring means
26: Pressure switch sensor for auxiliary pump operation 28: Pressure switch sensor for main pump operation
30, 32, 36, 38: Signal line 34: Multiple receiver
40: engine pump control means 42: CPU
44: control unit 46: detection unit
48: Alarm signal 50,58,60: Valve
52: pressure measuring gauge 54, 56: water discharge line
62: flow meter

Claims (3)

At least one sprinkler installed on the ceiling of the building, a reservoir for storing fire extinguishing water for supplying the sprinkler to extinguish a fire in the building, an engine pump for supplying water stored in the reservoir to the sprinkler through a piping line, and In the fire-fighting system comprising a pressure measuring means for measuring the pressure in the pipe line, the engine pump is characterized in that the auxiliary pump to operate to supplement the pressure when the pressure in the pipe line drops to the first set pressure, and the fire It is designed to be driven with a two-stage operating system of the main pump specification that operates when the second set pressure is set to less than the first set pressure due to the occurrence, the pressure is measured by the pressure measuring means 1 When the engine detects that the set pressure has been reached, the engine pump operates at the rotation speed and function set by the auxiliary pump (charge pump) specification. Outputting a first control function sequence which controls the engine pump to start and stop after reaching a normal upper limit pressure; when detecting that the pressure measured by the pressure measuring means has reached the second set pressure, the engine pump And an engine pump control means for outputting a second control function sequence for controlling the engine pump to spray water to the fire site through the sprinkler so as to maintain the sprinkler operating pressure by starting at the rotational speed and function of the main pump specification. However, the fire engine system, characterized in that designed to have a higher rotation speed than the set speed of the main pump specifications of the auxiliary pump specifications. The method of claim 1,
The pressure measuring means comprises a pressure switch sensor for auxiliary pump operation and pressure switch sensor for main pump operation.


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