KR100305243B1 - Apparatus For Suppling Water Using Air Pressure - Google Patents

Abstract

The present invention relates to a device capable of simultaneously supplying digestion water and water supply using air pressure. The air suction tank (14), the water storage pressurization tank (11), and the distribution of the water stored in the water storage tank (40) using a venturi phenomenon It includes a header 20 and an uninterruptible power supply (UPS), so that water can be supplied at an equal pressure, and the water tank and auxiliary water tank installed on the roof of the existing construction can be removed. It can prevent water hammer and cavitation.

Description

Apparatus For Suppling Water Using Air Pressure}

The present invention relates to a device for supplying water and extinguishing water using air pressure, and more particularly, to install a water storage pressurized tank used for water supply and fire extinguishing in a machine room in the existing ground and underground. In addition to preventing excessive loads, water supply distribution headers are installed to maintain uniform water pressure in each floor, and to prevent water hammer, surge, and cavitation, which can occur during emergencies such as power failures. It is about.

Conventional technology regarding a device for supplying water using air pressure can be found in the air pressure supply device for a high-rise building of Korean Utility Model Publication No. 95-5531.

In this invention, the main pressure regulating unit attached to the outlet side of the air tank (3) and a plurality of auxiliary pressure regulating units connected in parallel to the outlet pipe of the migration pressure regulating unit, each of the pressure regulating unit is a gate valve (5) ) And a pressure control valve (6) connected in series with the gate valve (5) to selectively control the water supply pressure according to the height of each floor of the building without installing multiple water supply tanks or separate air pressure water supply system. This can reduce the installation cost of the water supply system as well as reduce the load on the building by the water supply system. However, this design did not provide a solution for the installation of a fire water tank, and a pressure control valve that directly regulates the water supply pressure in each water supply area in the water tank is directly connected to the water supply pipe. I did not solve all the problems.

In addition, there is a case that the water supply system is unreasonably loaded because there is no technical means to cope efficiently in an emergency such as a power failure.

On the other hand, the automatic water supply system using the atmosphere of the Korean Patent Publication No. 93-5334 is configured to perform a dual function that the incoming water pushes the air into the pneumatic water tank and pressurizes the air layer in the pneumatic water tank Not only does it require a separate air compressor, but it also has the advantage of low facility area and electricity consumption.

However, the above invention also has a limit to smoothly supply air because the configuration of the automatic air supply container, which is a means for supplying air in the pressurized water tank, serves only as a simple reservoir. In addition, the emergency solenoid valve operates in an emergency such as a power failure to close the pressure valve through the compressed air supply pipe connected to the lower part of the pressure valve, thereby stopping the water supply. .

The present invention is to remove the concrete water tank and the fire extinguishing water tank installed on the roof of the conventional building by installing a water storage and pressure tank for both water supply and fire extinguishing water in the existing machine room on the ground or underground to solve the above problems It aims to provide a combination of pneumatic water supply and fire extinguishing that not only looks good but also reduces the cost of construction work.

In addition, the structure of the air suction device for supplying air to the water storage pressure tank is configured in the shape of the venturi tube to automatically supply efficient air.

The water distribution header is installed between the main water supply pipe connected to the outlet of the water storage pressure tank and the water supply pipe and the fire fighting pipe connected to each zone to reduce the water pressure and prevent water hammer due to the rapid change in water pressure. For the purpose of the invention.

On the other hand, the present invention can prevent the overload of the load to restart by installing an uninterruptible power supply (UPS) to the control panel to provide a continuous water supply in the event of an emergency, such as in the event of a power failure The water supply is not smooth enough to overcome the difficulty of failing the initial evolution.

1 is a schematic diagram of a pneumatic water supply system, for the prior art

2 is a block diagram showing the main parts of the overall system according to the present invention

Figure 3 is a block diagram showing the internal structure of the air suction tank of the present invention

4 is a view showing a control panel of the present invention;

5 is a circuit diagram of an uninterruptible power supply according to the present invention.

(Symbol description of the main configuration of the drawings)

11, 111; pressure tank 12; water supply pump 13; auxiliary fire pump

14,114; Air suction tank 15; Main water supply pipe 16, 17, 18; Distribution water supply pipe

19; fire-fighting pipe 20; water distribution header 21; uninterruptible power supply

22; control panel 23; water line 24, 26, 35, 36; check valve

25; air supply line 27; filtration filter 28; pressure gauge

29; safety valve 30; anisotropic solenoid valve 40; reservoir

41; battery 42; surge server 43; inverter switch

44; output transformer

In order to achieve the above object, the present invention is a water supply system for transmitting water stored in a reservoir installed on the ground or underground to the water distribution pipe and fire fighting pipe of each floor using air pressure, pressurized to store air and water Tank 11; An air suction tank 14 for supplying air supplied from the outside into the pressurizing tank 11 together with water transferred from the water storage tank 40 by a water supply pump 12 and a fire extinguishing pump 13; The water distribution header 20 installed between the main water supply pipe 15 connected to the pressurized tank 11 and the distribution water supply pipes 16, 17, 18 and fire extinguishing pipes 19 sent to each floor of the building ( 20-1); And a control panel 22 including an uninterruptible power supply 21.

The air suction tank 14 is formed in the shape of a venturi tube to supply smooth air to the pressure tank.

In addition, the present invention is connected to the fire pump 13 and the separate air absorption tank 114 and pressurized in order to prevent excessive load is applied to the air suction tank 14 and the pressure tank 11 in case of emergency such as power failure. The tank 111 was installed to be distinguished from the water supply.

On the other hand, the water distribution header 20 is required for zoning by section as a header for water supply, and another water distribution header 20-1 is required for zoning such as an indoor fire hydrant and a sprinkler as a header for fire fighting water.

Install the check valve 38-1 at the lower part of the fire fighting pressure tank 111 so that the check valve 38-1 is opened only when the extinguishing water is used to supply water to the fire extinguishing pipe 19. The check valve 38-1 was closed to maintain the necessary pressure for fire fighting purposes.

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

2 is a configuration diagram showing a state in which the main part of the system according to the present invention is connected. Water stored in the storage tank 40 installed above or below the ground is supplied to the air suction tank 14 by a water supply pump. The feed water pump 12 is preferably made of stainless steel sheet of all parts except the housing of the suction and discharge.

Of course, the fire pump 13 is operated by the control of the control panel at the time of fire, a smaller capacity than the water supply pump 12 is applied, respectively, the air intake tank 114 and the pressure tank 111 for fire extinguishing separately. It was connected in parallel with feed water pump according to the installation method.

The principle that is automatically supplied in the air suction tank 14 is a known technique, as can be seen in the domestic Utility Model Publication No. 93-3667.

That is, when water is supplied to the air suction tank 14 by the feed water pump 12, the water is filled with water to the air suction tank 14, and the predetermined amount of water and a predetermined pressure previously set in the pressure tank 11 are supplied. If this occurs, the limit switch connected to the control panel 22 is operated to stop the operation of the water supply pump 12, the check valve 24 installed in the water supply pipe 23 connected to the pressure tank 11 is closed and the air suction tank When the water filled in (14) returns to the water reservoir 40 by atmospheric pressure, suction force is generated in the air suction tank 14, and the check valve 26 installed in the air supply pipe 25 is opened to filter the filter 27. Through the air is introduced into the air suction tank (14).

On the other hand, the water in the pressure tank 11 is supplied to each floor of the building, when the pressure of the pressure tank 11 drops below the predetermined pressure, the limit switch connected to the control panel 22 is activated to feed water pump 12 In operation, the check valve 26 installed in the air supply pipe 25 is closed by the pressure of the water supplied, and the check valve 24 installed in the water supply pipe 23 is opened so that the air contained in the air suction tank 14 It is automatically introduced into the pressure tank (11).

The present invention is designed so that the air and water supply can be made as fast as possible by forming the structure of the air suction tank 14 in the configuration of the air suction tank 14 in the shape of a venturi tube as shown in FIG.

The pressurized tank 11 is made of stainless steel plate and is cylindrical, and is about 15 to 17 kg / cm 2 based on a 30-story building, and when used for fire fighting, a pressure of 17 to 20 kg / cm 2 is required. .

At this time, when the fire pressure tank 111 is installed separately, the required internal pressure must maintain the fire pressure or more.

Pressure tank (11) (111) of the present invention is a water level detection sensor for detecting the water level of the high level and low level, pressure gauge (28) and safety valve (29) installed on the top of the pressure tank (11) (111) ).

The value measured by such a measuring device is displayed on the control panel 22 to automatically maintain a certain amount of water level and water pressure.

Such a control panel 22 is advantageous to configure a sequence circuit, and more preferably to use a programmable logic controller (P.L.C) to ensure stability at a predetermined value.

The inlet pipe connected to the pressure tanks 11 and 111 as described above is provided with a check valve 24 for preventing air backflow and an anisotropic solenoid valve 30 for supplying and blocking air and water, and the main water supply pipe 15. At the bottom of the pressure tank (11) (111) connected with the check valve 38 is formed to prevent the back flow of the water is provided is configured to perform the water supply smoothly.

According to the present invention, the main water supply pipe 15 is provided with a pressure reducing valve 31 for regulating the water supply pressure, and the pressure reducing valves 32 and 33 respectively on the distribution water supply pipes 17 and 18 supplied to the respective layers. Is formed.

At this time, the distribution water supply pipe 16 installed on the left side may serve as a branch pipe that is supplied to the uppermost layer because the pressure reducing valve is not installed.

On the other hand, the present invention is the water distribution header 20 is located between the main water supply pipe 15 and the branch water supply pipe 16, 17, 18.

The water distribution header 20 has a cylindrical structure that is 2 to 3 times larger than the pipe diameter, similar to the water supply header seen in a domestic boiler, etc., and at the same time acts to depressurize the water to be supplied. It plays a role to alleviate the water hammer caused by the flow path changing direction. In addition, in the event of an emergency such as a power failure, the water supply from the pressurized tanks 11 and 111 may be prevented from occurring due to a large amount of water, and may also function as a reservoir for storing a sufficient amount of water.

The water distribution header 20-1 is connected to the fire pipe, the check valve 38-1 is formed so that water can be supplied only in case of emergency.

Reference numerals 45 to 49 are flowmeters installed on the pipeline.

4 shows an external display state of the control panel 22 of the present invention.

Of course, the overall system operation is automatically known using a sequence circuit or a programmable logic controller (P.L.C). The configuration of the control panel 22 adopting such a control method is a well-known technique, but is not shown in detail, but is composed of a control unit, a driving unit, an input unit, and a display unit. The control unit is connected to receive the pressure gauge installed on each pipe and the pressure gauge 28 and the water level detection sensor installed in the pressure tank 11, the drive unit is output to the water supply pump 22, the check valve installed on each pipe To be connected. On the other hand, the input section includes a power switch, a start on-off switch, and the like, and the display section is provided with a voltage / current gauge, a level gauge, an emergency lamp, and the like.

On the other hand, the emergency buzzer is connected to the drive unit or the display unit to alert the abnormality at the low level of the pressure tank (11), or the alarm when the idle state and overload of the feed water pump (12).

However, such a conventional control panel is designed to temporarily stop the operation of the water supply pump in case of an emergency such as a power failure, so that the water supply is stopped during the operation of the emergency generator, and the water hammer, surge and cavitation of the entire system is restarted. This had to happen.

The present invention overcomes the above problems by installing a U.P.S (Uninterruptible Power System) in the conventional control panel 12.

5 is a circuit diagram showing an operation procedure of the above-mentioned uninterruptible power supply (U.P.S).

When the power failure signal is input to the input of the control panel 22, the voltage of the storage battery 41 is turned on, and is output to the output transformer 44 through the surge server 42 and the inverter switch 43.

The control unit configured as such a circuit diagram drives the water supply pump 12 and the auxiliary fire pump 112 for fire, and the voltage / current gauge is operated on the display unit of the control panel 22.

According to the above configuration and operation, the present invention can be installed on the roof of a conventional high-rise building to remove the water supply tank and the fire extinguishing tank that damage the aesthetics and increase the load of the building, and to provide a device for automatically supplying air. It speeds up faster and prevents inevitable water hammer and uneven water pressure when the direction of the flow path is changed from the main water supply pipe to the auxiliary water supply pipe, and it can supply water without interruption in case of an emergency such as a power failure.

Claims (5)

A pressure tank 11 for storing air and water to pump water stored as air; An air suction tank 14 for supplying air supplied from the outside into the pressurizing tank 11 together with water transferred from the water storage tank 40 by a water supply pump 12 and a fire extinguishing pump 13; The water distribution header 20 installed between the main water supply pipe 15 connected to the pressurized tank 11 and the distribution water supply pipe 16, 117, 18 and the fire fighting pipe 19 sent to each floor of the building ( 20-1); And a combined supply device for water supply and fire extinguishing water using air pressure, comprising a control panel 22 including an uninterruptible power supply 21. The method of claim 1, The pressurized tank 11 and the air suction tank 14 are for water supply, and both the water supply and the extinguishing water using the air pressure are characterized in that the fired pressure tank 111 and the air suction tank 114 are separately installed. Feeder The method according to claim 1 or 2, The air suction tank (14) (114) has a venturi tube shape, characterized in that the supply of water and digestive water combined using air pressure The method according to claim 1 or 2, When the fire occurrence signal is transmitted to the control panel 22, the air pressure, characterized in that for operating the fire pump 13 and the check valve 38-1 provided on the fire pipe 15-1 at the same time. Combined water supply and fire extinguishing The method of claim 1, In the uninterruptible power supply (UPS) 21, when the power failure state is input to the input portion of the control panel 22, the voltage of the storage battery 41 is turned on, through the surge server 42 and the inverter switch 43. Combined supply of water supply and fire extinguishing water using air pressure, characterized in that the circuit diagram that can be output to the output transformer 44