KR200287708Y1 - Multi-functionated decompression valve for constructing facilities - Google Patents

Abstract

The present invention mainly relates to a water pressure reducing valve installed in a branch pipe such as a water supply pipe to maintain a constant water pressure discharged to the faucet, or to adjust the hydraulic pressure applied to the branch pipe, a ball check and a pressure reducing valve having a built-in filter network and protecting a flow meter. It includes a relief function to protect the installation of a separate bypass cock in the cap of the filtering net to facilitate the flashing work of the pipe.

Description

Multi-functionated decompression valve for constructing facilities

The present invention relates to a pressure reducing valve installed at the outlet side of a pump for controlling water flow in water supply, air conditioning, and fire extinguishing pipes applied to building equipment, and in particular, a light check valve and an inlet for preventing idling of a flowmeter due to backflow. Pressure relief for stable pressure reduction by installing a relief valve that prevents overpressure from being inflated by operating heat, such as a filtering net installed obliquely to the pipe, a manual closing mechanism for flashing bypass for pipe commissioning, and a heating and cooling mechanism installed on the outlet side. Valve.

Looking at an example in which a conventional pressure reducing valve is applied, as shown in Figure 3, the base (through the main pipe 100 to the specific location for each household or a specific position by using the water supply pump 112 in the water supply tank is configured as shown in Figure 3 B) to lift the water from the top layer (T), branching the branch pipe 101 at each reference height and to install the faucet 110 for the purpose of opening and closing at the end, each of the branch pipe 101, the subject innovation The pressure reducing valve (1) to be dealt with will be installed.

As described above, the reason why the pressure reducing valve should be installed in each branch pipe 101 having different head heights branched to each floor or each faucet 110 is that the pipe diameter and tube friction force of the main pipe 100 and proper discharge of the faucet 110 are provided. In order to pump the water supply pump 112 for supplying water at an appropriate pressure to the faucet 110 installed in the uppermost layer T, for example, if the pressure of "10kg / cm" is required, the faucet installed in the base layer B is required. The pressure of the water supply delivered to the 110 becomes a pressure close to the basic pressure of the water supply pump 112 "10kg / cm" will not be able to receive the water supply ruptured or ejected the faucet 110, this time the top layer (T As the lifting pressure of) is lost by the faucet 110 of the base layer B, the water supply cannot reach the uppermost layer T.

Therefore, the faucet 110 installed in each floor must be depressurized to supply water at a constant low pressure at all times, and the water supply is made to the faucet 110 of the uppermost layer T by the remaining pressure reduced.

The pressure reducing valve acting as described above must be installed and used essentially on a pipe for supplying water to each faucet installed at various head heights through one main pipe 100 using one feed pump 112.

The present invention for satisfying the above action occurs not only in the flow pressure control of the water supply by the depressurization action, but also when the water supply is stopped by the interruption of the faucet or when the water flows back in a state in which the water supply is stopped by the water supply. Light-weight ball check valve to prevent idle flow meter, Relief valve to prevent overpressure due to rise of secondary pressure due to operation of air-conditioning equipment, Drain cock for protection of equipment by prolonged shutdown, and piping flashing An object of the present invention is to provide a multifunctional pressure reducing valve in which a bypass cap is provided for convenience.

Figure 1a is a cross-sectional view showing the main configuration of the present invention,

1b is an operation state diagram of the present invention,

Figure 2 is a sectional view of the filter portion of the present invention,

3 is a conventional piping diagram in which a pressure reducing valve is installed and used.

Explanation of symbols on the main parts of the drawings

One ; Pressure reducing valve 2; Entrance

2a; Outlet 2c; Pressure chamber

11; Pressure reducing rod 12; Decompression spring

20; Diaphragm 21; Yoke coupling rods

22; Yoke connection arm 23; York

30a; Disc fixing pin 30; disk

31; Filtration hole 32; Light weight ball check

33; Decompression regulator tube 34; Relief valve

40; Drain cock 41; Airtight housing

50; Filter network 52; Filter Screen Flashing Cover

53; Cap for bypass 54; Supply port

The present invention for achieving the above object is a combination of the water supply pressure loss prevention filter means and the convenient means of flashing and operation test, the backflow prevention means to prevent idle flow of the flow meter, the overpressure prevention means for preventing secondary side burst Referring to the accompanying drawings as a configuration when explaining the configuration and operation as follows.

Figure 1a is a central longitudinal cross-sectional view showing the main configuration of the subject innovation, Figure 2 is a configuration diagram for the filtration device of the subject innovation,

At the front end of the inlet port 2, a filtration hole 31 having a shape inclined with respect to the inlet port 2 is formed, the filter net flashing cover 52 is opened to install the filter net 50, and the filter net flashing cover 52 A filtration chamber 51 having a bypass cap 53 is formed in the center, and the filtration hole 31 is extended to form a supply port 54, and a lightweight ball check 32 is installed at the tip thereof. In addition, the relief valve 34 formed by placing a relief valve 34 on the upper portion thereof was formed to open downward.

In addition, the space in which the depressurization adjusting tube 33 is located forms a pressure action chamber 2c, and the outlet port 2a is formed at the right side thereof, and a sealed housing 41 is installed at the lower side thereof, while a drain cock ( 40) was installed to discharge the water in the pressure chamber 2c.

On the other hand, the diaphragm 20, which is reciprocated up and down by the pressure of the pressure action chamber 2c, is fixed to the upper part of the pressure action chamber 2c by pressing the circumference with the pressure reduction chamber cover 10, and the diaphragm 20 The pressure reducing adjustment rod 11 was fixed to the yoke coupling rod 21 penetrating the center thereof, and a pressure reducing spring 12 was pressed through the pressure reducing spring 12 to adjust the pressure reducing spring 12 therebetween.

In addition, the yoke 23 is integrally formed at the lower end of the yoke connecting arm 22 extending downward from the yoke coupling rod 21, and the pressure reducing adjustment pipe 33 is opened using the disc fixing pin 30a. It is a pressure reduction valve 1 of the structure which fixed the disk 30 in close contact with a part.

As described above, the pressure reducing valve 1 of the present invention configured as described above is mainly used to be installed in a part of branch pipes such as water supply pipes or firefighting pipes of a large-scale house or a building constructed of a multi-tiered building such as an apartment. It is common.

Accordingly, the pressure reducing valve 1 of the present invention has a bypass cap of the filtration chamber so that various floating materials introduced during piping construction can be easily discharged from the pipeline when the piping construction is completed in addition to the depressurization action which is a basic operation. 53) is opened and commissioned. This action solves the problem of not being able to perform a sufficient test run because damage to the filter network 50 due to a large amount of suspended matter moved with the feed water during initial test run or the smooth water supply is not made. .

In addition, the lightweight ball check 32 attached to the tip of the supply port 54 extending to the depressurizing adjustment pipe 33 is prevented from idling by flowing back the flowmeter due to the unexpected flow of water in case of sudden stop of water or depressurization. The water supply does not flow back because it consists of a lightweight ball check 32 composed of relatively light and agile synthetic resin balls.

The water supplied through the filtration chamber 51 and the light ball check 32 as described above pushes the yoke 23 coupled to the diaphragm 20 by the adjustment pressure of the pressure reducing rod 11, so that the yoke 23 The water supplied to the disk 30 coupled to the () by opening the pressure-reducing adjustment tube 33 is introduced into the pressure operating chamber (2c), the pressure is applied to the whole by the water supply pressure, the outlet port (2a) by the water supply pressure ), Water is supplied to the faucet installed at the end of the branch pipe.

At this time, the pressure adjusting rod 11 is adjusted to supply water at an appropriate pressure in the faucet. The adjusting method is well known, but in brief, the pressure discharged from the faucet is, for example, 0.3 kg / cm is most suitable. If the diaphragm 20 is raised by the water supply pressure exceeding the 0.3kg / cm, this is the diaphragm 20 by adjusting the decompression adjustment rod 11 to adjust the elasticity of the decompression spring 12 installed at the end thereof. It can be flowed by the pressure acting on.

That is, the diaphragm 20 always moves to draw a yoke 23 at a pressure greater than the pressure discharged from the faucet, so that the disk 30 fixed to the yoke 23 blocks the pressure reducing control tube 33. Only the discharge pressure set in the faucet 110 is generated in the pressure operation chamber 2c, so that the discharge chamber always has a constant discharge amount.

On the other hand, when the faucet 110 is locked and the pressure in the pressure acting chamber 2c corresponds 1: 1 with the pressure in the pressure reducing regulator 33, the pressure on the outlet 2a side is increased by the indoor air-conditioning equipment, resulting in a diaphragm. There is a case in which the overpressure is applied to (20), causing a risk of rupture. In this case, the relief valve 34 connected to the pressure acting chamber 2c is opened so that the overpressure is avoided by the pressure reducing regulator 33, thereby rupturing. Will be prevented.

When the water in the pipe needs to be emptied due to the inspection or replacement of the pipe, the water supplied to the pressure reducing valve 1 is discharged only by opening the drain cock 40 without the need of opening the sealed housing 41. It will be easy to maintain and maintain.

The present invention works as described above by a multifunctional pressure reducing valve equipped with safety devices to prevent idling such as flowmeter due to unexpected overpressure rupture or reverse flow of water in addition to the unique action provided by the pressure reducing valve. It is a very useful design to obtain safe and effective decompression action by adding various functions.

Claims (4)

In a well-known conventional pressure reducing valve for the purpose of lowering the pressure of a primary pipe in a construction equipment pipe, and making a proper discharge pressure with the water supply opening valve (hydraulic) installed in a secondary pipe, A filtering net 50 is provided in the filtering hole 31 inclined with respect to the inlet 2; Placing a bypass cap (53) in the center of the filtering network flashing cover (52) of the filtering hole (31); A pressure reducing adjustment tube (33) is formed at the tip of the supply port (54) extending from the filtration hole (31) so as to open downward; An outlet 2a penetrates the right side of the pressure chamber 2c in which the depressurization adjusting tube 33 is located; An airtight housing (41) is installed below the pressure chamber (2c); A diaphragm 20 is fixed to the upper portion of the pressure operation chamber 2c; The yoke 23 is integrally formed at the end of the yoke connection arm 22 extending downward in the state fixed by the yoke coupling rod 21 penetrating the center of the diaphragm 20; Fixing the disk 30 to the yoke 23 with a disk fixing pin 30a; Multifunctional pressure reducing valve for building equipment, characterized in that the configuration of the pressure reducing valve (1) provided with a pressure reducing adjustment rod (11) in the state of the yoke coupling rod (21) through the pressure reducing spring (12). The method of claim 1, Multifunctional pressure reducing valve for building equipment, characterized in that to install a lightweight ball check 32 at the tip of the supply port (54). The method of claim 2, Multifunctional pressure reducing valve for building equipment, characterized in that the relief valve 34 is installed on the upper portion of the lightweight ball check (32). The method according to any one of claims 1 to 3, Multifunctional pressure reducing valve for building equipment, characterized in that to install a drain cock 40 in the center of the sealed housing (41).