KR20200092651A - a piping module of a pressure switch - Google Patents

Abstract

The present invention relates to a pressure switch and a piping system related to the same, in which a plurality of pumps which operate to maintain supply of a fire extinguishing solution over a certain pressure are operated according to a set pressure. In particular, the present invention relates to a system module for a multi-stage pressure switch for a pump operation, in which a system with the pressure switches and related devices is configured to form a standard module in order to prevent a malfunction and damage to a precise pressure switch due to water hammer in a pipe.

Description

A piping module of a pressure switch

In the fire extinguishing system of a building, the fire extinguishing function must be able to achieve the expected extinguishing function when the extinguishing solution can be supplied with sufficient pressure in the event of a fire. Therefore, the main pump that normally maintains the fire extinguishing solution in the fire extinguishing pipe at a constant pressure and supplies the fire extinguishing solution at a sufficient pressure in case of fire, the pressure bump that operates to replenish the fire extinguishing solution when the pressure in the pipe drops, and the main pump during fire extinguishing When the pressure is insufficient or the main pump is in operation, a spare pump is installed to prepare for this.

These pumps operate depending on a switch that operates or stops in response to fluctuations in the pressure of the fire pipe, and it is called a multi-stage operating pressure switch that operates by a multi-stage pressure. A multi-stage actuating pressure switch that performs this function replaces the pressure chamber that is operated by filling air and fire extinguishing solution in a container that has been used in the past. Today, the analog pressure gauge by the pressure of the Bourdon tube and the digital pressure gauge that measures pressure with a pressure sensor It is used with a switch to operate according to the multi-stage pressure.

Therefore, the present invention is provided to relieve the fatal problems of malfunction and mechanical damage due to the water pressure generated by the essential pressure in the pressure switch and the pressure switch having a switch capable of multi-stage operation on the analog pressure gauge and the digital pressure gauge. The present invention relates to a piping module of a pressure switch in which a piping system for resolving water hammer is integrated and modularized.

In order to solve the above problem, conventionally, the configuration of the piping for supplying the fire extinguishing solution to the multi-stage operating pressure switch is a valve that functions to open and shut off the flow path of the extinguishing solution and to block sudden pressure or flow inertia occurring in the flow of the extinguishing solution. As a result, a pressure chamber installed to absorb water hammer, which is a strongly generated shock in the piping, and a piping system based on a test valve for drawing the extinguishing solution out of the chamber to the outside are used.

The pressure of the piping system to prevent water hammer in such a conventional system is a pressure chamber. This pressure chamber is based on the principle that the digestion solution stored in a large space and the filled air absorb and absorb the powerful water hammer generated in the piping by filling the digestion solution and air in one large container. After all, it is a device that prevents the malfunction and damage of the machine by water hammer, and furthermore, the shock and damage of the pipe.

This pressure chamber structure reduces pressure due to strong water hammer in the pipe.

The structure by the conventional pressure chamber should first have a sufficient volume of a fire extinguishing solution to absorb water hammer and a volume of a sufficiently large volume for air and a structure capable of withstanding strong water hammer. Nevertheless, the bigger structural and chronic problem is that the filled air is mixed with water over time and the pressure decreases, which implies a fatal problem that weakens its function or loses its function altogether.

Eventually, due to the characteristics of the piping system, especially the piping that is branched from the piping and installed in the air, it is excessively structured to withstand the vibration of the excessive container due to excessively heavy volume, heavy metal thickness, and water hammer. In the end, the installation of piping standards has a problem of providing an inefficient and aesthetically bizarre shape due to excessive cost burden and structural vulnerability.

The pressure switch that causes the pump to operate according to the set pressure is a sensitive mechanical device, but it must be used for piping where various water hammers occur due to fluids, and nevertheless, it should be installed to prevent mechanical malfunction and damage. In the end, it is about whether to build a piping system so that the water hammer delivered to the pressure switch can be alleviated and delivered to the sensor or Bourdon of the pressure switch.

In particular, in solving the above problems, it is conventional to rely on a pressure chamber to provide an on-off valve that is previously installed. In order to connect the on-off valve and the pressure chamber, a connection pipe 5, a suitable elbow connection, and an additional connection pipe are combined. It is an essential task of the present invention to remove the inefficient elements such as the complex structure, the installation scale is large, the space utilization, and the wasteful elements of the piping, as the piping structure of the stage is involved.

In order to solve the above problems, the present invention is to reduce and absorb the water hammer generated in the pipe in the prior art by absorbing the shock in the pressure vessel by first discharging the generated water hammer to the outside to relieve the water hammer.

Furthermore, the inlet of the fluid is opened at the end of the protruding part in order to maintain a constant clearance from the lower surface of the pressure switch, which is a blocking wall that blocks the flow of the fluid, but if the diameter of the inlet is made into a fine aperture, the pressure of the water hammer is possible. We try to solve it with a structure that minimizes.

In particular, the conventional discharge valve (2) reflects the water hammer relief function and attempts to solve the connection structure through a modular structure with a system that reflects the core connection structure and water hammer relief function of the piping system.

The present invention based on such a solution means to replace the conventional heavy and massive pressure chamber with a compact and lightweight discharge device suitable for a pressure switch of a simple structure with light weight, and at the same time, install a heavy pressure chamber in the prior art and install it in water hammer. In order to withstand the vibration and shaking caused by the system, it is possible to replace the inefficient bloated auxiliary piping with an efficient and compact structure system module, which eventually minimizes excessive cost burden and wastes in a narrow field and adopts compact structural piping. It is possible to expect a significant cost reduction.

Furthermore, it is possible to reduce the pressure chamber (3) installed in the prior art, as well as the opening and closing valve (4) of the main pipe and the connecting pipe (5) and various ancillary connections to reduce the cost of parts and pipe material cost In addition, it is possible to expect the efficiency of a breakthrough structure that is incomparable to the prior art, such as reduction in pipe cutting processing cost and construction cost.

1 is a representative view of the present invention.
Figure 2 is another exemplary view of the present invention,
Figure 3 is another embodiment of the present invention,
Figure 4 is a conventional example.

The specific structure and function of the present invention will be described in detail.

In order to extinguish a fire in a building, the extinguishing solution generally relies on a pump to supply the extinguishing solution to the piping. And running such a pump depends on the pressure switch to which the present invention is applied. That is, depending on the pressure switch (1) functioning as a switch by a certain pressure, the main pump supplying the fire extinguishing solution to the fire pipe, and when the pressure in the piping decreases, the pressure supply pump supplements the pressure by additionally supplying the fire extinguishing solution and emergency This is a structure in which a preliminary pump installed to supply a sufficient flow rate is operated.

The pressure switch is a commonly used name because it is a switch function configured to operate by a set pressure to operate and stop these pumps. When these switches meet the blocking wall that prevents the flow of the fluid 6 in the pipe, a continuous shock is generated by the fluid receiving the inertia of the flow, which is a very fatal problem for the pressure switch operated by a specific pressure. Cause. In particular, the present invention is intended to specialize in the structure of a piping system and a pressure switch, since a multi-stage operating pressure switch, which is a switch operating according to multi-stage pressure in connection with multiple pumps, is a more sensitive device. Therefore, a piping system is configured to mitigate water hammering due to dynamic fluid flow, and thus a structure for preventing a malfunction of a pressure switch and mechanical damage and shortening the life due to damage to the piping is to be achieved.

To this end, the present invention allows the supply and shut-off of the fire extinguishing solution supplied to the pressure switch connected through the connecting pipe 5 by installing the opening/closing valve 4 in the fire pipe to replace or repair the pressure switch in case of emergency. It is basically equipped with a function that makes it convenient, and by installing a discharge valve in between, it effectively improves the basic structure consisting of a discharge valve installed for overpressure or test discharge. ).

In particular, the present invention, as illustrated in Figure 4, the conventional discharge valve (2) additionally installs a connector to the piping to form a main piping out of the structure that forms a protruding branch from the main piping, and at the same time to the discharge pipe of the conventional discharge valve When the valve (20) is manually opened, the discharge function is simply improved to improve the bottom structure, and the present invention provides a water discharge valve, which is a valve that automatically discharges the fluid (6) under excessive pressure when the water hammer occurs. I want to configure

The water hammer discharge valve for automatic discharge forms a cylindrical housing 21 having a hollow for opening a fluid passage on the bottom surface, which is blocked by a spring at normal times, and opened and closed by a water hammer when water hammer occurs (22) ) Is installed in the hollow, a compression spring 23 is installed at the rear of the piston, and an external thread is formed on the support 24 for regulating and supporting the pressure of the spring at the rear of the spring. It is based on a structure that makes mutual threading. The upper piston can be a ball-shaped or a disc structure equipped with a packing member, and the upper cylindrical housing is formed by forming an outlet on the side to discharge the incoming fluid or by forming a hole in the center of the upper support. The opening piston opens the hollow at the bottom to discharge fluid. In addition, you can mount a hose to transport the discharge fluid to a specific place.

It is the core of the difference between the present invention and the conventional piping system that the gas discharge valve is the core of the main piping system that supplies the fluid to the pressure switch by moving away from the conventional auxiliary device. The discharge valve of FIG. 2A is a case where a water hammer relief valve is provided in the discharge pipe 2 of the ball valve, and FIG. 2B shows a case where a water hammer relief valve is provided in the discharge pipe of the screw valve.

The structure of the system of the present invention as described above is that the pressure chamber (3), the on-off valve (4) of the main pipe and the connecting pipe (5) connecting them between them are removed, which can be expected the efficiency of the breakthrough structure. .

When the pressure switch 1 is coupled to the end of the coupling screw 12 and the pipe 5 provided at the lower part of the instrument panel 11, the lower wall 13 of the body of the upper coupling screw blocks a blocking wall that eventually blocks the flowing fluid. do. The fluid hitting this wall accumulates a fluid with a strong pressure due to the accumulation of inertial fluid that flows in, and the fluid with this impact force is unexpected for a conventional pressure switch with a central hole in the bottom face of the coupling screw. It provides a shock by pressure, which eventually causes distortion of the Bourdon or the pressure sensor, and eventually acts as a cause of malfunction and damage of the pressure switch.

Therefore, the present invention is to locate the end face of the pressure switch blocking wall and the position of the inlet hole, which is conventionally leveled, at the end of the structure protruding from the end face of the upper coupling screw body, and attempts to achieve a structure of a fine aperture. In this way, the water hammer receiving the repulsive force of the blocking wall receives the inertia with the force of hitting it back, blocking the flow that follows, so that the digestive fluid is delivered to the bourdon and the sensor at a reduced pressure, resulting in malfunction caused by excessive pressure caused by the water pressure of the pressure switch. It is solved by constructing a structure that eliminates mechanical damage. In particular, the structure of the lower body of the coupling screw of the upper pressure switch is characterized by a structure different from the conventional one.

That is, in the conventional structure of Fig. 3C, the lower surface of the coupling screw is concentrated because the lower surface of the coupling screw body becomes a blocking wall blocking the flow path when the pipe is engaged with the piping, and the pressure of the fluid inertia in the piping is accumulated and concentrated. In addition, it shows that the fluid flowing into the inlet hole of the horizontal or near level pressure switch is delivered with strong impact force to the pressure switch's Bourdon or pressure sensor at low speed and pressure. This conventional structure will eventually lead to malfunction or mechanical damage and destruction of the Bourdon tube or pressure sensor that responds to sensitive pressure.

On the other hand, the present invention extends from the lower surface 13 a flow path tube to avoid water hammer at a position with a certain distance from the lower surface of the coupling screw, which is the position that receives the most pressure of the fluid, as shown in Fig. 3D. The water hammer avoidance tube 14 is installed and an inlet is provided at this end to avoid the fluid having the strongest pressure.

This structure forms an inlet at the end of the protrusion at a certain distance from the bottom surface of the coupling screw, which is subjected to strong pressure due to the continuous accumulation of flowing inertia, so that the fluid at a moderately relaxed pressure is brought into contact with the microfluidic inlet hole in the space of the flowing fluid. Because the part that cuts out the flowing fluid through a fine inlet hole is drawn out, it is introduced with a shock force that has been alleviated by a small amount of fluid, and furthermore, a small amount of fluid is subjected to friction by a much wider inner surface, resulting in pressure and Since the impact force is drastically reduced and introduced, it becomes a fluid with little impact on the inner tube of the pressure switch or the pressure sensor, and finally, a system with a structure that prevents malfunction and mechanical damage of the pressure switch is achieved.

At the same time, due to excessive water hammering in the piping, damage to the piping and shortening of the service life are immediately discharged to the outside through the water hammer discharge valve to protect the pipe.

Pressure switch (1), discharge valve (2), pressure chamber (3), open/close valve (4), connecting pipe (5), fluid (6), instrument panel (11), coupling screw (12), bottom surface (13 ), water hammer evasion tube (14), discharge pipe (20), housing (22), opening and closing piston (22), compression spring (23), support (24).

Claims (3)

A pressure switch that is a switch that connects and disconnects the set pressure; In the piping system consisting of one or more discharge valve to discharge the fire extinguishing solution in the pipe in the lower pipe of the pressure switch,
A housing formed by forming a screw in a hollow bottom and one or more sidewalls of the discharge conduit as a passage for the fluid; An opening/closing piston which is opened to the inside of the upper housing by a water hammer and is installed in the hollow to always be blocked by the pressing force of the rear spring; A compression spring installed to press the upper opening and closing piston from the rear; A support for supporting the upper compression spring by forming a screw on the outer circumferential surface to form a hollow member in the center of the body to screw-couple with the screw formed on the side wall of the upper housing; A piping module of a pressure switch consisting of a piping system consisting of one or more discharge valves installed as a water relief valve. A pressure switch that is a switch for connecting and disconnecting the set pressure; In the configuration of the pipe having at least one discharge valve for discharging the fluid in the pipe at the bottom of the pressure switch,
A piping module of a pressure switch comprising a pressure switch with a water hammer evasion tube made of a tail-shaped protruding flow channel on the lower face of the body of the lower coupling screw. According to claim 2,
A housing made of a cylindrical shape in which a discharge pipe is screwed to a hollow bottom and a side wall of at least one side which is a passage for a fluid; An opening/closing piston which is opened to the inside of the upper housing by a water hammer and is installed in the hollow to always be blocked by the pressing force of the rear spring; A compression spring installed to press the upper opening and closing piston from the rear; A support for supporting the upper compression spring by forming a screw on the outer circumferential surface to form a hollow member in the center of the body to screw-couple with the screw formed on the side wall of the upper housing; A piping module of a pressure switch consisting of a piping system consisting of one or more discharge valves installed as a water relief valve.

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