KR101448886B1 - Pipe system for preventing reverse current of booster pump - Google Patents

Abstract

The present invention relates to a piping system preventing booster pump backflow. According to the present invention, booster pump damage can be prevented through automatic fluid charging into a booster pump in an environment where a fluid on a booster pump suction portion side flows backward during a non-operation of the booster pump. The present invention includes one booster pump (130) or a plurality of parallel-connected booster pumps (130); a suction pipe (120) that is connected to a suction portion (131) side of the booster pump (130) for fluid inflow; and a discharge pipe (140) that is connected to a discharge portion (132) side of the booster pump (130) for fluid outflow. Backflow prevention piping (200) is connected between the discharge pipe and the booster pump for steam supply of the fluid in the discharge pipe to the booster pump.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a booster pump,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a backflow preventive piping system for a booster pump, and more particularly to a backflow preventive piping system of a booster pump which prevents a fluid in a suction pipe side of a booster pump from flowing back into a booster pump under a minus heading condition, To a backflow prevention piping system of a booster pump.

Generally, a booster pump is also called a booster pump or a booster pump, and it is installed in the middle of a water pipe (water pipe) such as a connecting water pipe of a fire extinguishing facility or pump water of a fire truck to a high place, Pump.

FIG. 1 is a view showing a piping system of a conventional booster pump. As shown in FIG. 1, one or a plurality of booster pumps 130 may be installed in parallel in a booster pump pipe 100, A suction pipe 120 is connected to the suction pipe 131 of the booster pump 130 and a discharge pipe 140 is connected to the discharge pipe 132 of the booster pump 130. The suction pipe 120 is connected to the water tank And a pressure tank 150 is connected to the discharge pipe 150 to maintain the pressure inside the discharge pipe 150 constant.

When the booster pump 130 operates in this piping configuration, the fluid in the raw water tank 110 flows into the suction portion 131 of the booster pump 130 via the suction pipe 120, and then the discharge portion 132 And then discharged through the discharge pipe 140.

If the operation of the booster pump 130 is stopped when the height of the raw water tank 110 is lower than the mounting position of the booster pump 130, the fluid in the suction pipe 120 is returned to the original water tank 110 Air is drawn into the booster pump 130 and the booster pump 130 is operated in this state to damage the booster pump 130. Accordingly, in order to prevent the reverse flow of the fluid in the suction pipe 120, A check valve 111 for blocking the flow is provided.

The check valve 111 is provided at the inlet of the inflow pipe 120 to connect the fluid of the source water tank 110 to the inflow pipe 120. The check valve 111 is a valve that allows the fluid to flow only in one direction, The flow of the fluid in the inlet pipe 120 can be prevented because the flow of the fluid only in the direction of the inlet pipe 120 and the opposite direction, that is, in the direction of the circular water tank 110, is prevented.

However, if the function of the check valve 111 is deteriorated or lost due to a foreign substance being caught or damaged in the check valve 111, the fluid in the inflow pipe 120 flows backward, and when the booster pump 130 is not operated There is a problem that the booster pump 130 is damaged, which causes a lot of time and economic loss.

Furthermore, since the presence or absence of fluid on the inflow portion 131 side must be checked before the booster pump 130 is operated, there is a problem that maintenance and management are very cumbersome.

In order to solve the problems of the conventional booster pump piping, in the environment where the fluid on the suction side of the booster pump flows backward when the booster pump is shut down, the fluid is automatically filled into the booster pump, And a booster pump for preventing backflow of the pump.

According to an aspect of the present invention, there is provided a booster pump comprising: a booster pump having one or a plurality of pumps installed in parallel; a suction pipe connected to the suction portion side of the booster pump to introduce a fluid; And a backflow prevention pipe is connected between the discharge pipe and the booster pump to send the fluid in the discharge pipe to the booster pump.

More specifically, one end of the backflow prevention pipe is connected to a discharge pipe disposed behind the check valve between the booster pump and the discharge pipe, and the other end is connected to the discharge port disposed in front of the check valve between the booster pump and the discharge pipe. So that the inflow of air into the booster pump can be blocked.

According to the present invention, even if the fluid on the suction side of the booster pump flows backward in an unexpected situation such as leakage of the inflow pipe or damage of the check valve upon shutdown of the booster pump, the fluid on the discharge pipe side is continuously supplied automatically into the booster pump It is possible to prevent the accidental booster pump from being damaged and to check the presence or absence of the fluid on the suction side of the booster pump before restarting the booster pump.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a piping connection diagram showing a piping system of a conventional booster pump. FIG.
2 is a pipe connection diagram showing a backflow prevention piping system of a booster pump according to the present invention.

Hereinafter, the present invention will be described in detail with reference to FIG. 2 showing a preferred embodiment of the present invention. It should be understood, however, that there is no intention in the art to limit the present invention, as it is intended to be illustrative only and not for purposes of limitation, A detailed description thereof will be omitted.

FIG. 2 is a piping connection diagram of a backflow prevention piping system of a booster pump according to the present invention. The same reference numerals and the same names are used for elements that overlap with the conventional art of FIG. 1, and repetitive description thereof will be omitted .

2, the backflow prevention piping system of the booster pump of the present invention is constructed by further providing a backflow prevention pipe 200 in the booster pump pipe 100. [

One or a plurality of booster pumps 130 may be installed in parallel in the booster pump piping 100 as described above and a suction pipe 120 is connected to the suction portion 131 side of each booster pump 130 A discharge pipe 140 is connected to the discharge port 132 of the booster pump 130. The suction pipe 120 is connected to the water tank 110 and the discharge pipe 150 is connected to the discharge pipe 150, And a pressure tank 150 for maintaining the pressure constant.

A check valve 111 for blocking the flow of backflow is provided at the inlet of the suction pipe 120 and a check valve for blocking the flow of backflow is provided between the discharge part 131 of the booster pump 130 and the discharge pipe 140 133 are installed.

The strainer 121 is a kind of filter for filtering foreign matter and the flexible joint 122 is a filter for filtering foreign substances. For absorbing vibration caused by the operation of the booster pump 130, and is mainly provided before and after the booster pump.

The backflow shutoff pipe 200 is provided to supply the fluid filled in the discharge pipe 140 to the booster pump 130 and to connect the discharge pipe 140 and the booster pump 130 to each other. Connect.

More specifically, one end of the backflow prevention pipe 200 is connected to the rear of the check valve 133 provided between the booster pump 130 and the discharge pipe 140, that is, the discharge pipe 140, The other end of the pipe 200 is connected to the discharge part 132 which is in front of the check valve 133 provided between the booster pump 130 and the discharge pipe 140.

Here, 'rear' means a direction in which the fluid normally flows when the booster pump 130 operates, and 'forward' means a direction opposite to a direction in which the fluid normally flows when the booster pump 130 operates.

The backflow prevention pipe 200 may include an inflow pipe 210 and a discharge pipe 230 and a water storage tank 220 between the inflow pipe 210 and the discharge pipe 230.

One end of the inflow pipe 210 is connected to the discharge pipe 140 and the other end of the inflow pipe 210 is connected to a water storage tank 220 to store a certain amount of fluid introduced through the inflow pipe 210 And one end of the discharge pipe 230 is connected to the water storage tank 220 and the other end of the discharge pipe 230 is connected to the discharge pipe 132 to discharge the fluid stored in the water storage tank 220 to the discharge pipe 132 .

The water level control means 211 may be installed in the water level controller 220 to sense the level of the fluid level in the water level controller 220 and to block the fluid supply to the inlet pipe 210 when the level of the fluid level is higher than a predetermined level. The means 211 may be, for example, a ball-top valve commonly installed in the water tank of the toilet, an electrical opening / closing means for opening and closing the inlet pipe 210 by an other mechanical means or an electrically operated water level sensor, And all means for keeping the water level in the water tank 220 constant.

The backflow prevention pipe 200 allows the fluid in the discharge pipe 140 to flow into the booster pump 130 and the fluid flowing toward the discharge pipe 140 in the reverse direction when the booster pump 130 is operated. It is preferable that a check valve is provided in order to shut off the transfer of the gas to the discharge pipe 230. When the backflow protection pipe 200 is composed of the inflow pipe 210, the water storage tank 220 and the discharge pipe 230 as shown in FIG. A check valve 231 is provided.

Hereinafter, the operational relationship of the backflow prevention piping system of the booster pump of the present invention will be described, and the present invention will be further embodied.

When the booster pump 130 operates as shown in FIG. 2, the fluid in the raw water tank 110 flows into the suction portion 131 of the booster pump 130 via the suction pipe 120, And then discharged through the discharge pipe 140. At this time, more than necessary pressure applied to the discharge pipe 140 side is accumulated in the pressure tank 150. [

At the same time, a part of the fluid in the discharge pipe 140 is filled in the water storage tank 220 by a certain amount via the inflow pipe 210. Since the check valve 231 for allowing the unidirectional fluid to flow through the discharge pipe 230 is installed in the discharge pipe 230, even if some fluid is discharged to the discharge pipe 230 during operation of the booster pump 130, 220).

When the operation of the booster pump 130 is stopped under the minus heading condition, the fluid in the suction pipe 120 is preserved without being backwashed by the check valve 111 provided in the suction pipe 120, and the fluid in the discharge pipe 140 is discharged And is stored without being backwashed by the check valve 133 provided at the rear of the portion 132.

If the fluid in the booster pump 130 and the fluid in the inflow pipe 120 flow backward due to the damage of the check valve 111 or the like, the pressure inside the booster pump 130 is lowered, And then flows into the booster pump 130 through the discharge portion 132 via the discharge pipe 230.

When the water level in the water tank 220 drops below a predetermined level, the water level adjusting means 221 operates to replenish the fluid in the discharge pipe 130 to the water tank 220 via the inflow pipe 210.

Although the present invention has been described in connection with the preferred embodiments described above, it will be appreciated by those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention, All such changes and modifications are intended to be within the scope of the appended claims.

100: Booster pump piping
110: Circulating water tank 111: Check valve
120: suction pipe 121: strainer
130: booster pump 131: suction part 132: discharge part
140: Discharge tube 150: Pressure tank
200: Backflow prevention piping
210: inlet pipe 220: water tank 221: water level adjusting means
230: discharge pipe 231: check valve

Claims (5)

A booster pump 130 connected to the suction portion 131 side of the booster pump 130 to receive a fluid from the suction pipe 120; And a discharge pipe (140) connected to the discharge pipe (132) side and discharging fluid,
The backflow prevention pipe 200 is connected between the discharge pipe and the booster pump to send the fluid in the discharge pipe to the booster pump,
One end of the backflow prevention pipe is connected to the back of the check valve provided between the booster pump and the discharge pipe and the other end is connected to the front of the check valve provided between the booster pump and the discharge pipe,
The backflow prevention pipe includes an inflow pipe (210) having one end connected to the discharge pipe, a water storage tank (220) connected to the other end of the inflow pipe and storing the fluid, And a discharge pipe (230) connected to the discharge portion,
Wherein the water storage tank is equipped with a water level adjusting means (211) for detecting the water level in the water tank and shutting off the fluid supply to the inlet pipe when the water level is above a certain level.
delete delete delete The method according to claim 1,
Wherein the backflow prevention pipe is provided with a check valve for blocking fluid delivery to the discharge pipe when the booster pump is operated.

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