KR200209406Y1 - Piping Structure of Pressurized Water Supply Equipment - Google Patents

Abstract

The piping structure of the pressurized water supply device according to the present invention includes a horizontal inlet pipe that draws water from the reservoir, a horizontal supply pipe that is installed in parallel with the horizontal inlet pipe, and supplies water to each supply source, and the horizontal supply pipe. Connected to one side of the pressure tank for storing water and the connection pipe is installed to connect between the horizontal inlet pipe and the horizontal supply pipe to each other, and installed on one side of the connecting pipe to the water in the horizontal inlet pipe to the horizontal supply pipe It consists of a pump for sending out, a vertical motor mounted in the vertical direction to the upper portion of the pump to drive the pump or a horizontal motor mounted to one side of the pump in the horizontal direction to drive the pump, rooftop water tank Water is supplied directly from the underground reservoir to the required place in the building, It was to be placed section.

Description

Piping Structure of Pressurized Water Supply Equipment

The present invention relates to a piping structure of a pressurized water supply device, and more particularly, to a piping structure of a pressurized water supply device that can be appropriately arranged according to a place and a space for installing the pressurized water supply device.

In general, we look at the water supply route that we use, the river water is collected in the intake station, and then sent to the water purification plant to purify the water from the intake station, the purified water from the water purification plant is installed on the mountain or high ground using a motor The water is sent to a pressurized station, and the water sent to the pressurized station is sent to a reservoir near each building with a constant potential energy.

In this way, the water supply method of the water is installed by installing an open water tank on the roof of the building, pumping water from the water tank to the high water tank, which is a water tank on the roof of the building, through a sealed pipe, and then using gravity in the building. It is a high water tank system to feed water. However, this method has hygiene problems such as power consumption in bringing water from the reservoir tank to the roof of the building, accumulation of suspended matter in the rooftop water tank, invasion of foreign substances or insects, and growth of bacteria due to long-term congestion. Water tanks are installed in the middle floor, which increases the structural cost according to the building load, delays in construction work, leaks and cleansing of the rooftop tank, and makes it difficult to maintain and maintain the water tank. This is well, but the top layer has a problem that the water pressure is low, the water does not come out well. In order to solve this problem, a pressurized water supply system has recently been adopted. The pressurized water supply method is a method of directly supplying water to a required place in a building by a water supply pump from an underground water tank without installing a rooftop water tank. A pressurized tank and a pump are used as a feed water pump device. The pressurized tank is a mechanism that allows water to be supplied without rotation of the pump by storing air pressure and water in the pressurized tank. It is a mechanism for supplying water to the pressure tank.

However, in this pressurized water supply system, a connection pipe is installed between the inlet pipe that draws water from the reservoir and the supply pipe that supplies water to the place of use, and is restricted in the place and space for installing the pump and motor. There is a problem.

Accordingly, an object of the present invention is to provide a pump structure of a pressurized water supply device which can be appropriately arranged according to a place and a space for installing.

1a to 1c shows the piping structure of the pressurized water supply device according to the present invention,

1A is a front view.

1B is a side view.

1C is a plan view.

Figure 2a to 2c shows another embodiment of the pressure water supply device piping structure according to the present invention,

2A is a front view.

2B is a side view.

2C is a plan view.

(Explanation of symbols for the main parts of the drawing)

One ; Control panel 2; Pressure tank

3; Base frame 4; Horizontal drawing pipe

5; Horizontal supply piping 6; Pump

8 ; Anti-vibration rubber 10; Vertical motor

12, 22; Connector 20; Horizontal motor

The object of the present invention is a horizontal inlet pipe that draws water from a reservoir, a horizontal supply pipe that is installed in parallel with the horizontal inlet pipe and supplies water to each supply source, and at one end of the horizontal supply pipe. A connection pipe installed to connect the pressure tank for storing water and the horizontal inlet pipe and the horizontal supply pipe to each other, and a pump installed at one side of the connection pipe to discharge water from the horizontal inlet pipe to the horizontal supply pipe; It is achieved by a vertical motor or a horizontal motor mounted in the vertical direction on the top of the pump or mounted in one side of the pump in the horizontal direction to drive the pump.

Hereinafter, the piping structure of the pressurized water supply device according to the present invention will be described according to the embodiment shown in the accompanying drawings.

Figures 1a to 1c shows the piping structure of the pressurized water supply device according to the present invention, Figure 1a is a front view, Figure 1b is a side view, Figure 1c is a plan view respectively. As shown in the drawing, the piping structure of the pressurized water supply device according to the present invention is installed in parallel with the horizontal inlet pipe 4 which draws water from the reservoir and the horizontal inlet pipe 4 so as to supply water to each supply source. Horizontal supply pipe (5) for supplying a pressure tank (2) connected to one end of the horizontal supply pipe (5) for storing water, and between the horizontal inlet pipe (4) and horizontal supply pipe (5) A connecting pipe 12 installed to connect the two to each other, a pump 6 installed at one side of the connecting pipe 12 to discharge water from the horizontal drawing pipe 4 to the horizontal supply pipe 5, and the pump A vertical motor (10) mounted in the vertical direction on the upper part of (6) to drive the pump (6), and a connecting pipe (12) disposed below the connecting pipe (12) and provided with a pump (6). The base frame 3 supporting the lower surface, and the vertical motor 10 and the pump firmly fixed to the lower edge of the base frame 3 Due to the operation of the unit 6 is configured to include a vibration-proof rubber (8) for absorbing the vibration generated during the water supply.

Water supply operation by the piping structure of the pressurized water supply device configured as described above will be described.

When the vertical motor 10 is started by operating the pressurized water pump device, the pump 6 connected to the vertical motor 10 is operated, and the pressure tank 2 is operated by the operation of the pump 6. The water flowing through the horizontal supply pipe (5) is filled in the tank (2), and the vertical motor (10) is stopped when the pressure is completed while the air chamber pressure of the tank (2) increases. When water starts to be used at the water supply, the pressure accumulated in the pressure tank 2 is supplied through the horizontal supply pipe 5, and the pressure in the air chamber of the pressure tank 2 gradually decreases. At this time, when the pressure in the air chamber of the pressure tank 2 decreases to the movable set point, the vertical motor 10 is operated again by the pressure switch and water supply is continued. At this time, even if the water supply demand is small or the use stops, the vertical motor 10 continues to operate while water is supplied to the pressure tank 2 and the motor is stopped by the pressure switch when the stop set point is reached. In the drawings, reference numeral 1 denotes a control panel, and 7 denotes a check valve.

Through this operation, water is supplied to each use of the building. In the installation of the pressurized water supply device, an embodiment in which the vertical motor 10 is horizontally installed may be restricted due to space restrictions and installation location.

Figure 2a to 2c shows another embodiment of the pressure water supply device piping structure according to the present invention, Figure 2a is a front view, Figure 2b is a side view, Figure 2c is a plan view respectively.

As shown in this, another embodiment according to the present invention is a horizontal inlet pipe (4), horizontal supply pipe (5), pressure tank (2) and between the horizontal inlet pipe (4) and the horizontal supply pipe (5) A connecting pipe 22 installed to be connected to each other, a pump 6 installed at one side of the connecting pipe 22 to discharge water from the horizontal drawing pipe 4 to the horizontal supply pipe 5, and the pump 6 It is configured to include a horizontal motor 20 is mounted in the horizontal direction on one side of the opposite side of the inlet pipe (4) and the supply pipe (5) to drive the pump (6). As configured to this, another embodiment of the present invention is different from the mounting configuration of the motor according to the installation place and the use space, the configuration for water supply is the same, but the height of the installation space is low, or horizontal inlet pipe ( This is effective when it is necessary to narrow the gap between 4) and horizontal supply pipe (5).

As described above, the piping structure of the pressurized water supply device according to the present invention has a horizontal inlet pipe that draws water from the reservoir and a horizontal supply pipe that is installed in parallel with the horizontal inlet pipe to supply water to each supply source. And a connection pipe connected to one end of the horizontal supply pipe and configured to connect water between the pressure tank for storing water and the horizontal inlet pipe and the horizontal supply pipe, and installed at one side of the connection pipe. A pump for delivering water to a horizontal supply pipe, and a vertical motor mounted vertically on the pump to drive the pump or a horizontal motor mounted horizontally on one side of the pump to drive the pump. Is it constructed, and do not install rooftop water tank, and directly supply water to required place in building by water supply pump from underground reservoir The pressurized water method can be adopted, and it can be properly arranged according to the place and space to be installed.

Claims (2)

A horizontal inlet pipe that draws water from the reservoir, a horizontal supply pipe that is installed in parallel with the horizontal inlet pipe to supply water to each supply source, and a pressure connected to one end of the horizontal supply pipe to store water; A connecting pipe installed between the tank, the horizontal drawing pipe and the horizontal supply pipe to each other, a pump installed at one side of the connecting pipe to send water from the horizontal drawing pipe to the horizontal supply pipe, and an upper portion of the pump. Piping structure of the pressurized water supply device, characterized in that it comprises a vertical motor mounted in a vertical direction to drive the pump. A horizontal inlet pipe that draws water from the reservoir, a horizontal supply pipe that is installed in parallel with the horizontal inlet pipe to supply water to each supply source, and a pressure connected to one end of the horizontal supply pipe to store water; A connecting pipe installed between the tank, the horizontal drawing pipe and the horizontal supply pipe, and a pump installed at one side of the connecting pipe to discharge water from the horizontal drawing pipe to the horizontal supply pipe, and one side of the pump. Piping structure of the pressurized water supply device, characterized in that it comprises a horizontal motor mounted in the horizontal direction to drive the pump.