CN201581438U - A steady flow compensator with gas storage tank - Google Patents

Abstract

When tap water enters the bag from the water inlet and outlet, because the tap water has a certain pressure (generally 2 to 3 kg), as the water continues to enter, the bag will be slowly stretched to expand the volume of the bag and the gas chamber will be expanded. Compression, the gas enters the gas storage tank after being compressed, so that the gas becomes compressed gas in the gas storage tank (the volume of the gas storage tank is calculated according to the compression ratio according to the size of the gas chamber), and finally the bag is fully opened to release all the gas in the tank Compressed into the air storage tank, so that all the water stored in the steady flow compensator is water, which enhances the reserve adjustment ability of the steady flow compensator. When the tap water inlet flow decreases (the pressure drops) and cannot meet the user's needs, then The compressed gas of the air storage tank enters the gas chamber using the principle of air pressure and pushes the bag to shrink, so that the reserved water in the steady flow compensator enters the pump from the water inlet and outlet, and then is pressurized by the pump to the user to meet the water flow of tap water. The fluctuation of water pressure caused by insufficient water pressure does not affect the phenomenon of negative pressure of tap water pressure at the same time, which makes the compensation ability of the steady flow compensator stronger.

Description

A steady flow compensator with gas storage tank

1: Technical field

The invention relates to a steady flow compensator used in superimposed pressure (no negative pressure) water supply equipment, in particular to a steady flow compensator with an air storage tank.

Two: background technology

In the existing technology, when the tap water flow rate is insufficient in the stacked water supply equipment, in order to make the reserve water in the compensator flow to the water inlet of the water pump when needed, the pump is pressurized to meet the customer's use requirements, and at the same time, it will not be due to stability. After the water in the flow compensator flows away, a vacuum is generated to damage the steady flow compensator. Generally, there are air flow holes in the compensator. When the water flows away, external air can enter the steady flow compensator, thereby suppressing the generation of vacuum. However, after adopting this structure, the water in the steady flow compensator can only flow out when the tap water inlet pressure drops below the atmospheric pressure (0.0 MPa), but the system often requires that the tap water inlet pressure cannot be reduced to 0.0 Mpa when the equipment is in use. Pa (because other users around have no water for a long time), this often makes the water in the steady flow compensator unable to replenish to the user's pipe network and loses its due effect.

Three: Invention content

The object of the present invention is to design a steady flow compensator which has stronger water replenishment capacity and does not affect the pressure of the tap water inlet pipe network at the same time.

The present invention adopts the following structure to achieve the above object. The steady flow compensator is composed of a tank body, an air storage tank, and a bag. The gas storage tank and the steady flow compensator form a connected state, the bag is installed in the tank body, and an airtight seal is formed between the bag and the tank body. Water enters the bag through the water inlet and outlet, and the water inlet and outlet are connected with the tap water inlet and the water inlet of the pump.

With the above structure, when the tap water enters the bag from the water inlet and outlet, because the tap water has a certain pressure (generally 2 to 3 kg), as the water continues to enter, the bag will slowly expand and the volume of the bag will gradually expand. Compress the gas chamber, and the gas enters the gas storage tank after being compressed, so that the gas becomes compressed gas in the gas storage tank (the volume of the gas storage tank is calculated according to the size of the gas storage tank according to the compression ratio), and finally the bag is fully opened All the gas in the tank is compressed into the gas storage tank, so that all the water is stored in the steady flow compensator, which enhances the reserve adjustment ability of the steady flow compensator. Yes, at this time, the compressed gas of the gas storage tank enters the gas chamber using the principle of air pressure and pushes the bag to shrink, so that the stored water in the steady flow compensator enters the pump from the inlet and outlet, and then is pressurized by the pump to the user to use, so as to meet the requirements The fluctuation of the water pressure caused by the insufficient inflow of tap water does not affect the phenomenon of negative pressure of the tap water pressure at the same time, so that the compensation ability of the steady flow compensator is stronger.

Four: Description of the drawings

Fig. 1 is a sectional view of the present invention

Five: specific implementation

The steady flow compensator is composed of a tank body 1, a bag 2, and an air storage tank 10. The tank body 1 is provided with a bag installation inspection hole 3, and the bag 2 is installed into the tank body 1 through the installation inspection hole 3, and then sealed by a sealing plate 4 The bag 2 and the tank body 1 form a sealed structure through the bolt 5, so that a sealed cavity 6 is formed between the bag 2 and the tank body 1, and a water inlet and outlet 7 is opened on the sealing plate 4, and the water inlet and outlet 7 are connected to the tap water inlet pipe and the water pump. The water port is connected, so that tap water can enter in the bag 2 through the water inlet and outlet 7, and the pressure in the bag 2 is getting higher and higher as the water continuously enters, and the connecting pipe 9 is welded on the tank body 1, and there is also a There is a vent hole 8, and the air storage tank 10 is connected to the tank body 1 through the connecting pipe 9, so that the air in the sealed cavity 6 enters the air storage tank 10 through the vent hole 8 after being compressed to form compressed air, and the water is stored in the bladder 2 , when the flow of tap water fluctuates (pressure drops), due to the principle of air pressure, the compressed gas in the air storage tank 10 enters the tank body 1 through the hole 8 and presses the bladder 2, so that the stored water in the bladder 2 flows from the water inlet and outlet 7 to The water pump (not marked in the figure) is used to deliver water to the user. When the water pressure recovers, it will return to the initial state. This reciprocating work can meet the user's requirements without causing negative pressure on the tap water inlet pipe network. the goal of.

Claims (2)

1. A steady flow compensator with an air storage tank, characterized in that: it is composed of a tank body, a bag and an air storage tank, the gas storage tank and the steady flow compensator form a connected state, the bag is installed in the tank, and the bag and the tank An airtight gas chamber is formed between the bodies, and water enters the bag through the water inlet and outlet, which are connected with the tap water inlet and the water inlet of the pump. 2. A steady flow compensator with a gas storage tank according to claim 1, wherein the volume of the gas storage tank is calculated according to the compression ratio according to the size of the gas storage tank.

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