CN113045027A - High-fall relief water treatment device - Google Patents

Abstract

The invention discloses a high-fall relief water treatment device, which comprises a water inlet pipe, a water body treatment tank, an RO reverse osmosis filter element, a water outlet pipe and a waste water pipe, wherein the water inlet pipe is communicated with a high-fall relief water source; the RO filter element is arranged between the first cavity and the second cavity in an isolated manner, the water inlet pipe is communicated with the first cavity of the water body treatment tank, and the water outlet pipe is communicated with the second cavity of the water body treatment tank; the waste water pipe is arranged on the water body treatment box and communicated with the first chamber. Because a plurality of water source places with high terrain exist in the mountainous area, water to be purified flows down to low terrain from high terrain, the water to be purified carries kinetic potential energy, the water to be purified enters the RO reverse osmosis filter element through the water inlet pipe, the water to be purified flows into the second chamber after being purified from the first chamber, and then the purified water flows to the use terminal from the second chamber through the water outlet pipe; the problem of how to purify the water source in remote mountain areas is solved.

Description

High-fall relief water treatment device

Technical Field

The invention relates to a high-fall relief water treatment device.

Background

In the mountainous area, potential energy fall exists between the high terrain and the low terrain, water on the high terrain flows to the position of the low terrain, although the water resource in the mountainous area is rich, the condition of building a purified water supply plant is not met because the mountainous area is far away from the urban area and has dense population; at present, how to purify water sources in remote mountain areas becomes a difficult problem in front of mountain people.

Disclosure of Invention

It is an object of the present invention to provide a high fall relief water treatment device which addresses one or more of the above mentioned problems of the prior art.

According to one aspect of the invention, a high-fall relief water treatment device is provided, which comprises a water inlet pipe, a water body treatment tank, an RO reverse osmosis filter element, a water outlet pipe and a waste water pipe, wherein the water inlet pipe is communicated with a high-fall relief water source; the RO filter element is arranged between the first cavity and the second cavity in an isolated manner, the water inlet pipe is communicated with the first cavity of the water body treatment tank, and the water outlet pipe is communicated with the second cavity of the water body treatment tank; the waste water pipe is arranged on the water body treatment box and communicated with the first chamber.

Therefore, as a plurality of water source places with high terrain exist in the mountainous area, the water to be purified flows from the high terrain to the low terrain, and then the water to be purified is carried with kinetic potential energy, when in use, the water inlet pipe of the device is communicated with the water source places with high terrain, the water to be purified enters the RO reverse osmosis filter element through the water inlet pipe, the water to be purified forms pressure in the water body treatment box, which provides kinetic energy for the filtration of the RO reverse osmosis filter, the water source is purified by using pressurizing equipment in an ineffective way, the water to be purified flows into the second chamber after being purified from the first chamber, and then the purified water flows to a use terminal from the second chamber through the water outlet pipe; simultaneously, when purification treatment, can produce the dense water that contains impurity in first cavity, then the dense water passes through the waste pipe and discharges outside, has solved the difficult problem of how to purify the water source in remote mountain area.

In some embodiments, further comprising a first tube, a second tube, and a gas-liquid mixing device; the gas-liquid mixing device comprises a gas inlet pipe; the water inlet pipe is connected with the first pipe, the first pipe is communicated with the second pipe, and an interface communicated with the first pipe is formed on the second pipe; the first end of the second pipe and the second end of the second pipe are sequentially arranged from high to low along the gravitational potential energy direction and are communicated with each other; one end of the air inlet pipe is provided with an air inlet, the other end of the air inlet pipe is provided with an air outlet, and the air inlet of the air inlet pipe is communicated with the outside; the air outlet of the air inlet pipe extends to the downstream position of the water outlet of the connector.

Therefore, when the water flow column works, the water inlet pipe with high water level fills water into the first pipe to enable the water to have certain potential energy, the first pipe guides water flow into the second pipe through the interface, and as the first end of the second pipe and the second end of the second pipe are sequentially arranged from high to low along the gravitational potential energy direction, the water flow flows towards the second end of the second pipe under the action of gravity; because the air outlet of the air inlet pipe extends to the downstream position of the water outlet of the interface in the second pipe, the water flow column flowing out of the interface can wrap and submerge the part of the air inlet pipe, which is positioned at the downstream position of the water outlet of the interface, and the air outlet; the air inlet of the air inlet pipe is communicated with the outside, the air flows towards the second end of the second pipe under the action of gravity along with the water flow column, the flowing water flow siphons air into the water flow from the air inlet of the air inlet pipe through the air outlet, the air is gradually accumulated at the air outlet along with the suction of the air into the water flow, the accumulated air gradually discharges the water flow from the air outlet until the siphoning effect is eliminated, the air stops entering the water flow from the air outlet, then the accumulated air flows away along with the water flow because the speed of the water flow is higher than the speed of the air floating up in the water, namely, the air bubbles flowing along with the water flow are formed in the water flow, then the accumulated air is taken away by the water flow, the air flow is not blocked by the air, the water flow wraps and submerges the air outlet again, the siphoning effect is generated, the air bubbles are gradually accumulated at the air outlet, and the process, the bubbles are wrapped in the water flow, so that the bubbles are distributed in the water flow, the number of the bubbles in the water flow is increased, the oxygen dissolving rate of the water flow is increased, and finally the water flow with the bubbles is sprayed into the water body from the second end of the second pipe, so that the oxygen dissolving rate of the water body is increased.

In some embodiments, a sump is also included, and the second end of the second tube extends into the sump.

Therefore, the water source after aeration treatment can also carry out aeration treatment on the domestic sewage in the sewage tank.

In some embodiments, further comprising a aquarium, the second end of the second tube extending into the aquarium.

Therefore, the water source after aeration treatment can also carry out oxygenation treatment on the fish in the fish pond.

In some embodiments, an RO reverse osmosis cartridge comprises a tube core, an RO membrane, and a membrane; wherein the tube core is provided with a plurality of water permeable holes, and the RO membrane surrounds the periphery of the tube core; a mesh membrane is attached wrapped around the RO membrane to secure the RO membrane to the tube core.

Thus, the water to be purified passes through the tubular core and then flows out of the water permeable holes, and after being treated by the RO membrane, purified water is produced.

Drawings

FIG. 1 is a schematic diagram of a high-fall surface relief water treatment device of the present invention;

FIG. 2 is a structural diagram of an RO reverse osmosis filter element in the high-fall surface water treatment device of the invention.

Reference numbers: 1-water inlet pipe, 2-water body treatment tank, 21-RO reverse osmosis filter core, 22-pipe core, 23-RO membrane, 24-net membrane and 3-water permeable hole

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 to 2 schematically show the structure of a high-head-drop-height surface water treatment device according to an embodiment of the present invention.

As shown in fig. 1 and 2, the high-fall relief water treatment device comprises a water inlet pipe 1 communicated with a high-fall relief water source, a water body treatment tank 2, an RO reverse osmosis filter element 21, a water outlet pipe and a waste water pipe; wherein, a first cavity and a second cavity are arranged in the water body treatment tank 2, the RO reverse osmosis filter element 21 is arranged between the first cavity and the second cavity in an isolated way, the water inlet pipe 1 is communicated with the first cavity of the water body treatment tank 2, and the water outlet pipe is communicated with the second cavity of the water body treatment tank 2; the waste water pipe is arranged on the water body treatment tank 2 and is communicated with the first chamber.

Thus, as a plurality of water source places with high terrain exist in the mountainous area, after the water to be purified flows down to low terrain from high terrain, the water to be purified is carried with kinetic potential energy, when in use, the water inlet pipe 1 of the device is communicated with the water source places with high terrain, after the water to be purified enters the RO reverse osmosis filter element 21 through the water inlet pipe 1, the water to be purified forms pressure intensity in the water body treatment box 2, which provides kinetic energy for filtration of RO reverse osmosis filter, and the water to be purified is purified by using pressurizing equipment in an ineffective way, the water to be purified flows into the second chamber after being purified from the first chamber, and then the purified water flows to a use terminal from the second chamber through the water outlet pipe; simultaneously, when purification treatment, can produce the dense water that contains impurity in first cavity, then the dense water passes through the waste pipe and discharges outside, has solved the difficult problem of how to purify the water source in remote mountain area. For example: we can use our apparatus in a deep-hole hotel.

In the embodiment, the gas-liquid mixing device further comprises a first pipe, a second pipe and a gas-liquid mixing device; the gas-liquid mixing device comprises a gas inlet pipe; the water inlet pipe 1 is connected with a first pipe, the first pipe is communicated with a second pipe, and a connector communicated with the first pipe is formed on the second pipe; the first end of the second pipe and the second end of the second pipe are sequentially arranged from high to low along the gravitational potential energy direction and are communicated with each other; one end of the air inlet pipe is provided with an air inlet, the other end of the air inlet pipe is provided with an air outlet, and the air inlet of the air inlet pipe is communicated with the outside; the air outlet of the air inlet pipe extends to the downstream position of the water outlet of the connector.

Therefore, when the water flow column works, the water inlet pipe 1 with a high water level pours water into the first pipe to enable the water to have certain potential energy, the first pipe guides water flow into the second pipe through the connector, and as the first end of the second pipe and the second end of the second pipe are sequentially arranged from high to low along the gravitational potential energy direction, the water flow flows towards the second end of the second pipe under the action of gravity, and as the first end of the second pipe is communicated with the second end of the second pipe, when the water flow flows towards the second end of the second pipe under the action of gravity, the form and the speed of the water flow column cannot be interfered by negative pressure; because the air outlet of the air inlet pipe extends to the downstream position of the water outlet of the interface in the second pipe, the water flow column flowing out of the interface can wrap and submerge the part of the air inlet pipe, which is positioned at the downstream position of the water outlet of the interface, and the air outlet; the air inlet of the air inlet pipe is communicated with the outside, the air flows towards the second end of the second pipe under the action of gravity along with the water flow column, the flowing water flow siphons air into the water flow from the air inlet of the air inlet pipe through the air outlet, the air is gradually accumulated at the air outlet along with the suction of the air into the water flow, the accumulated air gradually discharges the water flow from the air outlet until the siphoning effect is eliminated, the air stops entering the water flow from the air outlet, then the accumulated air flows away along with the water flow because the speed of the water flow is higher than the speed of the air floating up in the water, namely, the air bubbles flowing along with the water flow are formed in the water flow, then the accumulated air is taken away by the water flow, the air flow is not blocked by the air, the water flow wraps and submerges the air outlet again, the siphoning effect is generated, the air bubbles are gradually accumulated at the air outlet, and the process, the bubbles are wrapped in the water flow, so that the bubbles are distributed in the water flow, the number of the bubbles in the water flow is increased, the oxygen dissolving rate of the water flow is increased, and finally the water flow with the bubbles is sprayed into the water body from the second end of the second pipe, so that the oxygen dissolving rate of the water body is increased.

In this embodiment, a wastewater tank is further included, and the second end of the second pipe extends into the wastewater tank.

Therefore, the water source after aeration treatment can also carry out aeration treatment on the domestic sewage in the sewage tank.

In other embodiments, a aquarium is included, and the second end of the second tube extends into the aquarium.

Therefore, the water source after aeration treatment can also carry out oxygenation treatment on the fish in the fish pond.

In the present embodiment, the RO reverse osmosis filter cartridge 21 includes a tubular core 22, an RO membrane 23, and a mesh membrane 24; wherein the tube core 22 is provided with a plurality of water permeable holes 3, and the RO membrane 23 surrounds the outer periphery of the tube core 22; a web 24 is attached wrapped around the RO membrane 23 to secure the RO membrane 23 to the tube core 22. Thus, the water to be purified passes through the tubular core 22 and then flows out of the water permeable holes 3, and after being treated by the RO membrane 23, purified water is produced.

What has been described above is merely one embodiment of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (5)

1. The high-fall relief water treatment device is characterized by comprising a water inlet pipe, a water body treatment tank, an RO reverse osmosis filter element, a water outlet pipe and a waste water pipe, wherein the water inlet pipe is communicated with a high-fall relief water source;

the RO filter element is arranged between the first cavity and the second cavity in an isolated manner, the water inlet pipe is communicated with the first cavity of the water body treatment tank, and the water outlet pipe is communicated with the second cavity of the water body treatment tank;

the waste water pipe is arranged on the water body treatment box and communicated with the first chamber.

2. The high-head land water treatment device according to claim 1, further comprising a first pipe, a second pipe and a gas-liquid mixing device;

the gas-liquid mixing device comprises a gas inlet pipe; the water inlet pipe is connected with the first pipe, the first pipe is communicated with the second pipe, and a connector communicated with the first pipe is formed on the second pipe;

the first end of the second pipe and the second end of the second pipe are sequentially arranged from high to low along the gravitational potential energy direction and are communicated with each other;

one end of the air inlet pipe is provided with an air inlet, the other end of the air inlet pipe is provided with an air outlet, and the air inlet of the air inlet pipe is communicated with the outside; the air outlet of the air inlet pipe extends to the downstream position of the water outlet of the connector.

3. The high head terrain water treatment device of claim 2, further comprising a lagoon into which the second end of the second pipe extends.

4. The high head terrain water treatment device of claim 2, further comprising a aquarium, into which the second end of the second tube extends.

5. The high head surface potential water treatment device of any one of claims 1 to 4, wherein the RO reverse osmosis cartridge comprises a tube core, an RO membrane and a net membrane;

wherein the tube core is provided with a plurality of water permeable holes, and the RO membrane is wound on the periphery of the tube core; the mesh membrane attachment is wrapped around the RO membrane to secure the RO membrane to the tube core.

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