CN218202407U - Conical water treatment device - Google Patents

Abstract

The utility model discloses a toper water treatment facilities according to the hydrodynamics principle, dissolves in order to carry out the processing of water through the intensive mixing with gas and water. It is characterized by comprising: a skirt for supporting and securing the device; the end socket is welded with the conical shell to form a main component of the device shell and is used for sealing the shell; the conical shell is a main pressure element of the device and can provide a closed pressure space for the water treatment process; the water inlet is used for the water to be treated to enter the device and be fully mixed and dissolved with the entered gas; the gas inlet is used for allowing gas to enter the device and fully mixing and dissolving the gas with water to be treated in the device; the sight glass can adjust the flow of water and gas in the device according to the display condition of the sight glass, so that the water and the gas in the device are always in a normal range; the safety valve port plays a role in overvoltage protection; and the water outlet is used for discharging the treated water. The utility model adopts the tapered streamline design, and the unique water inlet and the air inlet are arranged according to the fluid mechanics principle, so that the air and the water in the device can be fully mixed and dissolved, the air does not overflow, and the mixing and dissolving efficiency is high; the device is not limited by gas and water flow, and has high flux; the gas and water are mixed and dissolved conveniently, and the gas inlet is not easy to block; simple operation and low energy consumption, and is suitable for large-scale application in the market.

Description

Conical water treatment device

Technical Field

The utility model relates to a water treatment technology field, more specifically say, relate to a toper water treatment facilities.

Background

Aeration is a process of forcibly transferring gas into liquid to dissolve oxygen or remove dissolved gas and volatile substances in water, and is an important technical means for sewage treatment. The aeration devices commonly used in the existing water treatment are mainly divided into blast aeration devices, surface aeration devices, underwater aeration devices, pure oxygen aeration devices, deep well aeration devices and the like. The blast aeration equipment has complex system, higher manufacturing cost and easy blockage of an aeration head; the surface aeration equipment is also called as mechanical aeration equipment and is only suitable for medium and small scale sewage treatment, and when the sewage treatment capacity is large, the capital cost, the maintenance management and the operation cost are increased; other types of aeration equipment are seriously limited by air and water flow, low air and water mixing efficiency and high energy consumption. The existing conventional aeration equipment has the problems and defects, the market needs a novel water treatment equipment to appear, the novel water treatment equipment has the comprehensive advantages of high gas and water mixing efficiency, small limitation of gas and water flow, difficult blockage of an aeration head, low operation cost and energy consumption and the like, and thus, the requirement of the continuously updated water treatment equipment market is met and adapted.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a conical water treatment device.

The utility model provides a following technical scheme:

a conical water treatment device carries out water treatment by fully mixing and dissolving gas and water according to the fluid mechanics principle. It is characterized by comprising: a skirt for supporting and securing the device; the end socket is welded with the conical shell to form a main component of the device shell and is used for sealing the shell; the conical shell is a main pressure element and can provide a closed pressure space for the water treatment process; the water inlet is used for enabling water to be treated to enter the device and fully mixing and dissolving the water and the entered gas; the gas inlet is used for allowing gas to enter the device and fully mixing and dissolving the gas with water to be treated in the device; the sight glass can adjust the flow of water and gas in the device according to the display condition of the sight glass, so that the water and the gas in the device are always in a normal range; the safety valve port plays a role in overvoltage protection; and the water outlet is used for discharging the treated water.

Preferably, the skirt is made of stainless steel for support and fixation of the device.

Preferably, the end socket connects the conical shell and the skirt together by strict welding technology, and is used as an important component of the device shell for shell sealing.

Preferably, the conical shell is the main pressure-bearing element of the device, and the whole body is made of stainless steel, so that a closed pressure space is provided for the water treatment process.

Preferably, the water inlet is used for water to be treated to enter the device and be fully mixed and dissolved with the entered gas.

Preferably, the gas inlet is used for injecting gas into the device, and the gas is mixed and dissolved with water to be treated so as to treat the water.

Preferably, the sight glass is used for displaying the change condition of water and air flow in the device, and an operator can adjust the water and air flow in the device according to the display condition of the sight glass, so that the water and air flow are always in a normal range.

Preferably, the relief valve port is an important safety accessory on the device, and plays a role in overpressure protection. When the pressure of water and air in the device is unstable, the pressure of water and air in the device is ensured to be in a safe range by adjusting through the safety valve port.

Preferably, the drain port is used for discharging the treated water.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a toper streamline formula design according to the hydrodynamics principle, sets up the water inlet at the device top, and the air inlet setting is in top side. When the device works, gas and water enter the device at the same time, the gas and the water are not limited by flow, the flux is high, the gas and the water can be fully mixed and dissolved in the device, the dissolved gas does not overflow, and the mixing and dissolving efficiency is high.

2. The utility model discloses air inlet modern design. Compared with the conventional aeration head immersed in water, the air inlet is arranged on the side of the top and is separated from the water inlet, so that the air inlet is not easy to block due to not contacting with water and is always kept smooth.

3. The utility model discloses the window that the casing set up can freely be adjusted according to water, the airflow situation of change in the device water, airflow standard in the device guarantee water, gas all the time in normal range to improve and mix dissolving efficiency.

4. The utility model is made of stainless steel, which is firm and durable. The safety valve arranged on the shell plays a role of overvoltage protection, and when the pressure of water and air in the water treatment device is unstable, the pressure can be adjusted through the safety valve port, so that the pressure of water and air in the water treatment device is ensured to be in a safety range, and the safety is higher.

5. The utility model discloses structural design is simple unique, the simple operation, and running cost and power consumption are lower. Nowadays, the utility model discloses it carries out sewage treatment to have been successfully applied to domestic many places.

Drawings

FIG. 1 is a front view of the overall structure of the present invention;

fig. 2 is a schematic side view of the overall structure of the present invention.

Reference numerals: skirt (1), head (2), awl shell (3), sight glass (4), pressure measurement mouth (5), lug (6), air inlet (7), water inlet (8), hand hole device (9), safety valve port (10), level gauge mouth (11), outlet (12).

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described in detail and completely with reference to the accompanying drawings of the embodiments of the present disclosure. Based on the described embodiments of the present disclosure, all other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present disclosure.

Example 1

As shown in fig. 1 and 2, a conical water treatment apparatus includes: skirt (1), head (2), awl shell (3), sight glass (4), pressure measurement mouth (5), lug (6), air inlet (7), water inlet (8), hand hole device (9), safety valve port (10), level gauge mouth (11), outlet (12).

Wherein the whole body of the device is made of stainless steel, and the skirt (1) is positioned at the bottommost part and used for supporting and fixing the device. The bottom end of the seal head (2) is connected with the skirt (1), and the upper end of the seal head is welded with the conical shell (3) to form the main component of the device, so that the seal effect is achieved. The conical shell (3) is used as a main pressure element of the device and is used for providing a closed pressure space for the water treatment process.

The top of the device is provided with a water inlet (8) for injecting water to be treated into the device. Water inlet (8) have air inlet (7) down, when the injected water, through air inlet (7) toward inject into gas in the device, according to the hydrodynamics principle, gaseous and water intensive mixing dissolve in order to carry out the processing of water, dissolve back gaseous and do not spill over, dissolve efficiently.

The device housing is provided with a pressure measuring port (5) for measuring the pressure inside the device. When the internal pressure is too high or too low, the internal pressure is adjusted through the relief valve port (10), and the relief valve port (10) plays a role in overpressure protection. An operator can observe the water and gas flow conditions inside the device through the sight glass (4) and adjust the water and gas flow conditions according to actual requirements, so that the water and gas flow conditions in the device are always in a normal range.

Lifting lugs (6) are arranged on the two sides and the back of the device shell and used for integrally lifting the device. A hand hole device (9) is arranged on one side of the device shell and used for overhauling the device. The upper part of the rear surface of the device is provided with a liquid level meter port (11) used for measuring the change of the liquid position in the device.

The bottom of the skirt (1) at the back of the device is provided with a water outlet (12), and after water in the device is treated, the water is discharged through the water outlet (12).

Claims (9)

1. A tapered water treatment device, comprising: a skirt for supporting and securing the device; the end socket is welded with the conical shell to form a main component of the device shell and is used for sealing the shell; the conical shell is a main pressure element and can provide a closed pressure space for the water treatment process; the water inlet is used for enabling water to be treated to enter the device and fully mixing and dissolving the water and the entered gas; the gas inlet is used for allowing gas to enter the device and fully mixing and dissolving the gas with water to be treated in the device; the sight glass can adjust the flow of water and gas in the device according to the display condition of the sight glass, so that the water and the gas in the device are always in a normal range; the safety valve port plays a role in overvoltage protection; and the water outlet is used for discharging the treated water.

2. The tapered water treatment device of claim 1 wherein said skirt is fabricated from stainless steel for support and securement of said device.

3. The tapered water treatment device as defined in claim 1, wherein said sealing head connects said conical shell and said skirt together by a strict welding technique as an important component of said device housing for housing sealing.

4. The tapered water treatment device as defined in claim 1, wherein said tapered shell is the main pressure-bearing component of said device, and the whole body is made of stainless steel, so as to provide a closed pressure space for water treatment process.

5. The tapered water treatment device according to claim 1, wherein the water inlet is used for water to be treated to enter the device and be fully mixed and dissolved with the entered gas.

6. The tapered water treatment device as claimed in claim 1, wherein the gas inlet is used for injecting gas into the interior of the device, and the gas is fully mixed and dissolved with water to be treated so as to treat the water.

7. The conical water treatment device according to claim 1, wherein the sight glass is used for displaying the change of water and air flow in the device, and an operator can adjust the water and air flow in the device according to the display of the sight glass, so as to ensure that the water and air are always in a normal range.

8. The tapered water treatment device as claimed in claim 1, wherein the relief valve port is an important safety accessory on the device, and plays a role of overpressure protection, when the pressure of water and gas in the device is unstable, the relief valve port is used for adjusting to ensure that the pressure of water and gas in the device is within a safe range.

9. The tapered water treatment device as defined in claim 1, wherein said drain opening is adapted to discharge treated water.

Images