CN212102213U - Energy-consumption-free aeration system suitable for various climates - Google Patents

Abstract

The utility model relates to a sewage purification field especially relates to a no power consumption aeration systems suitable for multiple weather. The fan aerator comprises a fan provided with blades, an aeration plate provided with an aeration head, a pushing device, a piston cylinder and a one-way air outlet cylinder, wherein a supporting column extending into the ground bottom is vertically arranged at the back of the fan, the inside of the supporting column is of a hollow cavity structure, and the pushing device and the piston cylinder are both arranged in a cavity of the supporting column; a rotating shaft of the fan extends into a cavity at the upper end of the supporting column and is connected with a pushing device, a piston cylinder is arranged below the pushing device, an air pipe communicated with the piston cylinder is arranged below the piston cylinder, one end of the air pipe is communicated with a one-way air outlet cylinder, and the one-way air outlet cylinder is communicated with an aeration head; the fan drives the pushing device to drive the pneumatic cylinder to do piston motion, so that air pressure is generated to aerate the aeration head. The device has simple structure and low cost, thereby leading a plurality of rivers to be installed and leading the pollution control capability of the rivers to be more convenient.

Description

Energy-consumption-free aeration system suitable for various climates

Technical Field

The utility model relates to a sewage purification field especially relates to a no power consumption aeration systems suitable for multiple weather.

Background

The problem of environment pollution caused by waste water is serious day by day, because China's rivers are numerous, the polluted rivers are still difficult to be remedied by consuming manpower and material resources for many years, the aeration device on the market is the simplest and most effective pollution treatment mode at present, but the large-area use can cause serious energy consumption and is not beneficial to implementation, the aeration device can only be suitable for urban concentrated sewage treatment, the solar energy and wind energy aeration device on the market is too complex in structure and expensive in price and is not beneficial to large-area use, and therefore based on the defect, the energy-consumption-free aeration system suitable for various climates is designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, adapt to the practical needs and provide an energy-consumption-free aeration system suitable for various climates.

In order to realize the utility model discloses a purpose, the utility model discloses a technical scheme do: a non-energy-consumption aeration system suitable for various climates comprises a wind power air supply device, a water conservancy air supply device, an aeration head 4 and a one-way air outlet cylinder 3, wherein the air outlet ends of the wind power air supply device and the water conservancy air supply device are communicated with the one-way air outlet cylinder 3, and the air outlet end of the one-way air outlet cylinder 3 is communicated with the aeration head 4; the wind power air supply device comprises a fan 1, a pushing device and a piston cylinder I5, wherein a supporting column I6 extending into the ground bottom is vertically arranged at the back of the fan 1, the inside of the supporting column I6 is of a hollow cavity structure, and the pushing device and the piston cylinder I5 are arranged in a cavity of the supporting column I; a rotating shaft of the fan 1 extends into a cavity at the upper end of a first support column 6 and is connected with a pushing device, a first piston cylinder 5 is arranged below the pushing device, a piston rod 501 above the first piston cylinder 5 is connected with the pushing device, a one-way air inlet device is arranged around the lower side of the first piston cylinder 5, an air pipe communicated with the first piston cylinder 5 is arranged below the first piston cylinder 5, and one end of the air pipe is communicated with a one-way air outlet cylinder 3; the water conservancy air supply device comprises a waterwheel 2, a pushing device and a piston cylinder II 51, wherein one side of the waterwheel 2 is provided with a waterwheel support 201, the other side of the waterwheel 2 is provided with a support column II 61 extending into the ground, the inside of the support column II 61 is of a hollow cavity structure, and the pushing device and the piston cylinder II 51 are both arranged in the cavity of the support column II; the rotating shaft of the waterwheel 2 extends into the cavity at the upper end of the second supporting column 61 and is connected with the pushing device, the second piston cylinder 51 is arranged below the pushing device, the piston rod above the second piston cylinder 51 is connected with the pushing device, the periphery of the lower side of the second piston cylinder 51 is provided with the one-way air inlet device, the lower side of the second piston cylinder 51 is provided with an air pipe communicated with the air pipe, and one end of the air pipe is communicated with the one-way air outlet cylinder 3.

The 2 main parts of waterwheel are wheel-shaped structures, 2 main parts of waterwheel arc edge are provided with water baffle plates 7 which are perpendicular to the tangent line at equal intervals, the part below the 2 main parts of waterwheel is arranged under water, and the waterwheel 2 is driven to rotate by the power of water flow.

The inboard of breakwater 7 is provided with along 2 main part tangent lines looks vertically gas storage cavities of waterwheel, gas storage cavity one side is provided with inlet opening 701, gas storage cavity opposite side is provided with outlet opening 702, through the process of breakwater 7 from the air to the aquatic motion, inlet opening 701 gets into under water earlier, extrudes into the gas storage cavity through the thrust effect of breakwater 7 with water and makes gas enter into under water from the outlet opening.

The pushing device comprises a turntable 8 and a connecting rod 9; the centers of the two turntables 8 are respectively and tightly connected with the rotating shafts of the fan 1 and the waterwheel 2; an eccentric transmission shaft 801 is arranged on the disc surface of the rotary disc 8, a shaft sleeve 901 is arranged at one end of the connecting rod, the shaft sleeve 901 is sleeved on the outer side of the transmission shaft 801, and the other end of the connecting rod 9 is hinged to the piston rod.

The unidirectional air inlet device comprises an air inlet hole 503 arranged on one side of the bottom of the piston cylinder, an arc groove 10 with an upward opening is arranged on the cylinder body of the first piston cylinder 5 and the second piston cylinder 51 above the air inlet hole 503, an arc rubber block 11 matched with the arc groove 10 is arranged on the arc groove 10, and one side of the arc rubber block 11 is fixedly connected with the cylinder body; when the piston 502 is pulled upwards, the arc rubber block 11 is opened under the action of air pressure to suck air, and when the piston is pulled downwards, the arc rubber block is tightly attached and sealed with the arc groove under the action of air pressure.

And an air pipe communicated with the lower parts of the first piston cylinder 5 and the second piston cylinder 51 is communicated with the bottom of the one-way air outlet cylinder, and an arc groove 10 is arranged on an air hole of a bottom plate in the one-way air outlet cylinder.

And a reinforcing block 12 is arranged between the arc-shaped rubber block and the one-way air outlet cylinder 3.

The beneficial effects of the utility model reside in that:

the device has simple structure and low cost, thereby leading a plurality of rivers to be installed and leading the pollution control capability of the rivers to be more convenient.

Drawings

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

Fig. 1 is a schematic external structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of a fan;

FIG. 4 is a schematic view of a waterwheel;

FIG. 5 is a cross-sectional view of the pneumatic cylinder;

FIG. 6 is a cross-sectional view of a one-way intake cylinder.

Detailed Description

The invention will be further described with reference to the following figures and examples:

see fig. 1-6.

The utility model discloses an energy consumption free aeration system suitable for various climates, which comprises a wind power air supply device, a water conservancy air supply device, an aeration head 4 and a one-way air outlet cylinder 3, wherein the air outlet ends of the wind power air supply device and the water conservancy air supply device are both communicated with the one-way air outlet cylinder 3, and the air outlet end of the one-way air outlet cylinder 3 is communicated with the aeration head 4; the wind power air supply device comprises a fan 1, a pushing device and a piston cylinder I5, wherein a supporting column I6 extending into the ground bottom is vertically arranged at the back of the fan 1, the inside of the supporting column I6 is of a hollow cavity structure, and the pushing device and the piston cylinder I5 are arranged in a cavity of the supporting column I; a rotating shaft of the fan 1 extends into a cavity at the upper end of a first support column 6 and is connected with a pushing device, a first piston cylinder 5 is arranged below the pushing device, a piston rod 501 above the first piston cylinder 5 is connected with the pushing device, a one-way air inlet device is arranged around the lower side of the first piston cylinder 5, an air pipe communicated with the first piston cylinder 5 is arranged below the first piston cylinder 5, and one end of the air pipe is communicated with a one-way air outlet cylinder 3; the water conservancy air supply device comprises a waterwheel 2, a pushing device and a piston cylinder II 51, wherein one side of the waterwheel 2 is provided with a waterwheel support 201, the other side of the waterwheel 2 is provided with a support column II 61 extending into the ground, the inside of the support column II 61 is of a hollow cavity structure, and the pushing device and the piston cylinder II 51 are both arranged in the cavity of the support column II; the rotating shaft of the waterwheel 2 extends into the cavity at the upper end of the second supporting column 61 and is connected with the pushing device, the second piston cylinder 51 is arranged below the pushing device, the piston rod above the second piston cylinder 51 is connected with the pushing device, the periphery of the lower side of the second piston cylinder 51 is provided with the one-way air inlet device, the lower side of the second piston cylinder 51 is provided with an air pipe communicated with the air pipe, and one end of the air pipe is communicated with the one-way air outlet cylinder 3.

The 2 main parts of waterwheel are wheel-shaped structures, 2 main parts of waterwheel arc edge are provided with water baffle plates 7 which are perpendicular to the tangent line at equal intervals, the part below the 2 main parts of waterwheel is arranged under water, and the waterwheel 2 is driven to rotate by the power of water flow.

The inboard of breakwater 7 is provided with along 2 main part tangent lines looks vertically gas storage cavities of waterwheel, gas storage cavity one side is provided with inlet opening 701, gas storage cavity opposite side is provided with outlet opening 702, through the process of breakwater 7 from the air to the aquatic motion, inlet opening 701 gets into under water earlier, extrudes into the gas storage cavity through the thrust effect of breakwater 7 with water and makes gas enter into under water from the outlet opening.

The pushing device comprises a turntable 8 and a connecting rod 9; the centers of the two turntables 8 are respectively and tightly connected with the rotating shafts of the fan 1 and the waterwheel 2; an eccentric transmission shaft 801 is arranged on the disc surface of the rotary disc 8, a shaft sleeve 901 is arranged at one end of the connecting rod, the shaft sleeve 901 is sleeved on the outer side of the transmission shaft 801, and the other end of the connecting rod 9 is hinged to the piston rod.

The unidirectional air inlet device comprises an air inlet hole 503 arranged on one side of the bottom of the piston cylinder, an arc groove 10 with an upward opening is arranged on the cylinder body of the first piston cylinder 5 and the second piston cylinder 51 above the air inlet hole 503, an arc rubber block 11 matched with the arc groove 10 is arranged on the arc groove 10, and one side of the arc rubber block 11 is fixedly connected with the cylinder body; when the piston 502 is pulled upwards, the arc rubber block 11 is opened under the action of air pressure to suck air, and when the piston is pulled downwards, the arc rubber block is tightly attached and sealed with the arc groove under the action of air pressure.

And an air pipe communicated with the lower parts of the first piston cylinder 5 and the second piston cylinder 51 is communicated with the bottom of the one-way air outlet cylinder, and an arc groove 10 is arranged on an air hole of a bottom plate in the one-way air outlet cylinder.

And a reinforcing block 12 is arranged between the arc-shaped rubber block and the one-way air outlet cylinder 3.

The above mentioned is only the embodiment of the present invention, not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings or the direct or indirect application in the related technical field are included in the patent protection scope of the present invention.

Claims (7)

1. An energy-consumption-free aeration system suitable for various climates is characterized in that: the system comprises a wind power air supply device, a water conservancy air supply device, an aeration head (4) and a one-way air outlet cylinder (3), wherein the air outlet ends of the wind power air supply device and the water conservancy air supply device are communicated with the one-way air outlet cylinder (3), and the air outlet end of the one-way air outlet cylinder (3) is communicated with the aeration head (4); the wind power air supply device comprises a fan (1), a pushing device and a first piston cylinder (5), a first supporting column (6) extending into the ground is vertically arranged at the back of the fan (1), the inside of the first supporting column (6) is of a hollow cavity structure, and the pushing device and the first piston cylinder (5) are arranged in a cavity of the hollow cavity structure; a rotating shaft of the fan (1) extends into a cavity at the upper end of the first support column (6) and is connected with a pushing device, a first piston cylinder (5) is arranged below the pushing device, a piston rod (501) above the first piston cylinder (5) is connected with the pushing device, a one-way air inlet device is arranged around the lower side of the first piston cylinder (5), an air pipe communicated with the first piston cylinder (5) is arranged below the first piston cylinder (5), and one end of the air pipe is communicated with the one-way air outlet cylinder (3); the water conservancy air supply device comprises a waterwheel (2), a pushing device and a second piston cylinder (51), wherein one side of the waterwheel (2) is provided with a waterwheel bracket (201), the other side of the waterwheel is provided with a second supporting column (61) extending into the ground bottom, the inside of the second supporting column (61) is of a hollow cavity structure, and the pushing device and the second piston cylinder (51) are arranged in the cavity of the supporting column; the rotating shaft of the waterwheel (2) extends into a cavity at the upper end of the second support column (61) and is connected with a pushing device, a second piston cylinder (51) is arranged below the pushing device, a piston rod above the second piston cylinder (51) is connected with the pushing device, unidirectional air inlet devices are arranged around the lower side of the second piston cylinder (51), an air pipe communicated with the second piston cylinder (51) is arranged below the second piston cylinder (51), and one end of the air pipe is communicated with the unidirectional air outlet cylinder (3).

2. The energy-free aeration system applicable to various climates according to claim 1, wherein: the waterwheel (2) main body is of a wheel-shaped structure, the arc-shaped edges of the waterwheel (2) main body are equidistantly provided with water baffles (7) which are perpendicular to tangent lines, the lower part of the waterwheel (2) main body is arranged underwater, and the waterwheel (2) is driven to rotate by the power of water flow.

3. The energy-free aeration system applicable to various climates according to claim 1, wherein: the inboard of breakwater (7) is provided with along waterwheel (2) main part tangent line looks vertically gas storage chamber, gas storage chamber one side is provided with into water opening (701), gas storage chamber opposite side is provided with outlet opening (702), through breakwater (7) from the process of the motion of air in to water, inlet opening (701) get into under water earlier, crowd water into the gas storage chamber through the thrust effect of breakwater (7) and make gas from outlet opening entering under water.

4. The energy-free aeration system applicable to various climates according to claim 1, wherein: the pushing device comprises a turntable (8) and a connecting rod (9); the centers of the two turntables (8) are respectively and tightly connected with the rotating shafts of the fan (1) and the waterwheel (2); an eccentric transmission shaft (801) is arranged on the disc surface of the rotary disc (8), a shaft sleeve (901) is arranged at one end of the connecting rod, the shaft sleeve (901) is sleeved on the outer side of the transmission shaft (801), and the other end of the connecting rod (9) is hinged to the piston rod.

5. The energy-free aeration system applicable to various climates according to claim 1, wherein: the unidirectional air inlet device comprises an air inlet hole (503) arranged on one side of the bottom of the piston cylinder, an arc groove (10) with an upward opening is formed in the cylinder body of the piston cylinder I (5) and the piston cylinder II (51) above the air inlet hole (503), an arc rubber block (11) matched with the arc groove (10) is arranged on the arc groove (10), and one side of the arc rubber block (11) is fixedly connected with the cylinder body; when the piston (502) is pulled upwards, the arc rubber block (11) is opened under the action of air pressure to suck air, and when the piston is pulled downwards, the arc rubber block is tightly attached and sealed with the arc groove under the action of air pressure.

6. The energy-free aeration system applicable to various climates according to claim 5, wherein: an air pipe communicated with the lower portions of the first piston cylinder (5) and the second piston cylinder (51) is communicated with the bottom of the one-way air outlet cylinder, and an arc groove (10) is formed in an air hole of a bottom plate in the one-way air outlet cylinder.

7. The energy-free aeration system applicable to various climates according to claim 6, wherein: and a reinforcing block (12) is arranged between the arc-shaped rubber block and the one-way air outlet cylinder (3).

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