CN220522691U - Air energy wheel frame type heavy buoyancy power generation device - Google Patents

Abstract

The utility model relates to the technical field of power generation equipment, in particular to an air energy wheel frame type heavy buoyancy power generation device. The device comprises a fixed frame, wherein a gas pipe is fixedly arranged on the fixed frame, one end of the gas pipe is provided with a gas inlet, the other end of the gas pipe is in rotary fit with a gas distribution chamber, the gas distribution chamber is connected with one end of a rotating shaft through a linkage mechanism, the linkage mechanism can enable the rotating shaft to rotate along with the rotation of the gas distribution chamber, and the other end of the rotating shaft is connected with a generator; one end of a plurality of air inlet pipes are uniformly arranged on the air distribution chamber, the air inlet pipes are distributed in a circumferential array on the air distribution chamber, a pontoon is arranged at the other end of the air inlet pipe, a first electromagnetic valve is arranged on the pontoon, and a fourth electromagnetic valve is arranged on the air inlet pipe. The key point of the device is that the high-pressure gas is obtained in a simple mode, and the limitation is not too much, so that the problem of strong limitation of wind power generation is solved.

Description

Air energy wheel frame type heavy buoyancy power generation device

Technical Field

The utility model relates to the technical field of power generation equipment, in particular to an air energy wheel frame type heavy buoyancy power generation device.

Background

With the increase of the power consumption in China, the development of renewable clean energy source electricity generation, such as solar power generation, wind power generation, tidal power generation and the like, is promoted.

In the prior art, the most common renewable clean energy power generation mode is wind power generation.

The prior art solutions described above have the following drawbacks: the wind power generation device is relatively dependent on environmental factors, and can only be built in places with frequent winds, so that the limitation of the wind power generation device is relatively strong.

Disclosure of Invention

Aiming at the defects, the utility model provides an air energy wheel frame type heavy buoyancy power generation device, which aims to enable the air energy wheel frame type heavy buoyancy power generation device to float out of the water surface by injecting high-pressure gas into a pontoon on a wheel frame, thereby driving the wheel frame to rotate, and then driving a generator to generate power through a transmission mechanism. The key point of the device is that the high-pressure gas is obtained in a simple mode, and the limitation is not too much, so that the problem of strong limitation of wind power generation is solved.

The utility model is realized by using the following technical scheme: the air energy wheel frame type heavy buoyancy power generation device comprises a fixed frame, wherein an air delivery pipe is fixedly arranged on the fixed frame, one end of the air delivery pipe is provided with an air inlet, the other end of the air delivery pipe is in rotary fit with an air distribution chamber, the air distribution chamber is connected with one end of a rotating shaft through a linkage mechanism, the linkage mechanism can enable the rotating shaft to rotate along with the rotation of the air distribution chamber, and the other end of the rotating shaft is connected with a generator;

one end of each of a plurality of air inlet pipes is uniformly arranged on each air distribution chamber, the air inlet pipes are distributed on each air distribution chamber in a circumferential array, pontoons are arranged at the other ends of the air inlet pipes, annular wheel frames are arranged on the pontoons, and half of the wheel frames are positioned in the water tank; install first solenoid valve on the flotation pontoon, install the extrusion switch in the intake pipe, install the arc sand grip on the basin, the arc sand grip with the extrusion switch cooperatees.

Still further, the link gear includes first gear, second gear, first gear with gas distribution room fixed connection, first gear with second gear meshing is with, the second gear with pivot fixed connection.

Further, the diameter of the second gear is smaller than the diameter of the first gear.

Furthermore, a second electromagnetic valve is also arranged on the pontoon.

Furthermore, a water outlet pipe is arranged on the pontoon, and an extrusion switch is arranged on the water outlet pipe.

Further, the extrusion switch comprises an extrusion block, one end of the extrusion block is positioned at the outer side of the extrusion switch, and a spring is fixedly arranged at the other end of the extrusion block; the extrusion block is provided with an opening.

Further, a controller is arranged on the side wall of the water tank, and the controller is arranged at a position corresponding to the pontoon arranged on the horizontal diameter position of the wheel frame.

The utility model has the following technical effects:

the air energy wheel frame type heavy buoyancy power generation device provided by the utility model is different from the prior art in that a plurality of buoys are uniformly arranged at the edge position of the wheel frame, the buoys are sunk by injecting water into the buoys, and then the buoys are raised by injecting high-pressure gas into the buoys, so that the wheel frame is driven to rotate, and the power generator is driven to generate power by a transmission mechanism; in addition, the transmission mechanism is a first gear and a second gear, and the first gear is larger than the second gear, so that the angular speed of the second gear is larger than that of the first gear, and the power generation efficiency of the generator is improved.

The air energy wheel frame type heavy buoyancy power generation device of the utility model is further described below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of the structure of a wheel carrier of the present utility model;

FIG. 2 is a schematic view of the structure of the power generation device of the present utility model;

fig. 3 is a schematic view of the structure of the squeeze switch.

In the figure: 1-pontoon, 2-wheel carrier, 3-gas-supply pipe, 4-gas distribution chamber, 5-outlet pipe, 6-intake pipe, 7-first solenoid valve, 8-controller, 9-second solenoid valve, 10-extrusion switch, 11-arc sand grip, 12-spring, 13-basin, 14-extrusion piece, 15-mount, 16-first gear, 17-second gear, 18-pivot, 19-generator, 20-air inlet.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific examples described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 2, the air energy wheel frame type heavy buoyancy power generation device provided by the utility model comprises a fixing frame 15, wherein an air delivery pipe 3 is arranged on the fixing frame 15, one end of the air delivery pipe 3 is provided with an air inlet for inputting high-pressure air, and the other end of the air delivery pipe 3 is in rotary fit with an air distribution chamber 4. A linkage mechanism is also mounted on the gas distribution chamber 4 to enable the spindle 18 to rotate with the rotation of the gas distribution chamber 4; preferably, the linkage mechanism comprises a first gear 16 and a second gear 17, the first gear 16 is fixedly arranged on the gas distribution chamber 4, the first gear 16 is meshed with the second gear 17, the second gear 17 is fixedly connected with a rotating shaft 18, the rotating shaft 18 is connected with a generator 19, and the generator 19 is fixedly arranged on the fixed frame 15.

As a further explanation of the present example, the diameter of the second gear 17 is smaller than the diameter of the first gear 16, thereby making the angular velocity of the second gear 17 larger than the angular velocity of the first gear 16, thereby improving the efficiency of power generation.

As shown in fig. 1, a plurality of air inlet pipes 6 are further installed on the air distribution chamber 4, the plurality of air inlet pipes 6 are distributed around the circumference of the air distribution chamber 4 in an array, the air distribution chamber 4 is communicated with one ends of the plurality of air inlet pipes 6, the other ends of the air inlet pipes 6 are fixedly installed on the pontoon 1 and are communicated with the pontoon 1, an extrusion switch 10 is further installed on the air inlet pipes 6, and a first electromagnetic valve 7 and a second electromagnetic valve 9 are installed on two sides of the pontoon 1. In addition, a water outlet pipe 5 parallel to the air inlet pipe 6 is also arranged on the pontoon 1, one end of the water outlet pipe 5 is communicated with the pontoon 1, the other end is open, and a squeezing switch 10 is also arranged on the water outlet pipe 5. Half of the wheel carrier 2 is placed in a water tank 13 filled with water, a controller 8 is installed on the water tank 13, the controller 8 is installed at the position of the water tank 13 corresponding to the pontoon 1 when the air inlet pipe 6 is in a horizontal position, an arc-shaped raised line 11 is also installed on the water tank 13, the position of the arc-shaped raised line 11 corresponds to the position of the extrusion switch 10, and the extrusion switch 10 can be opened when passing through the arc-shaped raised line 11.

As further illustration of this example, as shown in fig. three, the extrusion switch 10 includes an extrusion block 14, one end of the extrusion block 14 is located at the outer side of the extrusion switch 10, the extrusion switch 10 is installed on the air inlet pipe 6 and the water outlet pipe 5, the other side of the extrusion block 14 is fixedly installed with a spring 12, and an opening is provided on the extrusion block 12. When the pressing switch 10 passes through the arc-shaped convex strip 11, the pressing block 12 is pressed, so that the spring 12 is compressed, and at this time, the opening of the pressing block 12 is just positioned at the pipeline, so that the air inlet pipe 6 or the water outlet pipe 5 is communicated.

When power generation is needed, firstly, water in the water tank 13 is added to the position of a broken line in fig. 1, firstly, an external force is applied to the wheel frame 2 to enable the wheel frame 2 to start rotating, when the extrusion switch 10 contacts the arc-shaped raised strips 11, the extrusion switch is opened, high-pressure gas enters from the air inlet pipe 6 and extrudes water in the pontoon 1 from the water outlet pipe 5, the pontoon 1 generates buoyancy and has an upward movement trend, and therefore the wheel frame 2 is driven to rotate; when the pontoon 1 rotates to the controller 8, the controller 8 controls the opening of the first electromagnetic valve 7 and the second electromagnetic valve 9, so that water is injected into the pontoon 1 through the first electromagnetic valve, the pontoon 1 is sunk under the action of gravity, the wheel frame 2 is further pushed to rotate, the gas distribution chamber 4 is driven to rotate, the first gear 16 drives the second gear 17 to rotate, the rotating shaft 18 is driven to rotate, and the generator 19 is driven to generate electricity.

In summary, the air energy wheel frame type heavy buoyancy power generation device provided by the utility model is different from the prior art in that a plurality of buoys 1 are uniformly arranged at the edge position of a wheel frame 2, the buoys 1 are sunk by injecting water into the buoys 1, and then the buoys 1 are raised by injecting high-pressure gas into the buoys 1, so that the wheel frame 2 is driven to rotate, and a power generator 19 is driven to generate power through a transmission mechanism; further, the transmission mechanism is a first gear 16 and a second gear 17, the first gear 16 is larger than the second gear 17, so that the angular velocity of the second gear 17 is larger than that of the first gear, thereby improving the power generation efficiency of the generator 19.

Of course, the present utility model is capable of other various embodiments and its several details are capable of modification and variation in light of the present utility model, as will be apparent to those skilled in the art, without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (7)

1. The air energy wheel frame type heavy buoyancy power generation device is characterized by comprising a fixing frame (15), wherein an air delivery pipe (3) is fixedly arranged on the fixing frame (15), one end of the air delivery pipe (3) is provided with an air inlet (20), the other end of the air delivery pipe (3) is in rotary fit with an air distribution chamber (4), the air distribution chamber (4) is connected with one end of a rotating shaft (18) through a linkage mechanism, the linkage mechanism can enable the rotating shaft (18) to rotate along with the rotation of the air distribution chamber (4), and the other end of the rotating shaft (18) is connected with a generator (19);

one end of a plurality of air inlet pipes (6) are uniformly arranged on the air distribution chamber (4), the air inlet pipes (6) are distributed on the air distribution chamber (4) in a circumferential array, pontoons (1) are arranged at the other ends of the air inlet pipes (6), annular wheel frames (2) are arranged on the pontoons (1), and half of the wheel frames (2) are positioned in a water tank (13); install first solenoid valve (7) on flotation pontoon (1), install extrusion switch (10) on intake pipe (6), install arc sand grip (11) on basin (13), arc sand grip (11) with extrusion switch (10) cooperate.

2. The air energy wheel frame type heavy buoyancy power generation device according to claim 1, wherein the linkage mechanism comprises a first gear (16) and a second gear (17), the first gear (16) is fixedly connected with the gas distribution chamber (4), the first gear (16) is meshed with the second gear (17), and the second gear (17) is fixedly connected with the rotating shaft (18).

3. An air energy wheelframe type heavy buoyancy power generation device according to claim 2, wherein the diameter of the second gear (17) is smaller than the diameter of the first gear (16).

4. The air energy wheel frame type heavy buoyancy power generation device according to claim 1, wherein a second electromagnetic valve (9) is further installed on the pontoon (1).

5. The air energy wheel frame type heavy buoyancy power generation device according to claim 4, wherein a water outlet pipe (5) is arranged on the pontoon (1), and a squeezing switch (10) is arranged on the water outlet pipe (5).

6. The air energy wheel frame type heavy buoyancy power generation device according to claim 5, wherein the extrusion switch (10) comprises an extrusion block (14), one end of the extrusion block (14) is positioned outside the extrusion switch (10), and a spring (12) is fixedly arranged at the other end of the extrusion block (14); the extrusion block (14) is provided with an opening.

7. The air energy wheel frame type heavy buoyancy power generation device according to claim 1, wherein a controller (8) is installed on the side wall of the water tank (13), and the controller (8) is installed at a position corresponding to the pontoon (1) installed on the horizontal diameter position of the wheel frame (2).