CN109228947B - Biogas power generation electric vehicle charging station - Google Patents

Abstract

the invention relates to a charging station, in particular to a biogas power generation electric vehicle charging station. The biogas is renewable energy, does not pollute the environment after burning, and the biogas volatilization can be accelerated by blowing hot air, and the biogas pressure is increased, so that the biogas can conveniently enter the burner. The filter tank filters large residues to prevent pipeline blockage, and the stirring paddle has four layers of paddles, so that the mixing is more uniform. The blending tank is installed in filtering a jar left side, the blending tank is connected with filtering a jar, filter jar and install in the fermentation cylinder upside, filter jar and fermentation cylinder connection, the fermentation cylinder is installed in steam power generation facility left side, the fermentation cylinder is connected with steam power generation facility, steam power generation facility installs in the side of battery, steam power generation facility is connected with the battery, the joint that charges is installed in the battery side, the backup pad is installed in the blending tank outside, the backup pad is installed in filtering a jar outside, the backup pad is installed in the fermentation cylinder outside, the backup pad is installed in steam power generation facility outside, the.

Description

biogas power generation electric vehicle charging station

Technical Field

The invention relates to a charging station, in particular to a biogas power generation electric vehicle charging station.

Background

Bubbles emerge from the marsh, sewage ditch or septic tank, and if people scratch matches, the matches can be ignited, which is the natural marsh gas. The biogas is a combustible gas produced by the fermentation of various organic substances under the condition of air reduction isolation and at proper temperature and pH value. The biogas is renewable energy and does not pollute the environment after being combusted, so the charging station for the biogas power generation electric vehicle is designed.

Disclosure of Invention

The invention provides a charging station for an electric vehicle for generating electricity by using methane, which has the beneficial effects that the methane is renewable energy, the environment cannot be polluted after the methane is combusted, the volatilization of the methane can be accelerated by blowing hot air, the pressure of the methane is increased, and the methane can conveniently enter a combustor. The filter tank filters large residues to prevent pipeline blockage, and the stirring paddle has four layers of paddles, so that the mixing is more uniform.

In order to solve the technical problems, the invention relates to a charging station, in particular to a biogas power generation electric vehicle charging station which comprises a mixing tank, a filtering tank, a fermentation tank, a steam power generation device, a storage battery, a charging connector and a supporting plate, wherein biogas is renewable energy, the environment cannot be polluted after combustion, the volatilization of biogas can be accelerated by blowing hot air, the biogas pressure is increased, and the biogas can conveniently enter a combustor. The filter tank filters large residues to prevent pipeline blockage, and the stirring paddle has four layers of paddles, so that the mixing is more uniform.

The mixing tank consists of a stirring motor, a coupler, a motor transition seat, a feed inlet, a mounting plate, a stirring paddle, a mixing tank and a vacuum pumping pipe, wherein the stirring motor is arranged on the upper side of the coupler and is connected with the coupler, the stirring motor is arranged on the upper side of the motor transition seat and is connected with the motor transition seat through a bolt, the stirring motor is arranged on the upper side of the feed inlet and is arranged on the upper side of the mounting plate, the stirring motor is arranged on the upper side of the stirring paddle, the stirring motor is arranged on the upper side of the mixing tank and is arranged on the upper side of the vacuum pumping pipe, the coupler is arranged on the inner side of the motor transition seat and is arranged on the upper side of the stirring paddle, the coupler is arranged on the upper side of the mixing tank, the motor transition seat is arranged on the upper, the mounting plate is mounted on the side surface of the mixing tank, the mounting plate is connected with the mixing tank through bolts, the stirring paddle is mounted on the inner side of the mixing tank, and the stirring paddle is connected with the mixing tank;

The filter tank consists of a centrifugal filter barrel assembly, a liquid storage tank, a vacuum generator and a vacuum exhaust pipe, wherein the centrifugal filter barrel assembly is arranged on the upper side of the liquid storage tank and is connected with the liquid storage tank;

The centrifugal filter barrel assembly comprises a centrifugal tank motor, a centrifugal main shaft, a centrifugal filter barrel, a vacuum air outlet, a vacuum feed inlet, a centrifugal tank and a biogas slurry discharge outlet, wherein the centrifugal tank motor is arranged at the lower side of the centrifugal main shaft and is connected with the centrifugal main shaft, the centrifugal tank motor is arranged at the lower side of the centrifugal filter barrel, the centrifugal tank motor is arranged at the lower side of the vacuum air outlet, the centrifugal tank motor is arranged at the lower side of the vacuum feed inlet, the centrifugal tank motor is arranged at the lower side of the centrifugal tank, the centrifugal main shaft is arranged at the lower side of the centrifugal filter barrel and is welded with the centrifugal filter barrel, the centrifugal main shaft is arranged at the lower side of the vacuum air outlet, the centrifugal main shaft is arranged at the lower side of the vacuum feed inlet and is arranged at the inner side of the centrifugal tank, the, the vacuum gas outlet is arranged on the upper side of the centrifugal tank, the vacuum gas outlet is welded with the centrifugal tank, the vacuum feed inlet is arranged on the upper side of the centrifugal tank, the vacuum feed inlet is welded with the centrifugal tank, the centrifugal tank is arranged on the upper side of the biogas slurry discharge port, and the centrifugal tank is welded with the biogas slurry discharge port;

the liquid storage tank consists of a valve, a liquid storage tank body, a liquid inlet, liquid storage tank supporting legs and a liquid storage tank discharge port, wherein the valve is installed at the lower side of the liquid storage tank body;

The vacuum generator consists of a vacuum turntable, a vacuum shell, a vacuum air outlet hole, a vacuum air inlet hole and a vacuum blade, wherein the vacuum turntable is arranged at the inner side of the vacuum shell and is connected with a vacuum shell shaft;

The fermentation tank comprises a hot air device, a fermentation tank cover, a fermentation tank feeding port, a fermentation tank outlet pipe, a fermentation tank body and a burner, wherein the hot air device is arranged on the upper side of the fermentation tank cover and is connected with the fermentation tank cover, the hot air device is arranged on the upper side of the fermentation tank inlet pipe, the hot air device is arranged on the upper side of the fermentation tank body and is arranged on the upper side of the burner, the fermentation tank cover is arranged on the lower side of the fermentation tank feeding port and is welded with the fermentation tank feeding port, the fermentation tank cover is arranged on the lower side of the fermentation tank outlet pipe and is welded with the fermentation tank outlet pipe, the fermentation tank cover is arranged on the upper side of the fermentation tank body and is connected with the fermentation tank body, the outlet pipe of the fermentation tank is connected with the burner;

The hot air device consists of a fan, a hot air box, a hot air outlet and a heating wire, wherein the fan is arranged on the left side of the hot air box and is connected with the hot air box;

The steam power generation device comprises a water inlet, a water tank, a ball valve, a high-pressure steam outlet, a low-pressure steam outlet, a pressure cooker, a power generation impeller and an impeller shell, wherein the water inlet is arranged on the upper side of the water tank, the water inlet is welded with the water tank, the water tank is arranged on the upper side of the ball valve, the upper water tank is connected with the ball valve, the ball valve is arranged on the upper side of the pressure cooker, the ball valve is connected with the pressure cooker, the high-pressure steam outlet is arranged on the right side of the ball valve, the high-pressure steam outlet is arranged on the upper side of the pressure cooker, the high-pressure steam outlet is welded with the pressure cooker, the power generation impeller is arranged on the right side of the high-pressure steam outlet, the power generation impeller is arranged;

the blending tank is installed in filtering a jar left side, the blending tank is connected with filtering the jar, filter jar and install in the fermentation cylinder upside, filter jar and fermentation cylinder connection, the fermentation cylinder is installed in steam power generation facility left side, the fermentation cylinder is connected with steam power generation facility, steam power generation facility installs in the side of battery, steam power generation facility is connected with the battery, the joint of charging is installed in the battery side, the joint of charging is connected with the battery, the backup pad is installed in the blending tank outside, the backup pad is installed in filtering a jar outside, the backup pad is installed in the fermentation cylinder outside, the backup pad is installed in steam power generation.

As a further optimization of the technical scheme, the support plate of the charging station for the methane power generation electric vehicle is made of ceramic.

As further optimization of the technical scheme, the number of the mounting plates of the charging station for the methane power generation electric vehicle is two.

As a further optimization of the technical scheme, the charging connector of the methane power generation electric vehicle charging station is connected with the supporting plate.

the methane power generation electric vehicle charging station has the beneficial effects that:

the biogas is renewable energy, does not pollute the environment after burning, and the biogas volatilization can be accelerated by blowing hot air, and the biogas pressure is increased, so that the biogas can conveniently enter the burner. The filter tank filters large residues to prevent pipeline blockage, and the stirring paddle has four layers of paddles, so that the mixing is more uniform.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a charging station for methane power generation electric vehicles according to the present invention.

fig. 2 is a schematic structural diagram of a mixing tank 1 of a biogas power generation electric vehicle charging station of the invention.

Fig. 3 is a schematic structural view of a filter tank 2 of a biogas power generation electric vehicle charging station of the invention.

Fig. 4 is a schematic structural view of a centrifugal filter vat assembly 2-1 of the biogas power generation electric vehicle charging station of the invention.

fig. 5 is a schematic view of a partial enlarged structure of a centrifugal filter barrel assembly 2-1 of the biogas power generation electric vehicle charging station of the invention.

FIG. 6 is a schematic structural view of a liquid storage tank 2-2 of the biogas power generation electric vehicle charging station of the invention.

FIG. 7 is a schematic structural diagram of a vacuum generator 2-3 of a biogas power generation electric vehicle charging station of the present invention.

Fig. 8 is a schematic structural view of a fermentation tank 3 of a biogas power generation electric vehicle charging station according to the present invention.

Fig. 9 is a schematic structural view of a hot air device 3-1 of the methane power generation electric vehicle charging station of the invention.

fig. 10 is a schematic structural view of a steam power generation device 4 of a methane power generation electric vehicle charging station of the present invention.

in the figure: a mixing tank 1; 1-1 of a stirring motor; 1-2 of a coupler; 1-3 of a motor transition seat; 1-4 parts of a feed inlet; mounting plates 1-5; 1-6 parts of stirring paddle; 1-7 parts of a mixing tank; 1-8 parts of a vacuum pumping pipe; a filtration tank 2; 2-1 of centrifugal filter barrel assembly; a centrifuge tank motor 2-1-1; 2-1-2 of a centrifugal main shaft; 2-1-3 of a centrifugal filter barrel; 2-1-4 of a vacuum air outlet; 2-1-5 of a vacuum feed port; 2-1-6 of a centrifugal tank; 2-1-7 parts of a biogas slurry discharge port; 2-2 of a liquid storage tank; valve 2-2-1; a liquid storage tank body 2-2-2; 2-2-3 of a liquid inlet; 2-2-4 support legs of the liquid storage tank; 2-2-5 parts of a discharge port of the liquid storage tank; a vacuum generator 2-3; 2-3-1 of a vacuum turntable; 2-3-2 of a vacuum shell; 2-3-3 parts of vacuum air outlet holes; 2-3-4 of vacuum air inlet holes; 2-3-5 of vacuum blades; 2-4 of a vacuum exhaust tube; a fermentation tank 3; a hot air device 3-1; 3-1-1 of a fan; 3-1-2 of a hot air box; 3-1-3 hot air outlets; 3-1-4 of heating wires; 3-2 parts of a fermentation tank cover; 3-3 parts of a feed inlet of the fermentation tank; 3-4 parts of an air outlet pipe of the fermentation tank; 3-5 of a fermentation tank body; 3-6 of a combustor; a steam power generation device 4; a water inlet 4-1; 4-2 of a water tank; 4-3 of a ball valve; 4-4 of a high-pressure steam outlet; 4-5 of a low-pressure steam outlet; 4-6 parts of pressure cooker; 4-7 of a power generation impeller; 4-8 parts of an impeller shell; a storage battery 5; a charging connector 6; and a support plate 7.

Detailed Description

the first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, and the present invention relates to a charging station, and more specifically, to a charging station for a biogas power generation electric vehicle, which includes a mixing tank 1, a filter tank 2, a fermentation tank 3, a steam power generation device 4, a storage battery 5, a charging connector 6, and a support plate 7, wherein biogas is a renewable energy source, and does not pollute the environment after combustion, and the biogas volatilization can be accelerated by blowing hot air, and the biogas pressure can be increased, so that the biogas can conveniently enter a burner. The filter tank filters large residues to prevent pipeline blockage, and the stirring paddle has four layers of paddles, so that the mixing is more uniform.

the mixing tank 1 consists of a stirring motor 1-1, a coupling 1-2, a motor transition seat 1-3, a feeding port 1-4, a mounting plate 1-5, a stirring paddle 1-6, a mixing tank 1-7 and a vacuum pumping pipe 1-8, wherein the stirring motor 1-1 is arranged on the upper side of the coupling 1-2, the stirring motor 1-1 is connected with the coupling 1-2, the stirring motor 1-1 is arranged on the upper side of the motor transition seat 1-3, the stirring motor 1-1 is connected with the motor transition seat 1-3 through a bolt, the stirring motor 1-1 is arranged on the upper side of the feeding port 1-4, the stirring motor 1-1 is arranged on the upper side of the mounting plate 1-5, the stirring motor 1-1 is arranged on the upper side of the stirring paddle 1-6, the stirring motor 1-1 is, the stirring motor 1-1 is arranged on the upper side of the vacuum pumping pipe 1-8, the coupling 1-2 is arranged on the inner side of the motor transition seat 1-3, the coupling 1-2 is arranged on the upper side of the stirring paddle 1-6, the coupling 1-2 is arranged on the upper side of the mixing tank 1-7, the motor transition seat 1-3 is connected with the mixing tank 1-7 through bolts, the feed port 1-4 is arranged on the upper side of the mixing tank 1-7, the feed port 1-4 is connected with the mixing tank 1-7 through bolts, the mounting plate 1-5 is arranged on the side surface of the mixing tank 1-7, the mounting plate 1-5 is connected with the, the stirring paddles 1-6 are connected with the mixing tank 1-7, organic matters such as straws, excrement and the like to be fermented are mixed in the mixing tank, the mixing tank 1-7 is sealed, and fermenting microorganisms are added from the feed inlet 1-4. Starting the stirring motor 1-1, rotating the stirring motor 1-1, driving the coupling 1-2 to rotate by the stirring motor 1-1, driving the stirring paddle 1-6 to rotate by the coupling 1-2, and stirring the mixture in the mixing tank 1-7 by moving the blades on the stirring paddle 1-6 to fully mix the fermentation microorganisms with the organic matters, thereby achieving the purpose of accelerating the fermentation speed;

The filter tank 2 consists of a centrifugal filter barrel assembly 2-1, a liquid storage tank 2-2, a vacuum generator 2-3 and a vacuum exhaust pipe 2-4, wherein the centrifugal filter barrel assembly 2-1 is arranged on the upper side of the liquid storage tank 2-2, the centrifugal filter barrel assembly 2-1 is connected with the liquid storage tank 2-2, the centrifugal filter barrel assembly 2-1 is arranged on the upper side of the vacuum generator 2-3, the centrifugal filter barrel assembly 2-1 is arranged on the upper side of the vacuum exhaust pipe 2-4, the centrifugal filter barrel assembly 2-1 is connected with the vacuum exhaust pipe 2-4, the liquid storage tank 2-2 is arranged on the left side of the vacuum generator 2-3, the liquid storage tank 2-2 is arranged on the left side of the vacuum exhaust pipe 2-4, the vacuum generator 2-3 is arranged on the lower side, the vacuum generator 2-3 is connected with the vacuum exhaust tube 2-4;

The centrifugal filter barrel assembly 2-1 consists of a centrifugal tank motor 2-1-1, a centrifugal spindle 2-1-2, a centrifugal filter barrel 2-1-3, a vacuum air outlet 2-1-4, a vacuum feed inlet 2-1-5, a centrifugal tank 2-1-6 and a biogas slurry discharge outlet 2-1-7, wherein the centrifugal tank motor 2-1-1 is arranged at the lower side of the centrifugal spindle 2-1-2, the centrifugal tank motor 2-1-1 is connected with the centrifugal spindle 2-1-2, the centrifugal tank motor 2-1-1 is arranged at the lower side of the centrifugal filter barrel 2-1-3, the centrifugal tank motor 2-1-1 is arranged at the lower side of the vacuum air outlet 2-1-4, the centrifugal tank motor 2-1-1 is arranged at the lower side of the vacuum feed inlet 2-1-5, a centrifugal tank motor 2-1-1 is arranged at the lower side of a centrifugal tank 2-1-6, a centrifugal spindle 2-1-2 is arranged at the lower side of a centrifugal filter barrel 2-1-3, the centrifugal spindle 2-1-2 is welded with the centrifugal filter barrel 2-1-3, the centrifugal spindle 2-1-2 is arranged at the lower side of a vacuum air outlet 2-1-4, the centrifugal spindle 2-1-2 is arranged at the lower side of a vacuum feed inlet 2-1-5, the centrifugal spindle 2-1-2 is arranged at the inner side of the centrifugal tank 2-1-6, the centrifugal filter barrel 2-1-3 is arranged at the lower side of the vacuum air outlet 2-1-4, the centrifugal filter barrel 2-1-3 is arranged at the lower side of the vacuum feed inlet 2, the centrifugal filter barrel 2-1-3 is arranged on the inner side of the centrifugal tank 2-1-6, the vacuum air outlet 2-1-4 is arranged on the right side of the vacuum feed inlet 2-1-5, the vacuum air outlet 2-1-4 is arranged on the upper side of the centrifugal tank 2-1-6, the vacuum air outlet 2-1-4 is welded with the centrifugal tank 2-1-6, the vacuum feed inlet 2-1-5 is arranged on the upper side of the centrifugal tank 2-1-6, the vacuum feed inlet 2-1-5 is welded with the centrifugal tank 2-1-6, the centrifugal tank 2-1-6 is arranged on the upper side of the biogas slurry discharge port 2-1-7, the centrifugal tank 2-1-6 is welded with the biogas slurry discharge port 2-1-7, and the volume connected with the vacuum air outlet 2-3-3 is, in the exhaust process, gas in the centrifugal filter barrel assembly 2-1 is exhausted, the pressure in the centrifugal filter barrel assembly 2-1 is reduced, a mixture in the mixing tank 1-7 enters the vacuum feed port 2-1-5 through the vacuum pumping pipe 1-8, then the mixture flows into the centrifugal filter barrel assembly 2-1, the centrifugal tank motor 2-1-1 is started, the centrifugal tank motor 2-1-1 drives the centrifugal spindle 2-1-2 to rotate, the centrifugal spindle 2-1-2 drives the centrifugal filter barrel 2-1-3 to rotate, the centrifugal filter barrel 2-1-3 drives the mixture to rotate, at the moment, the mixture is thrown out towards the periphery under the action of centrifugal force, small particles and moisture enter the centrifugal tank 2-1-6, under the action of gravity, collecting the small particles and water to a biogas slurry discharge port 2-1-7;

the liquid storage tank 2-2 consists of a valve 2-2-1, a liquid storage tank body 2-2-2, a liquid inlet 2-2-3, liquid storage tank support legs 2-2-4 and a liquid storage tank discharge port 2-2-5, the valve 2-2-1 is arranged at the lower side of the liquid storage tank body 2-2-2, the valve 2-2-1 is arranged at the lower side of the liquid inlet 2-2-3, the valve 2-2-1 is arranged at the lower side of the liquid storage tank support legs 2-2-4, the valve 2-2-1 is arranged at the lower side of the liquid storage tank discharge port 2-2-5, the valve 2-2-1 is in threaded connection with the liquid storage tank discharge port 2-2-5, the liquid storage tank body 2-, the liquid storage tank body 2-2-2 is welded with the liquid inlet 2-2-3, the liquid storage tank body 2-2-2 is arranged on the side surface of a supporting leg 2-2-4 of the liquid storage tank, the liquid storage tank body 2-2-2 is welded with the supporting leg 2-2-4 of the liquid storage tank, the liquid storage tank body 2-2-2-2 is arranged on the upper side of a discharge port 2-2-5 of the liquid storage tank, the liquid inlet 2-2-3 is arranged on the upper side of the supporting leg 2-2-4 of the liquid storage tank, the liquid inlet 2-2-3 is arranged on the upper side of the discharge port 2-2-5 of the liquid storage tank, the supporting leg 2-2-4 of the liquid storage tank, flows through the liquid inlet 2-2-3 to enter the liquid storage tank 2-2-2 for storage; the working principle of fermentation is to open a valve 2-2-1;

The vacuum generator 2-3 consists of a vacuum turntable 2-3-1, a vacuum shell 2-3-2, a vacuum air outlet 2-3-3, a vacuum air inlet 2-3-4 and a vacuum blade 2-3-5, the vacuum turntable 2-3-1 is arranged at the inner side of the vacuum shell 2-3-2, the vacuum turntable 2-3-1 is connected with the vacuum shell 2-3-2 through a shaft, the vacuum turntable 2-3-1 is arranged at the lower side of the vacuum air outlet 2-3-3, the vacuum turntable 2-3-1 is arranged at the lower side of the vacuum air inlet 2-3-4, the vacuum turntable 2-3-1 is arranged at the side of the vacuum blade 2-3-5, the vacuum shell 2-3-2 is arranged at the lower side of the vacuum air outlet 2-3-3, the vacuum shell 2-3-2 is welded with the vacuum air outlet 2-3-3, the vacuum shell 2-3-2 is arranged at the lower side of the vacuum air inlet 2-3-4, the vacuum shell 2-3-2 is welded with the vacuum air inlet 2-3-4, the vacuum shell 2-3-2 is arranged at the outer side of the vacuum blade 2-3-5, the vacuum air outlet 2-3-3 is arranged at the right side of the vacuum air inlet 2-3-4, the vacuum air outlet 2-3-3 is arranged at the upper side of the vacuum blade 2-3-5, the vacuum air inlet 2-3-4 is arranged at the upper side of the vacuum blade 2-3-5, the vacuum blade 2-3-5 is tightly jointed with the vacuum shell 2-3-2, the vacuum turntable 2-3-1 rotates anticlockwise, and when the vacuum turntable 2-3-1 drives the vacuum shell 2-3-2 to rotate anticlockwise, the volume connected with the vacuum air inlet 2-3-4 is gradually increased and is in the air suction process. The volume connected with the vacuum air outlet 2-3-3 is gradually reduced and is in the exhaust process;

the fermentation tank 3 consists of a hot air device 3-1, a fermentation tank cover 3-2, a fermentation tank feed inlet 3-3, a fermentation tank outlet pipe 3-4, a fermentation tank body 3-5 and a burner 3-6, wherein the hot air device 3-1 is arranged on the upper side of the fermentation tank cover 3-2, the hot air device 3-1 is connected with the fermentation tank cover 3-2, the hot air device 3-1 is arranged on the upper side of the fermentation tank feed inlet 3-3, the hot air device 3-1 is arranged on the upper side of the fermentation tank outlet pipe 3-4, the hot air device 3-1 is arranged on the upper side of the fermentation tank body 3-5, the hot air device 3-1 is arranged on the upper side of the burner 3-6, the fermentation tank cover 3-2 is arranged on the lower, the fermentation tank cover 3-2 is arranged at the lower side of a fermentation tank outlet pipe 3-4, the fermentation tank cover 3-2 is welded with a fermentation tank outlet pipe 3-4, the fermentation tank cover 3-2 is arranged at the upper side of a fermentation tank body 3-5, the fermentation tank cover 3-2 is connected with the fermentation tank body 3-5, a fermentation tank feed inlet 3-3 is arranged at the left side of the fermentation tank outlet pipe 3-4, the fermentation tank feed inlet 3-3 is arranged at the upper side of the fermentation tank body 3-5, the fermentation tank outlet pipe 3-4 is arranged at the left side of a burner 3-6, the fermentation tank outlet pipe 3-4 is connected with the burner 3-6, a storage solution flows into the fermentation tank body 3-5 through the fermentation tank feed inlet 3-3, the biogas dissolved in the solution overflows, the pressure in the fermentation tank body 3-5 rises, the biogas flows to a low-pressure part through the fermentation tank air outlet pipe 3-4, flows to the burner 3-6 and is ignited, and the biogas is subjected to diffusion combustion in the air;

The hot air device 3-1 consists of a fan 3-1-1, a hot air box 3-1-2, a hot air outlet 3-1-3 and a heating wire 3-1-4, the fan 3-1-1 is arranged at the left side of the hot air box 3-1-2, the fan 3-1-1 is connected with the hot air box 3-1-2, the fan 3-1-1 is arranged at the left side of the hot air outlet 3-1-3, the fan 3-1-1 is arranged at the left side of the heating wire 3-1-4, the hot air box 3-1-2 is arranged at the left side of the hot air outlet 3-1-3, the hot air box 3-1-2 is welded with the hot air outlet 3-1-3, the hot air box 3-1-2 is arranged at the outer side of, the hot air outlet 3-1-3 is arranged at the right side of the heating wire 3-1-4, the fan 3-1-1 sends air into the hot air box 3-1-2, the heating wire 3-1-4 heats the air in the hot air box 3-1-2 to raise the temperature, and the heated air flows through the hot air outlet 3-1-3 and is sent into the fermentation tank body 3-5;

the steam power generation device 4 consists of a water inlet 4-1, a water tank 4-2, a ball valve 4-3, a high-pressure steam outlet 4-4, a low-pressure steam outlet 4-5, a pressure cooker 4-6, a power generation impeller 4-7 and an impeller shell 4-8, wherein the water inlet 4-1 is arranged on the upper side of the water tank 4-2, the water inlet 4-1 is welded with the water tank 4-2, the water tank 4-2 is arranged on the upper side of the ball valve 4-3, the upper water tank 4-2 is connected with the ball valve 4-3, the ball valve 4-3 is arranged on the upper side of the pressure cooker 4-6, the ball valve 4-3 is connected with the pressure cooker 4-6, the high-pressure steam outlet 4-4 is arranged on the right side of the ball valve 4-3, the high-pressure steam outlet 4-4 is arranged on the upper, the power generation impeller 4-7 is arranged on the right side of the high-pressure steam outlet 4-4, the power generation impeller 4-7 is connected with the high-pressure steam outlet 4-4, the power generation impeller 4-7 is arranged inside the impeller shell 4-8, the power generation impeller 4-7 is connected with the impeller shell 4-8 shaft, the impeller shell 4-8 is arranged on the right side of the high-pressure boiler 4-6, the impeller shell 4-8 is arranged on the lower side of the low-pressure steam outlet 4-5, the impeller shell 4-8 is connected with the low-pressure steam outlet 4-5, the burnt methane generates a large amount of heat, the water in the high-pressure boiler 4-6 is heated through heat transfer, a large amount of steam is generated, the pressure in the high-pressure boiler 4-6 is increased, the steam moves to a low-pressure position through the high-pressure steam outlet 4-4, and the, the steam pushes the power generation impeller 4-7 to rotate, the power generation impeller 4-7 cuts the magnetic induction line to generate electric energy, the generated electric energy is transmitted to the storage battery 5 to be stored, and the low-pressure steam is discharged through the low-pressure steam outlet 4-5;

mixing tank 1 is installed in filtering 2 left sides of jar, mixing tank 1 is connected with filtering jar 2, it installs in 3 upsides of fermentation cylinder to filter jar 2, it is connected with fermentation cylinder 3 to filter jar 2, fermentation cylinder 3 is installed in 4 left sides of steam power generation facility, fermentation cylinder 3 is connected with steam power generation facility 4, steam power generation facility 4 is installed in the side of battery 5, steam power generation facility 4 is connected with battery 5, the joint 6 that charges is installed in the battery 5 side, the joint 6 that charges is connected with battery 5, backup pad 7 is installed in mixing tank 1 outside, backup pad 7 is installed in filtering 2 outsides of jar, backup pad 7 is installed in fermentation cylinder 3 outsides, backup pad 7 is installed in 4 outsides of steam power generation facility, backup.

the second embodiment is as follows:

The present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the first embodiment will be further described with reference to the present embodiment, in which the support plate 7 is made of ceramic.

the third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, and the present embodiment further describes the first embodiment, in which the number of the mounting plates 1 to 5 is two.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the present embodiment in which the charging connector 6 is connected to the support plate 7.

The working principle of the device is as follows: the working principle of mixing is that organic matters such as straws and excrement to be fermented are mixed in a mixing tank, the mixing tank 1-7 is sealed, and fermenting microorganisms are added from a feeding port 1-4. Starting the stirring motor 1-1, rotating the stirring motor 1-1, driving the coupler 1-2 to rotate by the stirring motor 1-1, driving the stirring paddle 1-6 to rotate by the coupler 1-2, and stirring the mixture in the mixing tank 1-7 by moving the blades on the stirring paddle 1-6 to fully mix the fermentation microorganisms and the organic matters, thereby achieving the purpose of accelerating the fermentation speed. The working principle of the filtering is that the vacuum blade 2-3-5 is tightly attached to the vacuum shell 2-3-2, the vacuum turntable 2-3-1 rotates anticlockwise, and when the vacuum turntable 2-3-1 drives the vacuum shell 2-3-2 to rotate anticlockwise, the volume connected with the vacuum air inlet 2-3-4 is gradually increased and is in the air suction process. The volume connected with the vacuum air outlet 2-3-3 is gradually reduced, and in the process of exhausting, gas in the centrifugal filter barrel assembly 2-1 is exhausted, the pressure in the centrifugal filter barrel assembly 2-1 is reduced, the mixture in the mixing tank 1-7 enters the vacuum feed port 2-1-5 through the vacuum pumping pipe 1-8, then the mixture flows into the centrifugal filter barrel assembly 2-1, the centrifugal tank motor 2-1-1 is started, the centrifugal tank motor 2-1-1 drives the centrifugal spindle 2-1-2 to rotate, the centrifugal spindle 2-1-2 drives the centrifugal filter barrel 2-1-3 to rotate, the centrifugal filter barrel 2-1-3 drives the mixture to rotate, and at the moment, the mixture is thrown out to the periphery under the action of centrifugal force, the small particles and the moisture enter the centrifugal tank 2-1-6, are collected to the biogas slurry discharge port 2-1-7 under the action of gravity, flow through the liquid inlet 2-2-3 and enter the liquid storage tank 2-2-2 to be stored; the working principle of fermentation is that the valve 2-2-1 is opened, the storage solution flows into the fermentation tank body 3-5 through the feed inlet 3-3 of the fermentation tank, starting the hot air device 3-1, the fan 3-1-1 sends air into the hot air box 3-1-2, the heating wires 3-1-4 heat the gas in the hot air box 3-1-2 to raise the temperature, the heated gas flows through the hot air outlet 3-1-3 and is sent into the fermentation tank body 3-5, the temperature of the fermentation tank body 3-5 rises, the generation of biogas is accelerated, the temperature of the solution rises, the biogas dissolved in the solution overflows, the pressure in the fermentation tank body 3-5 rises, the biogas flows to a low-pressure part through the fermentation tank air outlet pipe 3-4, flows to the burner 3-6 and is ignited, and the biogas is subjected to diffusion combustion in the air. The working principle of power generation is that a large amount of heat is generated by burning methane, water in the pressure cooker 4-6 is heated through heat transfer, a large amount of steam is generated, the pressure in the pressure cooker 4-6 rises, the steam moves to a low-pressure position through the high-pressure steam outlet 4-4, the steam enters the impeller shell 4-8 through the high-pressure steam outlet 4-4, the steam pushes the power generation impeller 4-7 to rotate, the power generation impeller 4-7 cuts a magnetic induction line to generate electric energy, the generated electric energy is transmitted to the storage battery 5 to be stored, and the low-pressure steam is discharged through the low-pressure steam outlet 4-5. The charging principle of the electric automobile is that the charging connector 6 is connected with a charging port of the electric automobile, so that charging can be carried out.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a marsh gas power generation electric automobile charging station, includes blending tank (1), crosses filter tank (2), fermentation cylinder (3), steam power generation facility (4), battery (5), the joint that charges (6), backup pad (7), its characterized in that: the mixing tank (1) consists of a stirring motor (1-1), a coupler (1-2), a motor transition seat (1-3), a feed inlet (1-4), a mounting plate (1-5), a stirring paddle (1-6), a mixing tank (1-7) and a vacuum pumping pipe (1-8), wherein the stirring motor (1-1) is arranged on the upper side of the coupler (1-2), the stirring motor (1-1) is connected with the coupler (1-2), the stirring motor (1-1) is arranged on the upper side of the motor transition seat (1-3), the stirring motor (1-1) is connected with the motor transition seat (1-3) through bolts, the stirring motor (1-1) is arranged on the upper side of the feed inlet (1-4), the stirring motor (1-1) is arranged on the upper side of the mounting plate (1-5), the stirring motor (1-1) is arranged on the upper side of the stirring paddle (1-6), the stirring motor (1-1) is arranged on the upper side of the mixing tank (1-7), the stirring motor (1-1) is arranged on the upper side of the vacuum pumping pipe (1-8), the coupler (1-2) is arranged on the inner side of the motor transition seat (1-3), the coupler (1-2) is arranged on the upper side of the stirring paddle (1-6), the coupler (1-2) is arranged on the upper side of the mixing tank (1-7), the motor transition seat (1-3) is connected with the mixing tank (1-7) through bolts, the feeding port (1-4) is arranged on the upper side of, the feed inlet (1-4) is connected with the mixing tank (1-7) through a bolt, the mounting plate (1-5) is mounted on the side surface of the mixing tank (1-7), the mounting plate (1-5) is connected with the mixing tank (1-7) through a bolt, the stirring paddle (1-6) is mounted on the inner side of the mixing tank (1-7), and the stirring paddle (1-6) is connected with the mixing tank (1-7);

The filter tank (2) consists of a centrifugal filter barrel assembly (2-1), a liquid storage tank (2-2), a vacuum generator (2-3) and a vacuum exhaust pipe (2-4), wherein the centrifugal filter barrel assembly (2-1) is arranged on the upper side of the liquid storage tank (2-2), the centrifugal filter barrel assembly (2-1) is connected with the liquid storage tank (2-2), the centrifugal filter barrel assembly (2-1) is arranged on the upper side of the vacuum generator (2-3), the centrifugal filter barrel assembly (2-1) is arranged on the upper side of the vacuum exhaust pipe (2-4), the centrifugal filter barrel assembly (2-1) is connected with the vacuum exhaust pipe (2-4), the liquid storage tank (2-2) is arranged on the left side of the vacuum generator (2-3), the liquid storage tank (2-2) is arranged on the left side of the vacuum exhaust pipe (2-4), the vacuum generator (2-3) is arranged at the lower side of the vacuum exhaust pipe (2-4), and the vacuum generator (2-3) is connected with the vacuum exhaust pipe (2-4);

the centrifugal filter barrel assembly (2-1) consists of a centrifugal tank motor (2-1-1), a centrifugal spindle (2-1-2), a centrifugal filter barrel (2-1-3), a vacuum air outlet (2-1-4), a vacuum feed inlet (2-1-5), a centrifugal tank (2-1-6) and a biogas slurry discharge outlet (2-1-7), wherein the centrifugal tank motor (2-1-1) is arranged at the lower side of the centrifugal spindle (2-1-2), the centrifugal tank motor (2-1-1) is connected with the centrifugal spindle (2-1-2), the centrifugal tank motor (2-1-1) is arranged at the lower side of the centrifugal filter barrel (2-1-3), the centrifugal tank motor (2-1-1) is arranged at the lower side of the vacuum air outlet (2-1-4), a centrifugal tank motor (2-1-1) is arranged at the lower side of a vacuum feed port (2-1-5), a centrifugal tank motor (2-1-1) is arranged at the lower side of a centrifugal tank (2-1-6), a centrifugal spindle (2-1-2) is arranged at the lower side of a centrifugal filter barrel (2-1-3), the centrifugal spindle (2-1-2) is welded with the centrifugal filter barrel (2-1-3), the centrifugal spindle (2-1-2) is arranged at the lower side of a vacuum air outlet (2-1-4), the centrifugal spindle (2-1-2) is arranged at the lower side of the vacuum feed port (2-1-5), the centrifugal spindle (2-1-2) is arranged at the inner side of the centrifugal tank (2-1-6), and the centrifugal filter barrel (2-1-3) is arranged at the vacuum air outlet (2-1-4) ) A centrifugal filter barrel (2-1-3) is arranged at the lower side of the vacuum feed port (2-1-5), the centrifugal filter barrel (2-1-3) is arranged at the inner side of the centrifugal tank (2-1-6), the vacuum air outlet (2-1-4) is arranged at the right side of the vacuum feed port (2-1-5), the vacuum air outlet (2-1-4) is arranged at the upper side of the centrifugal tank (2-1-6), the vacuum air outlet (2-1-4) is welded with the centrifugal tank (2-1-6), the vacuum feed port (2-1-5) is arranged at the upper side of the centrifugal tank (2-1-6), the vacuum feed port (2-1-5) is welded with the centrifugal tank (2-1-6), and the centrifugal tank (2-1-6) is arranged at the biogas slurry discharge port (2-1-7) The upper side is welded with the centrifugal tank (2-1-6) and the biogas slurry discharge port (2-1-7);

the liquid storage tank (2-2) consists of a valve (2-2-1), a liquid storage tank body (2-2-2), a liquid inlet (2-2-3), liquid storage tank supporting legs (2-2-4) and a liquid storage tank discharge port (2-2-5), the valve (2-2-1) is arranged at the lower side of the liquid storage tank body (2-2-2), the valve (2-2-1) is arranged at the lower side of the liquid inlet (2-2-3), the valve (2-2-1) is arranged at the lower side of the liquid storage tank supporting legs (2-2-4), the valve (2-2-1) is arranged at the lower side of the liquid storage tank discharge port (2-2-5), and the valve (2-2-1) is in threaded connection with the liquid storage tank discharge port (2, the liquid storage tank body (2-2-2) is arranged at the lower side of the liquid inlet (2-2-3), the liquid storage tank body (2-2-2) is welded with the liquid inlet (2-2-3), the liquid storage tank body (2-2-2) is arranged at the side surface of a liquid storage tank supporting leg (2-2-4), the liquid storage tank body (2-2-2) is welded with the liquid storage tank supporting leg (2-2-4), the liquid storage tank body (2-2-2) is arranged at the upper side of a liquid storage tank discharge port (2-2-5), the liquid storage tank body (2-2-2) is welded with a liquid storage tank discharge port (2-2-5), the liquid inlet (2-2-3) is arranged at the upper side of the liquid storage tank supporting leg (2-2-4), the liquid inlet (2-2-3) is, the supporting legs (2-2-4) of the liquid storage tank are arranged on the side surface of the discharge port (2-2-5) of the liquid storage tank;

The vacuum generator (2-3) consists of a vacuum turntable (2-3-1), a vacuum shell (2-3-2), a vacuum air outlet (2-3-3), a vacuum air inlet (2-3-4) and a vacuum blade (2-3-5), wherein the vacuum turntable (2-3-1) is arranged at the inner side of the vacuum shell (2-3-2), the vacuum turntable (2-3-1) is connected with the vacuum shell (2-3-2) through a shaft, the vacuum turntable (2-3-1) is arranged at the lower side of the vacuum air outlet (2-3-3), the vacuum turntable (2-3-1) is arranged at the lower side of the vacuum air inlet (2-3-4), the vacuum turntable (2-3-1) is arranged at the side of the vacuum blade (2-3-5), a vacuum shell (2-3-2) is arranged at the lower side of a vacuum air outlet hole (2-3-3), the vacuum shell (2-3-2) is welded with the vacuum air outlet hole (2-3-3), the vacuum shell (2-3-2) is arranged at the lower side of a vacuum air inlet hole (2-3-4), the vacuum shell (2-3-2) is welded with the vacuum air inlet hole (2-3-4), the vacuum shell (2-3-2) is arranged at the outer side of a vacuum blade (2-3-5), the vacuum air outlet hole (2-3-3) is arranged at the right side of the vacuum air inlet hole (2-3-4), the vacuum air outlet hole (2-3-3) is arranged at the upper side of the vacuum blade (2-3-5), and the vacuum air inlet hole (2-3-4) is arranged at the vacuum blade (2-3-5) An upper side;

The fermentation tank (3) consists of a hot air device (3-1), a fermentation tank cover (3-2), a fermentation tank feed inlet (3-3), a fermentation tank outlet pipe (3-4), a fermentation tank body (3-5) and a burner (3-6), wherein the hot air device (3-1) is arranged on the upper side of the fermentation tank cover (3-2), the hot air device (3-1) is connected with the fermentation tank cover (3-2), the hot air device (3-1) is arranged on the upper side of the fermentation tank feed inlet (3-3), the hot air device (3-1) is arranged on the upper side of the fermentation tank outlet pipe (3-4), the hot air device (3-1) is arranged on the upper side of the fermentation tank body (3-5), the hot air device (3-1) is arranged on the upper side of the burner (3-6), the fermentation tank cover (3-2), the fermentation tank cover (3-2) is welded with the fermentation tank inlet opening (3-3), the fermentation tank cover (3-2) is arranged at the lower side of the fermentation tank outlet pipe (3-4), the fermentation tank cover (3-2) is welded with the fermentation tank outlet pipe (3-4), the fermentation tank cover (3-2) is arranged at the upper side of the fermentation tank body (3-5), the fermentation tank cover (3-2) is connected with the fermentation tank body (3-5), the fermentation tank inlet opening (3-3) is arranged at the left side of the fermentation tank outlet pipe (3-4), the fermentation tank inlet opening (3-3) is arranged at the upper side of the fermentation tank body (3-5), the fermentation tank outlet pipe (3-4) is arranged at the left side of the burner (3-6), and the fermentation tank outlet pipe (3-4);

the hot air device (3-1) consists of a fan (3-1-1), a hot air box (3-1-2), a hot air outlet (3-1-3) and a heating wire (3-1-4), wherein the fan (3-1-1) is arranged on the left side of the hot air box (3-1-2), the fan (3-1-1) is connected with the hot air box (3-1-2), the fan (3-1-1) is arranged on the left side of the hot air outlet (3-1-3), the fan (3-1-1) is arranged on the left side of the heating wire (3-1-4), the hot air box (3-1-2) is arranged on the left side of the hot air outlet (3-1-3), the hot air box (3-1-2) is welded with the hot air outlet (3-1-3), the hot air box (3-1-2) is arranged at the outer side of the heating wire (3-1-4), and the hot air outlet (3-1-3) is arranged at the right side of the heating wire (3-1-4);

the steam power generation device (4) consists of a water inlet (4-1), a water tank (4-2), a ball valve (4-3), a high-pressure steam outlet (4-4), a low-pressure steam outlet (4-5), a pressure cooker (4-6), a power generation impeller (4-7) and an impeller shell (4-8), wherein the water inlet (4-1) is arranged at the upper side of the water tank (4-2), the water inlet (4-1) is welded with the water tank (4-2), the water tank (4-2) is arranged at the upper side of the ball valve (4-3), the upper water tank (4-2) is connected with the ball valve (4-3), the ball valve (4-3) is arranged at the upper side of the pressure cooker (4-6), the ball valve (4-3) is connected with the pressure cooker (4-6), the high-pressure steam outlet (4-4) is arranged at the right side of, the high-pressure steam outlet (4-4) is arranged on the upper side of the high-pressure boiler (4-6), the high-pressure steam outlet (4-4) is welded with the high-pressure boiler (4-6), the power generation impeller (4-7) is arranged on the right side of the high-pressure steam outlet (4-4), the power generation impeller (4-7) is connected with the high-pressure steam outlet (4-4), the power generation impeller (4-7) is arranged in the impeller shell (4-8), the power generation impeller (4-7) is connected with the shaft of the impeller shell (4-8), the impeller shell (4-8) is arranged on the right side of the high-pressure boiler (4-6), the impeller shell (4-8) is arranged on the lower side of the low-pressure steam outlet (4-5), and the impeller shell (4-8) is connected with the low-pressure steam outlet (4-;

The mixing tank (1) is arranged on the left side of the filtering tank (2), the mixing tank (1) is connected with the filtering tank (2), the filtering tank (2) is arranged on the upper side of the fermentation tank (3), the filtering tank (2) is connected with the fermentation tank (3), the fermentation tank (3) is arranged on the left side of the steam power generation device (4), the fermentation tank (3) is connected with the steam power generation device (4), the steam power generation device (4) is arranged on the side surface of the storage battery (5), the steam power generation device (4) is connected with the storage battery (5), the charging connector (6) is arranged on the side surface of the storage battery (5), the charging connector (6) is connected with the storage battery (5), the support plate (7) is arranged outside the mixing tank (1), the support plate (7) is arranged outside the filtering tank (2), the support plate (7) is arranged outside the fermentation tank (3), the support plate, the support plate (7) is installed outside the storage battery (5).

2. The biogas power generation electric vehicle charging station according to claim 1, wherein: the supporting plate (7) is made of ceramic.

3. the biogas power generation electric vehicle charging station according to claim 1, wherein: the number of the mounting plates (1-5) is two.

4. The biogas power generation electric vehicle charging station according to claim 1, wherein: the charging connector (6) is connected with the supporting plate (7).