CN205283148U - Marsh gas wind -powered electricity generation distribution system that is incorporated into power networks - Google Patents

Abstract

The utility model provides a marsh gas wind -powered electricity generation distribution system that is incorporated into power networks, including biogas power device device, wind power generation set and the cabinet that is incorporated into the power networks, biogas power device device and wind power generation set connect respectively the input of cabinet is incorporated into the power networks. The utility model discloses being incorporated into the power networks marsh gas and wind -powered electricity generation and installing in same platform is incorporated into the power networks the cabinet, optimized the design, saved the occupation of land space, the wholeness is strong, and the security performance is good, guarantees the normal work of electrical apparatus in the electric appliance cabinet to the life of electrical apparatus can be prolonged, the reliability of electric appliance cabinet work has been improved greatly.

Description

Biogas wind-electricity integration power distribution system

Technical field

The utility model relates to for electrical domain, particularly relates to a kind of biogas wind-electricity integration power distribution system.

Background technology

Along with the continuous rise of the price of international energy, power supply is just facing unprecedented severe situation. And the new renewable energy source of R and D becomes sustainable necessary of Economic development is also be proved to be one of very effective approach.

In the prior art, each new energy mode is all isolated mutually, there is not reliable technical scheme can each new energy mode effectively be combined, thus realize the effective utilization to new forms of energy, wherein, wind-force generating is limited by the impact of amblent air temperature, biogas is also only generate on a small scale, and output is unstable, no matter is which kind of mode, it is used alone the orthobiosis needs being all difficult to meet user.

Practical novel content

The technical problems to be solved in the utility model how to overcome the limitation that wind-force generates electricity and marsh gas power generation exists separately.

In order to solve this technical problem, the utility model provides a kind of biogas wind-electricity integration power distribution system, comprises biogas electricity generation apparatus, wind power generation plant and grid-connection cabinet, and described biogas electricity generation apparatus and wind power generation plant connect the input terminus of described grid-connection cabinet respectively.

Optionally, described wind power generation plant comprises wind power generating set and combining inverter, and described wind power generating set connects described combining inverter, and described combining inverter connects the input terminus of described grid-connection cabinet.

Optionally, described biogas electricity generation apparatus biogas generating mechanism and marsh gas power generation mechanism, in order to utilize, excrement dirt produces biogas to described biogas generating mechanism, and reaches described marsh gas power generation mechanism, described marsh gas power generation mechanism produces electric energy in order to the biogas come according to transmission, and reaches described grid-connection cabinet.

Optionally, described grid-connection cabinet comprises the first access point, the 2nd access point, the first switch, the 2nd switch, and grid-connected node, described wind power generation plant connects described first access point, described first access point is connected to described grid-connected node, and is provided with described first switch between described first access point and grid-connected node; Described biogas electricity generation apparatus connects described 2nd access point, and described 2nd access point is connected to described grid-connected node, and is provided with described 2nd switch between described 2nd access point and grid-connected node.

Optionally, described grid-connection cabinet also comprises the first pilot lamp and the 2nd pilot lamp, and described first pilot lamp and described first switch series are coupled between described first access point and grid-connected node; Described 2nd pilot lamp and described 2nd switch series are coupled between described 2nd access point and grid-connected node.

Optionally, described biogas wind-electricity integration power distribution system also comprises cabinet, described cabinet is provided with the first plate face and the 2nd plate face, described first plate face is provided with the first combined floodgate button, first opening button and described first pilot lamp, in order to control, described first switch closes described first combined floodgate button, described first opening button in order to control described first switch open, described 2nd plate face is provided with the 2nd combined floodgate button, 2nd opening button and described 2nd pilot lamp, in order to control, described 2nd switch closes described 2nd combined floodgate button, described 2nd opening button in order to control described 2nd switch open.

Optionally, described first access point and the 2nd access point also pass through ground resistance earth.

Optionally, described grid-connection cabinet comprises the first access point, the 2nd access end, double power supply converting switch, main switch and grid-connected node, described wind power generation plant and described biogas electricity generation apparatus connect described first access point and the 2nd access point respectively, described first access point and the 2nd access point connect two input terminuss of described double power supply converting switch respectively, and the output terminal of described double power supply converting switch is connected to described grid-connected node by described main switch.

Optionally, described biogas wind-electricity integration power distribution system also comprises pilot lamp, is in series with described pilot lamp and main switch between the output terminal of described double power supply converting switch and grid-connected node.

Optionally, described grid-connection cabinet also comprises cabinet, and described cabinet is provided with plate face, and described plate face is provided with described pilot lamp, combined floodgate button and opening button, described opening button in order to control described main switch open, described combined floodgate button in order to control described main switch close.

Biogas and wind-electricity integration are creatively arranged in same grid-connection cabinet by the utility model, optimize design, save and take up an area space, globality is strong, safety performance is good, ensure the normal operation of electrical equipment in Electric Appliance Cabinet, and the work-ing life of electrical equipment can be extended, substantially increase the reliability of Electric Appliance Cabinet work. In addition, also possibility is become for realizing the power supply complementation of biogas and wind-powered electricity generation more easily.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of biogas wind-electricity integration power distribution system in the optional embodiment of the utility model;

Fig. 2 is the connection diagram of grid-connection cabinet in the utility model embodiment 1;

Fig. 3 is the schematic diagram of the cabinet of grid-connection cabinet in the utility model embodiment 1;

In figure, 11-first access point; 21-the 2nd access point; 12-first switch; 22-the 2nd switch; 13,23-stake resistance; 14-first pilot lamp; 24-the 2nd pilot lamp; The grid-connected node of 3-; 4-cabinet; 41-first panel; 42-the 2nd panel; 411-first closes a floodgate button; 421-the 2nd combined floodgate button; 412-first opening button; 422-the 2nd opening button;

Fig. 4 is the connection diagram of grid-connection cabinet in the utility model embodiment 2;

Fig. 5 is the cabinet schematic diagram of grid-connection cabinet in the utility model embodiment 2;

In figure, 11-first access point; 12-the 2nd access point; 2-double power supply converting switch; 3-main switch; 4-pilot lamp; The grid-connected node of 5-; 6-cabinet; 61-plate face; 611-combined floodgate button; 612-opening button.

Embodiment

The biogas wind-electricity integration power distribution system provided by the utility model below with reference to Fig. 1 to Fig. 5 is described in detail, it is optional embodiment of the present invention, it is believed that it can be modified and polish in the scope not changing the utility model spirit and content by those skilled in the art.

Please refer to Fig. 1, the utility model provides a kind of biogas wind-electricity integration power distribution system, comprises biogas electricity generation apparatus, wind power generation plant and grid-connection cabinet, and described biogas electricity generation apparatus and wind power generation plant connect the input terminus of described grid-connection cabinet respectively.

In the utility model optional embodiment, described wind power generation plant comprises wind power generating set and combining inverter, and described wind power generating set connects described combining inverter, and described combining inverter connects the input terminus of described grid-connection cabinet.

Relevant described biogas electricity generation apparatus, described biogas electricity generation apparatus biogas generating mechanism and marsh gas power generation mechanism, in order to utilize, excrement dirt produces biogas to described biogas generating mechanism, and reach described marsh gas power generation mechanism, described marsh gas power generation mechanism produces electric energy in order to the biogas come according to transmission, and reaches described grid-connection cabinet.

In the further optional scheme of the utility model, described biogas generating mechanism comprises the dirty pond of the collection connected successively, anaerobic ferment devices, desulfurization purifier and gas storage holder, and excrement dirt is transferred to the dirty pond of described collection, and described gas storage holder is connected with described marsh gas power generation mechanism. Described marsh gas power generation clamp mechanism comprises Biogas Generator Set, and the input terminus of described Biogas Generator Set connects described biogas generating mechanism, and output terminal connects described grid-connection cabinet.

The wind power generation plant that the utility model defines and biogas electricity generation apparatus, generally do not comprise electric energy energy storage element, so, the scheme existed in itself and prior art, it is different for namely first the electrical power storage of generation being got up in the scheme that energy storage element is connected to power distribution cabinet or housing.

Embodiment 1

Please refer to Fig. 2 and Fig. 3, in the embodiment 1 of its signal, described grid-connection cabinet comprises the first access point 11, the 2nd access point 21, first switch 12, the 2nd switch 22, and grid-connected node 30, described wind power generation plant connects described first access point 11, described first access point 11 is connected to described grid-connected node 3, and is provided with described first switch 12 between described first access point 11 and grid-connected node 3; Described biogas electricity generation apparatus connects described 2nd access point 21, and described 2nd access point 21 is connected to described grid-connected node 3, and is provided with described 2nd switch 22 between described 2nd access point 21 and grid-connected node 3.

The utility model creatively achieves marsh gas power generation and wind-force generating has been incorporated in a grid-connection cabinet, in the present embodiment, which employs two circuits and realizes respectively, and its control is also divided into two switches and realized.

Further, in order to the energising situation of two circuits is shown, in the present embodiment, described grid-connected power distribution system also comprises the first pilot lamp 14 and the 2nd pilot lamp 14, and described first pilot lamp 14 and described first switch 12 are series between described first access point 11 and grid-connected node 3; Described 2nd pilot lamp 24 and described 2nd switch 22 are series between described 2nd access point 21 and grid-connected node 3. In addition, please refer to Fig. 1, described first access point 11 and the 2nd access point 21 are also by stake resistance 13 and 23 ground connection.

Please refer to Fig. 2, in the present embodiment, also carried out the outward appearance structure of grid-connection cabinet limiting furtherly, the optional scheme structure that visible the utility model provides is simple, and complete the grid-connected integration of two kinds of power supplies, described grid-connected power distribution system also comprises cabinet 4, described cabinet 4 is provided with the first plate face 41 and the 2nd plate face 42, described first plate face 41 is provided with the first combined floodgate button 411, first opening button 412 and described first pilot lamp 14, in order to control, described first switch 12 closes described first combined floodgate button 411, described first opening button 412 in order to control described first switch 12 open, described 2nd plate face 42 is provided with the 2nd combined floodgate button 421, 2nd opening button 422 and described 2nd pilot lamp 24, in order to control, described 2nd switch 22 closes described 2nd combined floodgate button 422, described 2nd opening button 422 in order to control described 2nd switch 22 open. this embodiment gives the scheme of a visual control.

Embodiment 2

Please refer to Fig. 4 and Fig. 5, described grid-connection cabinet comprises the first access point 11, the 2nd access end 12, double power supply converting switch 2, main switch 3 and grid-connected node 4, described wind power generation plant and described biogas electricity generation apparatus connect described first access point 11 and the 2nd access point 12 respectively, described first access point 11 and the 2nd access point 12 connect two input terminuss of described double power supply converting switch 2 respectively, and the output terminal of described double power supply converting switch 2 is connected to described grid-connected node 4 by described main switch 3.

The difference of the present embodiment and embodiment 1 is, what two kinds were powered by it walks line and walk together, by the introducing of a double power supply converting switch 2, it is achieved both switching inputs, it provides the connect-in strategy of a kind of more simple possible.

Similar to Example 1, in the present embodiment, described grid-connected power distribution system also comprises pilot lamp 4, is in series with described pilot lamp 4 and main switch 3 between the output terminal of described double power supply converting switch 2 and grid-connected node. Compared with embodiment 1, its quantity only needs one, and structure is more simple.

Similar to Example 1, in the present embodiment, please refer to Fig. 4, described grid-connection cabinet also comprises cabinet 6, described cabinet 6 is provided with plate face 61, described plate face 61 is provided with described pilot lamp 4, combined floodgate button 611 and opening button 612, described opening button 612 in order to control described main switch open, in order to control, described main switch 3 closes described combined floodgate button 611.

Except describing above, in the utility model optional embodiment, described cabinet is also provided with heat radiation hole, this kind of Novel electric appliance cabinet is simple, compact and rationally, fast easy to assembly, connect reliable, wherein, the structure design of electrical equipment rack can in effective space reasonable Arrangement frame circuit breaker, mutual inductor, bidirectional measuring table, Surge Protector, there is subregion, biogas and wind-force is grid-connected is arranged in same grid-connection cabinet, optimize design, save and take up an area space, globality is strong, safety performance is good, ensure the normal operation of electrical equipment in Electric Appliance Cabinet, and the work-ing life of electrical equipment can be extended, substantially increase the reliability of Electric Appliance Cabinet work.

In sum, biogas and wind-electricity integration are creatively arranged in same grid-connection cabinet by the utility model, optimize design, save and take up an area space, globality is strong, and safety performance is good, ensures the normal operation of electrical equipment in Electric Appliance Cabinet, and the work-ing life of electrical equipment can be extended, substantially increase the reliability of Electric Appliance Cabinet work. In addition, also possibility is become for realizing the power supply complementation of biogas and wind-powered electricity generation more easily.

Claims (10)

1. a biogas wind-electricity integration power distribution system, it is characterised in that: comprising biogas electricity generation apparatus, wind power generation plant and grid-connection cabinet, described biogas electricity generation apparatus and wind power generation plant connect the input terminus of described grid-connection cabinet respectively.

2. biogas wind-electricity integration power distribution system as claimed in claim 1, it is characterized in that: described wind power generation plant comprises wind power generating set and combining inverter, described wind power generating set connects described combining inverter, and described combining inverter connects the input terminus of described grid-connection cabinet.

3. biogas wind-electricity integration power distribution system as claimed in claim 1, it is characterized in that: described biogas electricity generation apparatus comprises biogas generating mechanism and marsh gas power generation mechanism, in order to utilize, excrement dirt produces biogas to described biogas generating mechanism, and reach described marsh gas power generation mechanism, described marsh gas power generation mechanism produces electric energy in order to the biogas come according to transmission, and reaches described grid-connection cabinet.

4. biogas wind-electricity integration power distribution system as claimed in claim 1, it is characterized in that: described grid-connection cabinet comprises the first access point, the 2nd access point, the first switch, the 2nd switch, and grid-connected node, described wind power generation plant connects described first access point, described first access point is connected to described grid-connected node, and is provided with described first switch between described first access point and grid-connected node; Described biogas electricity generation apparatus connects described 2nd access point, and described 2nd access point is connected to described grid-connected node, and is provided with described 2nd switch between described 2nd access point and grid-connected node.

5. biogas wind-electricity integration power distribution system as claimed in claim 4, it is characterised in that: described grid-connection cabinet also comprises the first pilot lamp and the 2nd pilot lamp, and described first pilot lamp and described first switch series are coupled between described first access point and grid-connected node; Described 2nd pilot lamp and described 2nd switch series are coupled between described 2nd access point and grid-connected node.

6. biogas wind-electricity integration power distribution system as claimed in claim 5, it is characterized in that: also comprise cabinet, described cabinet is provided with the first plate face and the 2nd plate face, described first plate face is provided with the first combined floodgate button, first opening button and described first pilot lamp, in order to control, described first switch closes described first combined floodgate button, described first opening button in order to control described first switch open, described 2nd plate face is provided with the 2nd combined floodgate button, 2nd opening button and described 2nd pilot lamp, in order to control, described 2nd switch closes described 2nd combined floodgate button, described 2nd opening button in order to control described 2nd switch open.

7. biogas wind-electricity integration power distribution system as claimed in claim 4, it is characterised in that: described first access point and the 2nd access point also pass through ground resistance earth.

8. biogas wind-electricity integration power distribution system as claimed in claim 1, it is characterized in that: described grid-connection cabinet comprises the first access point, the 2nd access end, double power supply converting switch, main switch and grid-connected node, described wind power generation plant and described biogas electricity generation apparatus connect described first access point and the 2nd access point respectively, described first access point and the 2nd access point connect two input terminuss of described double power supply converting switch respectively, and the output terminal of described double power supply converting switch is connected to described grid-connected node by described main switch.

9. biogas wind-electricity integration power distribution system as claimed in claim 8, it is characterised in that: also comprise pilot lamp, between the output terminal of described double power supply converting switch and grid-connected node, it is in series with described pilot lamp and main switch.

10. biogas wind-electricity integration power distribution system as claimed in claim 9, it is characterized in that: described grid-connection cabinet also comprises cabinet, described cabinet is provided with plate face, described plate face is provided with described pilot lamp, combined floodgate button and opening button, described opening button in order to control described main switch open, described combined floodgate button in order to control described main switch close.