阅读说明：本技术 一种具有需求响应的多能源居民用电智慧监控系统 (Multi-energy resident electricity consumption intelligent monitoring system with demand response ) 是由 黄翔 刘海峰 徐俊 邵先军 卢峰 张吉善 颜奔 李越玮 徐国华 黄晨曦 费晓明 于 2021-08-03 设计创作，主要内容包括：本发明公开了一种具有需求响应的多能源居民用电智慧监控系统,包括与多功能能源站通讯连接的若干个独立家庭能源监控器,独立家庭能源监控器包括能源控制器、能源路由器、若干个随器计量微型断路器、若干个随器计量家电和若干个随器计量插座,所述电力调度调配室包括有电力调度单元、发电单元、变电单元、与变电单元连接的储能单元以及与储能单元连接的配电单元；所述配电单元与能源路由器电连接,所述电力调度单元分别与电网服务器以及若干个独立家庭能源监控器通讯连接；方案通过独立家庭能源监控器实时采集家庭用电需求,与多功能能源站实现信息交互,采用天然气作为燃料的新能源发电能够及时快速的供应高质量的稳定电能。(The invention discloses a multi-energy resident electricity consumption intelligent monitoring system with demand response, which comprises a plurality of independent household energy monitors in communication connection with a multifunctional energy station, wherein each independent household energy monitor comprises an energy controller, an energy router, a plurality of follower metering miniature circuit breakers, a plurality of follower metering household appliances and a plurality of follower metering sockets, and a power dispatching and allocating room comprises a power dispatching unit, a power generation unit, a power transformation unit, an energy storage unit connected with the power transformation unit and a power distribution unit connected with the energy storage unit; the power distribution unit is electrically connected with the energy router, and the power dispatching unit is respectively in communication connection with the power grid server and the plurality of independent household energy monitors; the scheme is that the household power consumption demand is collected in real time through the independent household energy monitor, information interaction is realized with the multifunctional energy station, and high-quality stable electric energy can be supplied timely and quickly by adopting new energy power generation with natural gas as fuel.)

1. A multi-energy resident electricity consumption intelligent monitoring system with demand response is characterized by comprising a plurality of independent household energy monitors in communication connection with a multifunctional energy station, wherein each independent household energy monitor comprises an energy controller, an energy router, a plurality of metering-with-device miniature circuit breakers, a plurality of metering-with-device household appliances and a plurality of metering-with-device sockets, the energy router is connected with an entrance line, the metering-with-device miniature circuit breakers are connected with the energy router, a power supply branch line is connected with the metering-with-device miniature circuit breakers, the metering-with-device household appliances and the metering-with-device sockets are connected with the power supply branch line, common household appliances are connected with the metering-with-device sockets or the power supply branch line, the energy controller is connected with the energy router, the metering-with-device miniature circuit breakers, the metering-with-device household appliances and the metering-with-device sockets are all provided with communication units, the on-demand metering household appliance is provided with a control unit, the on-demand metering miniature circuit breaker and the on-demand metering socket are connected with a voltage transformation unit, the on-demand metering miniature circuit breaker, the on-demand metering household appliance and the on-demand metering socket periodically send collected current and voltage data to an energy router, the energy controller reads and stores the current and voltage data received by the energy router, the energy controller periodically uploads the stored current and voltage data to a server, the multifunctional energy station comprises an electric power dispatching and allocating chamber independently arranged outside a residential area, and the electric power dispatching and allocating chamber comprises an electric power dispatching unit, a power generation unit connected with an energy supply device, a power transformation unit connected with the power generation unit, an energy storage unit connected with the power transformation unit and a power distribution unit connected with the energy storage unit; the power distribution unit is electrically connected with the energy router, and the power dispatching unit is respectively in communication connection with the power grid server and the independent household energy monitors to realize real-time information interaction, monitoring and guidance for power distribution.

2. The intelligent monitoring system for the multi-energy resident electricity consumption with the demand response as claimed in claim 1, wherein the energy supply device comprises a photovoltaic generator set, a wind generator set, a natural gas generator set and a power grid distribution station, the power grid distribution station is electrically connected with a distribution unit through a circuit breaker to realize the primary transmission and supply of electric energy, the photovoltaic generator set, the wind generator set and the natural gas generator set all perform primary storage of the electric energy through a transformer after power conversion and a storage value energy storage unit, and the gas supply end of a gas generator of the natural gas generator set is communicated with the natural gas station through a gas current stabilizer.

3. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 2,

the gas flow stabilizing device comprises a flow stabilizing pipe arranged in the flow stabilizing chamber, gas flow monitoring devices arranged at two ends of the flow stabilizing pipe and a gas flow adjusting device communicated with the flow stabilizing pipe, the airflow adjusting device comprises a first current stabilizer, a second current stabilizer, a third current stabilizer, an overflow device, a first linkage device, a second linkage device and a third linkage device, the first current stabilizer, the second current stabilizer and the third current stabilizer are sequentially communicated with the current stabilizer tube, the first current stabilizer and the second current stabilizer are linked through a first linkage device, the second current stabilizer and the third current stabilizer are linked through a second linkage device, the overflow device is communicated with the third current stabilizer through an air pipe, the third linkage device is used as a communication switch to realize the communication and the disconnection of the overflow device and the third current stabilizer, and the return end of the overflow device is communicated with the air inlet pipeline.

4. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 3, wherein: the first current stabilizer comprises a first current stabilizing cylinder, a first isolation block for dividing the first current stabilizing cylinder into a first sliding cavity and a first recovery cavity, a first sliding block in sliding connection with the inner wall of the sliding cavity, and a first connecting rod, one end of the first connecting rod is fixedly connected with the first sliding block, and the first connecting rod penetrates through the first isolation block; the other end of the first connecting rod extends to the first recovery cavity and is fixedly connected with the first permanent magnet, one end of the first spring is arranged at the top end of the recovery cavity, and the other end of the first spring is fixedly connected with the first permanent magnet.

5. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 3, wherein: the second current stabilizer comprises a second current stabilizing cylinder, a second isolating block for dividing the second current stabilizing cylinder into a second sliding cavity and a second recovery cavity, a second sliding block in sliding connection with the inner wall of the sliding cavity, and a second connecting rod, one end of the second connecting rod is fixedly connected with the second sliding block and penetrates through the second isolating block; the other end of the second connecting rod extends to the second recovery cavity and is fixedly connected with the second permanent magnet, one end of the second spring is arranged at the top end of the recovery cavity, and the other end of the second spring is fixedly connected with the second permanent magnet.

6. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 3, 4 or 5, wherein: the third current stabilizer comprises a third current stabilizing cylinder, a third isolating block for dividing the third current stabilizing cylinder into a third sliding cavity and a third recovery cavity, a third sliding block in sliding connection with the inner wall of the sliding cavity, and a third connecting rod, one end of the third connecting rod is fixedly connected with the third sliding block and penetrates through the third isolating block; the other end of the third connecting rod extends to the third recovery cavity and is fixedly connected with the iron block, one end of a third spring is arranged at the top end of the recovery cavity, and the other end of the third spring is fixedly connected with the iron block.

7. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 5, wherein: the first linkage device is arranged between the first current stabilizer and the second current stabilizer; the first linkage device comprises a first linkage cavity communicated with the upper part of the first recovery cavity, a first I-shaped block arranged in the first linkage cavity and realizing recovery through a first recovery spring, and a first traction device arranged in the first traction cavity, wherein one end of the first I-shaped block is provided with a magnetic block repulsive to the magnetic pole of a first permanent magnet, the bottom of one end of the first I-shaped block is provided with a grinding tooth, the first traction device comprises a first T-shaped frame erected in the first traction cavity, a cross arm of the first T-shaped frame is provided with a first gear meshed with the grinding tooth, a vertical arm of the first T-shaped frame is provided with a first pulley, a first coiling disc is coaxially and fixedly arranged on the first gear, a first clamping hole is transversely formed in the second isolation block, a first clamping rod is arranged in the first clamping hole, and the first clamping rod realizes recovery through the spring arranged in the clamping hole, the first groove matched with the first clamping rod is formed in the second connecting rod, and one end of the metal wire is connected with the first clamping rod and wound on the first pulley to be connected with the first wire winding disc.

8. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 5, wherein: the second linkage device is arranged between the second current stabilizer and the third current stabilizer; the second linkage device comprises a second linkage cavity communicated with the upper part of the second restoring cavity, a second I-shaped block arranged in the second linkage cavity and realizing restoration through a second restoring spring, and a second traction device arranged in the second traction cavity, wherein one end of the second I-shaped block is provided with a magnetic block repulsive to the ferromagnetic pole of a second permanent magnet, the bottom of one end of the second I-shaped block is provided with a grinding tooth, the second traction device comprises a second T-shaped frame erected in the second traction cavity, a cross arm of the second T-shaped frame is provided with a second gear meshed with the grinding tooth, a vertical arm of the second T-shaped frame is provided with a second pulley, the second gear is coaxially and fixedly provided with a second winding disc, a third isolation block is transversely provided with a second clamping hole, a second clamping rod is arranged in the second clamping hole, and the second clamping rod realizes restoration through the spring arranged in the clamping hole, and a second groove matched with the second clamping rod is formed in the third connecting rod, and one end of the metal wire is connected with the second clamping rod and wound on a second pulley to be connected with a second winding roll.

9. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 6, wherein: the third linkage device comprises a third linkage cavity close to the wall of the third sliding cavity, a pressing block in press-type linkage with the third sliding block and a plugging rod which is arranged in the third linkage cavity and is in linkage with the pressing block; the lower end of the blocking rod is provided with a rubber sleeve with a sealing function, the lower end of the blocking rod is positioned at a communicating part of the overflow device and the third sliding cavity, the upward movement of the blocking rod can realize the smoothness of gas at the communicating part, the downward movement of the blocking rod can realize the blockage of gas at the communicating part, the transverse return movement of the pressing block is realized through a spring, one end of the pressing block, which extends into the third sliding cavity, is an arc convex head, and the contact surface of the third sliding block and the arc convex head is an arc surface; the one end bottom surface that the pressing block stretched into the third linkage chamber is provided with the wedge, the upper end and the wedge of shutoff pole are contradicted, the shutoff pole sets up in the third linkage intracavity through last spacing ring and lower spacing ring activity.

10. The intelligent monitoring system for residential electricity with multiple energy sources with demand response as claimed in claim 6, wherein: overflow arrangement is including vacuum cavity and compression chamber and backward flow jar, the vacuum cavity passes through the trachea intercommunication with the third slip chamber, the backflow gas in the vacuum cavity compresses leading-in backward flow jar through the compressor in the compression chamber, the backward flow jar passes through trachea and intake pipe intercommunication.

Technical Field

The invention relates to the technical field of new energy power distribution and utilization in residential areas, in particular to an intelligent monitoring system for multi-energy residential power utilization with demand response.

Background

The intelligent energy consumption service system for the residents at home realizes accurate acquisition, monitoring and adjustment of the household load by installing the Internet of things equipment such as the metering module of the household appliance, and supports intelligent interactive services such as energy-saving diagnosis of the resident electricity consumption, potential safety hazard identification of the electricity consumption, demand response participation and the like through cooperative interaction of the household energy consumption and a power grid.

Along with the increasing demand of residents on living quality, the convenience degree of resident life directly determined by electricity consumption of residential areas is determined, more and more distributed energy stations participate in the allocation demand of civil electricity or industrial electricity through an energy transfer system, the existing new energy supply mainly supplies energy through solar energy and wind power, but the solar energy and the wind power are greatly influenced by the environment, the generated energy is not large, the power generation quality is not high, the power consumption demand of high-power electric equipment of residents is difficult to deal with, once the power supply of a national grid has a transient power failure, the distributed energy stations need to allocate and store energy to meet the power consumption demand of residents, but the supply of the stored energy is limited by the stored energy on one hand, and on the other hand, the power generation rate of an energy machine at the power generation side is slow, the required electric energy is difficult to be supplied to the residents in real time, so that the power generation equipment which generates electricity rapidly in time needs to be searched as standby energy, natural gas has become the primary heating and heating energy of residents due to its low price, simple transmission and high calorific value, so that an energy generator using natural gas as fuel can well provide fast and stable electric energy, but because of the instability of natural gas pipeline transmission gas, how to supply safe and stable natural gas to the energy generator is a key technology which needs to be overcome by adopting natural gas to generate electricity.

Disclosure of Invention

The invention aims to solve the problem of unstable gas transmission in new energy power generation with natural gas as fuel, and provides a multi-energy resident electricity consumption intelligent monitoring system with demand response.

In order to achieve the technical purpose, the invention provides a multi-energy resident electricity consumption intelligent monitoring system with demand response, which comprises a plurality of independent household energy monitors in communication connection with a multifunctional energy station, wherein each independent household energy monitor comprises an energy controller, an energy router, a plurality of following metering miniature circuit breakers, a plurality of following metering household appliances and a plurality of following metering sockets, the energy router is connected with a house-entering line, the following metering miniature circuit breakers are connected with the energy router, a power supply branch line is connected with the following metering miniature circuit breakers, the following metering household appliances and the following metering sockets are connected with a power supply branch line, a common household appliance is connected with the following metering sockets or the power supply branch line, the energy controller is connected with the energy router, the energy controller, the energy meter and the following metering sockets, The utility model discloses a communication unit is all had along with ware measurement miniature circuit breaker, along with ware measurement household electrical appliances and along with ware measurement socket, along with ware measurement household electrical appliances have the control unit, along with ware measurement miniature circuit breaker and along with ware measurement socket connection have the vary voltage unit, along with ware measurement miniature circuit breaker, along with ware measurement household electrical appliances and along with ware measurement socket current and voltage data transmission that the ware was gathered give the energy router, the energy controller reads the received current of energy router and voltage data and saves, the energy controller is periodic with the current and the voltage data upload server of storage, multi-functional energy station includes the power scheduling allotment room of independent setting outside the residential block, the power scheduling allotment room is including power scheduling unit, the power generation unit who is connected with the energy supply device, the transformer unit who is connected with the power generation unit, the energy storage unit that is connected with the transformer unit, The power distribution unit is connected with the energy storage unit; the power distribution unit is electrically connected with the energy router, and the power dispatching unit is respectively in communication connection with the power grid server and the independent household energy monitors to realize real-time information interaction, monitoring and guidance for power distribution.

Preferably, the energy supply device comprises a photovoltaic generator set, a wind turbine generator set, a natural gas generator set and a power grid distribution station, the power grid distribution station is electrically connected with the distribution unit through a circuit breaker to realize primary transmission supply of electric energy, the photovoltaic generator set, the wind turbine generator set and the natural gas generator set are all used for storing the electric energy once through a storage energy storage unit after power conversion is carried out through a transformer, and a gas supply end of a gas generator of the natural gas generator set is communicated with the natural gas station through a gas current stabilizing device.

Preferably, the gas flow stabilizing device comprises a flow stabilizing pipe arranged in the flow stabilizing chamber, gas flow monitoring devices arranged at two ends of the flow stabilizing pipe and a gas flow adjusting device communicated with the flow stabilizing pipe, the airflow adjusting device comprises a first current stabilizer, a second current stabilizer, a third current stabilizer, an overflow device, a first linkage device, a second linkage device and a third linkage device, the first current stabilizer, the second current stabilizer and the third current stabilizer are sequentially communicated with the current stabilizer tube, the first current stabilizer and the second current stabilizer are linked through a first linkage device, the second current stabilizer and the third current stabilizer are linked through a second linkage device, the overflow device is communicated with the third current stabilizer through an air pipe, the third linkage device is used as a communication switch to realize the communication and the disconnection of the overflow device and the third current stabilizer, and the return end of the overflow device is communicated with the air inlet pipeline.

Preferably, the first current stabilizer comprises a first current stabilization cylinder, a first isolation block for dividing the first current stabilization cylinder into a first sliding cavity and a first recovery cavity, a first sliding block in sliding connection with the inner wall of the sliding cavity, and a first connecting rod, one end of which is fixedly connected with the first sliding block and penetrates through the first isolation block; the other end of the first connecting rod extends to the first recovery cavity and is fixedly connected with the first permanent magnet, one end of the first spring is arranged at the top end of the recovery cavity, and the other end of the first spring is fixedly connected with the first permanent magnet.

Preferably, the second current stabilizer comprises a second current stabilization cylinder, a second isolation block for dividing the second current stabilization cylinder into a second sliding cavity and a second recovery cavity, a second sliding block in sliding connection with the inner wall of the sliding cavity, and a second connecting rod, one end of the second connecting rod is fixedly connected with the second sliding block and penetrates through the second isolation block; the other end of the second connecting rod extends to the second recovery cavity and is fixedly connected with the second permanent magnet, one end of the second spring is arranged at the top end of the recovery cavity, and the other end of the second spring is fixedly connected with the second permanent magnet.

Preferably, the third current stabilizer comprises a third current stabilization cylinder, a third isolation block for dividing the third current stabilization cylinder into a third sliding cavity and a third recovery cavity, a third sliding block in sliding connection with the inner wall of the sliding cavity, and a third connecting rod, one end of which is fixedly connected with the third sliding block and penetrates through the third isolation block; the other end of the third connecting rod extends to the third recovery cavity and is fixedly connected with the iron block, one end of a third spring is arranged at the top end of the recovery cavity, and the other end of the third spring is fixedly connected with the iron block.

Preferably, the first linkage device is arranged between the first current stabilizer and the second current stabilizer; the first linkage device comprises a first linkage cavity communicated with the upper part of the first recovery cavity, a first I-shaped block arranged in the first linkage cavity and realizing recovery through a first recovery spring, and a first traction device arranged in the first traction cavity, wherein one end of the first I-shaped block is provided with a magnetic block repulsive to the magnetic pole of a first permanent magnet, the bottom of one end of the first I-shaped block is provided with a grinding tooth, the first traction device comprises a first T-shaped frame erected in the first traction cavity, a cross arm of the first T-shaped frame is provided with a first gear meshed with the grinding tooth, a vertical arm of the first T-shaped frame is provided with a first pulley, a first coiling disc is coaxially and fixedly arranged on the first gear, a first clamping hole is transversely formed in the second isolation block, a first clamping rod is arranged in the first clamping hole, and the first clamping rod realizes recovery through the spring arranged in the clamping hole, the first groove matched with the first clamping rod is formed in the second connecting rod, and one end of the metal wire is connected with the first clamping rod and wound on the first pulley to be connected with the first wire winding disc.

Preferably, the second linkage is arranged between the second current stabilizer and the third current stabilizer; the second linkage device comprises a second linkage cavity communicated with the upper part of the second restoring cavity, a second I-shaped block arranged in the second linkage cavity and realizing restoration through a second restoring spring, and a second traction device arranged in the second traction cavity, wherein one end of the second I-shaped block is provided with a magnetic block repulsive to the ferromagnetic pole of a second permanent magnet, the bottom of one end of the second I-shaped block is provided with a grinding tooth, the second traction device comprises a second T-shaped frame erected in the second traction cavity, a cross arm of the second T-shaped frame is provided with a second gear meshed with the grinding tooth, a vertical arm of the second T-shaped frame is provided with a second pulley, the second gear is coaxially and fixedly provided with a second winding disc, a third isolation block is transversely provided with a second clamping hole, a second clamping rod is arranged in the second clamping hole, and the second clamping rod realizes restoration through the spring arranged in the clamping hole, and a second groove matched with the second clamping rod is formed in the third connecting rod, and one end of the metal wire is connected with the second clamping rod and wound on a second pulley to be connected with a second winding roll.

Preferably, the third linkage device comprises a third linkage cavity close to the wall of the third sliding cavity, a pressing block in press-type linkage with the third sliding block and a plugging rod arranged in the third linkage cavity and linked with the pressing block; the lower end of the blocking rod is provided with a rubber sleeve with a sealing function, the lower end of the blocking rod is positioned at a communicating part of the overflow device and the third sliding cavity, the upward movement of the blocking rod can realize the smoothness of gas at the communicating part, the downward movement of the blocking rod can realize the blockage of gas at the communicating part, the transverse return movement of the pressing block is realized through a spring, one end of the pressing block, which extends into the third sliding cavity, is an arc convex head, and the contact surface of the third sliding block and the arc convex head is an arc surface; the one end bottom surface that the pressing block stretched into the third linkage chamber is provided with the wedge, the upper end and the wedge of shutoff pole are contradicted, the shutoff pole sets up in the third linkage intracavity through last spacing ring and lower spacing ring activity.

Preferably, the overflow device comprises a vacuum cavity, a compression cavity and a backflow tank, the vacuum cavity is communicated with the third sliding cavity through an air pipe, backflow gas in the vacuum cavity is compressed and guided into the backflow tank through a compressor in the compression cavity, and the backflow tank is communicated with the air inlet pipe through the air pipe.

Preferably, the gas flow monitoring device comprises a first gas monitoring device and a second gas monitoring device, the first gas monitoring device and the second gas monitoring device are identical in structure, the first gas monitoring device comprises a first flowmeter, a corrugated pipe and a natural gas detection sensor, the two ends of the first flowmeter are respectively communicated with the gas pipe and the flow stabilizing pipe, the corrugated pipe is coated with the first flowmeter, inert gas is filled in the corrugated pipe, and the first flowmeter and the natural gas detection sensor periodically acquire relevant data and transmit the relevant data to the management terminal.

The invention has the beneficial effects that: the invention provides a multi-energy resident electricity consumption intelligent monitoring system with demand response, the scheme is that household electricity consumption demands are collected in real time through an independent household energy monitor, information interaction is realized with a multifunctional energy station, the information interaction is used for guiding energy allocation of the energy station, new energy power generation adopting natural gas as fuel can supply high-quality stable electric energy timely and rapidly, and a gas current stabilizer is adopted to ensure stability and safety of gas transmission.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent monitoring system for residential electricity with multiple energy sources with demand response according to the present invention.

Fig. 2 is a schematic structural diagram of the gas flow stabilizer of the present invention.

Fig. 3 is a schematic structural diagram of a first flow stabilizer of the natural gas station.

Fig. 4 is a schematic structural diagram of a second current stabilizer of the natural gas station.

Fig. 5 is a schematic structural diagram of a third current stabilizer of the natural gas station of the present invention.

Fig. 6 is a schematic structural view of a first linkage of the natural gas station of the present invention.

Fig. 7 is a schematic view of a second linkage of the natural gas station of the present invention.

Fig. 8 is a schematic structural view of a third linkage device of the natural gas station of the present invention.

The notation in the figure is: 1-power dispatching and allocating room, 2-energy supply device, 3-independent household energy monitor, 4-natural gas station, 5-gas current stabilizer, 11-power dispatching unit, 12-power generation unit, 13-power transformation unit, 14-energy storage unit, 15-power distribution unit, 21-photovoltaic generator set, 22-wind power generator set, 23-natural gas generator set, 24-power grid distribution station, 121-gas storage tank, 122-gas monitoring device, 123-current stabilizer, 51-first current stabilizer, 52-second current stabilizer, 53-third current stabilizer, 54-first linkage device, 55-second linkage device, 56-third linkage device, 57-overflow device, 511-first sliding cavity, 512-first return cavity, 513-first isolation block, 514-first sliding block, 515-first link, 516-first permanent magnet, 517-first spring, 522-second sliding cavity, 522-second return cavity, 523-second isolation block, 524-second sliding block, 525-second link, 526-second permanent magnet, 527-second spring, 531-third sliding cavity, 532-third return cavity, 533-third isolation block, 534-third sliding block, 535-third link, 536-iron block, 537-third spring, 541-first link cavity, 542-first block, 543-first return spring, 544-first traction cavity, 545-first T-shaped frame, 546-first coil disk, 547-first pulley, 548-a first gear, 549-a first clamping rod, 551-a second linkage cavity, 552-a second I-shaped block, 553-a second restoring spring, 555-a second traction cavity, 555-a second T-shaped frame, 556-a second winding roll, 557-a second pulley, 558-a second gear, 559-a second clamping rod, 561-a pressing block, 562-a third linkage cavity, 563-a blocking rod, 564-a rubber sleeve and 565-a limiting sheet.

Detailed Description

For the purpose of better understanding the objects, technical solutions and advantages of the present invention, the following detailed description of the present invention with reference to the accompanying drawings and examples should be understood that the specific embodiment described herein is only a preferred embodiment of the present invention, and is only used for explaining the present invention, and not for limiting the scope of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without making creative efforts shall fall within the scope of the present invention.

Example (b):

as shown in figure 1, a structure schematic diagram of a multi-energy resident power consumption intelligent monitoring system with demand response comprises a plurality of independent household energy monitors 3 in communication connection with a multifunctional energy station, each independent household energy monitor comprises an energy controller, an energy router, a plurality of metering following micro circuit breakers, a plurality of metering following household appliances and a plurality of metering following sockets, the energy router is connected with a house-entering line and a plurality of metering following micro circuit breakers are connected with the energy router, power supply branches are connected with the metering following micro circuit breakers, a plurality of metering following household appliances and metering following household appliances are connected with the power supply branches, common household appliances are connected with the metering following household appliances or the power supply branches, the energy controller is connected with the energy router, the energy controller, the metering following micro circuit breakers, The utility model discloses a household electrical appliances with ware measurement and energy source station, including energy source router, energy source controller, power dispatching deployment room, power dispatching unit 11, power generation unit 12, power transformation unit 13, energy storage unit 14, the control unit is all had communication unit along with ware measurement household electrical appliances and along with ware measurement socket, along with the miniature circuit breaker of ware measurement and along with ware measurement socket are connected with the vary voltage unit, along with the miniature circuit breaker of ware measurement household electrical appliances and along with the current and voltage data transmission that ware measurement socket periodicity will gather for the energy router, the energy source controller reads the current and voltage data that the energy router received and stores, the energy source controller periodically uploads the server with the current and voltage data that store, multifunctional energy source station includes independent setting outside the residential area power dispatching deployment room 1, the power dispatching deployment room includes power dispatching unit 11, power generation unit 12, the power transformation unit 13, the energy storage unit 14, the power transformation unit is connected with the power transformation unit that are connected with the energy scheduling unit, A power distribution unit 15 connected to the energy storage unit; the power distribution unit is electrically connected with the energy router, and the power dispatching unit is respectively in communication connection with the power grid server and the independent household energy monitors to realize real-time information interaction, monitoring and guidance for power distribution.

The energy supply device comprises a photovoltaic generator set 21, a wind generating set 22, a natural gas generator set 23 and a power grid distribution station 24, the power grid distribution station is electrically connected with a distribution unit through a circuit breaker to realize primary transmission supply of electric energy, the photovoltaic generator set, the wind generating set and the natural gas generator set are all used for storing the electric energy once through a storage energy storage unit after power conversion is carried out through a transformer, and the gas supply end of a gas generator of the natural gas generator set is communicated with the natural gas station 4 through a gas current stabilizing device 5.

As shown in fig. 2, the gas flow stabilizer comprises a flow stabilizing tube arranged in the flow stabilizing chamber, gas flow monitoring devices arranged at two ends of the flow stabilizing tube and a gas flow adjusting device communicated with the flow stabilizing tube, the airflow adjusting device comprises a first current stabilizer, a second current stabilizer, a third current stabilizer, an overflow device, a first linkage device, a second linkage device and a third linkage device, the first current stabilizer, the second current stabilizer and the third current stabilizer are sequentially communicated with the current stabilizer tube, the first current stabilizer and the second current stabilizer are linked through a first linkage device, the second current stabilizer and the third current stabilizer are linked through a second linkage device, the overflow device is communicated with the third current stabilizer through an air pipe, the third linkage device is used as a communication switch to realize the communication and the disconnection of the overflow device and the third current stabilizer, and the return end of the overflow device is communicated with the air inlet pipeline.

As shown in fig. 3, the first current stabilizer includes a first current stabilizing cylinder, a first isolation block 513 dividing the first current stabilizing cylinder into a first sliding cavity 511 and a first recovery cavity 512, a first sliding block 514 slidably connected to an inner wall of the sliding cavity, and a first connecting rod 515 having one end fixedly connected to the first sliding block and penetrating through the first isolation block; the other end of the first connecting rod extends to the first recovery cavity and is fixedly connected with the first permanent magnet 516, one end of a first spring 517 is arranged at the top end of the recovery cavity, and the other end of the first spring is fixedly connected with the first permanent magnet.

As shown in fig. 4, the second current stabilizer includes a second current stabilizing cylinder, a second isolating block 523 for dividing the second current stabilizing cylinder into a second sliding cavity 521 and a second restoring cavity 522, a second sliding block 524 slidably connected to an inner wall of the sliding cavity, and a second connecting rod 525 having one end fixedly connected to the second sliding block and penetrating through the second isolating block; the other end of the second connecting rod extends to the second recovery cavity and is fixedly connected with the second permanent magnet 526, one end of a second spring 527 is arranged at the top end of the recovery cavity, and the other end of the second spring is fixedly connected with the second permanent magnet.

As shown in fig. 5, the third current stabilizer includes a third current stabilizing cylinder, a third isolating block 533 for dividing the third current stabilizing cylinder into a third sliding cavity 531 and a third restoring cavity 532, a third sliding block 534 slidably connected to the inner wall of the sliding cavity, and a third connecting rod 535 fixedly connected to the third sliding block at one end and penetrating through the third isolating block; the other end of the third connecting rod extends to the third recovery cavity and is fixedly connected with the iron block 536, one end of a third spring 537 is arranged at the top end of the recovery cavity, and the other end of the third spring is fixedly connected with the iron block.

As shown in fig. 6, the first linkage is disposed between the first current stabilizer and the second current stabilizer; the first linkage device comprises a first linkage cavity 541 communicated with the upper part of the first recovery cavity, a first I-shaped block 542 arranged in the first linkage cavity and capable of recovering through a first recovery spring 543, and a first traction device arranged in the first traction cavity 544, wherein one end of the first I-shaped block is provided with a magnetic block repelling with a first permanent magnet pole, the bottom of one end of the first I-shaped block is provided with a grinding tooth, the first traction device comprises a first T-shaped frame 545 erected in the first traction cavity, a cross arm of the first T-shaped frame is provided with a first gear 548 meshed with the grinding tooth, a vertical arm of the first T-shaped frame is provided with a first pulley 547, the first gear is coaxially and fixedly provided with a first coiling disc 546, the second isolation block is transversely provided with a first clamping hole, a first clamping rod is arranged in the first clamping hole, and the first clamping rod realizes recovering through a spring arranged in the clamping hole, the first groove matched with the first clamping rod is formed in the second connecting rod, and one end of the metal wire is connected with the first clamping rod and wound on the first pulley to be connected with the first wire winding disc.

As shown in fig. 7, the second linkage is disposed between the second current stabilizer and the third current stabilizer; the second linkage device comprises a second linkage cavity 551 communicated with the upper part of the second restoring cavity, a second I-shaped block 552 arranged in the second linkage cavity and realizing restoration through a second restoring spring 553, and a second traction device arranged in the second traction cavity 554, wherein one end of the second I-shaped block is provided with a magnetic block repulsive to the magnetic pole of a second permanent magnet, the bottom of one end of the second I-shaped block is provided with a tooth, the second traction device comprises a second T-shaped frame 555 erected in the second traction cavity, a cross arm of the second T-shaped frame is provided with a second gear 558 meshed with the tooth, a vertical arm of the second T-shaped frame is provided with a second pulley 557, a second winding disc 556 is coaxially and fixedly arranged on the second gear, a second clamping hole is transversely formed in the third isolation block, a second clamping rod is arranged in the second clamping hole, and the second clamping rod realizes restoration through the spring arranged in the clamping hole, and a second groove matched with the second clamping rod is formed in the third connecting rod, and one end of the metal wire is connected with the second clamping rod and wound on a second pulley to be connected with a second winding roll.

As shown in fig. 8, the third linkage device includes a third linkage chamber 562 adjacent to the third sliding chamber wall, a pressing block 561 press-linked with the third sliding block, and a blocking rod 563 disposed in the third linkage chamber and linked with the pressing block; the lower end of the blocking rod is provided with a rubber sleeve 564 with a sealing effect, the lower end of the blocking rod is positioned at a communicating part of the overflow device and the third sliding cavity, the upward movement of the blocking rod can realize the smoothness of gas in the communicating part, the downward movement of the blocking rod can realize the blockage of gas in the communicating part, the pressing block is encircled to realize transverse return motion through a spring, one end of the pressing block, extending into the third sliding cavity, is an arc convex head, and the contact surface of the third sliding block and the arc convex head is an arc surface; the one end bottom surface that the pressing block stretched into the third linkage chamber is provided with the wedge, the upper end and the wedge of shutoff pole are contradicted, the shutoff pole sets up in the third linkage intracavity through last spacing ring and spacing ring activity down, and the middle part of shutoff pole is provided with spacing piece 565, and spacing piece is connected through spring and lower spacing ring and is makeed the shutoff pole to do the motion of replying.

Overflow arrangement is including vacuum cavity and compression chamber and backward flow jar, the vacuum cavity passes through the trachea intercommunication with the third slip chamber, the backflow gas in the vacuum cavity compresses leading-in backward flow jar through the compressor in the compression chamber, the backward flow jar passes through trachea and intake pipe intercommunication.

The structure of the first gas monitoring device is the same as that of the second gas monitoring device, the first gas monitoring device comprises a first flowmeter, a corrugated pipe wrapping the first flowmeter and a natural gas detection sensor, inert gas is filled in the corrugated pipe, and the first flowmeter and the natural gas detection sensor periodically acquire relevant data and transmit the data to the management terminal machine.

The volume of the first sliding chamber is larger than that of the second sliding chamber, and the volume of the second sliding chamber is larger than that of the third sliding chamber, so that the gas flow regulation is changed from coarse regulation to fine regulation.

The gas outlet has all been seted up on the upper portion in first slip chamber, second slip chamber, third slip chamber, and the first sliding block, second sliding block, third sliding block of being convenient for do not have the gas resistance in corresponding the slip intracavity and slide.

The above-mentioned embodiments are preferred embodiments of the intelligent monitoring system for residential power with demand response, and the scope of the invention is not limited thereto, and all equivalent changes in shape and structure according to the invention are within the protection scope of the invention.