CN103543308B - Personalized Electric Energy Resource Management System and Its Portable Micrometer - Google Patents

Abstract

The invention relates to a personalized electric energy resource management system and a portable micro electric meter thereof, wherein the portable micro electric meter comprises an electric energy detection device connected with a plurality of electric connectors and an electric energy recording device selectively connected to the electric energy detection device; the electric energy detection device detects the electric energy flowing through each electric joint; the electric energy recording device receives and stores the electric energy information flowing through each electric joint of the electric energy detection device; the portable micro-electric meter has the advantages that the electric energy flowing through each electric through joint is recorded by the electric through joints, so that the electric energy can be recorded, and particularly the electric energy fed to a smart grid is recorded; and the electric energy recording device is selectively connected to the electric energy detection device, so that the electric energy recording device can be repeatedly used in unspecified electric power generation equipment.

Description

Personalized Electric Energy Resource Management System and Its Portable Micrometer

technical field

The invention relates to an electric energy system, in particular to a personalized electric energy resource management system and a portable miniature electric meter with the function of measuring energy flow.

Background technique

In recent years, due to the increasingly serious issues of energy crisis and global warming, people have gradually realized the importance of concepts such as carbon emissions, carbon footprints, and carbon rights; therefore, how to efficiently use energy has become a hot topic around the world. Therefore, experts and scholars have proposed a concept of smart grid (Smart Electric Grid); the so-called smart grid refers to an advanced grid system that integrates power generation, transmission, distribution and users; it has automation and informatization Advantages, can achieve self-monitoring, diagnosis and repair functions.

To be able to achieve the effect of smart grid, the most important thing is to establish the meter reading infrastructure (AMI; Advanced Metering Infrastructure); and the meter reading infrastructure is mainly controlled by smart meters (Smart Meter), two-way communication network and automatic meter reading The main purpose of its construction is to use electricity more flexibly at the electricity end, and to generate more efficient and economical power at the power supply end; therefore, during the peak period of electricity demand, the smart grid closes some Non-essential electrical appliances are used to reduce demand, and the structure of power generation and consumption is re-allocated to ensure energy conservation and sustainable development of electric energy.

In addition, in the current daily life, people obtain calories through diet, and convert the calories into kinetic energy through exercise, such as riding a bicycle or using any fitness equipment; in the past, most of these calories were consumed in the form of heat energy However, since the energy conversion technology is gradually mature now, an electric energy converter and an electric storage device can be further arranged on the above-mentioned bicycle or any fitness equipment; as the new patent of the treadmill self-generating structure of the Taiwan Patent Announcement No. M404003, Taiwan Patent Announcement No. M408383 fitness equipment power generation device and Taiwan Patent Announcement No. M409305 the technology disclosed by the fitness equipment with power generation function; both convert the kinetic energy generated by exercise into electrical energy through the operation of the electric energy converter, and store In the above-mentioned power storage device.

Another example is the technology disclosed in the Taiwan patent announcement No. M409860 of the self-generating sports equipment multi-machine grid-connected device. The electric energy generated by the operation of the power converter can be further fed back to the smart grid, and through the regulation of the smart grid, The electric energy can be fully and effectively utilized by the smart grid; it can be seen that the personalized exercise device already has the functions of power generation and energy storage, and can be further connected to the smart grid to convert the electric energy generated by personal exercise feed back into the smart grid.

Due to the advent of the era of high electricity prices, electricity can be directly used as a transaction currency. However, the above-mentioned patents and previous documents can only record the electric energy generated by each exercise device, and cannot record the electric energy generated by different users; therefore, for individuals It is said that there is no device related to personalized power records, which will have certain restrictions on the future development of electricity sales pricing.

Contents of the invention

In view of the fact that none of the above-mentioned patented technologies can allow users to obtain corresponding rewards; therefore, the main purpose of the present invention is to provide a personalized electric energy resource management system and a portable micro-meter that can be carried around and record the generated electric energy.

The main technical means used to achieve the above purpose is to make the personalized power resource management system include:

At least one power generation device, each power generation device is electrically connected to and supplies power to a smart grid, and includes a power generation module and an electric energy detection device; wherein the electric energy detection device includes a first shell, and the first shell is connected to multiple an electric connection; and the electric connection is respectively connected to the power generation module and the smart grid; and the electric energy detection device detects the electric energy fed back to the smart grid by the power generation module through the electric connection; and

An electric energy recording device is selectively connected to the electric energy detection device of each power generating equipment, and includes a casing; wherein the electric energy recording device receives and stores electric energy information fed back to the smart grid.

It can be seen from the above structure that the electric energy recording device of the present invention can record the electric energy generated by personal movement and transmitted to the smart grid, and after use, it can be pulled out from each electric power generating equipment and carried with it, so as to repeat the operation in unspecified electric power generation. Equipment usage; therefore, it is convenient to total the electricity generated by the personal use electricity generating equipment.

The main technical means used to achieve the above-mentioned purpose is that the portable micro-meter includes:

An electric energy detection device, including a shell, and the external connection is connected with a plurality of electric connections; wherein the electric energy detection device detects the electric energy flowing through each electric connection; and

An electric energy recording device is selectively connected to the electric energy detection device and includes a casing; wherein the electric energy recording device receives and stores electric energy information flowing through each electric connection of the electric energy detection device.

It can be seen from the above structure that the portable miniature electricity meter is applied to the aforementioned power generation equipment, and when in use, firstly connect the plurality of electrical connectors to the aforementioned smart grid and the aforementioned power generation module, and record the power generation by the power recording device. The electric energy generated by the module and output to the smart grid can also be reused in unspecified power generating equipment, so that it is convenient to calculate the electricity generated by the power generating equipment for personal use.

Description of drawings

Fig. 1: Schematic diagram of the personalized electric energy resource management system of the present invention.

Figure 2: Schematic representation of a specific embodiment of the invention.

Fig. 3: A schematic circuit diagram of the first embodiment of the power generating device of the present invention.

Fig. 4: A schematic circuit diagram of a second embodiment of the power generating device of the present invention.

Fig. 5: A schematic diagram of a first circuit of a power consuming device of the present invention.

Fig. 6: A second schematic circuit diagram of the power consuming device of the present invention.

Fig. 7: The three-dimensional appearance diagram of the specific implementation of the portable micrometer of the present invention.

Fig. 8: A three-dimensional exploded view of the specific implementation of the portable micrometer of the present invention.

Fig. 9: An exploded perspective view of the specific implementation of the electric energy detection device of the present invention.

Fig. 10: An exploded perspective view of the specific implementation of the electric energy recording device of the present invention.

Figure number:

10 Smart Grid 11 Power Generation Equipment

12 Power generation module 13 Power consumption module

20 Electric energy detection device 21 The first shell

22 Electrical Connector 23 First Plug

24 Detection circuit board 25 Current detection circuit

26 Voltage detection circuit 27 The first communication module

30 Power recording device 31 Housing

32 Second plug 33 Microprocessor

34 Storage module 35 Display module

36 Communication interface 37 Second communication module

40 Electric energy detection device 41 Second shell

42 Electric connector 43 First plug

44 Detection circuit board 45 Current detection circuit

46 Voltage detection circuit 50 Electric energy detection device

51 Housing 52 Electrical Connector

53 First plug 54 Detection circuit board

55 Current detection circuit 60 Energy recording device

61 Housing 62 Second plug

63 microprocessor 64 memory module

65 Display module 66 Communication interface

detailed description

Please refer to FIG. 1 to FIG. 3, which are the first embodiment of the personalized electric energy resource management system of the present invention, which includes:

At least one power generation device 11, each power generation device 11 is electrically connected to and supplies power to a smart grid 10, and includes a power generation module 12 and a power detection device 20; wherein the power detection device 20 includes a first shell 21, and The first shell 21 is connected with a plurality of electrical connectors 22; and the electrical connectors 22 are respectively connected to the power generation module 12 and the smart grid 10; 22 is fed back to the electric energy of the smart grid 10; in this embodiment, the first shell 21 of the above-mentioned electric energy detection device 20 is connected with a first plug 23; and the electric energy detection device 20 of each power generation device 11 further includes a detection circuit board 24, and are electrically connected to the plurality of electric connectors 22 and the first plug 23 respectively; wherein the detection circuit board 24 is provided with a current detection circuit 25 and a voltage detection circuit 26 for detecting the power generation module 12 passing through the above-mentioned The electrical energy fed back to the smart grid 10 by the electrical connector 22; and

A power recording device 30 is selectively connected to the power detection device 20 of each power generating device 11, and includes a housing 31; wherein the power recording device 30 receives and stores the power information fed back to the smart grid 10; in this implementation In an example, the casing 31 of the power recording device 30 is connected with a second plug 32 corresponding to the first plug 23 of the power detection device 20, and the second plug 32 is selectively plugged into the power source of each power generating device 11. The first plug 23 of the detection device 20; wherein the power recording device 30 receives the power information fed back to the smart grid 10 through the first plug 23 and the second plug 32; and, the power recording device 30 further includes:

A microprocessor 33 is electrically connected to the second plug 32, and receives the electric energy fed back from the power generation module 12 to the smart grid 10 through the electric connector 22, and converts it into an electric energy recording data; wherein the microprocessor The computer 33 has a built-in power generation calculation program, which converts and stores the above-mentioned electric energy record data into the amount of the transaction currency of consideration;

A storage module 34, electrically connected to the microprocessor 33, and storing the electric energy recording data;

A display module 35, electrically connected to the microprocessor 33, and displaying the recorded data of electric energy; and

A communication interface 36 is electrically connected to the microprocessor 33 to transmit power recording data.

It can be seen from the above structure that the electric energy recording device 30 of the present invention can record the electric energy generated by personal exercise and transmit it to the smart grid 10, and after use, it can be pulled out from each electric power generating device 11 and carried with it, so as to repeat it in different places. Specific power generating equipment 11 is used; therefore, it is convenient to sum up the power generated by the power generating equipment 11 for personal use.

In addition, please refer to shown in Fig. 4, it is the second embodiment of the present invention, and its structure is roughly identical with this first embodiment; Only, its difference is that above-mentioned first plug 23 is changed into a first communication module 27, and The above-mentioned second plug 32 is replaced with a second communication module 37 ; wherein the second communication module 37 is selectively connected to the first communication module 27 of the power detection device 20 of each power generating device 11 . The first communication module 27 and the second communication module 37 can be implemented using Bluetooth, Wibree, ZigBee, IEEE802.5.14, WiFi, Wireless USB, RF, and the like.

In the second embodiment of the present invention, the original way that the power recording device 30 receives the power detected by the power detection device 20 and fed back to the smart grid 10 through the first plug 23 and the second plug 32 is changed to through The first communication module 27 and the second communication module 37; therefore, the second embodiment of the present invention can further achieve that the power recording device 30 can receive the The electric energy information detected by the electric energy detection device 20 and fed back to the smart grid 10 .

Furthermore, please refer to FIG. 5 and FIG. 6, which is the third embodiment of the personalized electric energy resource management system, which further includes in the first embodiment:

At least one power consumption device, each power consumption device is electrically connected to the smart grid 10, and includes a power module 13 and a power detection device 40; wherein the power detection device 40 includes a second housing 41, and the second The shell 41 is connected with a plurality of electrical connectors 42; wherein the electrical connectors 42 are respectively connected to the smart grid 10 and the power module 13; To the electric energy of the power consumption module 13; in this embodiment, the second shell 41 of the above-mentioned electric energy detection device 40 is connected with a first plug 43; and the electric energy detection device 40 of each power consumption device further includes a detection circuit board 44, And are respectively electrically connected to the plurality of electrical connection connectors 42 and the first plug 43; wherein the detection circuit board 44 is provided with a current detection circuit 45 and a voltage detection circuit 46, used to detect the smart grid 10 through the above-mentioned electrical connection The electrical energy supplied by the connector 42 to the power consumption module 13; and

The aforementioned power recording device 30 is also selectively connected to the power detection device 40 of each power consumption device to receive and store power information supplied by the smart grid 10 .

Since each power consumption device includes a first plug 43, the second plug 32 of the aforementioned power recording device 30 can be selectively connected to each power consumption device, so as to receive and store the power information supplied by the smart grid; In the embodiment, the above-mentioned microprocessor 33 further receives the electric energy supplied by the smart grid 10 to the electric module 13 through the above-mentioned electrical connection 42, and converts it into the above-mentioned electric energy recording data, and has a built-in electricity consumption calculation program, according to The above-mentioned electric energy record data is converted into the amount of the transaction currency of the consideration and deducted from the stored amount.

In addition, please compare and refer to Fig. 3 to Fig. 6, since the structure of the electric energy detection devices 20, 40 of the above-mentioned power generating equipment 11 and the above-mentioned power consuming equipment is roughly the same; The power detection devices 20 and 40 can achieve the purpose of being applicable respectively by changing the power generation calculation program or the power consumption calculation program in the microprocessor 33 of the power recording device 30 .

In addition, the electrical connectors 22 , 42 of the above-mentioned electrical energy detection devices 20 , 40 are independent according to user requirements, or multiple electrical connectors 22 , 42 are integrated into a single electrical connector.

It can be seen from the above structure that the present invention regards the above-mentioned electric energy as a currency that can be traded, which has circulation and value; and the above-mentioned smart grid 10 is used as a bank to store the power generated by the power generation module 12 by personal movement. Generated electric energy information; therefore, the user can first supply the electric energy generated by the power generation module 12 to the above-mentioned smart grid 10 through each electric power generating equipment 11, and record the electric energy degree by the electric energy recording device 30; then the electric energy The electric energy degree recorded by the recording device 30 is used as currency and is directly supplied by the above-mentioned smart grid 10 to other power consumption modules 13 through each power consumption device, so that the user can use the power consumption module 13 without spending extra money ; Yes, by pulling out from each power generating device and carrying it with you, it is convenient to count the power generated by the power generating device for personal use; The effect of electricity produced by a person using an electricity generating device.

Please refer to Fig. 7 and shown in Fig. 8, it is the portable miniature electric meter of the present invention, and it comprises:

An electric energy detection device 50 includes a shell 51, and the shell 51 is connected with a plurality of electrical connections 52; wherein the electric energy detection device 50 detects the electric energy flowing through each electric connection 52; in this embodiment, the above-mentioned electric energy detection The first shell 51 of the device 50 is connected with a first plug 53; and please refer to FIG. A plug 53; wherein the detection circuit board 54 is provided with a current detection circuit 55 and a voltage detection circuit 56 for detecting the electric energy flowing through each electric connector; and

The power recording device 60 is selectively connected to the power detection device 50, and includes a housing 61; wherein the power recording device 60 receives the power information flowing through each of the electric connections 52 of the power detection device 50, and stores it In this embodiment, the housing 61 of the power recording device 60 is connected to a second plug 62 corresponding to the first plug 53 of the power detection device 50, and the second plug 62 is selectively plugged into the power detection device. on the first plug 53 of the device 50; wherein the power recording device 60 receives the power information flowing through the electrical connections 52 of the power detection device 50 through the first plug 53 and the second plug 62; please refer to FIG. 10 Shown, in this embodiment, the electric energy recording device 60 further includes:

A microprocessor 63 is electrically connected to the second plug 62, and receives the above-mentioned electric energy information flowing through the electrical connections 52 of the electric energy detection device 50, and converts it into a record data of electric energy; Establish a power generation calculation program and a power consumption calculation program; wherein the power generation calculation program converts the above-mentioned electric energy record data into the transaction currency of consideration, and increases its storage amount; and the power consumption calculation program deducts other deposit amount;

A storage module 64, electrically connected to the microprocessor 63, and storing the electric energy recording data;

A display module 65, electrically connected to the microprocessor 63, and displaying the recorded data of electric energy; and

A communication interface 66 is electrically connected to the microprocessor 63 for data transmission of the electric energy recording data.

In addition, the electrical energy detection device 50 can integrate a plurality of electrical connectors 52 into a single electrical connector.

Furthermore, the above-mentioned first plug 53 can also be replaced by a first communication module, and the above-mentioned second plug 62 can be replaced by a second communication module; wherein the second communication module is selectively connected to the first communication module of the electric energy detection device. A communication module; to further achieve the effect of allowing the power recording device 60 to receive the electric energy flowing through the electrical connections 52 of the power detection device 50 without directly contacting the power recording device 60 with the power detection device 50 .

It can be seen from the above structure that the portable micro-meter is applied to the aforementioned power generation equipment, and its power detection device 50 is connected to the power recording device 60 through the first plug 53 and the second plug 62, so as to record the power flowing through each power. The electric energy information of the connecting joints 52 is stored in the electric energy recording device 60; therefore, when the portable micro-meter is in use, the plurality of electric connecting joints 52 are connected to the aforementioned smart grid and the aforementioned power generating module respectively, and the electric energy is recorded The device 60 records the electric energy generated by the power generation module and output to the smart grid; then the electric energy recording device 60 is pulled out from the electric energy detection device 50, and then inserted into another electric energy detection device 50 connected to the useful electric module; at this time, The power recording device also records the power supplied by the smart grid to the power consumption module.

Therefore, the user can use the power recording device 60 on unspecified power generation equipment or power consumption equipment by connecting it to the power detection device 50 in an unspecified manner; generated electricity, and further use the electricity generated by personal use power generating equipment on power consuming equipment.

Claims (24)

1. A personalized electric energy resource management system, characterized in that, the personalized electric energy resource management system comprises: At least one power generation device, each power generation device is electrically connected to and supplies power to a smart grid, and includes a power generation module and an electric energy detection device; wherein the electric energy detection device includes a first shell, and the first shell is connected to There are a plurality of electrical connections; and the electrical connections are respectively connected to the power generation module and the smart grid; electric energy; An electric energy recording device, selectively connected to the electric energy detection device of each electric power generating equipment, and includes a casing; wherein the electric energy recording device receives and stores the electric energy information fed back to the smart grid; A first plug is connected to the first shell of the electric energy detection device of each power generation device; The shell of the power recording device is connected with a second plug corresponding to the first plug of the power detection device, and the second plug is selectively inserted into the first plug of the power detection device of each power generation device ; wherein the power recording device receives power information fed back to the smart grid through the first plug and the second plug; The power recording device further includes a microprocessor, which is electrically connected to the second plug, and receives the power information fed back from the power generation module to the smart grid through the electrical connection, and converts it into a power record data; a storage module electrically connected to the microprocessor and storing the power record data; and a display module electrically connected to the microprocessor and displaying the power record data; At least one power consumption device, each power consumption device is electrically connected to the smart grid, and includes a power consumption module and a power detection device; wherein the power detection device includes a second shell, and the second shell is connected to There are a plurality of electrical connections; wherein the electrical connections are respectively connected to the smart grid and the power module; and the electric energy detection device detects that the smart grid supplies to the user the electrical energy of the electrical module; and The power recording device is also selectively connected to the power detection device of each power consumption device to receive and store power information supplied by the smart grid. 2. The personalized electric energy resource management system as claimed in claim 1, wherein the electric energy detection device of each electric power generating equipment further comprises a detection circuit board, and is respectively electrically connected to the plurality of electrical connections and the The first plug; wherein the detection circuit board is provided with a current detection circuit and a voltage detection circuit for detecting the electric energy fed back from the power generation module to the smart grid through the electric connection connector. 3. The personalized electric energy resource management system according to claim 2, wherein the electric energy recording device further comprises: A communication interface, electrically connected to the microprocessor, for data transmission of the electric energy recording data. 4 . The personalized electric energy resource management system according to claim 3 , wherein a power generation calculation program is built in the microprocessor to convert and store the recorded electric energy data into an amount of transaction currency as consideration. 5 . 5. The personalized electric energy resource management system as claimed in claim 1, characterized in that: The second shell of the electric energy detection device of each power consumption device is connected with a first plug; and the electric energy recording device allows the second plug to be selectively inserted into the first plug of the electric energy detection device of each power consumption device ; wherein the power recording device receives power information supplied by the smart grid through the first plug and the second plug. 6. The personalized electric energy resource management system as claimed in claim 5, wherein the electric energy detection device of each electric power consumption device further comprises a detection circuit board, and is respectively electrically connected to the plurality of electrical connections and the A first plug; wherein the detection circuit board is provided with a current detection circuit and a voltage detection circuit for detecting the electric energy supplied by the smart grid to the power consumption module through the electric connection connector. 7. The personalized electric energy resource management system as claimed in claim 6, characterized in that, said microprocessor has a built-in electricity consumption calculation program, which converts the amount of transaction currency into consideration based on said electric energy record data, and automatically Deducted from the stored amount. 8. The personalized electric energy resource management system according to any one of claims 1 to 7, wherein a plurality of electrical connections of each power generation device are integrated into a single electrical connection. 9. The personalized electric energy resource management system as claimed in claim 1, wherein a plurality of electric connection connectors of each power generating device are integrated into a single electric connection; and a plurality of electric connection connectors of each power consumption device are integrated It is a single electrical connection. 10. A personalized electric energy resource management system, characterized in that the personalized electric energy resource management system comprises: At least one power generation device, each power generation device is electrically connected to and supplies power to a smart grid, and includes a power generation module and an electric energy detection device; wherein the electric energy detection device includes a first shell, and the first shell is connected to There are a plurality of electrical connections; and the electrical connections are respectively connected to the power generation module and the smart grid; electric energy; An electric energy recording device, selectively connected to the electric energy detection device of each electric power generating equipment, and includes a casing; wherein the electric energy recording device receives and stores the electric energy information fed back to the smart grid; The power detection device of each power generating equipment includes a first communication module; The power recording device includes a second communication module corresponding to the first communication module of the power detection device, and the second communication module is selectively connected to the first communication module of the power detection device of each power generation device; Wherein the power recording device receives power information fed back to the smart grid through the first communication module and the second communication module; The electric energy recording device further includes a microprocessor, which is electrically connected to the second communication module, and receives the electric energy information fed back from the power generation module to the smart grid through the electrical connection, and converts it into A power record data; a storage module, electrically connected to the microprocessor, and store the power record data; and a display module, electrically connected to the microprocessor, and display the power record data; At least one power consumption device, each power consumption device is electrically connected to the smart grid, and includes a power consumption module and a power detection device; wherein the power detection device includes a second shell, and the second shell is connected to There are a plurality of electrical connections; wherein the electrical connections are respectively connected to the smart grid and the power module; and the electric energy detection device detects that the smart grid supplies to the user the electrical energy of the electrical module; and The power recording device is also selectively connected to the power detection device of each power consumption device to receive and store power information supplied by the smart grid. 11. The personalized electric energy resource management system as claimed in claim 10, wherein the electric energy detection device of each electric power generating equipment further comprises a detection circuit board, and is electrically connected to the plurality of electrical connections and the A first communication module; wherein the detection circuit board is provided with a current detection circuit and a voltage detection circuit for detecting the electric energy supplied to the smart grid by the power generation module through the electric connection connector. 12. The personalized electric energy resource management system according to claim 11, wherein the electric energy recording device further comprises: A communication interface, electrically connected to the microprocessor, for data transmission of the electric energy recording data. 13. The personalized electric energy resource management system as claimed in claim 12, wherein a power generation calculation program is built in the microprocessor to convert and store the recorded electric energy data into an amount of transaction currency as consideration. 14. The personalized electric energy resource management system as claimed in claim 10, characterized in that: The power detection device of each power consumption device includes a first communication module; and The power recording device enables the second communication module to be selectively connected to the first communication module of the power detection device of each power consumption device; wherein the power recording device communicates with the second communication module through the first communication module A module receives power information supplied by the smart grid. 15. The personalized electric energy resource management system according to claim 14, wherein the electric energy detection device of each electric power consumption device further comprises a detection circuit board, and is respectively electrically connected to the plurality of electrical connections and the A first communication module; wherein the detection circuit board is provided with a current detection circuit and a voltage detection circuit for detecting the electric energy supplied from the smart grid to the power consumption module through the electric connection connector. 16. The personalized electric energy resource management system as claimed in claim 15, wherein the microprocessor has a built-in electricity consumption calculation program, which converts the amount of transaction currency into consideration based on the recorded electric energy data, and automatically Deducted from the stored amount. 17. The personalized electric energy resource management system according to any one of claims 10 to 16, wherein a plurality of electrical connection connectors of each power generating device are integrated into a single electrical connection connector. 18. The personalized electric energy resource management system according to claim 10, characterized in that, the multiple electrical connectors of each power generating device are integrated into a single electrical connector; and the multiple electrical connectors of each power consuming device are integrated It is a single electrical connection. 19. A portable micro-meter, characterized in that, said portable micro-meter comprises: An electric energy detection device, comprising a shell, and the shell is connected with a plurality of electric connections; wherein the electric energy detection device detects the electric energy flowing through each electric connection; An electric energy recording device, selectively connected to the electric energy detection device, and includes a casing; wherein the electric energy recording device receives and stores electric energy information flowing through each electrical connection of the electric energy detection device; The first shell of the electric energy detection device is connected with a first plug; The casing of the power recording device is connected with a second plug corresponding to the first plug of the power detection device, and the second plug is selectively inserted into the first plug of the power detection device; wherein The electric energy recording device receives the electric energy information flowing through each electric connector of the electric energy detection device through the first plug and the second plug; The electric energy recording device further includes a microprocessor, electrically connected to the second plug, and receiving the electric energy information flowing through the electrical connections of the electric energy detection device, and converting it into electric energy recording data; a storage module, electrically connected to the microprocessor, and storing the electric energy record data; and a display module, electrically connected to the microprocessor, and displaying the electric energy record data; The electric energy detection device further includes a detection circuit board, and is electrically connected to the plurality of electric connectors and the first plug respectively; wherein the detection circuit board is provided with a current detection circuit and a voltage detection circuit for Detect the electric energy flowing through each electrical connection; A power generation calculation program and a power consumption calculation program are built in the microprocessor; wherein the power generation calculation program converts the electric energy record data into the transaction currency of consideration and increases its storage amount; and the power consumption calculation program The storage amount is deducted based on the electric energy record data. 20 . The portable miniature electricity meter according to claim 19 , wherein the electrical energy detection device integrates a plurality of electrical connections into a single electrical connection. 21 . 21. The portable miniature electric meter according to claim 19, wherein the electric energy recording device further comprises: A communication interface, electrically connected to the microprocessor, for data transmission of the electric energy recording data. 22. A portable micro-meter, characterized in that, the portable micro-meter comprises: An electric energy detection device, comprising a shell, and the shell is connected with a plurality of electric connections; wherein the electric energy detection device detects the electric energy flowing through each electric connection; An electric energy recording device, selectively connected to the electric energy detection device, and includes a casing; wherein the electric energy recording device receives and stores electric energy information flowing through each electrical connection of the electric energy detection device; The electric energy detection device includes a first communication module; The power recording device includes a second communication module corresponding to the first communication module of the power detection device, and the second communication module is selectively connected to the first communication module of the power detection device; wherein the The electric energy recording device receives the electric energy information flowing through the electrical connections of the electric energy detection device through the first communication module and the second communication module; The electric energy recording device further includes a microprocessor, electrically connected to the second communication module, and receiving the electric energy flowing through each electric connection joint of the electric energy detection device, and converting it into an electric energy recording data; a storage module, electrically connected to the microprocessor, and storing the electric energy record data; and a display module, electrically connected to the microprocessor, and displaying the electric energy record data; The electric energy detection device further includes a detection circuit board, and is respectively electrically connected to the plurality of electric connectors and the first communication module; wherein the detection circuit board is provided with a current detection circuit and a voltage detection circuit for use in To detect the electric energy flowing through each electrical connection; A power generation calculation program and a power consumption calculation program are built in the microprocessor; wherein the power generation calculation program converts the electric energy record data into the transaction currency of consideration and increases its storage amount; and the power consumption calculation program The storage amount is deducted based on the electric energy record data. 23. The portable miniature electricity meter as claimed in claim 22, wherein the electrical energy detection device integrates a plurality of electrical connections into a single electrical connection. 24. The portable miniature electric meter as claimed in claim 22, wherein the electric energy recording device further comprises: A communication interface, electrically connected to the microprocessor, for data transmission of the electric energy recording data.