CN213904459U - Outdoor sharing power utilization system - Google Patents

Abstract

The utility model provides an outdoor sharing power consumption system, aims at overcoming the area and the industry to multi-user, power consumption great at any time among the prior art, and conventional single-user power consumption and the interim shortcoming that connects the electricity and all not suitable for, provide an outdoor sharing power consumption system, including outdoor public power, the sharing power consumption device and the server that control power supply line opened and shut, the sharing power consumption device includes: the control panel module is used for receiving a control instruction signal of the server and sending an electrical control signal to the breaker module; the server includes: the system comprises an instruction control module, an asset management module and a fee calculation module, wherein the instruction control module is used for sending a control instruction signal to the shared electric device. The utility model discloses realize centralized management and the control of power consumption, have advantages such as safety, high efficiency, cost controllable, automated management, be fit for using when getting the electricity in the great area of multi-user, power consumption nature at any time.

Description

Outdoor sharing power utilization system

Technical Field

The utility model relates to a sharing power supply technical field especially relates to an outdoor sharing power consumption system.

Background

Aiming at farmland irrigation, remote areas, areas with larger electricity consumption at any time and industries, if a plurality of electric meters are installed in each production area, the expenditure cost of an enterprise can be increased, and the workload of the enterprise can be increased. For example, in places such as Guangxi, Guangdong, Hainan and Yunnan, a large number of vegetable and fruit bases exist, when farmers use a shared water well for irrigation, the farmers need to get electricity through a three-phase power supply, if the conventional single-user electricity utilization and charging are adopted, namely one user and one pump are used, the defects of high installation cost, low equipment utilization rate, long equipment idle time and the like are caused; if adopt and connect the electricity temporarily, not only there is the potential safety hazard, and the management flow is complicated moreover, and the engineering time is long, can not satisfy the demand of peasant household's timely power consumption. Aiming at farmland irrigation, remote areas, areas with larger electricity consumption at any time and industries, how to combine the modes of 'internet + sharing + power grid' is adopted, so that the operation efficiency of a power grid company is improved, the production cost of the power grid is reduced, and the method is one of the directions explored by people.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects of high installation cost, low equipment utilization rate, long idle time and the like in the prior art for areas and industries with multiple users and larger electricity consumption at any time if the conventional single-user electricity utilization is adopted for electricity taking and charging; if adopt and connect the electricity temporarily, not only there is the potential safety hazard, and the management flow is complicated moreover, and the engineering time is long, can not satisfy the shortcoming of the demand of user's timely power consumption, provides an outdoor sharing power consumption system.

The utility model discloses the technical scheme who realizes that the purpose adopts is: an outdoor shared power utilization system comprises an outdoor public power source, a shared power utilization device and a server, wherein the shared power utilization device controls a power supply circuit to be opened and closed, and comprises: the control panel module is used for receiving a control instruction signal of the server and sending an electrical control signal to the breaker module; the electric energy acquisition module is used for acquiring and feeding back the electric energy consumption of an output line of the shared electric device; the communication module is used for connecting the shared electric device and carrying out data communication with the server; the circuit breaker module is used for receiving the electric control signal of the control panel module and controlling the opening and closing of a power supply circuit; the information label module is used for recording asset information of the shared electric device and guiding a user to enter an operation control interface, and the server comprises: the system comprises an instruction control module, an asset management module and a fee calculation module, wherein the instruction control module is used for sending a control instruction signal to a shared electric device; the asset management module is used for establishing an asset file of the shared power supply device and a relation between the asset file and the information label module; and the fee calculation module is used for storing and recharging the balance of the electricity utilization user and deducting the balance of the electricity utilization user according to the electricity consumption fed back by the shared electricity utilization device.

Furthermore, the control panel module is used for controlling and scheduling electric energy acquisition, communication management and instruction receiving and interpretation, and the control panel module contains an embedded control module which comprises a timer, a signal control module and a switch scheduling module.

Furthermore, the electric energy acquisition module acquires electric energy consumption data in real time and transmits the electric energy consumption data to the server through the communication module, the charge calculation module calculates and deducts the balance of the electricity consumption user, the balance is exhausted, and the server terminal actively sends out a command of disconnecting the circuit breaker.

Further, the command control module of the server provides an API interface to the cost calculation module, and the cost calculation module calls the API interface on the command control module to send a command for turning off the electrical switch to the shared electrical device when the balance is consumed.

Furthermore, the communication module supports NB and 4G communication protocols in an uplink manner, and has the functions of forwarding signals of an RS485 protocol into encrypted communication messages, receiving instructions of the control panel module and sending the encrypted communication messages to the instruction control module in an uplink manner; and receiving the instruction of the instruction control module, and sending the instruction to the control panel module through a wired RS485 protocol.

Furthermore, the operation control interface is used for looking up the electricity balance, recharging the electricity balance and remotely controlling the shared electricity utilization device.

Furthermore, the information label module is a two-dimensional code, and the power consumption user scans the two-dimensional code through a camera of the terminal equipment and enters an operation control interface.

Furthermore, the system comprises a group of the shared electric devices, and the balance of the electric users is stored in the server side and is applicable to all the shared electric devices.

Furthermore, a plurality of electricity users enter an operation control interface through the information tag module of the shared electricity utilization device.

Further, the power supply is a three-phase power supply.

The utility model has the advantages that: the utility model meets the demand of timely responding to electricity getting by pre-installing the outdoor public power supply close to the demand point; the mode of sharing electricity by multiple people is adopted, so that the investment cost is reduced; the management cost is reduced by the automatic metering fee deduction and self-service recharging modes; the design conforming to the power supply safety standard is adopted to meet the safety management; the centralized management and control are realized by building a set of system which comprises asset management, instruction control and expense calculation and is based on the central server, and the system has the advantages of safety, high efficiency, controllable cost, automatic management and the like. Adopt the utility model discloses, reduced the operation cost that power supply unit provided the power consumption service, improved reliability and security, made the system really have the practicality, improved enterprise energy management's automation level, promoted enterprise's energy-conservation and the benign development of whole society energy saving and emission reduction.

The utility model discloses combine together "sharing" mode and energy management system, provided the technical scheme of outdoor sharing power consumption system, simplified the daily management work in enterprise's production area, saved the cost expenditure, improved work efficiency, simultaneously, shared power source also is the first-selected of solving peasant's power consumption dispute and electric wire netting intelligent management, future market prospect is wide.

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Drawings

Fig. 1 is a functional block diagram of the present invention.

Fig. 2 is an operation flow chart of the present invention.

In the drawing, 101 is a control panel module, 102 is an electric energy acquisition module, 103 is a communication module, 104 is a breaker module, 105 is an information tag module, 201 is an instruction control module, 202 is an asset management module, and 203 is a fee calculation module.

Detailed Description

As shown in fig. 1, an outdoor shared power utilization system of this embodiment includes an outdoor public power source, a shared power utilization device for controlling the power supply line to open and close, and a server. The preferred power of this embodiment is three-phase power, can use when supplying the field irrigation.

The shared power consumption device includes: the system comprises a control panel module 101, an electric energy acquisition module 102, a communication module 103, a circuit breaker module 104 and an information tag module 105.

And the control panel module 101 is used for receiving the control instruction signal of the server and sending an electrical control signal to the breaker module 104. The control panel module 101 of the preferred embodiment is used for controlling and scheduling electric energy collection, communication management and instruction receiving and interpretation, the control panel module 101 includes an embedded control module, the embedded control module realizes the business rules of the shared electric device, the embedded control module includes a timer, signal control and switch scheduling, and the embedded control module can control the signal to be sent to the circuit breaker module 104 to realize the opening and closing of the circuit. The embedded control module monitors the use process of a user in real time through an intelligent algorithm according to the parameters such as voltage, current, power, electric quantity and the like acquired by the electric energy acquisition module 102, protects the user when abnormality occurs, and reports related state information to the server. The embedded control module monitors the network state of the equipment in real time through a corresponding algorithm, and when the disconnection of the equipment is found, the embedded control module restarts the module to recover the network connection state in time.

The electric energy acquisition module 102 is used for acquiring and feeding back the electric energy consumption of an output circuit of the shared electric device, has the function of acquiring consumed electric energy data in real time, provides an interface of an RS485 protocol, supplies electric energy signal output, and is in wired connection with the communication module 103 through the RS485 protocol, so that the data acquisition, protocol conversion and data uploading of the electric energy meter are realized.

And the communication module 103 is used for connecting the shared electric device and performing data communication with the server. The communication module 103 in this embodiment is preferably a wireless communication module, and the communication module 103 supports NB and 4G communication protocols in an uplink manner, so that uplink wireless communication between information and a server side from a power utilization site is realized, a shared power utilization device can be installed outdoors or in the field, and stable communication capability is provided. The communication module 103 is used for forwarding the signal of the RS485 protocol into an encrypted communication message, receiving the instruction of the control panel module 101, and sending the encrypted communication message to the instruction control module 201 in an uplink manner; and receiving the instruction of the instruction control module 201, and sending the instruction to the control panel module 101 through a wired RS485 protocol.

And the circuit breaker module 104 is connected to the control panel module 101 through a wire, is used for receiving an electrical control signal of the control panel module 101, is connected with a power supply circuit, and controls the opening and closing of the power supply circuit.

And the information tag module 105 is used for recording asset information of the shared electric device and guiding a user to enter an operation control interface. In this embodiment, the preferred information tag module 105 is a two-dimensional code, and records asset information of the shared power consumption device in a graphical manner, and the power consumption user scans the two-dimensional code through a camera of a terminal device such as a mobile phone to enter an operation control interface. The operation control interface preferred in this embodiment is used for consulting electricity balance, charging electricity balance, and sharing remote control of the electric device. When the electricity user needs to get electricity, the mobile phone camera scans the two-dimensional code, the charge and operation interface is activated and guided, the interface is issued by the server, the charge balance of the user can be consulted, and the control on the field sharing electricity device is provided. The two-dimensional code can be accessed by multiple persons, and an entrance shared by the multiple persons is realized. In the present embodiment, a plurality of electricity users preferably enter the operation control interface through the information tag module 105 of the shared electricity consumption device.

The shell of the shared electric device has wrapping, fixing and protecting capabilities, the control panel module 101, the electric energy acquisition module 102, the communication module 103 and the circuit breaker module 104 are arranged in the shell, the shell is made of waterproof, dustproof, fireproof, flame-retardant and electric shock-proof materials, and the information label module 105 is arranged outside the shell and can be pasted on the surface of the shell.

The server includes: an instruction control module 201, an asset management module 202 and a fee calculation module 203.

And the instruction control module 201 is configured to send a control instruction signal to the shared power consumption device to control the electrical operation circuit breaker module 104 of the shared power consumption device. The command control module 201 has the capability of communicating with a plurality of shared electric devices, maintains the remote communication address and the communication protocol of each shared electric device, and sends a command signal to a specific shared electric device by retrieving the asset data of the asset management module 202, so as to realize the access and control of a plurality of devices. The command signal is transmitted to the communication module 103 of the shared electric device safely and reliably in a ciphertext mode, and meanwhile, the electric energy meter information sent from the communication module 103 is received and transmitted to the expense calculation module 203 for expense calculation and deduction, and an API (application programming interface) is provided for the expense calculation module 203 to send a remote control signal.

The asset management module 202 provides an operation management software interface, and is used for establishing an asset file of the shared power supply device and a relationship between the asset file and the information tag module 105, and storing the asset file and the relationship into a data storage space of the server for other modules of the server to call and query, wherein the number of assets stored by the asset management module 202 can reach 100000 records. And a new shared electric device is accessed subsequently, and the starting of new equipment can be realized by adding or maintaining asset information in the asset management module 202.

The expense calculation module 203 is used for storing and recharging the balance of the electricity user, has data storage capacity, can permanently store the balance data of the user, realizes that the balance data is kept after the user finishes recharging, and can continuously use the balance after replacing the electricity utilization place and the shared electricity utilization equipment; meanwhile, other electricity utilization users can use the electric appliance, so that the electric appliance can be shared by multiple persons and switched by a single person to obtain electricity, and the effect of sharing the electricity utilization is achieved. The present embodiment preferably includes a group of the shared electric devices, and the balance of the electric user is stored in the server, and is applicable to all the shared electric devices. The consumed electricity amount is transferred to the user of the power supply unit, and the charge receiving and paying capacity is realized. The charge calculation module 203 deducts the balance of the electricity-reducing user according to the electricity consumption fed back by the shared electricity-using device, the electric energy acquisition module 102 preferably in this embodiment acquires the electric energy consumption data in real time and transmits the data to the server through the communication module 103, the charge calculation module 203 calculates and deducts the balance of the electricity-reducing user, the balance is exhausted, and the server actively sends an instruction for disconnecting the circuit breaker, and the process is that the instruction control module 201 of the server provides an API interface to the charge calculation module 203, and when the balance is consumed, the charge calculation module 203 calls the API interface on the instruction control module 201 and sends an instruction for disconnecting the electrical switch to the shared electricity-using device.

In practical application, taking farmland irrigation as an example, an outdoor public power supply and a shared power utilization device are pre-installed near a power utilization point, a power utilization user activates an operation control interface by scanning a two-dimensional code on a shell of the shared power utilization device to recharge and remotely obtain power, the power output of the shared power utilization device is realized by multiple people in turn, the power utilization requirements of the user are met, and the operation method comprises the following steps:

the mobile phone camera identifies the two-dimensional code of the shared power utilization device and activates an operation interface; recharging the balance of the electricity consumption; sending a remote control instruction; the outdoor shared electric device receives the control instruction and carries out opening and closing operation on the electric breaker; the sharing power consumption device collects power consumption data and reports the data to the server, and the server actively sends out an instruction of disconnecting the short-circuit device when the balance is exhausted, and the specific steps are as shown in the attached figure 2:

step 1, the mobile phone identifies the two-dimension code:

in this step, the electricity user reads the two-dimensional code through the mobile phone camera, activates the recharging and control interface of the fee calculation module 203, and can look up the electricity balance, the electricity balance recharging and the remote control of the electricity utilization device.

Step 2, recharging the electricity balance:

in this step, the electricity user inputs the charging amount through the charging interface in the fee calculation module 203, and then jumps to the payment interface, and increases the available balance of the user after the payment is successful; the charged amount is included in the collection account of the power supply unit.

Step 3, sending a remote control command:

in this step, the user clicks the close button through the control interface in the charge calculation module 203, the charge calculation module 203 calls the API interface of the command control module 201, and the communication module 103 receives the close command.

The user of the power consumption clicks the disconnection button through the control interface in the charge calculation module 203, the charge calculation module 203 calls the API interface of the instruction control module 201, and the communication module 103 receives the disconnection instruction.

Step 4, receiving and executing the control command:

in this step, the communication module 103 receives the closing instruction, forwards the signal to the control panel module 101, and after the control panel module 101 converts the protocol, sends an electrical instruction to the breaker module 104, so that the breaker module 104 closes the electrical connection, and the shared power supply device outputs the electrical energy.

The communication module 103 receives the disconnection instruction, forwards the signal to the control panel module 101, and after the control panel module 101 converts the protocol, sends an electrical instruction to the breaker module 104, so that the breaker module 104 is electrically disconnected, the power output of the shared power supply device is isolated, and the power supply is interrupted.

Step 5, the electric energy acquisition module 102 acquires electric energy consumption data, reports the electric energy consumption data and responds to the electric energy consumption data:

in this step, the control panel module 101 reads the electric energy metering value of the electric energy acquisition module 102 through the RS485 protocol connected by wire according to the logic and the timer of the embedded control module, and transmits the electric energy value to the instruction control module 201 through the communication module 103, the cost calculation module 203 calculates the cost consumption and deducts the user electricity balance, when the balance is zero, the API interface is triggered to be called to send out a disconnection instruction, the corresponding operations of step 3 and step 4 are executed, and the electric energy supply is interrupted.

The embodiment provides a feasible farmland irrigation multi-user electricity utilization solution for power supply enterprises by utilizing an advanced communication technology, a digital electric energy metering technology, an electric automation technology, a computer and a network technology. The system makes full use of various communication media, enables a user to self-start the power utilization device at the power utilization site at any time, autonomously controls the power utilization cost, and meets the national power industry standard in terms of safety protection. The embodiment has certain foresight in system architecture and network organization mode, and the combination of a wireless communication network and a wired communication network is utilized to centrally manage the power consumption balance of a user, thereby ensuring the advancement of the system and the effectiveness of investment. The communication mode of outdoor scenes and the input cost of equipment greatly restrict the implementation of providing temporary electricity utilization service by power supply units, and the total cost of the equipment is greatly reduced by sharing the equipment by multiple persons. The embedded control module which operates in real time controls the electric device, and the automatic operation bottleneck of a temporary power supply device system is solved.

The shared power utilization device of the embodiment achieves the effects of safety, convenience, reliability and economy of an outdoor power utilization source, improves the service capacity of a power supply unit, solves the problems of electric energy supply and cost payment required in links such as farmland irrigation power taking and the like, and can be expanded to temporary power utilization, such as scenes of public charging facilities of stations and airports, public basketball court lighting, power utilization of the temple of the Zongnationality, power utilization of public rents, power utilization of mobile dealers and the like.

Claims (10)

1. The utility model provides an outdoor sharing power consumption system, includes outdoor public power, the sharing power consumption device and the server that control power supply line opened and shut, its characterized in that:

the shared power utilization device comprises: a control panel module (101), an electric energy acquisition module (102), a communication module (103), a breaker module (104) and an information label module (105),

the control panel module (101) is used for receiving a control instruction signal of the server and sending an electrical control signal to the breaker module (104);

the electric energy acquisition module (102) is used for acquiring and feeding back the electric energy consumption of an output line of the shared electric device;

the communication module (103) is used for connecting the shared electric device and carrying out data communication with the server;

the circuit breaker module (104) is used for receiving the electric control signal of the control panel module (101) and controlling the opening and closing of a power supply circuit;

the information tag module (105) is used for recording asset information of the shared electric device and guiding a user to enter an operation control interface;

the server comprises: the system comprises an instruction control module (201), an asset management module (202) and a fee calculation module (203);

the command control module (201) is used for sending a control command signal to the shared electric device;

the asset management module (202) is used for establishing an asset file of the shared power supply device and the relation between the asset file and the information tag module (105);

and the fee calculation module (203) is used for storing and recharging the balance of the electricity utilization user, and deducting the balance of the electricity utilization user according to the electricity consumption fed back by the shared electricity utilization device.

2. The outdoor shared power utilization system as claimed in claim 1, wherein the control panel module (101) is used for power collection, communication management, command interpretation, control and scheduling, and the control panel module (101) contains an embedded control module, and the embedded control module comprises a timer, a signal control and a switch scheduling.

3. The outdoor sharing power utilization system of claim 1, wherein the power acquisition module (102) acquires power consumption data in real time and transmits the data to the server through the communication module (103), the charge calculation module (203) calculates and deducts the balance of the power utilization users, the balance is exhausted, and the server actively sends out a command for opening the circuit breaker.

4. The outdoor sharing electric system according to claim 3, wherein the command control module (201) of the server provides an API interface to the fee calculation module (203), and when the balance is consumed, the fee calculation module (203) calls the API interface on the command control module (201) to send a command to the sharing electric device to turn off the electric switch.

5. The outdoor sharing power utilization system of claim 1, wherein the communication module (103) supports NB and 4G communication protocols in an uplink manner, and has a function of forwarding signals of an RS485 protocol to encrypted communication messages, receiving instructions of the control panel module (101), and sending the instructions to the instruction control module (201) in an uplink manner; and receiving the instruction of the instruction control module (201), and sending the instruction to the control panel module (101) through a wired RS485 protocol.

6. The outdoor sharing electric system of claim 1, wherein the operation control interface is used for consulting power balance, charging power balance and remote control of the sharing electric device.

7. The outdoor sharing power utilization system of claim 1, wherein the information label module (105) is a two-dimensional code, and a power utilization user scans the two-dimensional code through a camera of a terminal device to enter an operation control interface.

8. The outdoor sharing electric system of claim 1, comprising a group of said sharing electric devices, wherein the balance of the user is stored in the server, and is applicable to all sharing electric devices.

9. The outdoor shared electric system as claimed in claim 1, wherein a plurality of electric users enter the operation control interface through the information tag module (105) of the shared electric device.

10. The outdoor sharing electric system of claim 1, wherein the power source is a three-phase power source.

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