CN216387258U - Power load sensing device based on Internet of things - Google Patents

Abstract

The utility model discloses an electricity load sensing device based on the Internet of things, and belongs to the technical field of electricity detection. In order to solve the problems of poor functionality and inconvenient timely adjustment of circuit switches, a wire is connected into a wire series flow switch, or the conducting wire is connected with the voltage transformation module through the wire interface, the other end is connected with the electric equipment through the outlet connector, the data is collected through the ultrahigh frequency sampler in the load sensing module, and sends the information to a data conversion module, receives the information through a controller module, transmits the information to a digital display screen, an indicator light and a loudspeaker, and uploads the data to a network through a wireless transmission module, the power load information can be transmitted to the user, the wireless transmission device remotely transmits an operation instruction to the controller module to control the wire series flow switch, therefore, the connection relationship among a plurality of groups of connecting wires can be remotely controlled, so that the power supply of the power line is convenient to adjust, the power consumption is reduced, the operation is convenient, and the environment-friendly effect is favorably improved.

Description

Power load sensing device based on Internet of things

Technical Field

The utility model relates to the technical field of power utilization detection, in particular to a power utilization load sensing device based on the Internet of things.

Background

With the development of emerging information and data application technologies, the timeliness and diversification of energy consumption are more emphasized, and the cleanness, low carbon, safety and high efficiency are more emphasized. At present, multiple energy consumption data analysis technologies are applied to the ground in the power consumption field, wherein a non-intrusive power consumption load intelligent perception technology provides powerful support for intelligentization of power marketing metering data application, and for a power distribution network, in order to carry out more accurate scheduling on a power grid, voltage, current, power consumption and the like of a user side need to be mastered in a more detailed mode. For example, in the application of a user-side energy storage system, the system is charged at the low price of electricity and discharged at the high price of electricity.

When the electricity price is low, the energy storage system is in a charging state, which is equivalent to a load; if other loads in the current period are increased under certain conditions, when the charging power of the energy storage system plus the power of other loads is larger than the capacity of the transformer, namely the total load value under the transformer exceeds the capacity of the transformer, the capacity of the transformer is exceeded, power supply is cut off, and danger is possibly caused in serious conditions.

In the process of sensing the electric load, the following defects are often existed:

1. the electrical load sensing device has poor functionality and is inconvenient for long-term use.

2. And the operation and adjustment can not be carried out in time when the electric load exceeds the value.

In order to overcome the defects, it is necessary to design an electricity load sensing device based on the internet of things.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electricity load sensing device based on the Internet of things, which has the advantages of good functionality and convenience in timely adjusting a circuit switch and can solve the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: an electric load sensing device based on the Internet of things comprises a device shell, wherein a wireless transmission device is installed on the front end face of the device shell, transmission antennas are installed on two sides of the wireless transmission device, an indicator lamp and a loudspeaker are arranged on the front end face of the wireless transmission device, a fixing frame is installed inside the device shell, a circuit board is installed at the upper end of the fixing frame, a controller module is installed inside the circuit board, a load sensing module is installed inside the fixing frame, an ultrahigh frequency sampler is installed inside the load sensing module, the number of the load sensing modules is three, connecting wires are installed on two sides of the three load sensing modules, a shielding box is installed below the fixing frame, a wire series flow switch is installed inside the shielding box, and an electric wire is installed below the wire series flow switch, and a data conversion module is arranged between the shielding box and the load sensing module.

Preferably, the protective cover is installed to the front end of device casing, just the mounting panel is installed to the rear end face of device casing, the power cord is installed to the upper end of device casing, the power cord extends to the inside and device casing fixed connection of device casing, the protection frame is installed to the lower extreme of device casing, the electric detection sensor is all installed to the inside both sides of protection frame, install anticreep detector between wire and the electric detection sensor.

Preferably, a digital display screen is installed above the wireless transmission device, the digital display screen is electrically connected with the data conversion module, a wireless transmission module is installed inside the wireless transmission device, and the wireless transmission module is electrically connected with the controller module.

Preferably, the winding displacement board is all installed to the outside both sides of device casing, the internally mounted of winding displacement board has the electric wire interface, the inlet wire connects and the wire outlet joint is installed respectively to the both sides of fixed frame, the vary voltage module is all installed to one side that inlet wire connects and the wire outlet joint, vary voltage module and connecting wire electric connection.

Preferably, the power utilization conductor extends into the shielding box and is electrically connected with the conductor series flow switch, two ends of the ultrahigh frequency sampler are electrically connected with the connecting conductor, and the connecting conductor is electrically connected with the conductor series flow switch.

Compared with the prior art, the utility model has the following beneficial effects:

1. this power consumption load perception device based on thing networking, can insert the power consumption wire that needs carry out the power consumption load perception into wire series flow switch, or be connected the wire through electric wire interface and vary voltage module, the other end is connected with consumer through the joint that is qualified for the next round of competitions, thereby in the use, the inside hyperfrequency sample thief of accessible load perception module is with data acquisition, and send for data conversion module, receive information through the controller module, give digital display screen with information transfer, pilot lamp and speaker, also accessible wireless transmission module uploads the network with data, can give the user with power consumption load information transfer, and is functional good, and convenient to use.

2. This power consumption load perception device based on thing networking, accessible wireless transmission device remote transmission operating command gives the controller module, control wire series flow switch to but the relation of connection between the remote control multiunit connecting wire, in order to adjust the power of power consumption wire, reduce the power consumption, the operation of being convenient for is favorable to improving environmental protection effect.

Drawings

FIG. 1 is an overall front view of the present invention;

FIG. 2 is an internal structural view of the housing of the apparatus of the present invention;

fig. 3 is an internal structural view of a wireless transmission device of the present invention;

fig. 4 is an internal structural view of the load sensing module of the present invention.

In the figure: 1. a device housing; 2. mounting a plate; 3. a power line; 4. a digital display screen; 5. a wireless transmission device; 6. a transmission antenna; 7. an indicator light; 8. a speaker; 9. a wire arranging plate; 10. an electrical wire interface; 11. a protective frame; 12. a power utilization lead; 13. an electrical detection sensor; 14. an anti-creeping detector; 15. a circuit board; 16. a fixing frame; 17. a voltage transformation module; 18. a wire inlet joint; 19. a wire outlet joint; 20. a load sensing module; 21. connecting a lead; 22. a shield case; 23. a wireless transmission module; 24. an ultrahigh frequency sampler; 25. a data conversion module; 26. a wire series flow switch; 27. a controller module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an electricity load sensing device based on the internet of things includes a device housing 1, a wireless transmission device 5 is installed on a front end surface of the device housing 1, transmission antennas 6 are installed on both sides of the wireless transmission device 5, an indicator lamp 7 and a speaker 8 are disposed on the front end surface of the wireless transmission device 5, a fixed frame 16 is installed inside the device housing 1, a circuit board 15 is installed on an upper end of the fixed frame 16, a controller module 27 is installed inside the circuit board 15, a load sensing module 20 is installed inside the fixed frame 16, an ultrahigh frequency sampler 24 is installed inside the load sensing module 20, three load sensing modules 20 are disposed, connecting wires 21 are installed on both sides of the three load sensing modules 20, a shielding box 22 is installed below the fixed frame 16, a wire stream switch 26 is installed inside the shielding box 22, and an electricity utilization wire 12 is installed below the wire stream switch 26, the data conversion module 25 is installed between the shielding box 22 and the load sensing module 20, the data is collected through the ultrahigh frequency sampler 24 inside the load sensing module 20 and is sent to the data conversion module 25, the controller module 27 receives information and transmits the information to the digital display screen 4, the indicator light 7 and the loudspeaker 8, the data can also be uploaded to a network through the wireless transmission module 23, the power consumption load information can be transmitted to a user, the functionality is good, and the use is convenient.

The protective cover is installed to the front end of device casing 1, and the mounting panel 2 is installed to the rear end face of device casing 1, power cord 3 is installed to the upper end of device casing 1, power cord 3 extends to 1 inside and device casing 1 fixed connection of device casing, protection frame 11 is installed to the lower extreme of device casing 1, electric detection sensor 13 is all installed to the inside both sides of protection frame 11, install anticreep detector 14 between power consumption wire 12 and the electric detection sensor 13, the wire is connected with vary voltage module 17 through electric wire interface 10, the other end is connected with the consumer through outlet connector 19, thereby in the use, inside ultrahigh frequency sampler 24 of accessible load perception module 20 is with data acquisition, carry out the electrical load perception.

Digital display screen 4 is installed to wireless transmission device 5's top, digital display screen 4 and data conversion module 25 electric connection, wireless transmission device 5's internally mounted has wireless transmission module 23, wireless transmission module 23 and controller module 27 electric connection, accessible wireless transmission device 5 remote transmission operating instruction gives controller module 27, control wire series flow switch 26, but the relation of connection between the remote control multiunit connecting wire 21, in order to adjust the power of using electric wire 12, reduce the power consumption.

The winding displacement board 9 is all installed to the outside both sides of device casing 1, and the internally mounted of winding displacement board 9 has electric wire interface 10, and inlet wire joint 18 and outlet wire joint 19 are installed respectively to the both sides of fixed frame 16, and voltage transformation module 17 is all installed to one side of inlet wire joint 18 and outlet wire joint 19, and voltage transformation module 17 and connecting wire 21 electric connection, inlet wire joint 18 and outlet wire joint 19 can be connected with the power consumption circuit, the operation of being convenient for.

The power utilization conducting wire 12 extends into the shielding box 22 and is electrically connected with the conducting wire series flow switch 26, two ends of the ultrahigh frequency sampler 24 are electrically connected with the connecting conducting wire 21, the connecting conducting wire 21 is electrically connected with the conducting wire series flow switch 26, and power utilization load detection work can be carried out through the ultrahigh frequency sampler 24, so that the connection relation among multiple groups of connecting conducting wires 21 can be controlled.

In summary, in the power load sensing device based on the internet of things, the power utilization conducting wires 12 required to sense the power load are connected to the conducting wire series flow switch 26, or the conducting wires are connected to the voltage transformation module 17 through the wire interface 10, and the other end of the power utilization conducting wires is connected to the power utilization equipment through the outgoing line connector 19, so that in the using process, data can be acquired through the ultrahigh frequency sampler 24 inside the load sensing module 20 and sent to the data conversion module 25, information is received through the controller module 27 and transmitted to the digital display screen 4, the indicator light 7 and the loudspeaker 8, or data can be uploaded to the network through the wireless transmission module 23, the power load information can be transmitted to a user, the functionality is good, the wireless transmission device 5 remotely transmits an operation instruction to the controller module 27, the conducting wire series flow switch 26 is controlled, and the connection relationship among a plurality of groups of connecting conducting wires 21 can be remotely controlled, so as to conveniently adjust the power supply of the power utilization line 12, reduce the power consumption, facilitate the operation and be beneficial to improving the environmental protection effect.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an electrical load perception device based on thing networking, includes device casing (1), its characterized in that: the device comprises a device shell (1), wherein a wireless transmission device (5) is installed on the front end face of the device shell (1), transmission antennas (6) are installed on two sides of the wireless transmission device (5), an indicator lamp (7) and a loudspeaker (8) are arranged on the front end face of the wireless transmission device (5), a fixed frame (16) is installed inside the device shell (1), a circuit board (15) is installed at the upper end of the fixed frame (16), a controller module (27) is installed inside the circuit board (15), a load sensing module (20) is installed inside the fixed frame (16), an ultrahigh frequency sampler (24) is installed inside the load sensing module (20), the number of the load sensing modules (20) is three, connecting wires (21) are installed on two sides of the load sensing module (20), and a shielding box (22) is installed below the fixed frame (16), a wire series flow switch (26) is installed inside the shielding box (22), an electric wire (12) is installed below the wire series flow switch (26), and a data conversion module (25) is installed between the shielding box (22) and the load sensing module (20).

2. The internet of things-based power load sensing device according to claim 1, wherein: the utility model discloses a device, including device casing (1), protective cover, mounting panel (2) are installed to the front end of device casing (1), power cord (3) are installed to the upper end of device casing (1), power cord (3) extend to device casing (1) inside and device casing (1) fixed connection, protection frame (11) are installed to the lower extreme of device casing (1), electric detection sensor (13) are all installed to the inside both sides of protection frame (11), install between wire for use (12) and electric detection sensor (13) anticreep detector (14).

3. The internet of things-based power load sensing device according to claim 1, wherein: digital display screen (4) are installed to the top of wireless transmission device (5), digital display screen (4) and data conversion module (25) electric connection, the internally mounted of wireless transmission device (5) has wireless transmission module (23), wireless transmission module (23) and controller module (27) electric connection.

4. The internet of things-based power load sensing device according to claim 1, wherein: the device is characterized in that the wire arranging plates (9) are mounted on two sides of the outer portion of the shell (1), the wire arranging plates (9) are internally provided with wire interfaces (10), the two sides of the fixing frame (16) are respectively provided with a wire inlet connector (18) and a wire outlet connector (19), the wire inlet connector (18) and one side of the wire outlet connector (19) are respectively provided with a voltage transformation module (17), and the voltage transformation module (17) is electrically connected with a connecting wire (21).

5. The internet of things-based power load sensing device according to claim 1, wherein: the power utilization wire (12) extends into the shielding box (22) and is electrically connected with the wire series flow switch (26), two ends of the ultrahigh frequency sampler (24) are electrically connected with the connecting wire (21), and the connecting wire (21) is electrically connected with the wire series flow switch (26).

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