CN112099402A - Thing networking electronic box - Google Patents

Abstract

The invention relates to the electrical field, in particular to an Internet of things electric box, which comprises an electric box body, wherein a first single chip microcomputer, a communication module, a power supply module, a leakage switch and a plurality of air switches are arranged in the electric box body; still include high in the clouds server, first singlechip passes through communication module with high in the clouds server to be connected, and high in the clouds server includes: the device comprises a data acquisition module, a parameter configuration module, a comparison module, a judgment module and a processor; the problem of block terminal function singleness, unable and people's interaction is solved.

Description

Thing networking electronic box

Technical Field

The invention relates to the field of electricity, in particular to an Internet of things electric box.

Background

The distribution box is a mass parameter on data, generally forms a low-voltage forest according to electrical wiring, requires that a switch device, a measuring instrument, a protective electrical appliance and an auxiliary device are assembled in a closed or semi-closed metal cabinet or on a screen to form the distribution box, and can be switched on or switched off by a manual or automatic switch in normal operation.

Along with the rapid development of internet, the block terminal of function singleness has not satisfied people's life needs, and the country has widely promoted "safe power consumption, energy-conserving power consumption, intelligent power consumption" theory, consequently, the urgent need combines together thing networking and block terminal at present, makes a section can with the interactive block terminal of people.

Disclosure of Invention

Based on the problems, the invention provides the Internet of things power distribution box, and solves the problems that the power distribution box is single in function and cannot interact with people.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the Internet of things electric box comprises an electric box body, wherein a first single chip microcomputer, a communication module, a power module, an electric leakage switch and a plurality of air switches are arranged inside the electric box body, a second single chip microcomputer and a first sensor module are embedded in each air switch, the second single chip microcomputer is connected with the first sensor module, a third single chip microcomputer and a second sensor module are embedded in each electric leakage switch, the third single chip microcomputer is connected with the second sensor module, the power module is respectively connected with the first single chip microcomputer, the communication module, the electric leakage switch and the air switches, and the first single chip microcomputer is respectively connected with the second single chip microcomputer and the third single chip microcomputer; still include high in the clouds server, first singlechip passes through communication module with high in the clouds server and is connected, high in the clouds server includes:

the data acquisition module is used for acquiring data of the first sensor module and the second sensor module;

the parameter configuration module is used for manually configuring the early warning parameters;

the comparison module is respectively connected with the data acquisition module and the parameter configuration module and is used for comparing the data acquired by the data acquisition module with the corresponding early warning parameters in the parameter configuration module to obtain a difference value;

the judgment module is connected with the comparison module and carries out early warning judgment according to the difference value obtained by the comparison module;

and the processor is connected with the first single chip microcomputer through the communication module.

Further, the first sensor module comprises a first current transformer, a first voltage transformer and a first temperature sensor; the second sensor module includes a second current transformer, a second voltage transformer, and a second temperature sensor.

Furthermore, the model of the power supply module is S2-P25D.

Further, the model of the communication module is S3-T30.

Furthermore, the air switch is S3-FC63 or S3-FC32 or S3-FC20 or S3-ZNC63 or S3-ZNC32 or S3-FNC63 or S3-ZNC 32.

Further, the electronic box body is a standard four electronic box body or a standard eight electronic box body or a standard ten electronic box body.

Further, four electronic box bodies of mark contain a power module, a leakage switch, 4 air switches and a communication module.

Further, eight electronic box bodies of mark contain a power module, a leakage switch, 8 air switches and a communication module.

Further, mark ten electronic box bodies contain a power module, a leakage switch, 10 air switches and a communication module.

Compared with the prior art, the invention has the beneficial effects that: with first sensor module embedding air switch, with second sensor module embedding electric leakage switch to communicate through communication module and high in the clouds server, the high in the clouds server is with the power consumption condition real-time supervision, if the emergence of discovery dangerous condition, can be through this internal electric leakage switch of treater remote control electronic box or air switch, very first time guarantee power consumption safety.

Drawings

FIG. 1 is a flow chart of the present invention;

fig. 2 is a schematic structural diagram of the electrical box body in the embodiment 1.

The electric box comprises an electric box body 1, a communication module 2, a power module 3, an electric leakage switch 4, an air switch 5, a first single chip microcomputer 6, a second single chip microcomputer 7, a third single chip microcomputer 8, a first sensor module 9, a second sensor module 10, a data acquisition module 11, a parameter configuration module 12, a comparison module 13, a judgment module 14 and a processor 15.

Detailed Description

The invention will be further described with reference to the accompanying drawings. Embodiments of the present invention include, but are not limited to, the following examples.

Example 1

As shown in fig. 1-2 the inside first singlechip 6 that is provided with of electronic box body 1, communication module 2, power module 3, leakage switch 4 and a plurality of air switch 5, air switch 5 is embedded to have second singlechip 7 and first sensor module 9, second singlechip 7 passes through the connecting wire with first sensor module 9 and is connected, leakage switch 4 is embedded to have third singlechip 8 and second sensor module 10, third singlechip 8 passes through the connecting wire with second sensor module 10 and is connected, power module 3 respectively with communication module 2, leakage switch 4 and air switch 5 are connected through the pin gang, power module 3 passes through the connecting wire with first singlechip 6 and is connected, first singlechip 6 passes through the connecting wire with second singlechip 7 and third singlechip 8 respectively and is connected.

In this embodiment, the first sensor module 9 includes a first current transformer, a first voltage transformer, and a first temperature sensor; the second sensor module 10 includes a second current transformer, a second voltage transformer, and a second temperature sensor.

In this embodiment, the model of the power module 3 is S2-P25D, wherein the rated input voltage of the power module 3 is AC1OO-265V, the rated output voltage is DC12V, and the rated output current is 2.5 in S2-P25D, and the power module 3 has an LCD display function and can display power consumption parameters in real time.

In the present embodiment, the communication module 2 has a model number of S3-T30, and specifically, mainly performs communication in the following manner: and communicating with the cloud server through the router in a wired or wifi mode.

In this embodiment, the air switch 5 includes the following types:

(1) the 1P air switch 5 is provided with a model number of S3-FC63 or S3-FC32 or S3-FC20, the air switch 5 is suitable for low-voltage terminal power distribution in the fields of industry, commerce, civil buildings, infrastructure and the like of buildings and similar places with the alternating current of 50HZ, the rated voltage of 220V and the rated current of no more than 63A, and the like, so that isolation protection is provided, and the air switch can be used for infrequent on-off operation;

(2) the 2P air switch 5 is provided with a model number of S3-ZNC63 or S3-ZNC32 or S3-FNC63 or S3-ZNC32, the air switch 5 is suitable for low-voltage terminal power distribution in the fields of industry, commerce, civil buildings, infrastructure and the like of buildings and similar places with the alternating current of 50HZ, the rated voltage of 220V and the rated current of not more than 80A, and the like, provides isolation protection and can be used for infrequent on-off operation.

In this embodiment, as shown in fig. 2, the electrical box body 1 is an electrical box body 1 denoted by eight, which includes a power module 3, a leakage switch 4 of 1 × 63A, an air switch 5 of 4 × 32A, an air switch 5 of 4 × 30A, and a communication module 2, and the number of bits of the electrical box body 1 is 20.

In this embodiment, first singlechip 6 passes through communication module 2 with high in the clouds server to be connected, and high in the clouds server includes:

the data acquisition module 11 is used for acquiring data of the first sensor module 9 and the second sensor module 10;

the parameter configuration module 12 is used for manually configuring the early warning parameters;

the comparison module 13 is respectively connected with the data acquisition module 11 and the parameter configuration module 12, and is used for comparing the data acquired by the data acquisition module 11 with the corresponding early warning parameters in the parameter configuration module 12 to obtain a difference value;

the judging module 14 is connected with the comparing module 13 and performs early warning judgment according to the difference value obtained by the comparing module 13;

and the processor 15 is connected with the first single chip microcomputer 6 through the communication module 2.

The early warning judgment method for the cloud server comprises the following steps:

s1, manually configuring early warning parameters, and setting a current early warning threshold L, a voltage early warning threshold Y and a temperature early warning threshold W;

s2, when the monitoring duration is set to be 0-24 of a day, acquiring current data l, voltage data y and temperature data w uploaded by the first single chip microcomputer 6 through the data acquisition module 11 at a time interval T during the monitoring duration;

s3, comparing module 13 obtains difference Δ L by comparing current early warning threshold L and current data L, compares voltage early warning threshold Y and voltage data Y to obtain difference Δ Y, and compares temperature early warning threshold W and temperature data W to obtain difference Δ W, where the specific formula is:

ΔL＝l-L

ΔY＝y-Y

ΔW＝w-W；

s4, the judgment module 14 judges Δ L, Δ Y and Δ W, where Δ L is taken as an example, if Δ L is a negative number, the power utilization is judged as safe power utilization, if Δ L is a positive number, the power utilization is judged as power utilization early warning, and if the numerical value is larger, the danger level is higher, and the step 5 is carried out;

s5, the processor 15 communicates with the first single chip microcomputer 6 through the communication module 2, and remotely controls the leakage switch 4 or the air switch 5 to perform switching-off processing.

Through above-mentioned operation, show the power consumption condition in real time, also can send to appointed cell-phone app, supply to observe at any time, and power module 3 also can show all kinds of power consumption electricity parameters at any time, when the power consumption safety appears, but also manual remote operation carries out urgent power-off protection.

Example 2

The difference between the embodiment 2 and the embodiment 1 is that the electrical box body 1 adopts the electrical box body 1 with four labels, specifically: 1 power module 3, 1 leakage switch 4 of 63A, 2 air switch 5 of 32A, 2 air switch 5 of 30A and a communication module 2, the number of bits of the electric box body 1 is 14.

Example 3

The difference between this embodiment 3 and embodiment 1 is that the electronic box body 1 adopts a ten-point electronic box body 1, specifically: 1 power module 3, 1 leakage switch 4 of 63A, 4 air switch 5 of 32A, 6 air switch 5 of 30A and a communication module 2, the number of bits of the electric box body 1 is 20.

The above is an embodiment of the present invention. The specific parameters in the above embodiments and examples are only for the purpose of clearly illustrating the invention verification process of the inventor and are not intended to limit the scope of the invention, which is defined by the claims, and all equivalent structural changes made by using the contents of the specification and the drawings of the present invention should be covered by the scope of the present invention.

Claims (9)

1. Thing networking electronic box, including electronic box body (1), its characterized in that: the electric box comprises an electric box body (1), and is characterized in that a first single chip microcomputer (6), a communication module (2), a power supply module (3), an electric leakage switch (4) and a plurality of air switches (5) are arranged in the electric box body (1), a second single chip microcomputer (7) and a first sensor module (9) are embedded in each air switch (5), the second single chip microcomputer (7) is connected with the first sensor module (9), a third single chip microcomputer (8) and a second sensor module (10) are embedded in each electric leakage switch (4), the third single chip microcomputer (8) is connected with the second sensor module (10), the power supply module (3) is respectively connected with the first single chip microcomputer (6), the communication module (2), the electric leakage switch (4) and the air switches (5), and the first single chip microcomputer (6) is respectively connected with the second single chip microcomputer (7) and the third single chip microcomputer (8); still include high in the clouds server, first singlechip (6) passes through communication module (2) with high in the clouds server and is connected, high in the clouds server includes:

the data acquisition module (11) is used for acquiring data of the first sensor module (9) and the second sensor module (10);

the parameter configuration module (12) is used for manually configuring the early warning parameters;

the comparison module (13) is respectively connected with the data acquisition module (11) and the parameter configuration module (12) and is used for comparing the data acquired by the data acquisition module (11) with the corresponding early warning parameters in the parameter configuration module (12) to obtain a difference value;

the judgment module (14) is connected with the comparison module (13) and carries out early warning judgment according to the difference value obtained by the comparison module (13);

and the processor (15), the processor (15) is connected with the first singlechip (6) through the communication module (2).

2. The Internet of things electronic box of claim 1, wherein: the first sensor module (9) comprises a first current transformer, a first voltage transformer and a first temperature sensor; the second sensor module (10) comprises a second current transformer, a second voltage transformer and a second temperature sensor.

3. The Internet of things electronic box of claim 2, wherein: the model of the power supply module (3) is S2-P25D.

4. The Internet of things electronic box of claim 2, wherein: the communication module (2) is S3-T30.

5. The Internet of things electronic box according to any one of claims 3-4, wherein: the air switch (5) is S3-FC63 or S3-FC32 or S3-FC20 or S3-ZNC63 or S3-ZNC32 or S3-FNC63 or S3-ZNC 32.

6. The Internet of things electronic box of claim 5, wherein: the electric box body (1) is marked with four electric box bodies (1) or marked with eight electric box bodies (1) or marked with ten electric box bodies (1).

7. The Internet of things electronic box of claim 6, wherein: the four-electric box body (1) comprises a power module (3), a leakage switch (4), 4 air switches (5) and a communication module (2).

8. The Internet of things electronic box of claim 6, wherein: eight electric box body (1) of mark contain a power module (3), a leakage switch (4), 8 air switch (5) and a communication module (2).

9. The Internet of things electronic box of claim 6, wherein: the ten-marked electric box body (1) comprises a power module (3), a leakage switch (4), 10 air switches (5) and a communication module (2).

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