CN210576841U - Dual-mode intelligent power strip device - Google Patents

Abstract

The utility model provides a double-mode intelligent power strip device, the working mode of the strip device comprises a master-slave mode; the power strip device comprises a main jack, a slave jack and a power supply circuit connected with the power supply module; the power strip inserting device is provided with a main control chip and an electric energy acquisition module; when the power strip device works in a master-slave mode, the initial state of the slave jack is disconnected with the power supply circuit, the master control chip detects a load connected to the master jack through the electric energy acquisition module, and when the consumed power of the load is greater than a threshold value, the master control chip enables the slave jack to be connected to the power supply circuit to be electrified; the utility model has an independent mode and a master-slave mode; in the independent mode, all the power sockets of the power strip have independent working modes, and do not influence each other; in a master-slave working mode, the power socket of the power strip is divided into a master jack and a slave jack, and when the master jack is detected to be connected with a load and certain electric energy is detected, the slave jack is opened; when the load is not detected on the main jack, the auxiliary jack is disconnected, and the purpose of master-slave linkage is achieved.

Description

Dual-mode intelligent power strip device

Technical Field

The utility model belongs to the technical field of the smart jack technique and specifically relates to a row device is inserted to dual mode intelligent power supply.

Background

With the development of society and the progress of science and technology, various intelligent devices gradually enter our lives. Wearable equipment of intelligence, intelligent mobile device, intelligent furniture equipment etc. develop rapidly, and are gradually popularized in our daily life, and people are more and more to the high-tech high-quality life of going, and the supply socket who connects all equipment begins to be given higher requirement by people. The traditional socket mainly realizes the power on-off function in a manual switch mode, and long-time on and off can oxidize nodes, the socket is aged, poor in contact and loose in electric leakage, and when a common household appliance is in a standby sleep state for a long time, not only can waste energy to a great extent, but also has potential safety hazards.

The intelligent power socket is a socket which enables a traditional socket to be intelligent and more convenient and effective for serving human beings, and although the intelligent power socket is greatly developed at present, the technology needs to be improved.

The utility model provides a row device is inserted to dual mode intelligent power, each socket on inserting the row removes to possess independent working mode, still can set up to principal and subordinate working mode, but principal and subordinate mode wide application has peripheral equipment's electrical apparatus (computer and computer peripheral equipment or TV and STB router etc.), it has realized the intelligent coordinated control between main equipment and auxiliary equipment and has reached the effect of economize on electricity, satisfy people to equipment intelligent control's demand, it is a favorite electrical apparatus by people deeply, therefore have extensive popularization and application and worth.

Disclosure of Invention

The utility model provides a row's device is inserted to double mode intelligent power, the device have independent mode and principal and subordinate mode. Under the independent mode, all power sockets of the power strip have independent working modes and do not influence each other. In a master-slave working mode, the power socket of the power strip is divided into a master jack and a slave jack, and when the master jack is detected to be connected with a load and certain electric energy is detected, the slave jack is opened; when the load is not detected on the main jack, the auxiliary jack is disconnected, and the purpose of master-slave linkage is achieved.

The utility model adopts the following technical scheme.

A kind of dual mode intellectual power strip apparatus, the working mode of the said strip apparatus includes the master-slave mode; the power strip device comprises a main jack, a slave jack and a power supply circuit connected with the power supply module; the power strip inserting device is provided with a main control chip and an electric energy acquisition module; when the power strip inserting device works in a master-slave mode, the initial state of the slave jack is disconnected with the power supply circuit, the master control chip detects a load connected to the master jack through the electric energy acquisition module, and when the consumed power of the load is larger than a threshold value, the master control chip enables the slave jack to be connected to the power supply circuit to be electrified.

The power strip device also comprises a relay module and a storage module; the relay module is connected with the main jack, the slave jack and the power supply circuit; the storage module is connected with the main control chip and can store the working mode data of the socket device.

The main control chip is an 8-bit MCU or a 32-bit MCU, and an STM32 series can be selected; the storage module comprises AT24C 02; the relay module comprises a first relay, a second relay and a third relay; the electric energy acquisition module comprises a first electric energy acquisition element, a second electric energy acquisition element and a third electric energy acquisition element; the load capacity of each relay is not less than 1 ampere.

The working modes of the power strip device further comprise an independent mode, when the power strip device works in the independent mode, the initial states of the main jack and the auxiliary jack are both connected into the power supply circuit, and the connection states are not affected mutually.

The power strip device also comprises a wireless communication module which can communicate with external equipment; the wireless communication module is a Bluetooth module or a wifi module; after the external equipment establishes communication connection with the power strip device through the wireless communication module, the working mode of the power strip device can be set.

The Bluetooth module comprises HC 05; the wifi module includes ESP 8266.

The power strip device further comprises a temperature acquisition module, wherein the temperature acquisition module comprises DS18B 20.

The beneficial effects of the utility model are that insert the row through double mode intelligence for each socket work in independent work mode or principal and subordinate mode in the row of inserting, especially insert the principal and subordinate mode of row, realized the intelligent coordinated control between master equipment and auxiliary assembly and reached the effect of economize on electricity, have extensive popularization and application and worth.

Drawings

The invention will be described in further detail with reference to the following drawings and detailed description:

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a schematic diagram of the working process of the present invention;

in the figure: 100-a main control chip; 101-a power supply module; 102-a temperature acquisition module; 103-a first electrical energy harvesting element; 104-a first relay; 105-a second electrical energy harvesting element; 106-a second relay; 107-a third electrical energy harvesting element; 108-a third relay; 109-a wireless communication module; 110-memory module.

Detailed Description

1-2, a dual mode smart power strip device, the operating modes of said strip device including a master-slave mode; the power strip device comprises a main jack, a slave jack and a power supply circuit connected with the power module 101; the power strip inserting device is provided with a main control chip 100 and an electric energy acquisition module; when the power strip inserting device works in a master-slave mode, the initial state of the slave jack is disconnected with the power supply circuit, the master control chip detects a load connected to the master jack through the electric energy acquisition module, and when the consumed power of the load is larger than a threshold value, the master control chip enables the slave jack to be connected to the power supply circuit to be electrified.

The power strip arrangement further comprises a relay module and a memory module 110; the relay module is connected with the main jack, the slave jack and the power supply circuit; the storage module is connected with the main control chip and can store the working mode data of the socket device.

The main control chip is an 8-bit MCU or a 32-bit MCU, and an STM32 series can be selected; the storage module comprises AT24C 02; the relay module includes a first relay 104, a second relay 106, and a third relay 108; the electric energy collection module comprises a first electric energy collection element 103, a second electric energy collection element 105 and a third electric energy collection element 107; the load capacity of each relay is not less than 1 ampere.

The working modes of the power strip device further comprise an independent mode, when the power strip device works in the independent mode, the initial states of the main jack and the auxiliary jack are both connected into the power supply circuit, and the connection states are not affected mutually.

The socket device further comprises a wireless communication module 109 which can communicate with external equipment; the wireless communication module is a Bluetooth module or a wifi module; after the external equipment establishes communication connection with the power strip device through the wireless communication module, the working mode of the power strip device can be set.

The Bluetooth module comprises HC 05; the wifi module includes ESP 8266.

The power strip apparatus also includes a temperature acquisition module 102 comprising DS18B 20.

Example (b):

in this example, the work flow of the power strip device includes the following steps;

step 200, starting up

Step 201, each module is powered on, and the main control chip initializes the system function according to the configuration information stored in the storage module;

step 202, determine whether bluetooth or WiFi receives the configuration information. If the configuration information is received, go to step 203; if the configuration information is not received, go to step 204;

step 203, analyzing the received configuration information, setting the device into a master-slave mode or an independent mode according to the analysis result, and storing the mode into a storage chip;

and step 204, judging the current working mode. If the mode is the independent mode, go to step 205 to execute the independent function mode; otherwise, go to step 206 to execute the master-slave mode;

step 205, an independent working mode, wherein each socket works independently and is not constrained; after the step is finished, turning to step 202, and continuing to judge;

and step 206, in a master-slave working mode, the master jack electric energy module acquires electric energy information. Go to step 207

And step 207, judging whether the electric energy collected by the main jack electric energy module is greater than a critical value. If the value is less than the threshold value, go to step 208, close the slave jack; if the value is greater than the threshold value, go to step 209 to open the jack.

Step 208, closing the slave jack, turning to step 202 after the step is finished, and continuing to judge;

and step 209, opening the jack, completing the operation, and turning to step 202 to continue judging.

It should be noted that the above is only a preferred embodiment of the present invention. However, the present invention is not limited to the above embodiments, and any equivalent changes and modifications made according to the present invention do not exceed the scope of the present invention, and all belong to the protection scope of the present invention.

Claims (5)

1. The utility model provides a row's device is inserted to dual mode intelligence power which characterized in that: the working modes of the power strip device comprise a master-slave mode; the power strip device comprises a main jack, a slave jack and a power supply circuit connected with the power supply module; the power strip inserting device is provided with a main control chip and an electric energy acquisition module; when the power strip device works in a master-slave mode, the initial state of the slave jack is disconnected with the power supply circuit, the master control chip detects a load connected to the master jack through the electric energy acquisition module, and when the consumed power of the load is greater than a threshold value, the master control chip enables the slave jack to be connected to the power supply circuit to be electrified;

the power strip device also comprises a relay module and a storage module; the relay module is connected with the main jack, the slave jack and the power supply circuit; the storage module is connected with the main control chip and can store the working mode data of the socket device;

the main control chip is an 8-bit MCU or a 32-bit MCU, and an STM32 series can be selected; the storage module comprises AT24C 02; the relay module comprises a first relay, a second relay and a third relay; the electric energy acquisition module comprises a first electric energy acquisition element, a second electric energy acquisition element and a third electric energy acquisition element; the loading capacity of each relay is not less than 1 ampere;

the first relay, the second relay and the third relay are all connected with the main control chip.

2. The dual-mode smart power strip apparatus of claim 1, wherein: the working modes of the power strip device further comprise an independent mode, when the power strip device works in the independent mode, the initial states of the main jack and the auxiliary jack are both connected into the power supply circuit, and the connection states are not affected mutually.

3. The dual-mode smart power strip apparatus of claim 1, wherein: the power strip device also comprises a wireless communication module which can communicate with external equipment; the wireless communication module is a Bluetooth module or a wifi module; after the external equipment establishes communication connection with the power strip device through the wireless communication module, the working mode of the power strip device can be set.

4. A dual mode smart power strip apparatus as defined in claim 3, wherein: the Bluetooth module comprises HC 05; the wifi module includes ESP 8266.

5. The dual-mode smart power strip apparatus of claim 1, wherein: the power strip device further comprises a temperature acquisition module, wherein the temperature acquisition module comprises DS18B 20.

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