CN110556676A

CN110556676A - Multifunctional time sequence socket

Info

Publication number: CN110556676A
Application number: CN201910947877.4A
Authority: CN
Inventors: 陈兴
Original assignee: Zhengzhou Omeck Electronic Technology Co Ltd
Current assignee: Zhengzhou Omeck Electronic Technology Co Ltd
Priority date: 2019-10-08
Filing date: 2019-10-08
Publication date: 2019-12-10

Abstract

A multifunctional time sequence socket comprises a socket shell, a main switch, a mode selection switch, a common switch, a main equipment socket hole, a two-hole socket hole, a multi-hole socket hole, a socket plug, a voice input port, a JTAG interface, an indicator light and a main control circuit, wherein the main control circuit used for selecting the working mode of the socket and realizing the time sequence and voice control of the socket is arranged in the socket shell; the invention has simple structure, convenient use, flexibility and adjustability and high automation degree, and a user can automatically select the working mode of the socket according to actual requirements, not only can automatically switch on or switch off corresponding power supplies according to the working state of the main equipment and according to the set sequence, but also can recognize the voice command of the user and automatically switch on or switch off the corresponding power supplies, thereby ensuring the stability of the whole power utilization system.

Description

Multifunctional time sequence socket

Technical Field

The invention relates to the field of auxiliary equipment of electric appliances, in particular to a multifunctional time sequence socket.

Background

With the continuous improvement of the electronic information level, more and more electric equipment are used, and the management requirement on the equipment power supply is higher and higher. Many existing electric devices have interconnectivity, such as: televisions, set-top boxes, sound power amplifiers and the like are often operated one by one when being turned on or turned off, which wastes time and labor, and causes that a lot of people develop habits of turning off the television without turning off the set-top box and turning off a computer host without turning off a display, so that some equipment is standby all the year round, a large amount of electric energy is consumed, and great potential safety hazards exist; if all the devices are connected to a wiring board and simultaneously powered on or off, the impact of the switch on a power supply grid instantly can be caused, and the situation that the stability of the whole power utilization system is influenced due to the fact that the electric devices are damaged by instant current is more likely to happen.

The time sequence power supply can start or close the power supply one by one according to the sequence, so that various electric equipment can be uniformly managed and controlled, and simultaneously, the impact of large current generated by the electric equipment switch instantaneously on the equipment can be avoided, and the stability of the whole electric system is ensured; the time sequence power supply is one of the indispensable equipments in various sound engineering, television broadcasting system, computer network system and other electrical engineering. However, the existing time sequence power supply has single mode, the time sequence of a power switch is not adjustable, and the operation flexibility and the automation degree are low.

Disclosure of Invention

In order to overcome the defects in the background art, the invention discloses a multifunctional time sequence socket, which is simple to operate and convenient to use, wherein a user can select a working mode of the socket by himself and can modify time sequence related parameters.

In order to achieve the purpose, the invention adopts the following technical scheme:

A multifunctional time sequence socket comprises a socket shell, a master switch, a mode selection switch, a common switch, a main equipment socket hole, two-hole socket holes, multi-hole socket holes, a socket plug, a voice input port, a JTAG interface and an indicator light; and a master control circuit for selecting the working mode of the socket and realizing the time sequence and voice control of the socket is arranged in the socket shell.

Preferably, the mode selection switch is divided into three stages of normal, time sequence and voice control.

Preferably, a USB interface is disposed on the socket housing.

Preferably, the number of the two-hole socket holes and the number of the multi-hole socket holes are 4, and each two-hole socket hole or each multi-hole socket hole corresponds to one common switch.

Preferably, the two jack holes and the sides of the multi-jack hole are respectively provided with a digital numbering pad pasting.

Preferably, the main control circuit comprises a main processor, a power management module, a current detection module, a voice recognition module, a relay and a switch circuit; the main processor is connected with the output end of the mode selection switch; the input end of the voice recognition module is connected with the voice input port, and the output end of the voice recognition module is connected with the main processing input end; the input end of the current detection module is respectively connected with the main equipment socket hole and the USB interface, and the output end of the current detection module is connected with the input end of the main processor; the main processor is respectively connected with the two-hole socket hole and the multi-hole socket hole through a relay; the switch circuit is formed by connecting common switches in parallel, and each common switch is connected with a corresponding socket hole in series; the output end of the power supply management module is respectively connected with the main processor, the current detection module, the voice recognition module and the switch circuit; the JTAG interface is connected with the main processor.

Preferably, the main processor is an MSP430 series single chip microcomputer, the current detection module is a Hall current sensor, and the voice recognition module is an LD3320 voice recognition chip.

Due to the adoption of the technical scheme, the invention has the following beneficial effects: a user can select a time sequence socket working mode according to actual requirements; the time sequence socket can automatically switch on or switch off the corresponding power supply according to the set time sequence according to the working state of the electric main equipment, thereby not only avoiding the electric energy consumption caused by forgetting to turn off the electric equipment due to personal habits, but also avoiding the potential safety hazard caused by long-term standby of the electric equipment; the time sequence socket can automatically switch on or off the corresponding power supply by recognizing the voice command of the user, thereby bringing great convenience to the life of the user; through the JTAG interface, a user can also connect the time sequence socket with an upper computer, adjust the relevant working parameters of the socket and change the on-off delay time and the sequence of the socket; the time sequence socket is simple in structure and convenient to use, and the stability of the whole power utilization system is guaranteed.

Drawings

FIG. 1 is a schematic diagram of a timing socket according to the present invention;

Fig. 2 is a schematic diagram of a timing socket master control circuit according to the present invention.

In the figure: 1. a socket housing; 2. a master switch; 3. a mode selection switch; 4. a normal switch; 5. a master device socket hole; 6. two socket holes; 7. a multi-hole socket hole; 8. a socket and a plug; 9. a voice input port; 10. JTAG interface, 11, pilot lamp; 12. a main processor; 13. a power management module; 14. a current detection module; 15. a voice recognition module; 16. a relay; 17. a switching circuit; 18. a USB interface; 19. the film is pasted with a number.

Detailed Description

The present invention will be explained in detail by the following examples, which are intended to protect all technical improvements within the scope of the present invention and are not limited thereto.

As shown in fig. 1, the timing socket of the present invention includes a socket housing 1, a main switch 2, a mode selection switch 3, a common switch 4, a master socket hole 5, a two-hole socket hole 6, a multi-hole socket hole 7, a socket plug 8, a voice input port 9, a JTAG interface 10, an indicator light 11, and a main control circuit; a master control circuit used for selecting the working mode of the socket and realizing the time sequence and voice control of the socket is arranged in the socket shell 1.

The socket plug 8 is externally connected with 220V mains supply, the main switch 2 is connected with the socket plug 8 through a wire to control the on-off of the electric signal of the whole time sequence socket, and the main equipment socket hole 5 is connected with the main switch 2 and is only controlled by the main switch 2; the main switch 2 is switched on, the time sequence socket is electrified and can work normally, the main equipment socket hole 5 is electrified, the main switch 2 is switched off, the time sequence socket is powered off and stops working, and the main equipment socket hole 5 is powered off.

The number of the two-hole socket holes 6 and the number of the multi-hole socket holes 7 are both 4, and each two-hole socket hole 6 or each multi-hole socket hole 7 corresponds to and is controlled by one common switch 4; digital numbering sticking films 19 are arranged beside the two socket holes 6 and the multi-socket hole 7, and under a voice control mode, a user can input numbers on the sticking films through voice to control the on-off of electric signals of the corresponding socket holes; an indicator light 11 is arranged near each socket hole, the socket holes are electrified, the indicator lights 11 are lightened, the socket holes are powered off, and the indicator lights 11 are turned off.

The mode selection switch 3 can select a three-switch single-control touch screen switch, is divided into three stages of common, time sequence and voice control, and respectively corresponds to a common working mode, a time sequence working mode and a voice control working mode of a time sequence socket; in a common working mode, the time sequence socket is similar to a common extension socket, and the two socket holes 6 and the multi-socket hole 7 are respectively controlled by the corresponding common switch 4; the time sequence working mode is that power supply is automatically switched on or off with the two-hole socket holes 6 and the multi-hole socket holes 7 according to the set time sequence according to the working state of the electric main equipment connected with the main equipment socket hole 5; and the voice control working mode is used for automatically switching on or switching off the power supply of the corresponding two-hole socket hole 6 or the corresponding multi-hole socket hole 7 according to a voice input instruction of a user.

The voice input port 9 may be a microphone for receiving a user voice command and transmitting the user voice command to the main control circuit for voice recognition.

The JTAG interface 10 is connected with the main control circuit, and a user can adjust corresponding parameters in a time sequence socket working program in the upper computer and download the modified program into a main control circuit memory through the JTAG interface so as to change the on-off sequence and the interval time of each socket hole in a time sequence working mode.

The socket shell (1) can be further provided with a USB interface (18), and the working state of the power consumption main equipment with the USB interface is detected through the USB interface (18).

as shown in fig. 2, the main control circuit includes a main processor 12, a power management module 13, a current detection module 14, a voice recognition module 15, a relay 16, and a switch circuit 17.

The main processor 12 may be an MSP430 series single-chip microcomputer; the MSP430 series single chip microcomputer is an ultra-low power consumption multi-pin mixed signal controller, is provided with an AD conversion interface, and has strong processing capacity, 16 interrupt sources, and abundant on-chip peripherals and addressing modes.

The main processor 12 is connected with the output end of the mode selection switch 3, and calls corresponding programs according to the output of the mode selection switch 3 to enter different working modes.

The voice recognition module 15 can select an LD3320 voice recognition chip, an input end of the voice recognition module 15 is connected to the voice input port 9, an output end of the voice recognition module 15 is connected to an input end of the main processor 12, and is used for receiving and recognizing a user voice command and sending the command to the main processor 12, and the main processor 12 controls the power supply on-off of the corresponding two-hole socket hole 6 or the corresponding multi-hole socket hole 7 according to the command.

The input end of the current detection module 14 is connected with the main equipment socket hole 5, the output end of the current detection module 14 is connected with the input end of the main processor 12, and the current detection module is used for detecting the working current of the power consumption main equipment and sending detection information to the main processor 12 to judge the working state of the power consumption main equipment; the current detection module 14 may select a hall current sensor; when the current value detected by the current detection module 14 is less than or equal to a given standby current value of the electric main device, the main processor 12 determines that the electric main device is in standby or critical; when the current value detected by the current detection module 14 is greater than or equal to the given normal operating current value of the electric main device, the main processor 12 determines that the electric main device is normally powered on.

The input end of the current detection module 14 is connected with the USB interface 18, if the electric main device is provided with a USB interface, the electric main device can be connected with the timing socket USB interface 18 through the USB interface, the current detection module 14 detects that the timing socket USB interface 18 generates an electric signal, the main processor 12 determines that the electric main device is normally powered on, the current detection module 14 detects that the timing socket USB interface 18 loses the electric signal, and the main processor 12 determines that the electric main device is in a standby state or a shutdown state.

The main processor 12 is respectively connected with the two-hole socket hole 6 or the multi-hole socket hole 7 through a relay 16; in a time sequence working mode or a voice working mode, the main processor 12 controls the power supply on-off state of the socket hole through the relay 16, the relay 16 obtains an electric signal, and the socket hole connected with the relay is electrified.

The switch circuit 17 is formed by connecting the common switches 4 in parallel, and each common switch 4 is connected with the corresponding socket hole in series; in a normal working mode, the main processor 12 is not used for controlling the on-off of the power supply of the socket hole, but the normal switch 4 connected with the socket hole in series is used for controlling to switch on the normal switch 4, and the socket hole connected with the normal switch is electrified.

the output end of the power management module 13 is respectively connected with the main processor 12, the current detection module 14, the voice recognition module 15 and the switch circuit 17, and is used for providing a working power supply for the main processor; the power management module 13 includes a filter circuit and a self-resetting fuse PTC, and can protect the main control circuit when generating instantaneous high current.

When the time sequence socket is implemented, the main switch 2 is turned on, and the main equipment socket hole 5 is electrified; the user selects the time sequence socket working mode through the mode selection switch 3 according to the requirement.

If a common working mode is selected, the time sequence socket is similar to a common extension socket, and the power supply on-off of each socket hole is controlled through a corresponding switch.

If the time sequence working mode is selected, the current detection module 14 detects the working current of the electric main equipment connected with the main equipment socket hole 5 in real time, if the current is greater than or equal to the starting current value of the given electric main equipment, the main processor 12 judges that the electric main equipment is normally started, the main processor 12 sends current signals to corresponding relays one by one from the front stage to the rear stage according to the set time sequence, and the corresponding socket holes are sequentially electrified, so that corresponding electric appliances are sequentially started; if the current is smaller than the standby current value of the given power consumption main equipment, the main processor 12 judges that the power consumption main equipment is in standby or shutdown, the main processor 12 sends power-off signals to corresponding relays one by one from a rear stage to a front stage according to a set time sequence, and corresponding socket holes are powered off in sequence, so that corresponding electric appliances are turned off in sequence.

If the voice control working mode is selected, a user speaks the numbers of the two-hole socket holes 6 or the multi-hole socket holes 7 according to the requirement and needs to enter an electrifying state or a power-off state, the voice recognition module 15 recognizes a voice instruction of the user, the main processor 12 determines the numbers of the socket holes needing to change the state and sends a current signal or a power-off signal to the corresponding relay 16 so as to change the power-on and power-off state of the socket holes.

In addition, in the time sequence working mode, if the electricity-using main equipment is provided with a USB interface, the electricity-using main equipment can be supplied with power by adopting other sockets instead of being connected with the main equipment socket hole 5, the electricity-using main equipment only needs to be connected with the time sequence socket USB interface 18 through the USB interface of the electricity-using main equipment, and the current detection module 14 detects an electric signal of the time sequence socket USB interface 18 so as to judge the working state of the electricity-using main equipment; if the electric signal generated by the time sequence socket USB interface 18 is detected, the main processor 12 judges that the electric main equipment is normally started, the main processor 12 sends current signals to corresponding relays one by one from the front stage to the rear stage according to the set time sequence, the corresponding socket holes are sequentially electrified so as to sequentially start corresponding electric appliances, if the electric signal lost of the time sequence socket USB interface 18 is detected, the main processor 12 judges that the electric main equipment is in standby or shutdown, the main processor 12 sends power-off signals to the corresponding relays one by one from the rear stage to the front stage according to the set time sequence, and the corresponding socket holes are sequentially powered off so as to sequentially shut.

The present invention is not described in detail in the prior art.

Claims

1. A multifunctional time sequence socket is characterized in that: the multifunctional socket comprises a socket shell (1), a main switch (2), a mode selection switch (3), a common switch (4), a main equipment socket hole (5), two-hole socket holes (6), a multi-hole socket hole (7), a socket plug (8), a voice input port (9), a JTAG interface (10) and an indicator light (11); the socket is characterized in that a master control circuit used for selecting a socket working mode and realizing socket time sequence and voice control is arranged in the socket shell (1).

2. The multi-function timing socket of claim 1, wherein: the mode selection switch (3) is divided into three stages of common, time sequence and voice control.

3. The multi-function timing socket of claim 1, wherein: the socket shell (1) is provided with a USB interface (18).

4. The multi-function timing socket of claim 1, wherein: the number of the two-hole socket holes (6) and the number of the multi-hole socket holes (7) are both 4, and each two-hole socket hole (6) or each multi-hole socket hole (7) corresponds to one common switch (4).

5. The multi-function timing socket of claim 4, wherein: and digital numbering sticking films (19) are arranged beside the two-hole socket hole (6) and the multi-hole socket hole (7).

6. The multi-function timing socket of claim 1, wherein: the main control circuit comprises a main processor (12), a power supply management module (13), a current detection module (14), a voice recognition module (15), a relay (16) and a switch circuit (17); the main processor (12) is connected with the output end of the mode selection switch (3); the input end of the voice recognition module (15) is connected with the voice input port (9), and the output end of the voice recognition module (15) is connected with the input end of the main processing unit (12); the input end of the current detection module (14) is respectively connected with the main equipment socket hole (5) and the USB interface (18), and the output end of the current detection module (14) is connected with the input end of the main processor (12); the main processor (12) is respectively connected with the two-hole socket hole (6) and the multi-hole socket hole (7) through a relay (16); the switch circuit (17) is formed by connecting common switches (4) in parallel, and each common switch (4) is connected with a corresponding socket hole in series; the output end of the power supply management module (13) is respectively connected with the main processor (12), the current detection module (14), the voice recognition module (15) and the switch circuit (17); the JTAG interface (10) is coupled to a host processor (12).

7. The multi-function timing socket of claim 6, wherein: the main processor (1) is an MSP430 series single chip microcomputer, the current detection module (14) is a Hall current sensor, and the voice recognition module (15) is an LD3320 voice recognition chip.