TWM562509U - Fee-charging socket structure - Google Patents

Abstract

A billing socket structure, a body having a socket for plugging one of the electrical appliances, and a power supply circuit, a power supply is electrically connected to a mains, and a transceiver and a microprocessor are respectively electrically connected a power supply, and a switch electrically connected to the microprocessor and the mains, the switch is electrically connected to the socket, the power supply is supplied to the transceiver and the microprocessor is powered, and the microprocessor controls the switch as a path or an open circuit. The present invention is constructed by providing a signal to the microprocessor when the transceiver is triggered, and the microprocessor controls the switch to turn on the mains and the outlet.

Description

Billing socket structure

This creation relates to a power supply device, especially a billing socket structure.

For mobile devices such as smart phones or tablets, the degree of use is quite common. When the door is out, in order to maintain the long-term use of the mobile devices, it is necessary to perform charging when the power of the mobile device is insufficient.

The charging method of the foregoing mobile device is generally carried out by the user carrying the mobile power source and the transmission line. When the mobile device has insufficient power, the mobile power source can be taken out and the transmission line is connected between the mobile power source and the mobile device. The mobile device is charged by the power stored by the mobile power source itself. Generally, the degree of charging of the mobile power source is based on the capacity of the mobile power source itself. When the capacity of the mobile power source is low, the number of times the mobile device can be charged is small; in other words, when the capacity of the mobile power source is high, The number of times the mobile device is charged is relatively large, and the mobile device can be maintained for a longer period of time.

However, the user of the mobile device may forget to carry the mobile power when going out, or feel that carrying the mobile power will take up space and increase the weight without carrying. In this case, if there is insufficient power of the mobile device, A power saving mode is adopted to reduce power consumption, thereby extending the time for the mobile device to be used outside.

In order to solve the problem that the mobile device does not carry the mobile power and the power is insufficient, there is a device in the market that develops a so-called "mobile charging station", that is, the device that the mobile phone can charge the mobile device at the fixed point. When the user's mobile device needs to be charged due to insufficient power, the mobile device can be connected to the mobile device to charge the mobile device. The foregoing mobile charging station can be divided into unpaid charging or paid charging, and the charging charging mode, for example, charging service attached in the coffee shop, can be used without paying at this time; the paid charging mode is usually The charging service provided by the industry for profit-making can be used at a charge.

In the foregoing charging mode of paid charging, the socket that can provide charging of the mobile device itself is connected to the mains and can be powered, and the mobile device is allowed to be charged by the administrator of the socket, after a certain approval procedure. The charging action can be performed by the user inserting the plug connected to the mobile device to the socket, and the charging time is calculated by the manager to facilitate charging. It can be imagined that without the configuration of the manager, it is impossible to calculate the charging time and charge.

Therefore, how to charge the charging time of the mobile device under unmanned management is the focus of the creative solution.

The main purpose of the present invention is to solve the above problems and provide a billing socket structure, so as to achieve the effect of charging the user for the power supply cost under unmanned management.

For the purposes of the foregoing, the present disclosure provides a billing socket structure that includes:

a body having a socket for connecting one of the electrical appliances;

a power supply circuit, a power supply is electrically connected to a mains, and a transceiver and a microprocessor are respectively electrically connected to the power supply, and a switch is electrically connected to the microprocessor and the mains, the switch Reconnecting the socket to the power supply to the transceiver and the power supply of the microprocessor, and controlling the switch to be a path or an open circuit, and providing a control signal when the transceiver is triggered The microprocessor is controlled by the microprocessor to turn on the mains and the outlet.

The detector and the socket are electrically connected to a detector, and the detector detects at least one of a voltage and a current when the utility is turned on, and the detector is electrically connected to the microprocessor. And an amplifier and an analog-to-digital converter are connected in series between the detector and the microprocessor.

The transceiver is a Bluetooth transceiver for wireless communication using Bluetooth technology or a power line network device for transmitting power through a power line.

The transceiver and the microprocessor are electrically connected to a universal asynchronous transceiver.

Among them, the switch is a solid state relay.

The above and other objects and advantages of the present invention will become more apparent from the detailed description and the accompanying drawings.

Of course, the present invention is allowed to differ in some of the parts, or the arrangement of the parts, but the selected embodiments are described in detail in the present specification, and the construction thereof is shown in the drawings.

Please refer to FIG. 1 to FIG. 3, which are shown for the purpose of illustration and preferred embodiment of the present invention. This is for illustrative purposes only and is not limited by the embodiments described herein.

The present invention provides a billing socket structure, which is shown in Figures 1 to 2, having a body 1 and a power supply circuit 2, wherein:

As shown in Fig. 1, the body 1 has a socket 11, which can be connected to one of the plugs of an electric appliance. As shown in FIG. 3, the electric appliance described in this embodiment is used for charging a mobile device 3 such as a smart phone or a tablet computer.

As shown in FIG. 2, the power supply circuit 2 has a power supply 21, which is electrically connected to a mains 4, and the power supply circuit 2 has a transceiver 22 and a microprocessor 23, a transceiver 22 and a micro The processor 23 is electrically connected to the power supply 21, and the power supply circuit 2 has a switch 24, the switch 24 is electrically connected to the microprocessor 23 and the mains 4, and the switch 24 is electrically connected to the socket 11 to the power supply 21 The transceiver 22 and the microprocessor 23 are supplied with power, and the microprocessor 23 controls the switch 24 to be a path or an open circuit. When the switch 24 is controlled by the microprocessor 23 as a path, the mains 4 and the outlet 11 are turned on to supply power. When the other switch 24 is controlled by the microprocessor 23 to be open, the mains 4 and the outlet 11 are not conductive and cannot be powered.

During circuit control, a control signal is provided to the microprocessor 23 when the transceiver 22 is triggered, and the switch 24 is controlled by the microprocessor 23 to turn on the mains 4 and the outlet 11. In other words, when the transceiver 22 is not triggered and the control signal is not supplied to the microprocessor 23, the switch 24 is controlled to be open by the microprocessor 23, and the mains 4 and the outlet 11 are in a state of being non-conducting and not being powered.

In this embodiment, the switch 24 and the socket 11 are electrically connected to a detector 25, and the detector 25 detects at least one of the voltage and current when the mains 4 is turned on, and the detector 25 and the micro processor. The device 23 is electrically connected, and an amplifier 26 and an analog-to-digital converter 27 are connected in series between the detector 25 and the microprocessor 23. Therefore, when the switch 24 of the embodiment is controlled by the microprocessor 23 as a path, the detector 25 detects the voltage or/and current of the mains 4 conduction to generate a detection signal, and the detection signal passes through the amplifier 26 . After the signal processing of the analog-to-digital converter 27 is processed, it is fed back to the microprocessor 23.

In this embodiment, the transceiver 22 is a Bluetooth transceiver for transmitting wireless communication by Bluetooth technology, or a power line network device for transmitting power with a power line. In the present embodiment, a universal asynchronous transceiver 28 is electrically connected between the transceiver 22 and the microprocessor 23. The switch 24 of this embodiment is a solid state relay (SSR).

In the power supply method of the charging socket structure, as shown in FIG. 3, in the embodiment, the switch 24 is normally disconnected to maintain the non-conduction between the mains 4 and the outlet 11, and if there is a mobile device 3 If the plug 31 is connected, the power supply is still not available, and the mobile device 3 cannot be charged. When the mobile device 3 is to be charged, an application must be installed by the mobile device 3, whereby the application binds the socket structure to be charged and maintains the communication link with the transceiver 22. Then, the mobile device 6 is connected to the server 6 via the network 5, and a set of keys is obtained by the communication connection with the server 6. The set of keys is connected to the communication device 3 and the transceiver 22. Write to the microprocessor 23. Therefore, when the key of the mobile device 3 and the microprocessor 23 coincides, the pairing can be completed with the charging socket structure, and then the switch 24 is controlled by the microprocessor 23 to turn on the mains 4 and the outlet 11, 俾The socket 11 is provided for the plug 31 provided in the mobile device 3 to be inserted to obtain power, and the microprocessor 23 calculates the time of power supply.

In the embodiment, when the mobile device 6 is communicatively connected to the server 6 via the network 5, the complex key is obtained at the same time, and each group of keys can only open the charging socket structure once, and the complex array is used. The key is used to open the billing socket structure for each of the plurality of mobile devices 3 that want to use the billing outlet structure at different times. For example, when the mobile device 3 communicates with the server 6 via the network 5, two sets of keys can be obtained. The first group of keys is the number 1234, and the second group of keys is the number 5678. The two sets of keys are acted upon. The communication between the device 3 and the transceiver 22 is written to the microprocessor 23, but the first set of keys is only used for the pairing of the previously used mobile device 3 when the charging socket structure is opened. After the device 3 is used, the other mobile device that is used later is also connected to the server 6 via the network 5, and can be paired by using the second group of keys that have been written into the microprocessor 23, and can be opened. The billing socket structure. When the keys written to the microprocessor 23 are used for pairing, and no key can be used for pairing, the mobile device to be charged can communicate with the server 6 via the network 5, and then obtain two sets of gold. The key is written to the microprocessor 23, and the mobile device for subsequent charging and the charging socket structure can be paired.

The mobile device is bound to the charging socket structure in the embodiment. In the embodiment, the charging socket structure has a dedicated Quick Response Code 12 on the body 1 , and the mobile device 3 passes the application. The program scans the fast response matrix code 11 and can bind the billing socket structure.

It is not difficult to find out from the above description that the present invention has the advantage that the power supply circuit 2 provided in the socket structure normally maintains the socket 11 and the mains 4 of the body 1 non-conducting, and provides a control signal when the transceiver 22 is triggered. The microprocessor 23, the start switch 14 is a path for the outlet 11 and the mains 4 to be turned on. At this time, if the electric appliance is the mobile device 3 and is to be charged, the application installed by the mobile device 3 is bound to be used. The socket structure starts to calculate the time after the billing socket structure is turned on, and converts the cost to the user according to the calculated time, so as to achieve the effect of charging the user with the power supply fee under the unmanned management.

The above description of the embodiments is intended to be illustrative of the present invention and is not intended to limit the scope of the present invention.

From the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the aforementioned objectives, and has been in compliance with the provisions of the Patent Law, and has filed a patent application.

1‧‧‧ Ontology
11‧‧‧ socket
12‧‧‧Response Matrix Code
2‧‧‧Power supply circuit
21‧‧‧Power supply
22‧‧‧ transceiver
23‧‧‧Microprocessor
24‧‧‧ switch
25‧‧‧Detector
26‧‧‧Amplifier
27‧‧‧ Analog Digital Converter
28‧‧‧Universal asynchronous transceiver
3‧‧‧Mobile devices
31‧‧‧ plug
4‧‧‧Power
5‧‧‧Network
6‧‧‧Server

Fig. 1 is a schematic view showing the construction of a billing socket structure of an embodiment of the present invention. Figure 2 is a block diagram of a power supply circuit of an embodiment of the present invention. Figure 3 is a schematic diagram showing the state of use of the billing socket structure of the embodiment of the present invention.

Claims (5)

A billing socket structure, comprising: a body having a socket for plugging one of the electrical appliances; a power supply circuit having a power supply electrically connected to a mains, and a transceiver and a microprocessor respectively Electrically connected to the power supply, and has a switch electrically connected to the microprocessor and the mains, the switch is electrically connected to the socket, and the power supply is supplied to the transceiver and the power supply of the microprocessor. And the microprocessor controls the switch to be a path or an open circuit, and when the transceiver is triggered, a control signal is provided to the microprocessor, and the switch is controlled by the microprocessor to turn on the mains and the outlet. According to the charging socket structure of claim 1, wherein the detector and the socket are electrically connected to a detector, and the detector detects at least one of voltage and current when the utility is turned on, and The detector is electrically connected to the microprocessor, and an amplifier and an analog-to-digital converter are connected in series between the detector and the microprocessor. The charging socket structure according to claim 2, wherein the transceiver is a Bluetooth transceiver for wireless communication using Bluetooth technology or a power line network device for transmitting power by communication. The charging socket structure of claim 3, wherein the transceiver and the microprocessor are electrically connected to a universal non-synchronous transceiver. The charging socket structure of claim 2, wherein the switch is a solid state relay.