CN110807882A - Wearable financial security intelligent payment equipment - Google Patents

Abstract

The invention relates to wearable financial security intelligent payment equipment. The bottom of the U-shaped base component is an equipment foundation, and a high-frequency oscillation motor is arranged in the equipment foundation; the two sides of the equipment foundation are provided with oval standing plates, and the two ends of each oval standing plate are respectively provided with a first cavity groove and a second cavity groove; a strip-shaped cavity groove is formed in the center of the top of the oval standing plate; both ends of the imaging module are provided with PCB contacts, and the PCB contacts are inserted in the strip-shaped cavity groove in a clamping manner; the invention adopts the microchip board to supply power by taking the battery module as electric energy and taking the radio module as a signal transmission end; the microchip board core is a data processing chip, the data processing chip uses a data storage unit as an information reading port, the PCB line board extending tail end is formed by bundling and is connected to the technical means on the microchip board, and the wearable financial security intelligent payment equipment is manufactured.

Description

Wearable financial security intelligent payment equipment

Technical Field

The invention relates to wearable financial security intelligent payment equipment.

Background

The mobile payment means that the mobile client utilizes electronic products such as a mobile phone and the like to carry out electronic money payment, the mobile payment effectively combines the internet, terminal equipment and a financial institution to form a novel payment system, and the mobile payment not only can carry out money payment, but also can pay telephone charges, gas, water and electricity and other living charges. Mobile payment has opened a new way of payment, making electronic money popular. The mobile payment is a novel payment mode in the internet era, the payment is settled on the purchased products by taking a mobile terminal as a center, and the main expression form of the mobile payment is mobile phone payment.

Mobile payments are derivatives of third party payments. The third party payment means that after a buyer purchases a commodity in the transaction through a third party payment platform, the buyer pays the payment of the commodity through an account provided by the third party platform, and the third party informs a seller that the payment of the commodity arrives and the delivery of the commodity is carried out; after the buyer verifies the goods, the seller is notified of the payment, and the third party transfers the payment to the seller account. There are researchers who believe that third party payments essentially act as a credit broker, providing some credit support for the payment activities of transactions, thereby eliminating the credit risk problem due to asymmetric information between the buyer and seller. The current classification modes of mobile payment mainly include the following three types:

mobile payments may be divided into micropayments and micropayments depending on the size of the payment amount. The micropayment service refers to that an operator cooperates with a bank to establish an account with pre-stored cost, and a user sends an account planning instruction to pay the cost through a mobile communication platform. The large payment means that a bank account of a user is bound with a mobile phone number, and the user carries out transaction operation on a bank card bound with the mobile phone in various modes. Mobile electronic payments can be classified as remote payments and on-site payments depending on whether the payer and payee are on the same site at the time of payment. Remote payment is the case of ring tones purchased through a mobile phone, and on-site payment is the case of beverage purchased through a mobile phone at a vending machine. Depending on the implementation, mobile payments can be divided into two categories: one is to complete payment through remote control such as short message, WAP and the like. The other is to complete payment by a close-range non-contact technology, and the main close-range communication technologies are RFID, NFC, Bluetooth, 802.11 and the like.

Disclosure of Invention

The invention aims to provide a wearable financial security intelligent payment device.

The invention adopts the following technical scheme for solving the technical problems: a wearable financial security intelligent payment equipment, its main structure has: the device comprises a PCB (printed circuit board) line board, a U-shaped base component, an equipment foundation, a first cavity groove, a second cavity groove, a strip-shaped cavity groove, a high-frequency oscillation motor, a video display module, a PCB contact, an outer wrapping bag, a battery module, a motor base, neodymium iron boron magnetic particles, an HDMI socket, an HDMI port, a TLC (thin layer chromatography) flash memory, a radio module and a microchip board, wherein the bottom of the U-shaped base component is the equipment foundation which is internally provided with the high-frequency oscillation motor;

the two sides of the equipment foundation are provided with oval standing plates, and the two ends of each oval standing plate are respectively provided with a first cavity groove and a second cavity groove; a strip-shaped cavity groove is formed in the center of the top of the oval standing plate; both ends of the imaging module are provided with PCB contacts, and the PCB contacts are inserted in the strip-shaped cavity groove in a clamping manner;

the PCB line board is connected with the strip-shaped cavity groove and the high-frequency oscillation motor, and the extending end of the PCB line board penetrates out from the center point of the first cavity groove; the PCB line board, the U-shaped base component, the equipment foundation and the imaging module form monomer watchband particles together; a plurality of monomer watchband particles are sleeved end to form a watchband strip;

the head end of the watchband is sleeved with a motor base, a battery module is arranged in the motor base, an HDMI socket is fixed at the outer end of the motor base, neodymium iron boron magnetic particles are embedded in the inner wall of the HDMI socket, and the HDMI socket is communicated with the battery module; the tail end of the watchband is sleeved with a TLC flash memory, a microchip plate is arranged in the TLC flash memory, an HDMI port is fixed at the outer end of the TLC flash memory, a chrome-plated iron sheet is arranged on the outer wall of the HDMI port, and the HDMI port is communicated with a PCB line plate and the microchip plate;

the microchip board uses the battery module as electric energy for power supply, and uses the radio module as a signal input end; the microchip board core is a data processing chip, the data processing chip takes a data storage unit as an information reading port, an external connection control unit is used as a carrier for signal intervention, and a signal execution unit controls the on-off of a high-frequency oscillation motor power supply; the display card unit controls the letter display of the display module;

each single watchband particle is provided with two groups of PCB (printed circuit board) line board outputs which are respectively communicated with the imaging module and the high-frequency oscillation motor; the PCB wiring board extending tail ends are connected to the microchip board.

Furthermore, the watchband strip is formed by sleeving 8-18 monomer watchband particles.

Furthermore, the two sides of the watchband strip are sleeved with the outer wrapping leather bags.

Furthermore, the microchip board is communicated with the radio module, the monomer watchband particles and the battery module through PCB line boards.

Furthermore, the external connection control unit receives signals such as a touch screen and a Bluetooth control module.

Furthermore, the data storage unit is embedded with software control, and the storage medium is a ROM.

Further, the whole length of the watchband strip is 15-32 cm.

Further, the transverse length of the equipment foundation is 0.8-3 cm.

Furthermore, the bending amplitude between the particles of the monomer watchband is 35-55 degrees.

The invention has the beneficial effects that: the microchip board is adopted, the battery module is used as electric energy for supplying power, and the radio module is used as a signal transmission end; the microchip board kernel is a data processing chip, the data processing chip takes a data storage unit as an information reading port, an externally-connected control unit is used as a carrier for signal intervention, and each monomer watchband particle is output by two groups of PCB (printed circuit board) line boards which are respectively communicated with a developing module and a high-frequency oscillation motor; the technical means that the extending tail ends of the PCB line boards are connected onto the microchip boards in a bundling manner is achieved, and the wearable financial security intelligent payment equipment is manufactured.

Drawings

Fig. 1 is an overall structural diagram of a wearable financial security intelligent payment device of the invention.

Fig. 2 is a structure diagram of a USB male and female component of a wearable financial security intelligent payment device according to the present invention.

Fig. 3 is an explosion structure diagram of a single watchband particle of the wearable financial security intelligent payment device according to the present invention.

Fig. 4 is an exemplary diagram of a display module of a wearable financial security intelligent payment device according to the present invention.

Fig. 5 is a structural diagram of the sleeving connection of two single watchband particles of the wearable financial security intelligent payment device according to the present invention.

Fig. 6 is a schematic diagram of connection of various accessories of the wearable financial security intelligent payment device.

FIG. 7 is a schematic diagram of a microchip board circuit of a wearable financial security intelligent payment device of the present invention.

In the figure, 1-PCB line board, 2-U-shaped base component, 3-equipment base, 31-first cavity groove, 32-second cavity groove, 33-strip-shaped cavity groove, 34-high-frequency oscillation motor, 4-video module, 41-PCB contact, 5-outer wrapping leather bag, 6-battery module, 7-motor base, 71-neodymium iron boron magnetic particles, 8-HDMI socket, 9-HDMI port, 10-TLC flash memory, 11-radio module and 12-microchip board.

Detailed Description

A detailed description of the embodiments of the present invention is provided below with reference to fig. 1-7.

Example (b): a wearable financial security intelligent payment equipment, its main structure has: the device comprises a PCB (printed circuit board) line board 1, a U-shaped base component 2, a device foundation 3, a first cavity groove 31, a second cavity groove 32, a strip-shaped cavity groove 33, a high-frequency oscillation motor 34, a video module 4, a PCB contact 41, an outer wrapping bag 5, a battery module 6, a motor base 7, neodymium iron boron magnetic particles 71, an HDMI socket 8, an HDMI port 9, a TLC flash memory 10, a radio module 11 and a microchip plate 12, wherein the device foundation 3 is arranged at the bottom of the U-shaped base component 2, and the high-frequency oscillation motor 34 is arranged in the device foundation 3;

the two sides of the equipment foundation 3 are provided with oval standing plates, and the two ends of each oval standing plate are respectively provided with a first cavity groove 31 and a second cavity groove 32; a strip-shaped cavity groove 33 is formed in the center of the top of the oval standing plate; both ends of the imaging module 4 are provided with PCB contacts 41, and the PCB contacts 41 are inserted in the strip-shaped cavity slot 33;

the PCB (printed circuit board) 1 is connected with the strip-shaped cavity groove 33 and the high-frequency oscillation motor 34, and the extending end of the PCB 1 penetrates out from the center point of the first cavity groove 31; the PCB line board 1, the U-shaped base component 2, the equipment foundation 3 and the imaging module 4 jointly form monomer watchband particles; a plurality of monomer watchband particles are sleeved end to form a watchband strip;

the head end of the watchband is sleeved with a motor base 7, a battery module 6 is arranged in the motor base 7, an HDMI socket 8 is fixed at the outer end of the motor base 7, neodymium iron boron magnetic particles 71 are embedded in the inner wall of the HDMI socket 8, and the HDMI socket 8 is communicated with the battery module 6; the tail end of the watchband is sleeved with a TLC flash memory 10, a microchip plate 12 is arranged in the TLC flash memory 10, an HDMI port 9 is fixed at the outer end of the TLC flash memory 10, a chromium-plated iron sheet is arranged on the outer wall of the HDMI port 9, and the HDMI port 9 is communicated with the PCB line board 1 and the microchip plate 12;

the microchip board 12 is powered by the battery module 6 and takes the radio module 11 as a signal input end; the microchip board 12 has a data processing chip as its core, a data storage unit as its information reading port, and an external control unit as its signal intervention carrier, and a signal execution unit for controlling the power supply of the high-frequency oscillation motor 34 to be turned on or off; the display card unit controls the letter display of the display module 4;

each single watchband particle is output by two groups of PCB (printed circuit board) boards 1 which are respectively communicated with the imaging module 4 and the high-frequency oscillation motor 34; the extending tail ends of the PCB line boards 1 formed by bundling are connected to the microchip boards 12.

The watchband strip is formed by sleeving 8-18 monomer watchband particles.

The two sides of the watchband strip are sleeved with the outer wrapping leather bags 5.

The microchip board 12 is communicated with the radio module 11, the monomer watchband particles and the battery module 6 through the PCB board 1.

The external connection control unit receives signals such as a touch screen and a Bluetooth control module.

The data storage unit is embedded with software control, and the storage medium is a ROM.

The whole length of the watchband strip is 15-32 cm.

The transverse length of the equipment foundation 3 is 0.8-3 cm.

The bending amplitude between the particles of the monomer watchband is 35-55 degrees.

The invention is described below with respect to the use:

the designed product is actually a watchband structure, a battery module 6 of the product is arranged at one end of the whole watchband structure and is communicated with an HDMI socket 8, and the component is a small charger and provides electric energy for the whole product; through the grafting of HDMI socket 8, HDMI port 9, play the effect in two aspects: one of them provides the electric energy for whole watchband strip and supports, and its two make watchband strip constitute an annular, and convenient to use person wears to through the mutual magnetism of galvanized iron sheet that is embedded in neodymium iron boron magnetism grain 71 and the HDMI port 9 outer wall of HDMI socket 8, played the purpose that HDMI socket 8 and HDMI port fastening inserted. In the embodiment, the HDMI port 9 can obtain power from the battery module 6 on one hand, and can be separately plugged into a USB port of a computer for mobile payment encryption of data on the other hand.

Claims (9)

1. A wearable financial security intelligent payment equipment, its main structure has: PCB line board (1), U-shaped base member (2), equipment basis (3), first cavity groove (31), second cavity groove (32), bar cavity groove (33), high-frequency oscillation motor (34), video picture module (4), PCB board contact (41), outer skin bag (5), battery module (6), motor base (7), neodymium iron boron magnetism grain (71), HDMI socket (8), HDMI port (9), TLC flash memory (10), radio module (11), microchip board (12), its characterized in that: the bottom of the U-shaped base component (2) is provided with an equipment foundation (3), and a high-frequency oscillation motor (34) is arranged in the equipment foundation (3);

the two sides of the equipment foundation (3) are provided with oval standing plates, and the two ends of each oval standing plate are respectively provided with a first cavity groove (31) and a second cavity groove (32); a strip-shaped cavity groove (33) is formed in the center of the top of the oval standing plate; both ends of the imaging module (4) are provided with PCB contacts (41), and the PCB contacts (41) are inserted in the strip-shaped cavity groove (33) in a clamping manner;

the PCB (1) is connected with the strip-shaped cavity groove (33) and the high-frequency oscillation motor (34), and the extending end of the PCB (1) penetrates out from the center point of the first cavity groove (31); the PCB (1), the U-shaped base component (2), the equipment foundation (3) and the imaging module (4) jointly form monomer watchband particles; a plurality of monomer watchband particles are sleeved end to form a watchband strip;

the head end of the watchband is sleeved with a motor base (7), a battery module (6) is arranged in the motor base (7), an HDMI socket (8) is fixed at the outer end of the motor base (7), neodymium iron boron magnetic particles (71) are embedded in the inner wall of the HDMI socket (8), and the HDMI socket (8) is communicated with the battery module (6); the tail end of the watchband is sleeved with a TLC flash memory (10), a microchip plate (12) is arranged in the TLC flash memory (10), an HDMI port (9) is fixed at the outer end of the TLC flash memory (10), the outer wall of the HDMI port (9) is a chromium-plated iron sheet, and the HDMI port (9) is communicated with a PCB line board (1) and the microchip plate (12);

the microchip board (12) is powered by the battery module (6) and takes the radio module (11) as a signal input end; the inner core of the microchip board (12) is a data processing chip, the data processing chip takes a data storage unit as an information reading port, an external control unit is used as a carrier for signal intervention, and a signal execution unit controls the on-off of a power supply of a high-frequency oscillation motor (34); the display card unit controls the letter display of the display module (4);

each single watchband particle is output by two groups of PCB (printed circuit board) boards (1) which are respectively communicated with the imaging module (4) and the high-frequency oscillation motor (34); the extending tail ends of the PCB line boards (1) are connected to the microchip boards (12).

2. A wearable financial security smart payment device as recited in claim 1, wherein said watchband band is formed by a slip of 8-18 individual watchband particles.

3. A wearable financial security intelligent payment device according to claim 1, characterized in that the watchband strip is covered with a sheath (5) on both sides.

4. The wearable financial security intelligent payment device of claim 1, wherein the microchip board (12) is communicated with the radio module (11), the single watchband particles and the battery module (6) through the PCB board (1).

5. The wearable financial security intelligent payment device of claim 1, wherein the external control unit receives signals from a touch screen, a bluetooth control module, and the like.

6. The wearable financial security intelligent payment device of claim 1, wherein the data storage unit is embedded with a software control, and the storage medium is a ROM.

7. A wearable financial security smart payment device as recited in claim 1, wherein said watchband is between 15-32 centimeters in overall length.

8. A wearable financial security smart payment device according to claim 1, wherein said device base (3) has a lateral length of between 0.8-3 cm.

9. The wearable financial security smart payment device of claim 1, wherein the bending amplitude between the particles of the single watchband is between 35-55 degrees.

Images