CN202975616U - Touch screen control, transparent display OLED electronic watch - Google Patents

Abstract

The utility model relates to an OLED electronic watch controlled by a touch screen and capable of transparent display. It includes the case of the watch, the touch screen timing case integrated with the case, the upper side strap and the lower side strap connecting the two ends of the case, and the watch movement placed in the case. The watch movement is made of transparent OLED The display panel, the power circuit in the upper strap and the main control circuit in the lower strap; there is a piezoelectric device in the upper strap to supply power to the power circuit, and the power source is a built-in rechargeable button lithium battery; A touch screen circuit and a touch screen connected to the main control circuit are distributed in the housing, and the transparent OLED display panel is placed on the lower layer of the touch screen; the power supply circuit is connected to the main control circuit and the transparent OLED display panel through the internal wiring in the housing and touch screen power supply. The utility model can use the swing of the arm when people walk to supply power for the battery through the piezoelectric device; it can also be connected with a computer for data transmission, and the computer can be used for personalized settings to achieve the effect of diversified and personalized display interfaces.

Description

OLED electronic watch with touch screen control and transparent display

technical field

The utility model relates to an electronic watch which is charged by a piezoelectric device and can be controlled by a touch screen and can be displayed transparently. the

Background technique

With the development of the times, new electronic products have become a consumer field that people are increasingly concerned about. The application of new materials to replace traditional materials has endowed electronic products with enduring vitality. In addition to the basic functional requirements of electronic watches, consumers today are more based on the psychology of individuality and fashion, and express a concept of life. Traditional electronic watches use colorful displays on the display panel. Backlight design, such as the "7-color backlight" products that are often heard, has been further developed on this basis, and products using regional color OLED panels have been used. OLED (Organic Light Emitting Display), that is, organic light-emitting display, is a newly emerging type in the application field of display panels. It is known as a "dream display". Each pixel can emit light by itself, no matter what angle or light it is, it can display a clearer picture than the traditional display panel, and the darker the environment, the brighter the screen, just like a bright fairy at night. In addition to bringing a new visual experience, OLED has many advantages that cannot be compared with traditional display panels, such as making products lighter and thinner, having a wider viewing angle, and significantly saving power. Applying OLED to electronic products not only increases the gorgeous aesthetic feeling of the product, but also adds icing on the cake to the expression form of information. It will undoubtedly become the mainstream of display panels. the

Most of the current electronic watches still use the more traditional LED display technology. Compared with OLED display technology, there is a certain gap in picture clarity, energy consumption, and visual experience. There are also a small number of electronic watches that use OLED display technology. , they adopt the integration of the interface and the watchband in terms of structure and function, and use solar energy energy-saving design, but none of them can realize the user's personalized editing function on the watch display interface, which will cause the user to lose the freshness of wearing the watch after a long time . the

Utility model content

The purpose of the utility model is to provide an OLED electronic watch controlled by a touch screen and capable of transparent display aiming at the defects of the prior art. It adopts a display control chip with editable function and a transparent OLED screen, and is small in size. It has innovations and improvements in shape, function and structure compared with existing OLED electronic watches. The display screen is transparent, and the display mode and content can be freely edited; the touch method is flexible and convenient; the main control circuit and the piezoelectric module are hidden in the flexible strap; the piezoelectric device can be used to power the battery by swinging the arm when walking. powered by. Therefore, compared with the existing OLED electronic watch, the watch not only has a beautiful and unique appearance, but also is energy-saving and environment-friendly, and can also realize personalized display effects on its transparent display screen. the

In order to achieve the above object, the utility model adopts the following technical solutions:

An OLED electronic watch controlled by a touch screen and capable of transparent display, comprising a case of the watch, a time-adjusting case of the touch screen integrated with the case, an upper strap and a lower strap connected to both ends of the case, and a watch core, which is characterized in that: the watch core is composed of a transparent OLED display panel installed in the watch case, a power circuit in the upper strap and a main control circuit in the lower strap; both the upper strap and the lower strap are Flexible materials are used; there is a piezoelectric device in the upper strap to supply power to the power circuit, and the power supply is a built-in rechargeable button lithium battery; the touch screen circuit and touch screen connected to the main control circuit are distributed in the shell The transparent OLED display panel is placed on the lower layer of the touch screen; the power supply circuit supplies power to the main control circuit, the transparent OLED display panel and the touch screen through the internal wiring in the casing. Both the upper strap and the lower strap are made of flexible materials. The main control circuit in the lower strap adopts a flexible circuit layout, which can realize the display driving and editing control functions of the transparent OLED display panel. A touch screen circuit connected to the main control circuit and a touch screen are distributed in the housing of the watch, and the transparent OLED display panel is placed on the lower layer of the touch screen. The power supply circuit supplies power to the main control circuit, transparent OLED display panel and touch screen through the internal wiring in the casing, and the main control circuit also realizes editing, display driving functions and receiving Timing information generated by touch screen.

The display interface of the utility model is a transparent and bendable OLED display panel, which can be connected to the computer through the USB data port, and the desired display mode and content can be freely edited and downloaded to the watch through the corresponding software on the computer. Displayed on the OLED display panel to realize the diversification of the display interface. the

The time adjustment method of the utility model is to distribute a solid non-metallic ball and a hollow light bearing ball in the time adjustment case on the touch screen. The structure of the touch screen is ring-shaped, and the distance between the time adjustment case and the touch screen is controlled. , so that the physical non-metallic ball is pressed to generate pressure on the touch screen after assembly. When the watch case is rotated to control the time adjustment, the physical non-metallic ball will be driven to rotate together. The software will realize the watch according to the pressure generated by the physical non-metallic ball on the touch screen. For the time adjustment function, the hollow, lightweight load-bearing ball is used to balance the smoothness of the time adjustment case. the

The utility model adopts a rechargeable button battery for power supply, and sets several piezoelectric devices to charge the battery of the watch at the same time. It utilizes the back and forth swing of the arm when a person walks to drive a metal ball with a suitable mass and volume to collide with the piezoelectric module. An electric current is generated to charge the battery of the watch. When the arm swings forward, the metal ball rolls backward under the action of gravity, and the energy storage is realized by the extrusion effect between it and the spring. When the arm swings back again, the spring can convert the stored energy to the metal ball again. This method is The collision between the ball and the wall surface of the piezoelectric device can be avoided, and the intensity of the piezoelectric effect and the utilization rate of energy can be improved. the

The port of the watchband on the lower side of the utility model is a USB data port, which can realize the data transmission between the watch and the computer. Use the corresponding software on the computer to edit the interface style, and use the USB data port to transfer the edited style to the watch display control chip, so that a personalized display interface can be realized. At the same time, the USB data port can be connected with the socket at the upper side strap port through the bump and the bayonet socket to realize the wearing of the watch. The sealing ring is used to strengthen the connection strength of the port when the watch is worn, and at the same time, it can protect the USB data port from sweat and moisture. the

The main control circuit of the utility model adopts a flexible substrate and is arranged in the lower watchband; the power supply circuit and the piezoelectric device are arranged in the upper watchband. The main control circuit adopts the SKYLARK-2 chip with USB interface, which has the functions of editing and controlling the display interface of the watch. It can also realize the time adjustment function by touching the touch screen under the time adjustment case of the touch screen. the

Compared with the prior art, the utility model has the following obvious substantive features and technical progress: the transparent display interface of the utility model satisfies people's individual needs; the touch screen is used to realize the time adjustment function, and the main control circuit and The power circuit is hidden in the strap in a flexible way, and the piezoelectric device can be used to supply power to the battery by swinging the arm when walking; it can be connected to a computer, and personalized settings can be made through the computer to achieve a variety of display interfaces Individualized and personalized effects. the

Description of drawings

Figure 1 Schematic diagram of the appearance and structure of the utility model

Fig. 2 is the sectional structure schematic diagram of the utility model

Fig. 3 is a view from A-A direction of Fig. 2

Fig. 4 is a structural schematic diagram of the upper side strap of the utility model

Fig. 5 is the structural representation of the lower side strap of the present utility model

Fig. 6 overall circuit structure block diagram of the present utility model

Fig. 7 Principle block diagram of the piezoelectric module of the present utility model

Fig. 8 schematic diagram of the power circuit of the utility model

Fig. 9 schematic diagram of touch screen circuit of the present utility model

Figure 10 Schematic diagram of the main control circuit of the utility model

Fig. 11 is a schematic diagram of the effect of the utility model.

Detailed ways

The preferred example of the utility model is described as follows in conjunction with the accompanying drawings:

Embodiment 1: Referring to Fig. 1-Fig. 6, the OLED electronic watch controlled by the touch screen and transparently displayed includes the casing (3) of the watch, and the touch-screen timing case integrated with the casing (3) ( 4) Connect the upper watch strap (2) and the lower watch strap (5) at both ends of the case (3) and the watch movement, which is characterized in that the watch movement is composed of a transparent OLED display panel installed in the watch case (4) (1), the power supply circuit (11) in the upper side strap (2) and the main control circuit (16) in the lower side strap (5); the upper side strap (2) and the lower side strap (5) ) are made of flexible materials; there is a piezoelectric device (13) in the upper side strap (2) to supply power for the power circuit (11), and the power supply is a built-in rechargeable button lithium battery; in the case (3) The touch screen circuit (6') and the touch screen (6) connected to the main control circuit (16) are distributed, and the transparent OLED display panel (1) is placed on the lower layer of the touch screen (6); the power circuit (11) passes through The internal wiring in the casing (3) supplies power to the main control circuit (16), the transparent OLED display panel (1) and the touch screen (6).

Embodiment 2: This embodiment is basically the same as Embodiment 1, and the special features are as follows: a solid non-metallic ball (7) and a hollow lightweight bearing ball (19) are distributed in the watch case (4), and the touch screen (6) It is ring-shaped, and the distance between the case (4) and the touch screen (6) is adjustable. The port of the lower side strap (5) is a USB data port (17), and the USB data port (17) can be inserted into the socket (14) at the port of the upper side strap (2). The protruding point (18) is engaged with the bayonet (8) on the socket (14). the

Embodiment 3: Referring to Fig. 1, this OLED electronic watch controlled by a touch screen and capable of transparent display includes a housing (3), a time-adjusting watch case (4), a transparent OLED display panel (1), and a built-in piezoelectric device (13) and the upper side strap (2) of the power circuit (11) and the lower side strap (5) of the built-in main control circuit (16), the upper side strap (2) and the lower side strap (5) are connected to the shell On both sides of (3), the touch-screen time-adjusting watch case (4) is connected with the housing (3) by a clearance fit. the

Referring to Figure 2 and Figure 3, the transparent OLED display panel (1) of the watch is placed under the touch screen (6), and the solid non-metallic balls (7) built into the time-adjusting watch case (4) are distributed above the touch screen (6) and It is an interference fit with the touch screen timing case (4) and the touch screen (6). Hollow, light-weight load-bearing ball (19) and touch screen timing case (4), touch screen (6) are gap fit. the

Referring to Figure 4 and Figure 5, the flexible main control circuit (16) is distributed in the lower strap (5) of the watch and its port is designed as a USB data port (17), which can realize data transmission between the watch and the computer; the upper side A power circuit (11), a piezoelectric device (13) and a slot (14) are distributed in the strap (2), and a spring (10), a piezoelectric module (12), a metal ball ( 9). When the bayonet (8) in the slot (14) cooperates with the bump (18) on the USB data port (17) in the lower strap (5), the wristwatch can be worn, and the sealing ring (15) It can protect the USB data port (17) and strengthen the connection strength of the strap, and at the same time protect the USB data port (17) from sweat and moisture. the

Referring to Figure 6, the watch charges the battery in the power supply circuit (11) through the piezoelectric device (13), and the power supply circuit (11) then passes through the internal wiring in the housing (3) as the main control circuit (16), transparent OLED display The panel (1) and the touch screen circuit supply power, and the main control circuit (16) also implements the editing and display driving functions of the transparent OLED display panel (1) and receives the touch screen (6) through the internal circuit in the housing (3). The timing information generated. The display control module in the main control circuit (16) can also be connected with the computer through the USB data port (17), so as to realize personalized editing of the interface of the watch. the

Referring to Figure 7, the electrical signal generated by the piezoelectric module (12) of the watch is first boosted and stabilized by the power circuit (11), and then the battery is charged through the charging interface and the battery charging circuit module. All circuits are Distributed in the upper strap (2). the

Referring to Figure 8, the piezoelectric device (13) fixed in the strap is connected to the button lithium battery through the charging circuit on the flexible circuit board, and can continuously charge the built-in battery when the human arm swings back and forth. Lead two wires of positive and negative poles in the strap, insert the housing (3) of the watch into the micro-sockets on the upper and lower sides, and the micro-sockets are welded on the charging circuit of the circuit board by the wires. the

Referring to Figure 9, the touch screen (6) located under the touch screen timing case (4) is inserted into the socket on the flexible circuit board in the strap through a cable, and connected to the circuit board. Easy maintenance and assembly. the

Referring to Figure 10, the main control circuit (16) adopts a SKYLARK-2 chip with a USB interface, which is connected to the touch screen (6) through a multi-purpose interface to realize the time adjustment function, and connected to the transparent OLED display panel (1) to realize its control of the display interface. Editing and control functions. The rechargeable lithium battery is connected with the main control circuit (16) through the charging circuit, and is used to supply power to the main control circuit, and realizes the connection with the computer through the USB data port (17) at the port of the lower strap (5). Obtain the desired interface display scheme of the watch on the computer. the

Referring to Figure 11, the effect diagram of the watch, edit the interface mode with pendulum clock effect through the interface editing software on the computer, and load it into the display control in the main control circuit (16) of the watch through the USB data port (17) module to realize the design purpose of the utility model. the

Claims (3)

1. A touch screen control, OLED accutron that can transparent demonstration, the touch screen timing watchcase (4) that comprises the housing (3) of table, is connected with housing (3), upside watchband (2) and downside watchband (5) and the watch core that is connected housing (3) two ends is characterized in that: watch core by be arranged on the transparent OLED display panel (1) in watchcase (4), power circuit (11) and the governor circuit (16) in downside watchband (5) in upside watchband (2) consists of; Upside watchband (2) and downside watchband (5) all adopt the flexibility material; Have a piezo-electric device (13) to be used for being power circuit (11) power supply in upside watchband (2), power supply is built-in chargeable lithium coin cells; Be distributed with the touch screen circuit (6 ') and the touch screen (6) that are connected with governor circuit (16) in housing (3), transparent OLED display panel (1) is placed in the lower floor of touch screen (6); Described power circuit (11) is governor circuit (16), transparent OLED display panel (1) and touch screen (6) power supply by the internal wiring in housing (3).
2. Touch screen according to claim 1 control, OLED accutron that can transparent demonstration, it is characterized in that: a nonmetal ball of entity (7) and a hollow light bearing ball (19) distribute in watchcase (4), touch screen (6) is annular, and the spacing between watchcase (4) and touch screen (6) is adjustable.
3. Touch screen according to claim 1 control, OLED accutron that can transparent demonstration, it is characterized in that: the port of downside watchband (5) is usb data mouth (17), this usb data mouth (17) can be assigned with the socket (14) of upside watchband (2) port, by bayonet socket (8) clamping on the salient point (18) on usb data mouth (17) and socket (14).

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