TW201604765A - Wearable touch control device - Google Patents

Abstract

A wearable touch control device includes a first operation part and a second operation part. The first operation part includes a touch display panel for sensing touch and generating a first sensing signal, a transmission module for sending or receiving signals, and a control module electrically connected to the touch display panel and the transmission module. The second operation part is connected to the first operation part and electrically connected to the control module. The second operation part includes a flexible input display panel. The flexible input display panel is flexible so that the wearable touch control device is allowed to encircle a body part, and includes an input interface for sensing touch and generating a second sensing signal. The control module is used to receive and analyze the first sensing signal and the second sensing signal so as to control the wearable touch control device to perform a corresponding operation.

Description

Wearable touch device

The present invention relates to a wearable touch device, and more particularly to a wearable touch device including a plurality of operating portions.

Generally, an external input device such as a mouse, a keyboard, etc. can be connected to the computer, so that the mouse can control the cursor displayed by the computer to move, and the keyboard can be used to input text or instructions. Although the mouse and keyboard can be wirelessly connected to the computer today, the wireless mouse or wireless keyboard is still too bulky, which is not conducive to the user. On the other hand, in order to allow users to interact more directly with the display screen, many information products have been converted from traditional keyboards or mice to devices that use touch devices as input. Such a touch device is usually mounted in front of a display screen to form a touch display panel, such as a tablet or a smart phone. However, when the user wants to use a tablet or a smart phone for input or other operations, the corresponding virtual keyboard or other function menu may occupy the space of the display screen of the tablet or the smart phone, for example, the display screen may be shielded. One quarter or one third of the space, so the information on the display screen will be obscured by the virtual keyboard, which is not conducive to the user's reading. Therefore, an electronic device that is small in size, convenient to carry, and can be used as an external input device is an important subject in the design of electronic products today.

The present invention discloses a wearable touch device comprising a first operating portion and a second operating portion. The first operating portion includes a touch display panel, a transmission module, and a control module. The touch display panel is configured to sense a touch and generate a first sensing signal. The transmission module is used to transmit or receive signals. The control module is electrically connected to the touch display panel and the transmission module. Second operation department connection The first operation unit is electrically connected to the control module. The second operating portion includes a flexible input display panel, and the flexible input display panel includes an input interface. The flexible input display panel is bendable so that the wearable touch device is adapted to be positioned around the body of the user, and the input interface is used to sense the touch and generate a second sensing signal. The control module is configured to receive and analyze the first sensing signal and the second sensing signal to control the wearable touch device to perform a corresponding operation or control the transmission module to send or receive a corresponding signal.

Another embodiment of the present invention provides a wearable touch device, further comprising an optical module disposed on a bottom side of the first operating portion and facing away from the touch display panel. The optical module is electrically connected to the control module, and is configured to send a displacement signal to the control module according to the displacement of the wearable touch device on a surface, and the control module is further configured to send a signal according to the displacement signal control transmission module. Shift by controlling one of the cursors on the display screen.

Another embodiment of the present invention provides a wearable touch device, wherein at least one of the touch display panel and the flexible input display panel displays at least one operation area, and the control module is further configured to be used according to at least one operation area. The touch state control transmission module sends a corresponding output signal.

Another embodiment of the present invention provides a wearable touch device, further comprising a wireless charging induction coil disposed in the second operating portion and electrically connected to the control module, wherein the wireless charging induction coil is used to wirelessly connect with one of the external The power supply module generates an electromagnetic induction effect to perform wireless charging on the wearable touch device.

The wearable touch device of the present invention comprises a first operating portion having a touch display panel and a second operating portion having a flexible input display panel, wherein the flexible input display panel is bendable to enable wearable touch The device is adapted to be positioned around the body of the user. Since the wearable touch device can be positioned on a body part of the user (for example, a wrist), it is small in size and convenient to wear, because This solves the problem in the prior art that a conventional external type input device such as a mouse or a keyboard is too bulky to carry. Further, the wearable touch device may further include an optical module, and at least one of the touch display panel and the flexible input display panel may display at least one operation area, so that the wearable touch device of the present invention has control Replace the mouse with the cursor, click on the object and display the function menu. Further, the second operation portion may display characters and/or button symbols for the user to perform a typing operation by the second operation portion instead of the keyboard. In addition, the wearable touch device of the present invention may further include a storage module for storing identity data, so that the wearable touch device of the present invention can be used to unlock an external electronic device such as a door electronic lock or a car electronic lock. Therefore, the user does not need to carry another door key or car key to increase the convenience of life.

10‧‧‧Electronic devices

11‧‧‧ cursor

12‧‧‧ function menu

14‧‧‧ display screen

50, 150, 250, 350, 850‧‧‧ wearable touch devices

52‧‧‧First Operation Department

521‧‧‧ bottom side

54‧‧‧Second Operations Department

855‧‧‧Induction coil

890‧‧‧Wireless Power Module

56‧‧‧Touch display panel

58‧‧‧Transmission module

60‧‧‧Control Module

62‧‧‧Flexible substrate

64‧‧‧Input interface

65‧‧‧Display components

66‧‧‧Optical module

68‧‧‧First pressable button

70‧‧‧Second pressure button

72‧‧‧Solid rolling parts

74‧‧‧First operating area

76‧‧‧Second operating area

78‧‧‧ Third operating area

80‧‧‧ storage module

540‧‧‧Flexible input display panel

FIG. 1 is a schematic diagram of a wearable touch device and an electronic device according to an embodiment of the invention.

FIG. 2 is a schematic side view of a wearable touch device according to an embodiment of the invention.

FIG. 3 is a schematic bottom view of the wearable touch device according to the embodiment of the present invention.

FIG. 4 is a functional block diagram of a wearable touch device according to an embodiment of the present invention.

FIG. 5 is a schematic diagram of a wearable touch device and an electronic device according to another embodiment of the present invention.

FIG. 6 is a schematic diagram of a wearable touch device and an electronic device according to another embodiment of the present invention.

FIG. 7 is a schematic diagram of a wearable touch device and an electronic device according to another embodiment of the present invention.

FIG. 8 is a schematic diagram of a wearable touch device and an external wireless power supply module according to another embodiment of the present invention.

Please refer to FIG. 1 to FIG. 4 . FIG. 1 is a schematic diagram of a wearable touch device and an electronic device according to an embodiment of the present invention. FIG. 2 is a side view of the wearable touch device, and FIG. A bottom view of the wearable touch device, and FIG. 4 is a functional block diagram of the wearable touch device and the electronic device. In this embodiment, the electronic device 10 can be a notebook computer, a smart phone, and a flat The wearable touch device 50 includes a first operating portion 52 and a second operating portion 54. The touch-operated touch device 50 can sense a touch input by the first operating portion 52 and the second operating portion 54 . The touch input is, for example, a single user in the first operating portion 52 and/or the second operating portion 54 . Or multiple touches and their movement modes. The first operation unit 52 includes a touch display panel 56 , a transmission module 58 , and a control module 60 . The touch display panel 56 is used to sense the touch input and generate a first sensing signal, and can display time, buttons or other operating function interfaces according to the user's operation. The touch display panel 56 can be a capacitive touch display panel that generates a capacitance change as a first sensing signal according to the touch or proximity of a conductive object such as a finger. The transmission module 58 is configured to send an output signal to the electronic device 10 or receive a signal from the electronic device 10. For example, the transmission module 58 can be a near field communication module (NFC module) using wireless transmission technology or A radio frequency module (RF module), or a universal serial interface (USB interface) or a high-definition multimedia interface (HDMI) using wired transmission technology, but is not limited thereto, as long as it can be external electronic Transmission techniques for transmitting or receiving signals between devices 10 are within the scope of the present invention. The control module 60 is electrically connected to the touch display panel 56, the transmission module 58, and the second operation unit 54. Control module 60 can include an integrated circuit and passive components. In this embodiment, the touch display panel 56 can have a rigid outer surface to protect the transmission module 58 and the control module 60. Since the transmission module 58 and the control module 60 are not easily bent and are prone to noise interference after being bent, the transmission module 58 and the control module 60 are disposed in the first operation portion 52 to prevent the performance from being affected and to provide better performance. Protection effect. For example, the touch display panel 56 can have a transparent cover plate, which refers to a hard plate having high mechanical strength to protect the covered components, or a flexible plastic film having high toughness. The transparent cover sheet may be selected from tempered glass, high hardness plastic, transparent ceramic substrate or alumina substrate (eg sapphire substrate). When the material of the transparent cover plate is plastic, it may be a single-layer plate or a composite layer plate, for example, methyl methacrylate (PMMA) and polycarbonate (PC) or polytheneamine. (Polyimide, PI) stacked double-layer composite board, wherein the plastic can also be selected from polyethylene terephthalate (PET), polypropylene (PP), polyethylene (polyethylene, PE), Cycloolefin polymer (COP). The tempered glass may be formed by chemical or physical strengthening of the glass. The thickness of the transparent cover sheet can be between 0.25 mm and 2 mm. The second operating portion 54 is coupled to the first operating portion 52 and includes a flexible input display panel 540. The flexible input display panel 540 can be bent and positioned around the user's body part to be worn on the user. For example, the flexible input display panel 540 can be used to surround the user's wrist or arm, and is a watch. Type touch device. At this time, the first operation portion 52 can serve as a watch head, and the second operation portion 54 can function as a watch band. In this embodiment, the flexible input display panel 540 can include an input interface 64 , a display component 65 , and a flexible substrate 62 , and the display component 65 is disposed between the input interface 64 and the flexible substrate 62 . The flexible substrate 62 may be made of an opaque material such as rubber, metal or leather, but is not limited thereto. The input interface 64 and the display element 65 are electrically connected to the control module 60. The input interface 64 is configured to sense a touch input and generate a second sensing signal. For example, the input interface 64 can be a flexible transparent capacitive touch panel that is touched or close to a conductive object such as a finger. A change in capacitance is produced as a second sensed signal. The input interface 64 can be attached to the display element 65, but the invention is not limited thereto. The input interface 64 can also be integrated into the display element 65 to form an in-cell touch display device. On the other hand, in an embodiment not shown, the flexible input display panel may include a printing layer, an input interface and a flexible substrate, the printing layer may be disposed on the input interface, and the input interface may be disposed on the flexible interface. A substrate in which the printed layer can carry text or images.

The control module 60 is configured to receive and analyze the first sensing signal and the second sensing signal to control the wearable touch device 50 to perform a corresponding operation, and further control the transmission module 58 and the electronic device 10 Send or receive signals between them. For example, the wearable touch device 50 can be used as a mouse device and/or a keyboard device. The wearable touch device 50 can further include an optical module 66 disposed on a bottom side 521 of the first operating portion 52 and facing away from the touch display panel 56, and The optical module 66 is electrically connected to the control module 60. The bottom side 521 is opposed to the display surface of the first operation portion 52. When the wearable touch device 50 moves up on a surface The optical module 66 can send a displacement signal to the control module 60 according to the displacement of the wearable touch device 50. For example, when the wearable touch device 50 moves to the upper right side on a desktop, the optical module 66 Detecting the displacement of the wearable touch device 50 to the upper right and transmitting the corresponding displacement signal to the control module 60, and then the control module 60 can be additionally used to control the transmission module 58 to send a signal according to the displacement signal to control the external One of the electronic devices 10 displays a cursor 11 on the screen 14 for shifting, so the cursor 11 moves from the lower left to the upper right as shown in FIG. In addition, as shown in FIG. 1 , the first operating portion 52 can further include a first pressure button 68 and a second pressure button 70 electrically connected to the control module 60 , and the control module 60 can The control module 58 is further configured to issue a corresponding output signal according to a state in which the first pressure-sensitive button 68 and/or the second pressure-sensitive button 70 are pressed. In this embodiment, the first operating portion 52 has opposite side edges connected to the second operating portion 54, and the first pressable button 68 and the second compressible button 70 are respectively disposed on the remaining opposite sides. On the side. In addition, the opposite sides of the first operating portion 52 that are not connected to the second operating portion 54 may be provided with a grip portion for the user to hold the wearable touch device 50 . For example, when the wearable touch device 50 is used as a mouse device, the first pressure button 68 can be used as the left button of the mouse device, and the second pressure button 70 can be used as the right button of the mouse device. Therefore, the user can determine the object selected by the cursor 11 on the display screen 14 by pressing the first pressure-sensitive button 68, and can display the function screen 14 by pressing the second pressure-sensitive button 70. 12.

In addition, the first operating portion 52 can further include a physical rolling member 72 electrically connected to the control module 60, and the control module 60 can be used to control the transmission module 58 to issue a volume according to the state in which the physical rolling member 72 is scrolled. The output signal of the display screen 14 is displayed. Furthermore, the display element 65 can display text and/or button symbols, such as English letters, phonetic transcriptions, numbers or other images. As shown in FIG. 1, the second operating portion 54 can be used as a keyboard device. When the user operates on the input interface 64 of the second operation unit 54, the control module 60 controls the transmission module 58 to transmit the corresponding output signal to the electronic device 10. In this embodiment, the power consumption of the display element 65 is lower than that of the touch display panel 56, such as an electrophoretic display panel, a chrome liquid crystal display panel (Ch LC Display), or A low-power display such as a display panel using a memory in pixel (MIP) technology is not limited (for example, the technology of this category can be referred to the SID Symposium Digest of Technical published in the 2010 Society For Information Display. An article in Papers, A Novel Multi-level Memory in Pixel Technology for Ultra Low Power LTPS TFT-LCD), and the control module 60 can control the display component 65 to turn off the display content or not change the displayed content, thereby saving power. The usage time of the wearable touch device 50 can be increased, but the display manner of the second operation portion 54 is not limited to this embodiment. In an embodiment not shown, the flexible input display panel can include an input interface and a flexible substrate printed with display content, that is, omitting the configuration of the display elements to extend the use of the wearable touch device. The purpose of time.

In addition, the first pressure-sensitive button 68, the second pressure-sensitive button 70, and the physical roller member 72 of the wearable touch device 50 are not limited to being implemented by a physical mechanism. Please refer to FIG. 5 , which is a schematic diagram of a wearable touch device 150 and an electronic device 10 according to another embodiment of the present invention. The difference between this embodiment and the foregoing embodiment is that the wearable touch device 150 of the present embodiment does not include the first pressure-sensitive button 68, the second pressure-sensitive button 70, and the physical roller member 72 of the foregoing embodiment. As shown in FIG. 5 , the touch display panel 56 of the first operating portion 52 can have a first operating area 74 and a second operating area 76 , and the control module 60 can be based on the first operating area 74 and/or the second The operation area 76 is sent by the touched state control transmission module 58 to output a corresponding output signal, that is, the first operation area 74 can be used as the left button of the mouse device, and the second operation area 76 can be used as the right button of the mouse device. In this embodiment, the touch display panel 56 can display the first operation area 74 and the second operation area 76 on a specific screen, for example, to display Indicates the first operation area 74, displayed Indicates the second operating zone 76, but is not limited thereto. In a modified embodiment, the control module 60 can cause the touch display panel 56 to divide the first operation area 74 and the second operation area 76 on the existing screen according to the operation instruction of the user, instead of indicating the first screen on the specific screen. The operation area 74 and the second operation area 76. As shown in FIG. 7 , the control module 60 can make the left side of the touch display panel 56 a first operation area 74 and the right side a second operation area 76 , and the first operation area 74 and the second operation area 76 do not affect the touch. The display content of the display panel 56 is controlled. In addition, the touch display panel 56 of the present embodiment may further have a third operation area 78, and the control module 60 may be additionally used to control the transmission module 58 to scroll according to the displacement of the user in the third operation area 78. The output signal of the screen 14 is displayed, so that the user can scroll the screen of the display screen 14 by sliding operation of the third operation area 78. In this embodiment, as shown in FIG. 5, the touch display panel 56 can display the position of the third operation area 78 in a roller pattern, but is not limited thereto. In a variant embodiment, as shown in FIG. 7 , the control module 60 of the wearable touch device 350 can cause the touch display panel 56 to divide the third operation area 78 according to the operation instruction of the user, instead of The specific screen represents the third operation area 78. For example, the control module 60 can make the left side of the touch display panel 56 a first operation area 74 and the right side a second operation area 76, and define a first between the first operation area 74 and the second operation area 76. The three operating areas 78, wherein the first operating area 74, the second operating area 76, and the third operating area 78 do not affect the display content of the touch display panel 56. In a variant embodiment, the control module 60 can also control the transmission module 58 to output the output signal of the scrolling display screen 14 according to the displacement mode of the multi-finger by multi-finger simultaneous contact with the touch display panel 56 and sliding displacement. There is no need to segment the third operating area 78. In addition, according to the displacement operation of the user across the first operation area 74 and the second operation area 76, the control module 60 can control the transmission module 58 to issue an output signal for switching the page of the display screen 14, but the invention is not limited thereto. It should be noted that the first operating area 74, the second operating area 76, and the third operating area 78 are not limited to being displayed on the touch display panel 56. In the present invention, the touch display panel 56 and the flexible input display panel 540 can define a first operating area 74, a second operating area 76, and a third operating area 78. For example, the first operating area 74 and the second operating area 76 are respectively located on the flexible input display panel 540 on both sides of the touch display panel 56 , and the third operating area 78 is located on the touch display panel 56 . Alternatively, the first operating area 74 and the second operating area 76 may be located to the left of the flexible input display panel 540, and the third operating area 78 may be located to the right of the flexible input display panel 540. Alternatively, as shown in FIG. 6, the first operation area 74 and the second operation area 76 may be located on the touch display panel 56, and the third operation area 78 may be located on the flexible input display panel 540.

Please refer to FIG. 6 , which is a wearable touch device according to another embodiment of the present invention. 250 and a schematic diagram of the electronic device 10. In this embodiment, the control module 60 is further configured to control the transmission module 58 to emit a signal to control the movement of the cursor 11 on the display screen 14 of the electronic device 10 according to the state in which the touch display panel 56 is touched. As shown in FIG. 6 , when the user moves the finger up on the touch display panel 56 , the control module 60 controls the transmission module 58 to send a signal according to the displacement signal sent by the touch display panel 56 to control the external control. The cursor 11 on the display screen 14 of the electronic device 10 is displaced, so the cursor 11 will likewise move from bottom to top. As shown in the foregoing embodiment, any of the touch display panel 56 and/or the display element 65 can arbitrarily define the first operating area 74, the second operating area 76, and the third operating area 78. In this embodiment, the first operating area 74 and the second operating area 76 are displayed on the touch display panel 56, and the third operating area 78 is displayed on the display element 65, and can also be set by means of a physical rolling element. On the flexible substrate 62. Further, the display element 65 can simultaneously display characters and/or symbols so that the second operation portion 54 can be used as a keyboard device.

Further, the control module 60 can detect the deformation and placement state of the wearable touch device 50, and thereby control the display content of the display elements of the second operation portion 54. For example, in the above embodiment, when the second operating portion 54 is leveled to place the wearable touch device 50 laterally, for example, when the wearable touch device 50 is laterally stretched and placed on the table, As shown in FIG. 1 , FIG. 5 and FIG. 6 , the control module 60 can control the display element of the second operation unit 54 to display the QWERTY keyboard; when the second operation unit 54 is bent, the wearable touch device 50 is configured. In a closed loop, for example, when the wearable touch device 50 is worn on the wrist of the user, the control module 60 can control the display elements of the second operating portion 54 to display a black screen, a white screen, a specific color screen, or a specific pattern screen. To provide a decorative effect of the second operating portion 54. On the other hand, in the embodiment of FIG. 3, the control module 60 can detect the deformation and placement state of the wearable touch device 50, thereby controlling the opening and closing of the optical module 66. For example, in the above embodiment, when the second operating portion 54 is leveled to place the wearable touch device 50 in a straight position, the control module 60 can control the power supply to supply power to the optical module 66. The optical module 66 can perform its function; when the second operating portion 54 is bent, the wearable touch device 50 constitutes a When the ring is closed, the control module 60 can control the power supply to power off the optical module 66 to turn off the function of the optical module 66 to save power loss.

Referring to FIG. 4, the wearable touch device 50 of the present invention may further include a storage module 80 for storing an identity data, such as an image, a text, a biometric or a code, etc., for example, The user can store their fingerprint features in the storage module 80. On the other hand, the electronic device 10 includes a storage unit, a comparison unit and a control unit, wherein the storage unit includes a database. The identity data can be stored in the storage module 80 through the transmission module 58 and the control module 60 by a host. Alternatively, the identity data can be directly burned into the storage module 80. When the user approaches the wearable touch device 50 to the electronic device 10, the control module 60 transmits the identity data stored in the storage module 80 to the electronic device 10 through the transmission module 58, and then the comparison unit of the electronic device 10. The identity data is compared with the database. When the identity data matches one of the data in the database, the control unit of the electronic device 10 will execute a preset command to the electronic device 10. For example, the electronic device 10 can be an electronic door lock. When the user approaches the wearable touch device 50 to the electronic device 10, the control module 60 transmits the fingerprint feature stored in the storage module 80 to the electronic device 10 through the transmission module 58, and then the comparison unit of the electronic device 10 The fingerprint feature is compared with the database. When the fingerprint feature matches one of the data in the database, the control unit of the electronic device 10 will unlock the electronic device 10. Further, when the second operating portion 54 is bent to make the wearable touch device 50 form a closed loop, for example, when the wearable touch device 50 is worn on the wrist of the user, the wearable touch device 50 can be turned on. The ability to send identity data. Therefore, the wearable touch device of the present invention can be used as a wireless remote control device in addition to being used as a mouse device and a keyboard device, thereby increasing convenience in life.

On the other hand, the transmission module 58 of the wearable touch device 50 of the present invention can also receive signals from the electronic device 10. For example, the host of the above embodiment may be the electronic device 10. Further, by receiving and analyzing the first sensing signal and the second sensing signal, the control module 60 can control the transmission module 58 to receive signals from the electronic device 10. For example, after the wearable touch device 50 and the electronic device 10 are paired, the page or the data currently displayed by the electronic device 10 may be displayed according to the user sliding up and down on the touch display panel 56 of the first operating portion 52. It is input to the wearable touch device 50 via the transmission module 58 for facilitating the transmission of information.

Please refer to FIG. 8. FIG. 8 is a schematic diagram of a wearable touch device 850 and an external wireless power supply module 890 according to another embodiment of the present invention. The wireless power supply module 890 is connected to a power source to generate a magnetic field. The wearable touch device 850 has a wireless charging induction coil 855 disposed in the second operating portion 54 and electrically connected to the control module 60. For example, the wireless charging induction coil 855 can be disposed on the flexible substrate 62, but The invention is not limited. Specifically, the wireless charging induction coil 855 can be located between the display element 65 and the flexible substrate 62, but the invention is not limited thereto. With the wireless charging induction coil 855, when the wearable touch device 850 approaches the external wireless power supply module 890, an electromagnetic induction effect occurs between the wireless charging induction coil 855 and the wireless power supply module 890, that is, the wireless charging induction coil 855 The magnetic field generated by the wireless power supply module 890 can be sensed to generate a current to perform wireless charging on the wearable touch device 850. The specification for performing wireless charging by the wearable touch device 850 described above may be in accordance with the industry's common Qi standard, PMA standard or A4 WP standard, or may be set by the user according to product specifications or customer requirements.

The wearable touch device of the present invention includes a first operation portion having a touch display panel and a second operation portion having a flexible input display panel. The flexible input display panel can be bent and wrapped around the user's body to be worn on the user. Further, the first operating portion may further include an optical module disposed on a bottom side of the first operating portion, so that the wearable touch device of the present invention can control the cursor on the display screen of the other electronic device to be displaced. The second operation unit can display characters or images, and the user can perform a typing operation by the second operation unit or input an instruction corresponding to the image, for example, by touching, so that the wearable touch device of the present invention can be used as a keyboard device. . Thereby, the wearable touch device can be worn on the wrist of the user and is convenient to carry, so that compared with the traditional mouse device or keyboard device solution It is a problem that is not easy to carry. In addition, the wearable touch device of the present invention may further include a storage module that can store identity data. Therefore, the wearable touch device of the present invention can be used to unlock an external electronic device such as a door electronic lock or a car electronic lock. Users do not need to carry another door key or car key to increase the convenience of life.

The above are only the preferred embodiments of the present invention, and all changes and modifications made to the scope of the present invention should be within the scope of the present invention.

10‧‧‧Electronic devices

11‧‧‧ cursor

12‧‧‧ function menu

14‧‧‧ display screen

50‧‧‧Wear-up touch device

52‧‧‧First Operation Department

54‧‧‧Second Operations Department

56‧‧‧Touch display panel

64‧‧‧Input interface

68‧‧‧First pressable button

70‧‧‧Second pressure button

72‧‧‧Solid rolling parts

Claims (14)

A wearable touch device includes: a first operation unit, comprising: a touch display panel, wherein the touch display panel is configured to sense a touch and generate a first sensing signal; and a transmission module is configured to: Transmitting or receiving a signal; and a control module electrically connected to the touch display panel and the transmission module; and a second operation portion connected to the first operation portion and electrically connected to the control The flexible operation display panel includes an input interface, and the flexible input display panel is bendable to make the wearable touch device suitable for use in the module. The input interface is configured to sense a touch and generate a second sensing signal, wherein the control module is configured to receive and analyze the first sensing signal and the body part The second sensing signal controls the wearable touch device to perform a corresponding operation or control the transmission module to send or receive a corresponding signal. The wearable touch device of claim 1, further comprising an optical module disposed on a bottom side of the first operating portion and facing away from the touch display panel, wherein the optical module is electrically connected to The control module is configured to emit a displacement signal to the control module according to the displacement of the wearable touch device on a surface, and the control module is further configured to control the transmission mode according to the displacement signal The group emits a signal to control one of the cursors on the display to shift. The wearable touch device of claim 2, wherein the control module is further configured to detect a deformation and a state of the wearable touch device, and the wearable touch is performed when the second operation portion is bent. When the device forms a closed loop, the control module cuts off the supply of power to the optical module. The wearable touch device of claim 1, wherein the first operating portion includes two opposite sides connected to the second operating portion, and at least one side not connected to the second operating portion, The first operating portion further includes at least one pressurizable button electrically connected to the control module and disposed at the at least one of the first operating portion not connected to the second operating portion a side edge, and the control module is further configured to control the transmission module to output a corresponding output signal according to a state in which the at least one pressure-sensitive button is touched. The wearable touch display device of claim 1, wherein the flexible input display panel further comprises a display component and a flexible substrate, the display component being disposed between the input interface and the flexible substrate. Moreover, the power consumption of the display element is lower than that of the touch display panel. The wearable touch device of claim 1, wherein the display element is an electrophoretic display panel, a chrome liquid crystal display panel (Ch LC Display), or a display panel using a memory in pixel (MIP) technology. The wearable touch device of claim 1, wherein the input interface is a flexible transparent capacitive touch panel. The wearable touch device of claim 1, wherein at least one of the touch display panel and the flexible input display panel displays at least one operation area, and the control module is further configured to operate according to the at least one operation The area is controlled by the state of the touch to control the transmission module to output a corresponding output signal. The wearable touch device of claim 1, wherein the first operating portion further comprises a physical rolling member electrically connected to the control module, and the control module is further configured to scroll according to the entity The state in which the piece is scrolled controls the transmission module to issue an output signal for scrolling a display screen. The wearable touch device of claim 1, wherein the transmission module is a near field communication module or a radio frequency module. The wearable touch device of claim 1 further includes a wireless charging induction coil disposed in the second operating portion and electrically connected to the control module, the wireless charging induction coil being used for one of the external The wireless power supply module generates an electromagnetic induction effect to perform wireless charging on the wearable touch device. The wearable touch device of claim 1, wherein the touch display panel has a transparent cover plate selected from the group consisting of a tempered glass, a transparent ceramic substrate, an alumina substrate, or a plastic composite layer. The wearable touch device of claim 1, wherein the control module is further configured to split at least one of the touch display panel and the flexible input display panel into at least two operation areas according to the touch. The wearable touch device of claim 1, wherein the control module is further configured to detect a deformation and a state of the wearable touch device, thereby controlling display content of the flexible input display panel.