CN106569549B - Display method and device based on liquid crystal touch screen - Google Patents

Abstract

The invention relates to the field of liquid crystal touch screens, in particular to a display method and device based on a liquid crystal touch screen. The display method based on the liquid crystal touch screen comprises the following steps: acquiring parameters detected by a six-axis sensor arranged on an annular liquid crystal touch screen; and controlling a preset display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display area is kept in a preset initial display direction. The display area can be intelligently controlled to be kept in the preset initial display direction no matter how the annular liquid crystal touch screen rotates. The display method of the liquid crystal touch screen is more intelligent and diversified, so that a user can conveniently and comfortably operate the liquid crystal touch screen.

Description

Display method and device based on liquid crystal touch screen

Technical Field

The invention relates to the field of liquid crystal touch screens, in particular to a display method and device based on a liquid crystal touch screen.

Background

There are many types of handheld electronic devices today, each of which utilizes some type of user interface. The user interface may include an output device in the form of a display, such as a Liquid Crystal Display (LCD), and one or more input devices that may be mechanically actuated (e.g., switches, buttons, keys, dials, joysticks, handles) or electronically activated (e.g., a touch pad or touch screen). The display may be configured to present visual information, such as text, multimedia data, and graphics, while the input device may be configured to perform operations such as issuing commands, making selections, or moving a cursor or selector in the electronic device.

For practical and aesthetic reasons, a touch screen with multi-touch capability is added on the basis of a liquid crystal screen to form the liquid crystal touch screen. The liquid crystal touch screen is an important means for information propagation, has become a mark for urban information modernization construction, and with the continuous progress of social economy and the continuous perfection of the display technology of the liquid crystal touch screen, people can more deeply recognize the liquid crystal touch screen and the application field of the liquid crystal touch screen is more and more extensive.

In the prior art, the liquid crystal touch screen is mainly a hard screen, and most of a human body is a non-flat area, so that the liquid crystal touch screen is designed to be attached to the human body which cannot be well worn, and the user experience is greatly reduced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the display method and device based on the liquid crystal touch screen can improve user experience.

In order to solve the technical problems, the invention adopts the technical scheme that:

a display method based on a liquid crystal touch screen comprises the following steps:

acquiring parameters detected by a six-axis sensor arranged on an annular liquid crystal touch screen; the liquid crystal touch screen comprises a real-time display area, and the real-time display area is smaller than an area used for displaying by the liquid crystal touch screen;

and controlling the display position of the real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in the preset display direction.

The invention adopts another technical scheme that:

a display device based on a liquid crystal touch screen comprises an annular liquid crystal touch screen; the liquid crystal touch screen is provided with a six-axis sensor and a controller which are connected with each other;

the six-axis sensor is used for acquiring parameters on the liquid crystal touch screen; the liquid crystal touch screen comprises a real-time display area, and the real-time display area is smaller than an area used for displaying by the liquid crystal touch screen;

the controller is used for controlling the display position of the real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in a preset display direction.

The invention has the beneficial effects that:

according to the display method and the display device of the liquid crystal touch screen, the display position of the real-time display area in the liquid crystal touch screen is controlled to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in the preset display direction, and the real-time display area can be intelligently controlled to be kept in the preset display direction no matter how the annular liquid crystal touch screen rotates. The display method and the display device of the liquid crystal touch screen are more intelligent and diversified, so that a user can conveniently and comfortably operate on the liquid crystal touch screen.

Drawings

FIG. 1 is a flowchart illustrating steps of a display method based on a liquid crystal touch screen according to the present invention;

fig. 2 is a schematic structural diagram of a display device based on a liquid crystal touch screen according to the present invention;

FIG. 3 is a schematic diagram illustrating a preset display direction of a display area on a liquid crystal touch panel according to the present invention;

FIG. 4 is a schematic diagram illustrating a display direction of a display area on a liquid crystal touch panel during a first rotation process according to the present invention;

FIG. 5 is a schematic diagram illustrating a display direction of a display area on a liquid crystal touch panel during a second rotation process according to the present invention;

description of reference numerals:

10. a six-axis sensor; 20. a controller;

1. a liquid crystal touch screen; 11. a sub liquid crystal touch screen; 12. and displaying the area in real time.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The most key concept of the invention is as follows: and controlling a preset display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display area is kept in a preset initial display direction.

Referring to fig. 1 to 5, a display method based on a liquid crystal touch screen provided by the present invention includes:

acquiring parameters detected by a six-axis sensor arranged on an annular liquid crystal touch screen; the liquid crystal touch screen comprises a real-time display area 12, wherein the real-time display area is smaller than an area used for displaying of the liquid crystal touch screen;

and controlling the display position of the real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in the preset display direction.

From the above description, the beneficial effects of the present invention are: the display method of the liquid crystal touch screen controls the display position of a real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in the preset display direction. No matter how the annular liquid crystal touch screen rotates, the real-time display area can be intelligently controlled to be kept in the preset display direction. The display method of the liquid crystal touch screen is more intelligent and diversified, so that a user can conveniently and comfortably operate the liquid crystal touch screen.

Further, before acquiring the parameters detected by the six-axis sensor arranged on the annular liquid crystal touch screen, the method further comprises the following steps:

presetting a real-time display area in the liquid crystal touch screen and an initial display direction of the real-time display area;

and displaying the displayed content in the real-time display area.

According to the description, the initial display direction of the real-time display area is self-defined by a user in advance, the direction can be set at will, and after the display direction is determined, the display area can be intelligently controlled to be kept in the preset display direction no matter how the annular liquid crystal touch screen rotates. The size of the real-time display area can be set at will, but the maximum width of the real-time display area is not larger than the width of the liquid crystal touch screen. The brightness and other parameters of the real-time display area can be preset.

Further, the method also comprises the following steps: will liquid crystal touch screen sets up on the telescopic bracelet, specifically does:

splicing more than two strip-shaped sub liquid crystal touch screens 11 which are separated from each other into a liquid crystal touch screen 1;

the sub liquid crystal touch screens 11 are sequentially arranged on the bracelet along the stretching direction of the bracelet;

and connecting wires for connecting the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens are arranged on the bracelet between the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, and the cross section of the connecting wires is arched and is perpendicular to the upper surface direction of the bracelet.

According to the above description, the liquid crystal touch screen is arranged on the telescopic bracelet, and the liquid crystal touch screen is matched with the bracelet for use. The liquid crystal touch screen comprises more than two sub liquid crystal touch screens which are separated from each other, a plurality of sub liquid crystal touch screens are combined and displayed, the sub liquid crystal touch screens are sequentially arranged on the bracelet along the stretching direction of the bracelet, the bracelet is worn on the wrist and can be stretched when passing through the palm, the bracelet is stretched at the moment, the sub liquid crystal touch screens are separated from each other, when the bracelet reaches the wrist, the sub liquid crystal touch screens recover the splicing state under the action of the restoring force of an elastic medium in the bracelet, the liquid crystal touch screens can have a certain bending degree and can be better attached to the wrist, then the connecting wires are arranged on the bracelet between the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, the cross section perpendicular to the upper surface direction of the bracelet is in an arch shape, wrinkles are arranged on the connecting wires, and when the bracelet is stretched, the connecting wires are changed into a straight line straightening state from the wrinkling state, and can not fall off due to wearing, and the normal use of the liquid crystal touch screens can be ensured.

The liquid crystal touch screen also comprises a splicing processor; and the sub liquid crystal touch screens 11 are respectively and electrically connected with the splicing processor. The splicing processor is connected with the sub liquid crystal touch screens, so that a picture can be divided into a plurality of picture data according to the number and the matrix array of the sub liquid crystal touch screens and respectively transmitted to the sub liquid crystal touch screens for display, and the picture can be displayed after the sub liquid crystal touch screens are spliced.

The length of the connecting lead of the liquid crystal touch screen is greater than or equal to the maximum stretching length of the bracelet corresponding to the connecting lead. The structure can ensure that the connecting lead is not broken due to the stretching of the bracelet, and further ensure the normal use of the liquid crystal touch screen.

Furthermore, weak magnets are arranged on the contact surfaces of the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, and the sub liquid crystal touch screens are spliced with the adjacent sub liquid crystal touch screens through the attraction force of the weak magnets.

According to the description, the opposite side faces of the two sub liquid crystal touch screens are provided with the weak magnets, so that the two sub liquid crystal touch screens can be spliced together under the weak attraction of the weak magnets and the restoring force of the bracelet, and the user experience is improved.

Furthermore, the contact surfaces of the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens are a first side wall and a second side wall respectively; a groove is formed in the first side wall, and first weak magnets are arranged on the inner side wall and the bottom surface of the groove; the second side wall is provided with a protrusion, the protrusion is matched with the groove, and the outer side wall and the top surface of the protrusion are both provided with second weak magnets which are mutually attracted with the first weak magnets.

It can be known from the above description that the bottom surface of the groove and the top surface of the protrusion are arranged oppositely, and because a certain included angle (i.e. a non-plane) exists between the two sub liquid crystal touch screens, the height of the protrusion protruding out of the second side wall is set to be 1mm-2mm, so that the gap between the two sub liquid crystal touch screens can be ensured to be as small as possible, and the protrusion is not easy to break due to long-term plugging.

The technical scheme of the invention aims at splicing the sub liquid crystal touch screen in the stretching direction of the bracelet, but the technical scheme of the invention is also suitable for splicing the sub liquid crystal touch screen in the direction vertical to the stretching direction of the bracelet, and the bracelet has certain elasticity in the direction vertical to the stretching direction, but the elasticity is slightly lower than that in the normal stretching direction, but the implementation of the technical scheme of the invention is not influenced. Therefore, the technical scheme of the invention can realize transverse screen splicing, longitudinal screen splicing or transverse and longitudinal screen splicing at the same time.

Referring to fig. 2, the present invention further provides a display device based on a liquid crystal touch screen, including an annular liquid crystal touch screen; the liquid crystal touch screen is provided with a six-axis sensor 10 and a controller 20 which are connected with each other;

the six-axis sensor 10 is used for acquiring parameters on the liquid crystal touch screen; the liquid crystal touch screen comprises a real-time display area, and the real-time display area is smaller than an area used for displaying by the liquid crystal touch screen;

the controller 20 is configured to control a display position of the real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that a display direction of the real-time display area is always kept in a preset display direction.

From the above description, the beneficial effects of the present invention are: according to the display device of the liquid crystal touch screen, the display position of the real-time display area in the liquid crystal touch screen is controlled to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in the preset display direction, and the real-time display area can be intelligently controlled to be kept in the preset display direction no matter how the annular liquid crystal touch screen rotates. The display device of the liquid crystal touch screen is more intelligent and diversified, so that a user can conveniently and comfortably operate on the liquid crystal touch screen.

The liquid crystal touch screen is arranged on the telescopic bracelet;

the liquid crystal touch screen comprises more than two strip-shaped sub liquid crystal touch screens which are separated from each other; the sub liquid crystal touch screens are sequentially arranged on the bracelet along the telescopic direction of the bracelet; a connecting lead is arranged between the sub liquid crystal touch screen and the adjacent sub liquid crystal touch screen; the connecting wires are arranged on the bracelet between the sub liquid crystal touch screen and the adjacent sub liquid crystal touch screen, and the cross section of the connecting wires is in an arch shape and is perpendicular to the upper surface of the bracelet.

According to the description, the liquid crystal touch screen is arranged on the telescopic bracelet, and the liquid crystal touch screen is matched with the bracelet for use. The liquid crystal touch screen comprises more than two sub liquid crystal touch screens which are separated from each other, a plurality of sub liquid crystal touch screens are combined and displayed, the sub liquid crystal touch screens are sequentially arranged on the bracelet along the stretching direction of the bracelet, the bracelet is worn on the wrist and can be stretched when passing through the palm, the bracelet is stretched at the moment, the sub liquid crystal touch screens are separated from each other, when the bracelet reaches the wrist, the sub liquid crystal touch screens recover the splicing state under the action of the restoring force of an elastic medium in the bracelet, the liquid crystal touch screens can have a certain bending degree and can be better attached to the wrist, then the connecting wires are arranged on the bracelet between the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, the cross section perpendicular to the upper surface direction of the bracelet is in an arch shape, wrinkles are arranged on the connecting wires, and when the bracelet is stretched, the connecting wires are changed into a straight line straightening state from the wrinkling state, and can not fall off due to wearing, and the normal use of the liquid crystal touch screens can be ensured.

Furthermore, weak magnets are arranged on contact surfaces of the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, and the sub liquid crystal touch screens are spliced with the adjacent sub liquid crystal touch screens through the weak magnets.

According to the description, the opposite side faces of the two sub liquid crystal touch screens are provided with the weak magnets, so that the two sub liquid crystal touch screens can be spliced together under the weak attraction of the weak magnets and the restoring force of the bracelet, and the user experience is improved.

Furthermore, the contact surfaces of the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens are respectively a first side wall and a second side wall; a groove is formed in the first side wall, and first weak magnets are arranged on the inner side wall and the bottom surface of the groove; the second side wall is provided with a protrusion, the protrusion is matched with the groove, and the outer side wall and the top surface of the protrusion are both provided with second weak magnets which are mutually attracted with the first weak magnets.

It can be known from the above description that the bottom surface of the groove and the top surface of the protrusion are arranged oppositely, and because a certain included angle (i.e. a non-plane) exists between the two sub liquid crystal touch screens, the height of the protrusion protruding out of the second side wall is set to be 1mm-2mm, so that the gap between the two sub liquid crystal touch screens can be ensured to be as small as possible, and the protrusion is not easy to break due to long-term plugging.

Referring to fig. 1-5, the first embodiment of the present invention is:

the invention provides a liquid crystal touch screen which is annular, more than two strip-shaped sub liquid crystal touch screens which are separated from each other are spliced into the liquid crystal touch screen, the liquid crystal touch screen is matched with the existing stretchable bracelet to be used, the sub liquid crystal touch screens are sequentially arranged on the bracelet along the stretching direction of the bracelet, and connecting wires for connecting the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens are arranged on the bracelet between the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, and the cross section of the connecting wires is arched in the direction vertical to the upper surface of the bracelet.

Because the bracelet is worn on the wrist, when wearing, the bracelet can be strutted when passing the palm, the bracelet is tensile state this moment, can alternate segregation between the sub-liquid crystal touch-sensitive screen, when the bracelet reachs the wrist, under the restoring force effect of the elastic medium in the bracelet, sub-liquid crystal touch-sensitive screen resumes the concatenation state, because liquid crystal touch-sensitive screen is that a plurality of sub-liquid crystal touch-sensitive screen are constituteed, can have certain flexion, better human wrist of laminating, then set up connecting wire on the bracelet that is located between sub-liquid crystal touch-sensitive screen and the adjacent sub-liquid crystal touch-sensitive screen and perpendicular to bracelet upper surface direction cross-section is the arch, consequently have the fold on the connecting wire, when the bracelet is tensile, connecting wire becomes straight line state from the fold state, consequently, connecting wire can not drop because of dressing, thereby can ensure liquid crystal touch-sensitive screen's normal use.

The liquid crystal touch screen also comprises a splicing processor; and the sub liquid crystal touch screens are respectively and electrically connected with the splicing processor. The splicing processor is connected with the sub liquid crystal touch screens, so that a picture can be divided into a plurality of picture data according to the number and the matrix array of the sub liquid crystal touch screens, and the picture data are respectively transmitted to the sub liquid crystal touch screens to be displayed, and the picture can be displayed after the sub liquid crystal touch screens are spliced.

The length of the connecting lead of the liquid crystal touch screen is greater than or equal to the maximum stretching length of the bracelet corresponding to the connecting lead. The structure can ensure that the connecting lead is not broken due to the stretching of the bracelet, and further ensure the normal use of the liquid crystal touch screen.

Weak magnets are arranged on the contact surfaces of the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, and the sub liquid crystal touch screens are spliced with the adjacent sub liquid crystal touch screens through the attraction force of the weak magnets. The opposite side surfaces of the two sub liquid crystal touch screens are provided with weak magnets, and the two sub liquid crystal touch screens can be spliced together under the weak attraction of the weak magnets and the restoring force of the bracelet, so that the user experience is improved.

The contact surfaces of the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens are respectively a first side wall and a second side wall; a groove is formed in the first side wall, and first weak magnets are arranged on the inner side wall and the bottom surface of the groove; the second side wall is provided with a protrusion, the protrusion is matched with the groove, and the outer side wall and the top face of the protrusion are both provided with second weak magnets which attract the first weak magnets. The bottom surface of the groove and the top surface of the protrusion are arranged oppositely, and a certain included angle (namely, a non-plane) exists between the two sub liquid crystal touch screens, so that the height of the protrusion protruding out of the second side wall is set to be 1mm-2mm, the gap between the two sub liquid crystal touch screens can be ensured to be as small as possible, and the protrusion is not easy to break due to long-term plugging.

The liquid crystal touch screen is provided with six-axis sensors, wherein the six-axis sensors are a three-axis accelerator and a three-axis gyroscope, and the three axes are X, Y and Z axes; the triaxial accelerator senses the acceleration in the axial directions of X, Y and Z (three directions of a three-dimensional space, front, back, left, right, up and down). The triaxial gyroscope is an omnidirectional dynamic sensor that senses Roll (left-right tilt), pitch (front-back tilt), and Yaw (left-right swing) respectively. In summary, a three-axis accelerometer is used to detect lateral acceleration, and a three-axis gyroscope is used to detect angular rotation and balance, and is collectively referred to as a six-axis sensor.

The invention provides a display method based on a liquid crystal touch screen, which comprises the following steps:

presetting a real-time display area in the liquid crystal touch screen and an initial display direction of the real-time display area;

displaying the displayed content in the real-time display area;

acquiring parameters detected by a six-axis sensor arranged on an annular liquid crystal touch screen; the liquid crystal touch screen comprises a real-time display area, and the real-time display area is smaller than an area used for displaying by the liquid crystal touch screen;

and controlling the display position of the real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in the preset display direction.

The preset display direction of the real-time display area is self-defined by a user in advance, the direction can be set at will, and after the display direction is determined, no matter how the annular liquid crystal touch screen rotates, the display direction of the real-time display area can be intelligently controlled to be always kept in the preset display direction. The size of the real-time display area can be set at will, but the maximum width of the real-time display area is not larger than the width of the liquid crystal touch screen. The brightness and other parameters of the real-time display area can be preset.

As shown in fig. 3 to 5, the bracelet rotates with the wrist, but the display position of the real-time display area 12 remains unchanged, wherein the display area in fig. 3 is a preset display direction. As can be seen from fig. 3 to 5, the real-time display area can be intelligently controlled to be maintained in the preset display direction no matter how the annular liquid crystal touch screen rotates. The display method of the liquid crystal touch screen is more intelligent and diversified, so that a user can conveniently and comfortably operate the liquid crystal touch screen.

In summary, according to the display method and the display device based on the liquid crystal touch screen provided by the invention, the display position of the real-time display area in the liquid crystal touch screen is controlled to move according to the acquired parameters detected by the six-axis sensors, so that the display direction of the real-time display area is always kept in the preset display direction, and the real-time display area can be intelligently controlled to be kept in the preset display direction no matter how the annular liquid crystal touch screen rotates. The display method and the display device of the liquid crystal touch screen are more intelligent and diversified, so that a user can conveniently and comfortably operate on the liquid crystal touch screen.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (7)

1. A display method based on a liquid crystal touch screen is characterized by comprising the following steps:

acquiring parameters detected by a six-axis sensor arranged on an annular liquid crystal touch screen; the liquid crystal touch screen comprises a real-time display area, and the real-time display area is smaller than an area used for displaying by the liquid crystal touch screen;

controlling the display position of a real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in a preset display direction;

further comprising the steps of: will liquid crystal touch screen sets up on the telescopic bracelet, specifically does:

splicing more than two strip-shaped sub liquid crystal touch screens which are separated from each other into a liquid crystal touch screen;

sequentially arranging the sub liquid crystal touch screens on the bracelet along the telescopic direction of the bracelet;

and connecting wires for connecting the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens are arranged on the bracelet positioned between the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, and the cross section of the connecting wires is in an arch shape and is vertical to the direction of the upper surface of the bracelet.

2. The display method based on the liquid crystal touch screen is characterized by further comprising the following steps before acquiring the parameters detected by the six-axis sensors arranged on the annular liquid crystal touch screen:

presetting a real-time display area in the liquid crystal touch screen and an initial display direction of the real-time display area;

and displaying the displayed content in the real-time display area.

3. The display method based on the liquid crystal touch screen is characterized in that weak magnets are arranged on the contact surfaces of the sub liquid crystal touch screens and the adjacent sub liquid crystal touch screens, and the sub liquid crystal touch screens are spliced with the adjacent sub liquid crystal touch screens through the attraction force of the weak magnets.

4. The display method based on the liquid crystal touch screen, according to claim 1, wherein the contact surfaces of the sub liquid crystal touch screen and the adjacent sub liquid crystal touch screen are a first side wall and a second side wall respectively; a groove is formed in the first side wall, and first weak magnets are arranged on the inner side wall and the bottom surface of the groove; the second side wall is provided with a protrusion, the protrusion is matched with the groove, and the outer side wall and the top surface of the protrusion are both provided with second weak magnets which are mutually attracted with the first weak magnets.

5. A display device based on a liquid crystal touch screen is characterized by comprising an annular liquid crystal touch screen; the liquid crystal touch screen is provided with a six-axis sensor and a controller which are connected with each other;

the six-axis sensor is used for acquiring parameters on the liquid crystal touch screen; the liquid crystal touch screen comprises a real-time display area, and the real-time display area is smaller than an area used for displaying by the liquid crystal touch screen;

the controller is used for controlling the display position of the real-time display area in the liquid crystal touch screen to move according to the acquired parameters detected by the six-axis sensor, so that the display direction of the real-time display area is always kept in a preset display direction;

the liquid crystal touch screen is arranged on the telescopic bracelet;

the liquid crystal touch screen comprises more than two strip-shaped sub liquid crystal touch screens which are separated from each other; the sub liquid crystal touch screens are sequentially arranged on the bracelet along the telescopic direction of the bracelet; a connecting lead is arranged between the sub liquid crystal touch screen and the adjacent sub liquid crystal touch screen; the connecting wires are arranged on the bracelet between the sub liquid crystal touch screen and the adjacent sub liquid crystal touch screen, and the cross section of the connecting wires is in an arch shape and is perpendicular to the upper surface of the bracelet.

6. The LCD touch screen-based display device of claim 5, wherein weak magnets are arranged on the contact surfaces of the sub LCD touch screens and the adjacent sub LCD touch screens, and the sub LCD touch screens are spliced with the adjacent sub LCD touch screens through the weak magnets.

7. The LCD touch screen-based display device of claim 5, wherein the contact surfaces of the sub LCD touch screen and the adjacent sub LCD touch screen are a first side wall and a second side wall respectively; a groove is formed in the first side wall, and first weak magnets are arranged on the inner side wall and the bottom surface of the groove; the second side wall is provided with a protrusion, the protrusion is matched with the groove, and the outer side wall and the top surface of the protrusion are both provided with second weak magnets which are mutually attracted with the first weak magnets.

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