CN215987084U - Novel notebook computer - Google Patents

Abstract

The disclosure relates to a novel notebook computer, which comprises at least one first touch screen and at least one splicing component, wherein at least one side edge of the first touch screen is provided with a first magnetic-type connector, and at least one side edge of the splicing component is provided with a second magnetic-type connector; the first touch screen is mechanically connected with the splicing component through the first magnetic type connector and the second magnetic type connector, and the first touch screen is electrically connected with the splicing component through the first magnetic type connector and the second magnetic type connector. Through the technical scheme disclosed by the invention, the notebook computer is not limited by the traditional connecting wire any more, and the first touch screen and the splicing component can be detached at will.

Description

Novel notebook computer

Technical Field

The present disclosure relates to the field of terminal technology, and in particular, to a novel notebook computer.

Background

The traditional notebook computer generally comprises a display part and an information input part, and due to structural limitation, connectors of the display part and the information input part need to be correspondingly electrically connected through connecting wires, so that the notebook computer can only turn over a large screen at most and cannot be freely disassembled and assembled.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problem or at least partially solve the above technical problem, the present disclosure provides a novel notebook computer, so that the notebook computer is no longer limited by the conventional connecting wire, and the first touch screen and the splicing component can be detached at will.

The embodiment of the present disclosure provides a novel notebook computer, including:

the touch screen comprises at least one first touch screen and at least one splicing component, wherein at least one side edge of the first touch screen is provided with a first magnetic-type connector, and at least one side edge of the splicing component is provided with a second magnetic-type connector;

the first touch screen is connected with the splicing component through the first magnetic type connector and the second magnetic type connector, and the first touch screen is connected with the splicing component through the first magnetic type connector and the second magnetic type connector.

Optionally, the splicing part is a keyboard and mouse splicing part, or the splicing part is a second touch screen.

Optionally, the adjacent both sides limit of first touch screen all is provided with formula connector is inhaled to first magnetism, the adjacent both sides limit of piecing together the part all is provided with formula connector is inhaled to the second magnetism.

Optionally, a first gravity sensor is integrated in the first touch screen, the first gravity sensor is configured to sense a rotation direction of the first touch screen, and the first touch screen adjusts its own display content according to the rotation direction.

Optionally, the splicing component is a second touch screen, a second gravity sensor is integrated in the second touch screen, the second gravity sensor is used for sensing a rotation direction of the second touch screen, and the second touch screen adjusts display content of the second touch screen according to the rotation direction.

Optionally, the splicing part is a keyboard and mouse splicing part;

a first touch control controller in the first touch control screen passes through a first flexible connecting line and the first magnetic type connector and the second magnetic type connector transmit electric signals to a main control board in the keyboard and mouse splicing part.

Optionally, the splicing component is a second touch screen;

a first main control board is arranged in the first touch screen, a second main control board is arranged in the second touch screen, a first touch controller in the first touch screen transmits electric signals to the first main control board through a first flexible connecting line, and a second touch controller in the second touch screen transmits electric signals to the second main control board through a second flexible connecting line; alternatively, the first and second electrodes may be,

a first main control board is arranged in the first touch screen, a first touch controller in the first touch screen transmits electric signals to the first main control board through a first flexible connecting line, and a second touch controller in the second touch screen transmits electric signals to the first main control board through a second flexible connecting line, the second magnetic type connector and the first magnetic type connector; alternatively, the first and second electrodes may be,

be provided with the second main control board in the second touch screen, first touch controller in the first touch screen through first flexible connecting line and first magnetism inhale the formula connector with the second magnetism inhale the formula connector to the second main control board transmission signal of telecommunication, second touch controller in the second touch screen passes through second flexible connecting line to second main control board transmission signal of telecommunication.

Optionally, the splicing part is a second touch screen, and the novel notebook computer further includes:

the power supply is respectively electrically connected with the voltage boosting component and the voltage stabilizing conversion component, the voltage boosting component is used for boosting a power supply signal output by the power supply and then outputting the power supply signal to the first touch screen and the second touch screen, and the voltage stabilizing conversion component is used for stably reducing the voltage of the power supply signal output by the power supply and then outputting the power supply signal to the first touch screen and the second touch screen.

Optionally, the splicing component is a second touch screen, and the first touch screen and the second touch screen are displayed in a split manner or in a synchronous manner.

Optionally, the splicing component is a second touch screen, and the first touch screen and/or the second touch screen are integrated with an off-screen camera.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

the embodiment of the present disclosure provides a novel notebook computer including at least one first touch screen and at least one splicing component, at least one side of the first touch screen is provided with a first magnetic type connector, at least one side of the splicing component is provided with a second magnetic type connector, the first touch screen is mechanically connected with the splicing component through the first magnetic type connector and the second magnetic type connector, and the first touch screen is electrically connected with the splicing component through the first magnetic type connector and the second magnetic type connector. From this, utilize magnetism to inhale the formula connector and realized first touch screen and spliced part's mechanical connection and electricity and be connected for notebook computer no longer receives the restriction of traditional connecting wire, and first touch screen and spliced part can be dismantled at will, and the design of magnetism to inhale the formula connector makes and is difficult for droing between first touch screen and the spliced part, connects the fastening.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a novel notebook computer according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of another novel notebook computer provided in the embodiment of the present disclosure;

fig. 3 is a schematic perspective view of a first touch screen according to an embodiment of the disclosure;

fig. 4 is a schematic perspective view of a splicing element according to an embodiment of the present disclosure;

fig. 5 is a schematic display diagram of a first touch screen according to an embodiment of the disclosure;

fig. 6 is a schematic circuit structure diagram of a novel notebook computer according to an embodiment of the present disclosure;

fig. 7 is a schematic display diagram of a novel notebook computer according to an embodiment of the present disclosure;

fig. 8 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure;

fig. 9 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure;

fig. 10 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure;

fig. 11 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure;

fig. 12 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that the embodiments and features of the embodiments of the present disclosure may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced in other ways than those described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.

Fig. 1 is a schematic structural diagram of a novel notebook computer provided in an embodiment of the present disclosure. As shown in fig. 1, the novel notebook computer includes at least one first touch screen 1 and at least one splicing component 2, fig. 1 exemplarily sets up the novel notebook computer to include one first touch screen 1 and one splicing component 2, the first touch screen 1 and the splicing component 2 in fig. 1 are in an expanded setting state, at least one side of the first touch screen 1 is provided with a first magnetic connector 3, and at least one side of the splicing component 2 is provided with a second magnetic connector 4.

First touch screen 1 is inhaled formula connector 3 and second through first magnetism and is inhaled formula connector 4 and splicing part 2 mechanical connection, and first touch screen 1 is inhaled formula connector 3 and second magnetism and is inhaled formula connector 4 and splicing part 2 electricity through first magnetism and be connected, as shown in figure 1, first touch screen 1 is inhaled formula connector 31 and splicing part 2 second magnetism of going up the avris through the first magnetism of downside and is inhaled formula connector 41 and realize being connected with splicing part 2's mechanical connection and electricity. Specifically, integrated magnet has among the first magnetism type connector 3, and the same integration has magnet among the second magnetism type connector 4, and when the downside of first touch screen 1 was close to with the higher authority side of concatenation part 2, the first magnetism type connector 3 is inhaled with the second magnetism type connector 4 and is relied on respective integrated magnet absorption together, and from this first touch screen 1 is inhaled formula connector 3 and second magnetism and is inhaled formula connector 4 and realize mechanical connection with concatenation part 2 through first magnetism.

Formula connector 3 is inhaled to first magnetism and formula connector 4 is inhaled to second magnetism all is provided with row needle or pogo pin, pogo pin is the pogo pin, first magnetism is inhaled formula connector 3 and is inhaled formula connector 4 absorption back together with the second magnetism, the row needle or the pogo pin electrical contact of the two, first touch screen 1 is inhaled formula connector 3 and second magnetism and is inhaled the transmission of signal of telecommunication between formula connector 4 in row needle or pogo pin realization and the concatenation part 2 through first magnetism, and then realize the notebook computer function. In addition, the first touch screen 1 has a display function and a touch output function, and a user inputs an external instruction through touching the first touch screen 1, and the first touch screen 1 can adjust corresponding display contents according to the external instruction input through touching the first touch screen.

From this, this disclosed embodiment utilizes magnetism to inhale formula connector to realize first touch screen and splicing part's mechanical connection and electricity and is connected for notebook computer no longer receives the restriction of traditional connecting wire, and first touch screen and splicing part can be dismantled at will, and the design of magnetism formula connector makes and is difficult for droing between first touch screen and the splicing part, connects the fastening.

Optionally, as shown in fig. 1, the splicing component 2 may be set as a second touch screen 6, that is, the novel notebook computer provided by the embodiment of the present disclosure is formed by splicing two touch screens, namely, a first touch screen 1 and a second touch screen 6, at least one side of the first touch screen 1 is provided with a first magnetic connector 3, at least one side of the second touch screen 6 is provided with a second magnetic connector 4, and the first touch screen 1 is mechanically and electrically connected to the second touch screen 6 through the first magnetic connector 3 and the second magnetic connector 4. Thus, when the splicing component 2 is the second touch screen 6, the user can use the dual screens to work, and can operate one of the screens or operate both screens simultaneously through touch gestures. Preferably, the first touch screen 1 and the second touch screen 6 are identical in shape and size, so that the portability and the aesthetic degree of the novel notebook computer are optimized when the first touch screen 1 and the second touch screen 6 are folded.

Optionally, as shown in fig. 1, when the splicing component 2 is the second touch screen 6, the first touch screen 1 and/or the second touch screen 6 may be integrated with a camera under the screen, that is, only the first touch screen 1 may be integrated with the camera 12 under the screen, or only the second touch screen 6 may be integrated with the camera under the screen, or both the first touch screen 1 and the second touch screen 6 may be integrated with the camera under the screen, so as to reduce the frame width of the first touch screen 1 and/or the second touch screen 6, which is beneficial to realizing full-screen display of the novel notebook computer.

Fig. 2 is a schematic structural diagram of another novel notebook computer provided in the embodiment of the present disclosure. Different from the novel notebook computer with the structure shown in fig. 1, the novel notebook computer with the structure shown in fig. 2 is provided with the splicing part 2 as the keyboard and mouse splicing part 5, namely, the splicing part 2 has a keyboard and mouse structure, the keyboard can be a common keyboard or a touch keyboard, and the mouse can be a touch mouse and can also be an external keyboard or a sliding mouse. Analogy figure 1, at least one side that can set up first touch screen 1 is provided with first magnetism and inhales formula connector 3, and at least one side of keyboard mouse splicing part 5 is provided with the second magnetism and inhales formula connector 4, and first touch screen 1 is inhaled formula connector 3 and second magnetism and is inhaled formula connector 4 through first magnetism and realize being connected with keyboard mouse splicing part 5's mechanical connection and electricity.

Therefore, when the splicing component 2 is the keyboard and mouse splicing component 5, a user can input corresponding instructions through a keyboard and a mouse, the first touch screen 1 can adjust displayed contents according to corresponding external input instructions through the first magnetic type connector 3 and the second magnetic type connector 4, the user can also input external instructions through touch on the first touch screen 1, and the first touch screen 1 can adjust displayed contents according to the external instructions input by the user through the touch screen. Preferably, the shape and size of the first touch screen 1 and the keyboard and mouse splicing part 5 are the same, so that the portability and the aesthetic degree of the novel notebook computer are optimized when the first touch screen 1 and the keyboard and mouse splicing part 5 are folded.

Fig. 3 is a schematic perspective view of a first touch screen according to an embodiment of the disclosure, and fig. 4 is a schematic perspective view of a splicing part according to an embodiment of the disclosure. With reference to fig. 3 and fig. 4, the adjacent two sides of the first touch screen 1 can be set to have the first magnetic connector 3, for example, the front side of the first touch screen 1 in fig. 3 is set to have the first magnetic connector 31, the right side of the first touch screen 1 is set to have the first magnetic connector 32, the adjacent two sides of the splicing part 2 are set to have the second magnetic connector 4, for example, the front side of the splicing part 2 in fig. 4 is set to have the second magnetic connector 41, and the right side of the splicing part 2 is set to have the second magnetic connector 42. Specifically, the first magnetic connector 31 of the first touch screen 1 and the second magnetic connector 41 of the splicing component 2 may be arranged to magnetically and electrically attach, or the first magnetic connector 32 of the first touch screen 1 and the second magnetic connector 42 of the splicing component 2 may be arranged to magnetically and electrically attach, for example, the second touch screen 6 in fig. 1 may be reversed to the side of the first touch screen 1 as indicated by the curved arrow of the dotted line in fig. 2. Of course, the docking member 2 may be a keyboard and mouse docking member 5 or may be a second touch screen 6 regardless of the manner in which the magnetic-type connector is magnetically attached and electrically connected.

Optionally, with reference to fig. 1 to 4, a first gravity sensor 7 may be integrated in the first touch screen 1, where the first gravity sensor 7 is configured to sense a rotation direction of the first touch screen 1, and the first touch screen 1 adjusts its own display content according to the rotation direction. Specifically, the first gravity sensor 7 is integrated in the first touch screen 1, the first gravity sensor 7 can sense a gravity change of the first touch screen 1 along a horizontal direction and a gravity change of the first touch screen 1 along a vertical direction, so as to determine whether the first touch screen 1 is in a horizontally placed state as shown in fig. 1 and 2 or in a vertically placed state as shown in fig. 5, and the first touch screen 1 adjusts its own display content according to its own placed state.

For example, the first touch screen 1 needs to display the english word shown in fig. 2, and when the first touch screen 1 is in the horizontal placement state shown in fig. 2, the first touch screen 1 needs to adjust the arrangement direction of the english word along the long side direction of the first touch screen 1. When the first touch screen 1 is in the vertical placement state shown in fig. 5, the first touch screen 1 needs to adjust the arrangement direction of the english language characters along the short side direction of the first touch screen 1, that is, no matter the first touch screen 1 is in the horizontal placement state shown in fig. 1 and fig. 2 or in the vertical placement state shown in fig. 5, the first touch screen 1 will adjust the display content of the first touch screen 1 to be displayed in the forward direction relative to the viewing user, so that the user can view the display content, that is, to display the same english language characters, the first touch screen 1 shown in fig. 5 needs to rotate the display content of the first touch screen 1 shown in fig. 1 by 90 °.

Optionally, with reference to fig. 1 to 5, when the splicing part 2 is the second touch screen 6, a second gravity sensor 8 may be integrated in the second touch screen 6, where the second gravity sensor 8 is used for sensing a rotation direction of the second touch screen 6, and the second touch screen 6 adjusts its own display content according to the rotation direction. Specifically, the second gravity sensor 8 is integrated in the second touch screen 6, the second gravity sensor 8 can sense the gravity change of the second touch screen 6 along the horizontal direction and the gravity change of the second touch screen 6 along the vertical direction, and then determine whether the second touch screen 6 is similar to the first touch screen 1 in the horizontal placement state shown in fig. 1 and 2 or similar to the first touch screen 1 in the vertical placement state shown in fig. 5, and the second touch screen 6 adjusts its own display content according to its own placement state.

Similarly, similar to the first touch screen 1 shown in fig. 2 and 5, if the second touch screen 6 wants to display the english word shown in fig. 2, when the second touch screen 6 is in the horizontal placement state, the second touch screen 6 needs to adjust the arrangement direction of the english word along the long side direction of the second touch screen 6. When the second touch screen 6 is in the vertical placement state, the second touch screen 6 needs to adjust the arrangement direction of the english characters along the short side direction of the second touch screen 6, that is, no matter the second touch screen 6 is in the horizontal placement state or in the vertical placement state, the second touch screen 6 can adjust the display content of the second touch screen to display in the forward direction relative to the viewing user, so that the user can view the second touch screen conveniently.

Optionally, when the splicing part 2 is the keyboard and mouse splicing part 5 as shown in fig. 2, with reference to fig. 1 and 2, the first touch controller 13 in the first touch screen 1 transmits an electrical signal to the main control board in the keyboard and mouse splicing part 5 through the first flexible connecting line 14 and the first and second magnetic connectors 3 and 4. Specifically, the first touch controller 13 is configured to receive an external instruction generated by a user touching the first touch screen 1, and adjust the display content of the first touch screen 1 according to the external instruction. When the splicing component 2 is the keyboard and mouse splicing component 5, the display content of the first touch screen 1 is controlled by the main control board in the keyboard and mouse splicing component 5, that is, the display content of the first touch screen 1 is affected by an external instruction input by the user through the keyboard and mouse splicing component 5 and an external instruction output by touching the first touch screen 1, so that the main control board in the keyboard and mouse splicing component 5 needs to know the touch information sensed by the first touch controller 13.

The embodiment of the present disclosure sets up when splicing part 2 is keyboard mouse splicing part 5, first touch controller 13 in first touch screen 1 inhales formula connector 3 and second magnetism through first flexible connecting line 14 and first magnetism and inhales formula connector 4 to the main control board transmission signal of keyboard mouse splicing part 5, first flexible connecting line 14 is inhaled formula connector 3 electricity with first touch controller 13 and first magnetism respectively and is connected, first magnetism is inhaled formula connector 3 and is inhaled formula connector 4 electricity with the second magnetism again and be connected, main control board in the keyboard mouse splicing part can loop through second magnetism and inhale formula connector 4, first magnetism is inhaled formula connector 3 and first flexible connecting line 14 and is known the touch-control information that first touch controller 13 perception arrived, and then realized first touch screen 1's normal display function. The first Flexible connecting line 14 may be any one of an FFC (Flexible Flat Cable), an FPC (Flexible Printed Circuit), and a Coaxial Cable, which is not particularly limited in the embodiment of the present disclosure.

Optionally, when the splicing component 2 is the second touch screen 6, it may be arranged that a first main control board is disposed in the first touch screen 1, a second main control board is disposed in the second touch screen 6, the first touch controller 13 in the first touch screen 1 transmits an electrical signal to the first main control board through the first flexible connecting line 14, and the second touch controller 15 in the second touch screen 6 transmits an electrical signal to the second main control board through the second flexible connecting line 16.

Specifically, the second touch controller 15 is configured to receive an external instruction generated by a user touching the second touch screen 6, and adjust the display content of the second touch screen 6 according to the external instruction. When the splicing component 2 is the second touch screen 6 and the first touch screen 1 and the second touch screen 6 both include the main control board, the display content of the first touch screen 1 is controlled by the first main control board, and the display content of the second touch screen 6 is controlled by the second main control board, so that the first main control board needs to know the touch information sensed by the first touch controller 13, and the second main control board needs to know the touch information sensed by the second touch controller 15.

When the splicing component 2 is the second touch screen 6, the first touch controller 13 in the first touch screen 1 transmits an electric signal to the first main control board through the first flexible connecting line 14, and the second touch controller 15 in the second touch screen 6 transmits an electric signal to the second main control board through the second flexible connecting line 16, so that the first main control board can know the touch information sensed by the first touch controller 13, and the second main control board can know the touch information sensed by the second touch controller 15, thereby realizing the normal display function of the first touch screen 1 and the second touch screen 6. Illustratively, the first flexible connecting line 14 may be any one of an FFC, an FPC, and a coax, and the second flexible connecting line 16 may be any one of an FFC, an FPC, and a coax, which is not particularly limited in the embodiments of the present disclosure.

When the splicing component 2 is the second touch screen 6, it may also be arranged that the first touch screen 1 is provided with a first main control board, the first touch controller 13 in the first touch screen 1 transmits an electric signal to the first main control board through the first flexible connecting line 14, and the second touch controller 15 in the second touch screen 6 transmits an electric signal to the first main control board through the second flexible connecting line 16, the second magnetic connector 4 and the first magnetic connector 3.

Specifically, when the splicing component 2 is the second touch screen 6 and only the first touch screen 1 includes the main control board, the display content of the first touch screen 1 is controlled by the first main control board, and the display content of the second touch screen 6 is also controlled by the first main control board, so that the first main control board needs to know the touch information sensed by the first touch controller 13, and the first main control board needs to know the touch information sensed by the second touch controller 15.

When the splicing component 2 is set as the second touch screen 6 in the disclosed embodiment, a first main control board is arranged in the first touch screen 1, the first touch controller 13 in the first touch screen 1 transmits electric signals to the first main control board through the first flexible connecting line 14, the second touch controller 15 in the second touch screen 6 transmits electric signals to the first main control board through the second flexible connecting line 16 and the second magnetic-type connector 4, and the first magnetic-type connector 3, so that the first main control board can acquire touch information sensed by the first touch controller 13, the second flexible connecting line 16 is respectively electrically connected with the second touch controller 15 and the second magnetic-type connector 4, the second magnetic-type connector 4 is electrically connected with the first magnetic-type connector 3, the first touch screen can acquire touch information sensed by the first magnetic-type connector 3, the second magnetic-type connector 4, and the second flexible connecting line 16 sequentially, and the normal display function of the first touch screen 1 and the second touch screen 6 is realized. Illustratively, the first flexible connecting line 14 may be any one of an FFC, an FPC, and a coax, and the second flexible connecting line 16 may be any one of an FFC, an FPC, and a coax, which is not particularly limited in the embodiments of the present disclosure.

As shown in fig. 1, when the splicing component 2 is the second touch screen 6, a second main control board 17 may be disposed in the second touch screen 6, the first touch controller 13 in the first touch screen 1 transmits an electrical signal to the second main control board 17 through the first flexible connecting line 14, the first magnetic connector 3 and the second magnetic connector 4, and the second touch controller 15 in the second touch screen 6 transmits an electrical signal to the second main control board 17 through the second flexible connecting line 16.

Specifically, when the splicing component 2 is the second touch screen 6 and only the second touch screen 6 includes the main control board, the display content of the first touch screen 1 is controlled by the second main control board 17, and the display content of the second touch screen 6 is also controlled by the second main control board 17, so that the second main control board 17 needs to know the touch information sensed by the first touch controller 13, and the second main control board 17 needs to know the touch information sensed by the second touch controller 15.

When the splicing component 2 is arranged as the second touch screen 6 and the second main control board 17 is arranged in the second touch screen 6, the first touch controller 13 in the first touch screen 1 transmits an electric signal to the second main control board 17 through the first flexible connecting wire 14 and the first magnetic type connector 3 and the second magnetic type connector 4, the second touch controller 15 in the second touch screen 6 transmits an electric signal to the second main control board 17 through the second flexible connecting wire 16, so that the second main control board can acquire the touch information sensed by the second touch controller 15, the first flexible connecting wire 14 is respectively electrically connected with the first touch controller 13 and the first magnetic type connector 3, the first magnetic type connector 3 is electrically connected with the second magnetic type connector 4, the second main control board 17 can acquire the touch information sensed by the first touch controller 13 through the second magnetic type connector 4, the first magnetic type connector 3 and the first flexible connecting wire 14, and the normal display function of the first touch screen 1 and the second touch screen 6 is realized. Illustratively, the first flexible connecting line 14 may be any one of an FFC, an FPC, and a coax, and the second flexible connecting line 16 may be any one of an FFC, an FPC, and a coax, which is not particularly limited in the embodiments of the present disclosure.

Fig. 6 is a schematic circuit structure diagram of a novel notebook computer according to an embodiment of the present disclosure. With reference to fig. 1 to fig. 6, when the splicing component 2 is the second touch screen 6, the novel notebook computer may further include a power supply 9, a voltage boosting component 10 and a voltage stabilizing conversion component 11, the power supply 9 is electrically connected to the voltage boosting component 10 and the voltage stabilizing conversion component 11, the voltage boosting component 10 is configured to boost a power supply signal output by the power supply 9 and output the boosted power supply signal to the first touch screen 1 and the second touch screen 6, and the voltage stabilizing conversion component 11 is configured to stably step down the power supply signal output by the power supply 9 and output the boosted power supply signal to the first touch screen 1 and the second touch screen 6.

Specifically, the power supply 9 may be, for example, a direct current power supply, and the voltage of the output power signal thereof may be, for example, 12V, the boosting unit 10 boosts the 12V power signal and outputs the boosted power signal to the first touch screen 1 and the second touch screen 6, the voltage of the boosted power signal may be, for example, 20V, the voltage stabilizing and converting unit 11 stably steps down the 12V power signal and outputs the stepped down power signal to the first touch screen 1 and the second touch screen 6, and the voltage stabilizing unit may include, for example, a LDO (Low Dropout Regulator), and the voltage of the stepped down power signal may be, for example, 5V, 20V power signal and 5V power signal, and supplies power to different circuits in the first touch screen 1 and different circuits in the second touch screen 6. For example, the main control board 18 in fig. 6 may be integrated in the first touch screen 1, or may be integrated in the second touch screen 6.

Optionally, when the splicing component 2 is the second touch screen 6, the first touch screen 1 and the second touch screen 6 may be set to be displayed in a split manner or in a synchronous manner. Fig. 7 is a schematic display diagram of a novel notebook computer provided in the embodiment of the present disclosure, fig. 8 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure, and fig. 9 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure. With reference to fig. 7 to fig. 9, the first touch screen 1 may be configured to display a part of content, the second touch screen 6 may be configured to display a part of content, and the display content of the first touch screen 1 and the display content of the second touch screen 6 are spliced to form a display content with a complete meaning. Fig. 10 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure, and fig. 11 is a schematic display diagram of another novel notebook computer provided in the embodiment of the present disclosure. With reference to fig. 10 and fig. 11, the display content of the first touch screen 1 and the display content of the second touch screen 6 may be set to be completely consistent, so that the first touch screen 1 and the second touch screen 6 are synchronously displayed. With reference to fig. 7 to 11, the first touch screen 1 and the second touch screen 6 may automatically adjust their display contents according to whether they are split-display or synchronous display, their respective placement directions, and their splicing relationship. In addition, the shapes and sizes of the first and second touch screens 6 are preferably set to be identical, so as to optimize the display effect when the first and second touch screens 1 and 6 are tiled for display.

Fig. 12 is a schematic display diagram of another novel notebook computer according to the present disclosure, as shown in fig. 12, the first touch screen 1 or the second touch screen 6 may also be removed. The single touch screen can be changed into a single tablet computer for use.

This disclosed embodiment utilizes magnetism to inhale formula connector to realize the mechanical connection and the electricity of first touch screen and concatenation part for notebook computer no longer receives the restriction of traditional connecting wire, and first touch screen and concatenation part can be dismantled at will, and the design of magnetism formula connector makes and is difficult for droing between first touch screen and the concatenation part, connects the fastening. In addition, the novel notebook computer provided by the embodiment of the disclosure has the advantages of higher performance and efficiency compared with a tablet computer, and has the advantage of convenience in carrying compared with All in one, namely, an All-in-one computer.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A novel notebook computer, comprising:

the touch screen comprises at least one first touch screen and at least one splicing component, wherein at least one side edge of the first touch screen is provided with a first magnetic-type connector, and at least one side edge of the splicing component is provided with a second magnetic-type connector;

the first touch screen is connected with the splicing component through the first magnetic type connector and the second magnetic type connector, and the first touch screen is connected with the splicing component through the first magnetic type connector and the second magnetic type connector.

2. The novel notebook computer of claim 1, wherein the splicing component is a keyboard and mouse splicing component, or the splicing component is a second touch screen.

3. The novel notebook computer of claim 1, wherein the first magnetic connectors are disposed on two adjacent sides of the first touch screen, and the second magnetic connectors are disposed on two adjacent sides of the splicing part.

4. The novel notebook computer as claimed in claim 1, wherein a first gravity sensor is integrated in the first touch screen, the first gravity sensor is used for sensing a rotation direction of the first touch screen, and the first touch screen adjusts its own display content according to the rotation direction.

5. The novel notebook computer of claim 4, wherein the splicing component is a second touch screen, a second gravity sensor is integrated in the second touch screen, the second gravity sensor is used for sensing a rotation direction of the second touch screen, and the second touch screen adjusts its own display content according to the rotation direction.

6. The novel notebook computer of claim 2, wherein the mating component is a keyboard and mouse mating component;

a first touch control controller in the first touch control screen passes through a first flexible connecting line and the first magnetic type connector and the second magnetic type connector transmit electric signals to a main control board in the keyboard and mouse splicing part.

7. The novel notebook computer of claim 2, wherein the splicing component is a second touch screen;

a first main control board is arranged in the first touch screen, a second main control board is arranged in the second touch screen, a first touch controller in the first touch screen transmits electric signals to the first main control board through a first flexible connecting line, and a second touch controller in the second touch screen transmits electric signals to the second main control board through a second flexible connecting line; alternatively, the first and second electrodes may be,

a first main control board is arranged in the first touch screen, a first touch controller in the first touch screen transmits electric signals to the first main control board through a first flexible connecting line, and a second touch controller in the second touch screen transmits electric signals to the first main control board through a second flexible connecting line, the second magnetic type connector and the first magnetic type connector; alternatively, the first and second electrodes may be,

be provided with the second main control board in the second touch screen, first touch controller in the first touch screen through first flexible connecting line and first magnetism inhale the formula connector with the second magnetism inhale the formula connector to the second main control board transmission signal of telecommunication, second touch controller in the second touch screen passes through second flexible connecting line to second main control board transmission signal of telecommunication.

8. The novel notebook computer of claim 2, wherein the splicing component is a second touch screen, the novel notebook computer further comprising:

the power supply is respectively electrically connected with the voltage boosting component and the voltage stabilizing conversion component, the voltage boosting component is used for boosting a power supply signal output by the power supply and then outputting the power supply signal to the first touch screen and the second touch screen, and the voltage stabilizing conversion component is used for stably reducing the voltage of the power supply signal output by the power supply and then outputting the power supply signal to the first touch screen and the second touch screen.

9. The novel notebook computer of claim 2, wherein the splicing component is a second touch screen, and the first touch screen and the second touch screen are displayed in a split manner or in a synchronous manner.

10. The novel notebook computer of claim 2, wherein the splicing component is a second touch screen, and the first touch screen and/or the second touch screen is integrated with an off-screen camera.

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