Keyboard structure
By assembling the first and second components, the keyboard structure can be freely transformed into a planar or three-dimensional form, solving the problem of the single function of separate keyboards and improving the user's operating comfort and functional diversity.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- SILITEK ELECTRONICS (DONGGUAN) CO LTD
- Filing Date
- 2024-12-31
- Publication Date
- 2026-06-30
AI Technical Summary
Existing split keyboards have limited functionality, restrict user usage, and lack versatility.
A keyboard structure is provided that can be freely transformed into a planar keyboard or a three-dimensional keyboard by assembling the first component and the second component. The components are mated and fixed by using assembly slopes and assembly structures such as protrusions, grooves, and magnetic parts, and multiple assembly methods are supported to adapt to different usage needs.
It achieves multi-functionality in keyboard structure, which can be adjusted to a flat or three-dimensional keyboard according to user needs, improving user comfort and functional versatility.
Smart Images

Figure CN122308624A_ABST
Abstract
Description
Technical Field
[0001] This application relates to the technical field of keyboards, and more particularly to a keyboard structure. Background Technology
[0002] Most keyboards have a fixed structure and shape, with a fixed size and form factor. Generally, keyboards are divided into two types: one-piece keyboards and split keyboards. The main difference in one-piece keyboards lies in the arrangement of the keys, allowing them to be positioned to match the fingers, so that the user's hands are in the most suitable position for signal output. Split keyboards, on the other hand, are disassembled into two halves for easy disassembly and storage. When in use, the two halves of a split keyboard are combined to form a single keyboard; the rest of the structure remains largely unchanged. Currently, split keyboards are too restrictive in practical use, offering only simple functionality and easy storage without any other special benefits. Summary of the Invention
[0003] This application provides a keyboard structure that can be freely transformed into a planar keyboard or a three-dimensional keyboard through the assembly method of the first component and the second component, which can solve the problem of the limited functionality of conventional split keyboard structures.
[0004] To solve the above-mentioned technical problems, this application is implemented as follows: A keyboard structure is provided, comprising: a first component and a second component. The first component has a first body, the first body having a first assembly slope and a first bottom surface, the first assembly slope having a first included angle relative to the first bottom surface. The second component has a second body, the second body having a second assembly slope, a second bottom surface, and a second top surface. The second assembly slope is located between the second bottom surface and the second top surface, the second assembly slope having a second included angle relative to the second bottom surface, the first included angle being greater than the second included angle, and the second assembly slope having a third included angle relative to the second top surface, the first included angle being equal to the third included angle. Wherein the first assembly slope and the second assembly slope are fitted together and assembled, and the first included angle and the second included angle are adjacent, the first bottom surface and the second bottom surface form a planar keyboard with a flat bottom surface; or the first included angle and the third included angle are adjacent, the first bottom surface and the second top surface form a three-dimensional keyboard with an included angle bottom surface.
[0005] In one embodiment, the first assembly ramp has a first assembly structure, the second assembly ramp has a second assembly structure, and the first assembly structure is assembled with respect to the second assembly structure.
[0006] In one embodiment, the first assembly structure includes a bump, and the second assembly structure includes a groove, the bump fitting into the groove.
[0007] In one embodiment, the first assembly structure includes a first magnetic element, and the second assembly structure includes a second magnetic element, wherein the first magnetic element and the second magnetic element are attracted and fixed to each other.
[0008] In one embodiment, the first assembly structure includes a protrusion and a first magnetic element, the first magnetic element being disposed on the surface of the protrusion; the second assembly structure includes a groove and a second magnetic element, the second magnetic element being disposed on the bottom surface of the groove; the protrusion is fitted into the groove; and the first magnetic element and the second magnetic element are attracted and fixed to each other.
[0009] In one embodiment, the first assembly structure includes a linear bump extending along the first assembly ramp, and the second assembly structure includes a linear channel extending along the second assembly ramp, with at least one end of the linear channel having an opening, and the linear bump being fitted into the linear channel by the opening.
[0010] In one embodiment, the first assembly structure further includes a limiting protrusion that extends laterally from the linear protrusion, and the second assembly structure further includes a limiting recess located on the inner sidewall of the linear channel, wherein the limiting protrusion is fitted into the limiting recess.
[0011] In one embodiment, the first component includes a first control group and a first circuit board, the first body further having a first top surface, the first top surface being the other surface opposite to the first bottom surface, the first circuit board being disposed within the first body, the first control group being disposed on the first top surface and / or the first bottom surface, the first control group being electrically connected to the first circuit board, the second component including a second control group, a third control group and a second circuit board, the second circuit board being disposed within the second body, the second control group being disposed on the second top surface and / or the second bottom surface, the second control group being electrically connected to the second circuit board.
[0012] In one embodiment, the first control group and the second control group are a plurality of buttons and / or a touch panel.
[0013] In one embodiment, the first component further includes a first gasket and at least one first pad, the first gasket being disposed on the side of the first body away from the first assembly ramp, and the first pad being disposed on the first bottom surface and the first top surface of the first body adjacent to the first assembly ramp. The second component further includes a second gasket and at least one second pad, the second gasket being disposed on the side of the second body away from the second assembly ramp, and the second pad being disposed on the second bottom surface and the second top surface of the second body adjacent to the second assembly ramp.
[0014] In one embodiment, the first assembly ramp has a first electrical connector, the second assembly ramp has a second electrical connector, and the first electrical connector is electrically connected to the second electrical connector.
[0015] In one embodiment, the first body has a first electrical connector on one side, and the second body has a second electrical connector on one side, the first electrical connector and the second electrical connector being connected by the two ends of an electrical connection wire.
[0016] In one embodiment, the first component includes a first signal group, the second component includes a second signal group, the first signal group and the second signal group are interconnected, and the first signal group and the second signal group are input to an electronic device in parallel.
[0017] In one embodiment, the first component includes a first signal group, and the second component includes a second signal group, wherein the first signal group and the second signal group respectively transmit signals to the electronic device.
[0018] This application provides a keyboard structure that can be freely transformed into a planar keyboard or a three-dimensional keyboard through the assembly method of a first component and a second component. The assembly slopes of the first component and the second component are assembled together, and the assembly slopes between the first and second components are fitted together. Users can adjust the keyboard to either a planar or three-dimensional keyboard for typing as needed, thus allowing the keyboard to be adjusted to a more comfortable typing angle. Attached Figure Description
[0019] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings: Figure 1 This is a perspective view of the planar keyboard structure according to the first embodiment of this application; Figure 2 yes Figure 1 A sectional view of line A-A'; Figure 3 This is an exploded view of the planar keyboard structure according to the first embodiment of this application; Figure 4 This is a perspective view of the three-dimensional keyboard structure according to the first embodiment of this application; Figure 5 yes Figure 4 A cross-sectional view of line B-B'; Figure 6 This is an exploded view of the three-dimensional keyboard structure according to the first embodiment of this application; Figure 7 This is a perspective view of the planar keyboard structure according to the second embodiment of this application; Figure 8 yes Figure 7 A cross-sectional view of the C-C' line; Figure 9 This is an exploded view of the planar keyboard structure according to the second embodiment of this application; Figure 10 This is a perspective view of the three-dimensional keyboard structure according to the second embodiment of this application; Figure 11 yes Figure 10 A cross-sectional view of the D-D' line; Figure 12 This is an exploded view of the three-dimensional keyboard structure according to the second embodiment of this application; Figure 13 This is a schematic diagram of the planar keyboard structure according to the third embodiment of this application; Figure 14 This is a schematic diagram of the planar keyboard structure according to the fourth embodiment of this application; Figure 15 This is a schematic diagram of the planar keyboard structure according to the fifth embodiment of this application; and Figure 16 This is a schematic diagram of the planar keyboard structure according to the sixth embodiment of this application.
[0020] The following description, in conjunction with the attached drawings, illustrates the following: 1: Keyboard structure; 11, 11A, 11B, 11C, 11D: First component; 111: First body; 112: First assembly slope; 1121: First assembly structure; 1122: Protrusion; 1123: First magnetic component; 1124: First electrical connector; 1126: Linear protrusion; 1127: Limiting protrusion; 113: First bottom surface; 114: First top surface; 115: First control group; 116: First circuit board; 117: First signal group; 118: First pad; 119: Pad; 12, 12A, 12B, 12C, 12D: Second component; 121: Second body; 122: Second assembly slope; 1221: Second assembly structure; 1222: Groove; 1223: Second magnetic component; 1224: Second electrical connector; 1226: Linear channel; 12260: Opening; 1227: Limiting notch; 123: Second bottom surface; 124: Second top surface; 125: Second control group; 126: Second circuit board; 127: Second signal group; 128: Second pad; 129: Pad; 13C, 13D: Third component; 14D: Fourth component; A1: First included angle; A2: Second included angle; A3: Third included angle. Detailed Implementation
[0021] The following drawings disclose several embodiments of this application. For clarity, many implementation details will be described in the following description. However, it should be understood that these implementation details are not intended to limit the application. That is, in some embodiments of this application, these implementation details are not essential. Furthermore, for the sake of simplicity, some conventional structures and components will be shown in the drawings in a simple schematic manner. In the following embodiments, the same or similar components will be represented by the same reference numerals.
[0022] Please see Figures 1 to 6 , Figure 1 This is a perspective view of the planar keyboard structure according to the first embodiment of this application. Figure 2 yes Figure 1 A sectional view of line A-A' Figure 3 It is an exploded diagram of a planar keyboard structure. Figure 4 It is a 3D diagram of a 3D keyboard structure. Figure 5 yes Figure 4 The cross-sectional view of line B-B' and Figure 6This is an exploded view of a three-dimensional keyboard structure. As shown in the figure, this application provides a keyboard structure 1, which includes a first component 11 and a second component 12. The first component 11 has a first body 111, which has a first assembly ramp 112 and a first bottom surface 113. The first assembly ramp 112 has a first included angle A1 relative to the first bottom surface 113. The second component 12 has a second body 121, which has a second assembly ramp 122, a second bottom surface 123, and a second top surface 124. The second assembly ramp 122 is located between the second bottom surface 123 and the second top surface 124. The second bottom surface 123 has a second included angle A2, and the first included angle A1 is greater than the second included angle A2. The second assembly inclined surface 122 has a third included angle A3 relative to the second top surface 124, and the first included angle A1 is equal to the third included angle A3. The first assembly inclined surface 112 and the second assembly inclined surface 122 are fitted together, and the first included angle A1 and the second included angle A2 are adjacent, thus forming a planar keyboard with a flat bottom surface. Alternatively, the first included angle A1 and the third included angle A3 are adjacent, thus forming a three-dimensional keyboard with an angled bottom surface. The first assembly inclined surface 112 has a first assembly structure 1121, and the second assembly inclined surface 122 has a second assembly structure 1221. The first assembly structure 1121 is assembled with respect to the second assembly structure 1221.
[0023] Please refer to the following: Figures 1 to 3 This is a schematic diagram of an assembled planar keyboard. In this embodiment, the first assembly structure 1121 includes a protrusion 1122, and the second assembly structure 1221 includes a groove 1222. The protrusion 1122 is fitted into the groove 1222, and the protrusion 1122 and the groove 1222 are tightly engaged with each other, thus fixing the protrusion 1122 within the groove 1222. The first included angle A1 of the first assembly inclined surface 112 and the second included angle A2 of the second assembly inclined surface 122 are adjacent to each other, and the sum of the first included angle A1 and the second included angle A2 is 180 degrees. Thus, the first bottom surface 113 of the first body 111 and the second bottom surface 123 of the second body 121 form a planar structure, and the first body 111 and the second body 121 constitute a planar keyboard.
[0024] Please refer to the following: Figures 4 to 6 This is a schematic diagram of an assembled three-dimensional keyboard. In this embodiment, the first body 111 further has a first top surface 114, which is the other surface opposite to the first bottom surface 113. The first body 111 of the assembled first component 11 and the second body 121 of the second component 12 are disassembled, causing the protrusions 1122 of the first assembly structure 1121 and the grooves 1222 of the second assembly structure 1221 to disengage from each other (e.g., ...). Figure 3(As shown). The second body 121 is flipped 180 degrees, so that its second bottom surface 123 is flipped upwards, and its second top surface 124 is also flipped downwards. That is, the positions of the second bottom surface 123 and the second top surface 124 are interchanged. Thus, the second bottom surface 123 of the second body 121 corresponds to the first top surface 114 of the first body 111, and the second top surface 124 of the second body 121 corresponds to the first bottom surface 113 of the first body 111. Then, the protrusion 1122 of the first assembly structure 1121 and the groove 1222 of the second assembly structure 1221 are tightly fixed together. The first included angle A1 of the first assembly inclined surface 112 and the third included angle A3 of the second assembly inclined surface 122 are adjacent to each other, and the sum of the first included angle A1 and the second included angle A2 is greater than 180 degrees. Thus, the first bottom surface 113 of the first body 111 and the second bottom surface 123 of the second body 121 form a three-dimensional structure with an angled bottom surface, and the first body 111 and the second body 121 constitute a three-dimensional keyboard. In this embodiment, the user can adjust the keyboard structure 1 to a flat keyboard or a three-dimensional keyboard for typing as needed, so that the keyboard structure 1 can be adjusted to a typing angle that is more comfortable for the user's hands.
[0025] Furthermore, in this embodiment, the first assembly structure 1121 and the second assembly structure 1221 can be connected not only through the structural combination of the protrusion 1122 and the groove 1222, but also through other structural connection methods according to the user's needs. In another embodiment, the first assembly structure 1121 includes a first magnetic element 1123, and the second assembly structure 1221 includes a second magnetic element 1223, with the first magnetic element 1123 and the second magnetic element 1223 mutually adsorbed and fixed. In this embodiment, they can attract each other magnetically.
[0026] Furthermore, the aforementioned interlocking structure of the protrusion 1122 and the groove 1222, as well as the magnetic attraction structure of the first magnetic element 1123 and the second magnetic element 1223, are combined together. The first assembly structure 1121 includes the protrusion 1122 and the first magnetic element 1123, with the first magnetic element 1123 disposed on the surface of the protrusion 1122. The second assembly structure 1221 includes the groove 1222 and the second magnetic element 1223, with the second magnetic element 1223 disposed on the bottom surface of the groove 1222. The protrusion 1122 is interlocked with the groove 1222, and the first magnetic element 1123 and the second magnetic element 1223 are mutually attracted and fixed. This further enhances the bonding strength between the first assembly structure 1121 and the second assembly structure 1221.
[0027] In this embodiment, the first component 11 includes a first control group 115 and a first circuit board 116. The first circuit board 116 is disposed within the first body 111, and the first control group 115 is disposed on the first top surface 114 and / or the first bottom surface 113. The first control group 115 is electrically connected to the first circuit board 116. The second component 12 includes a second control group 125 and a second circuit board 126. The second circuit board 126 is disposed within the second body 121, and the second control group 125 is disposed on the second top surface 124 and / or the second bottom surface 123. The second control group 125 is electrically connected to the second circuit board 126. The first control group 115 and the second control group 125 may be multiple buttons and / or a touch panel.
[0028] As described above, this embodiment does not limit the surface structures of the first bottom surface 113, the first top surface 114, the second bottom surface 123, and the second top surface 124 to multiple buttons or touch panels. The above-mentioned keyboard combination can be used according to the user's needs. For example, when the first top surface 114 has multiple buttons, the second top surface 124 has multiple buttons, and the first body 111 and the second body 121 form a planar keyboard, it is a general keyboard structure. When the first top surface 114 has multiple buttons, the second bottom surface 123 is a touch panel, and the first body 111 and the second body 121 form a three-dimensional keyboard, it is a three-dimensional keyboard with half buttons and the other half a touch panel. Furthermore, when the first top surface 114 has multiple buttons, the second top surface 124 has multiple buttons, the first bottom surface 113 is a touch panel, and the second bottom surface 123 is a touch panel, and the first body 111 and the second body 121 form a planar keyboard, the upper surface of the keyboard structure is a button keyboard, and the lower surface of the button structure is a touch panel. This embodiment has a variety of keyboard structure combinations.
[0029] In this embodiment, the keyboard structure 1 is an accessory for an input electronic device (such as a computer), and the keyboard structure 1 has two input elements, a first component 11 and a second component 12. This embodiment is not limited to the first component 11 and the second component 12 being electrically connected to each other and then inputting signals into the electronic device in a unified manner, or the first component 11 and the second component 12 being input into the electronic device separately.
[0030] In this embodiment, the first assembly ramp 112 has a first electrical connector 1124, and the second assembly ramp 122 has a second electrical connector 1224. The first electrical connector 1124 is electrically connected to the second electrical connector 1224. Thus, when the first assembly ramp 112 and the second assembly ramp 122 are assembled together, the first component 11 and the second component 12 are electrically connected to each other. In another embodiment, the side of the first body 111 has a first electrical connection end (not shown), and the side of the second body 121 has a second electrical connection end. The first electrical connection end and the second electrical connection end are connected through the two ends of an electrical connection wire. Both of the above embodiments can electrically connect the keyboard structure 1 with at least two components. The first component 11 includes a first signal group 117, and the second component 12 includes a second signal group 127. The first signal group 117 and the second signal group 127 are interconnected, and the first signal group 117 and the second signal group 127 are used as a signal input electronic device. Alternatively, the first assembly ramp 112 and the second assembly ramp 122 may be fixedly connected, with the first component 11 directly sending signals to the electronic device through the first signal group 117, and the second component 12 directly sending signals to the electronic device through the second signal group 127.
[0031] Please refer to the following: Figure 2 and Figure 3 The first component 11 further includes a first pad 118 and at least one first pad block 119. The first pad 118 is disposed on the side of the first body 111 away from the first assembly slope 112. There are at least four first pad blocks 119, which are disposed at two corners of the first bottom surface 113 and the first top surface 114 of the first body 111 adjacent to the first assembly slope 112. Thus, the first pad 118 can form support feet with the two first pad blocks 119 on the first bottom surface 113, and the first pad 118 can also form support feet with the two first pad blocks 119 on the first top surface 114. The support height of the first pad 118 and the first pad block 119 relative to the first bottom surface 113 or the first top surface 114 is higher than the structural height of the first control group 115 disposed on the first bottom surface 113 or the first top surface 114. When the first component 11 and the second component 12 are assembled and used, and the surface of the first control group 115 is placed under the keyboard structure 1, the first pad 118 and the first pad block 119 can effectively protect the first control group 115 (i.e., multiple keys or touch panel) to avoid the first control group 115 being directly pressed during the use of the keyboard structure 1, which would damage or affect the structure of the first control group 115.
[0032] As described above, the second component 12 further includes a second gasket 128 and at least one second pad 129. The second gasket 128 is disposed on the side of the second body 121 away from the second assembly ramp 122. There are four second pads 129, which are disposed at two corners of the second bottom surface 123 and the second top surface 124 of the second body 121 adjacent to the second assembly ramp 122. The structure and function of the second gasket 128 and the second pad 129 of the second component 12 are the same as those of the first gasket 118 and the first pad 119 of the first component, and therefore will not be described again.
[0033] In this embodiment, when the first component 11 and the second component 12 form a three-dimensional keyboard, the first pad 118 located outside the first component 11 and the second pad 128 located outside the second component 12 can serve as a support base. The first pad 118 and the second pad 128 generate friction relative to the desktop on which the keyboard structure 1 is placed, thus increasing the support strength of the auxiliary keyboard structure 1 to maintain the structural state of the three-dimensional keyboard.
[0034] Please see Figures 7 to 12 , Figure 7 This is a perspective view of the planar keyboard structure according to the second embodiment of this application. Figure 8 yes Figure 7 A cross-sectional view of the C-C' line. Figure 9 It is an exploded diagram of a planar keyboard structure. Figure 10 It is a 3D diagram of a 3D keyboard structure. Figure 11 yes Figure 10 The cross-sectional view of the D-D' line and Figure 12 This is an exploded view of the 3D keyboard structure. As shown in the figure, the difference between this embodiment and the first embodiment lies in the first assembly structure 1121 and the second assembly structure 1221. In this embodiment, the first assembly structure 1121 includes a linear protrusion 1126, which extends along the first assembly ramp 112. The second assembly structure 1221 includes a linear channel 1226, which extends along the second assembly ramp 122. At least one end of the linear channel 1226 has an opening 12260, and the linear protrusion 1126 is fitted into the linear channel 1226 through the opening 12260. Furthermore, the first assembly structure 1121 further includes a limiting protrusion 1127, which extends and protrudes laterally from the linear protrusion 1126. The second assembly structure 1221 further includes a limiting recess 1227, which is located on the inner sidewall of the linear channel 1226, and the limiting protrusion 1127 is fitted into the limiting recess 1227. The electrical structure and signal transmission structure of this embodiment are the same as those of the first embodiment, and therefore will not be described in detail.
[0035] Please see Figure 13This is a schematic diagram of a planar keyboard structure according to the third embodiment of this application. As shown in the figure, the difference between this embodiment and the first embodiment lies in the way the first component 11 and the second component 12 are separated. In this embodiment, the keyboard surface of the planar keyboard is divided into the first component 11A and the second component 12A by an oblique division. This separation method, after being varied in assembly and disassembly, can provide different three-dimensional structures. The above can be adjusted according to the user's needs.
[0036] Please see Figure 14 This is a schematic diagram of the planar keyboard structure according to the fourth embodiment of this application. As shown in the figure, the difference between this embodiment and the first embodiment lies in the way the first component 11 and the second component 12 are separated. In this embodiment, the keyboard surface of the planar keyboard is divided into an upper part, the first component 11B, and a lower part, the second component 12B, by a horizontal and diagonal division. This separation method, after being varied in assembly and disassembly, can provide different three-dimensional structures. The above can be adjusted according to the user's needs.
[0037] Please see Figure 15 This is a schematic diagram of a planar keyboard structure according to the fifth embodiment of this application. As shown in the figure, the difference between this embodiment and the fourth embodiment lies in the way the keyboard structure 1 is split. In this embodiment, the keyboard structure 1 includes a first component 11C, a second component 12C, and a third component 13C. The first component 11C is the same as the first component 11B of the fourth embodiment, while the second component 12C and the third component 13C are formed by splitting the second component 12B of the fourth embodiment into left and right parts. This splitting method, after being varied in assembly and disassembly, can provide different three-dimensional structures. The above can be adjusted according to the user's needs.
[0038] Please see Figure 16 This is a schematic diagram of a planar keyboard structure according to the sixth embodiment of this application. As shown in the figure, the difference between this embodiment and the fourth embodiment lies in the way the keyboard structure 1 is split. In this embodiment, the keyboard structure 1 includes a first component 11D, a second component 12D, a third component 13D, and a fourth component 14D. The first component 11D and the second component 12D are formed by splitting the first component 11C of the fourth embodiment into two parts, left and right. The third component 13D and the fourth component 14D are formed by splitting the second component 12C of the fourth embodiment into two parts, left and right. By changing the way the components are split and reassembled, different three-dimensional structures can be provided. The above can be adjusted according to the user's needs.
[0039] In summary, this application provides a keyboard structure that can be freely transformed into a planar keyboard or a three-dimensional keyboard through the assembly method of the first component and the second component. The assembly slopes of the first component and the second component are assembled together, and the assembly slopes between the first and second components are fitted together. Users can adjust the keyboard to either a planar or three-dimensional keyboard for typing as needed, thus allowing the keyboard to be adjusted to a more comfortable typing angle.
[0040] The foregoing description illustrates and describes several preferred embodiments of this application. However, as previously stated, it should be understood that this application is not limited to the forms disclosed herein and should not be construed as excluding other embodiments. It can be used in various other combinations, modifications, and environments, and can be altered within the scope of the inventive concept described herein through the foregoing teachings or techniques or knowledge in related fields. Any modifications and variations made by those skilled in the art that do not depart from the spirit and scope of this application should be protected within the scope of the appended claims.
Claims
1. A keyboard structure, characterized by, It includes: A first component has a first body, the first body having a first assembly ramp and a first bottom surface, the first assembly ramp having a first included angle with respect to the first bottom surface; as well as The second component has a second body, the second body has a second assembly ramp, a second bottom surface and a second top surface, the second assembly ramp is located between the second bottom surface and the second top surface, the second assembly ramp has a second included angle relative to the second bottom surface, the first included angle is greater than the second included angle, and the second assembly ramp has a third included angle relative to the second top surface, the first included angle is equal to the third included angle; Wherein the first assembly inclined surface and the second assembly inclined surface are fitted together and the first included angle and the second included angle are arranged adjacent to each other, the first bottom surface and the second bottom surface form a flat keyboard with a flat bottom surface; or the first included angle and the third included angle are arranged adjacent to each other, the first bottom surface and the second top surface form a three-dimensional keyboard with an included angle bottom surface.
2. The keyboard structure of claim 1, wherein, The first assembly slope has a first assembly structure, the second assembly slope has a second assembly structure, and the first assembly structure is assembled with respect to the second assembly structure.
3. The keyboard structure of claim 2, wherein, The first assembly structure includes a protrusion, and the second assembly structure includes a groove, wherein the protrusion is fitted into the groove.
4. The keyboard structure of claim 2, wherein, The first assembly structure includes a first magnetic component, and the second assembly structure includes a second magnetic component, wherein the first magnetic component and the second magnetic component are attracted and fixed to each other.
5. The keyboard structure of claim 2, wherein, The first assembly structure includes a protrusion and a first magnetic component, the first magnetic component being disposed on the surface of the protrusion. The second assembly structure includes a groove and a second magnetic component, the second magnetic component being disposed on the bottom surface of the groove. The protrusion is fitted into the groove, and the first magnetic component and the second magnetic component are attracted and fixed to each other.
6. The keyboard structure of claim 1, wherein The first assembly structure includes a linear bump extending along the first assembly slope, and the second assembly structure includes a linear channel extending along the second assembly slope. At least one end of the linear channel has an opening, and the linear bump is fitted into the linear channel by the opening.
7. The keyboard structure of claim 6, wherein The first assembly structure further includes a limiting protrusion, which extends and protrudes from the linear protrusion to the side. The second assembly structure further includes a limiting recess, which is located on the inner sidewall of the linear channel, and the limiting protrusion is fitted into the limiting recess.
8. The keyboard structure of claim 1, wherein, The first component includes a first control group and a first circuit board. The first body further has a first top surface, which is the other surface opposite to the first bottom surface. The first circuit board is disposed within the first body. The first control group is disposed on the first top surface and / or the first bottom surface and is electrically connected to the first circuit board. The second component includes a second control group and a second circuit board. The second circuit board is disposed within the second body. The second control group is disposed on the second top surface and / or the second bottom surface and is electrically connected to the second circuit board.
9. The keyboard structure of claim 8, wherein, The first control group and the second control group consist of multiple buttons and / or a touch panel.
10. The keyboard structure of claim 8, wherein, The first component further includes a first gasket and at least one first pad, the first gasket being disposed on the side of the first body away from the first assembly slope, and the first pad being disposed on the first bottom surface and the first top surface of the first body adjacent to the first assembly slope. The second component further includes a second gasket and at least one second pad, the second gasket being disposed on the side of the second body away from the second assembly slope, and the second pad being disposed on the second bottom surface and the second top surface of the second body adjacent to the second assembly slope.
11. The keyboard structure of claim 1, wherein, The first assembly inclined surface has a first electrical connector, and the second assembly inclined surface has a second electrical connector, wherein the first electrical connector is electrically connected to the second electrical connector.
12. The keyboard structure of claim 1, wherein The first body has a first electrical connection end on its side, and the second body has a second electrical connection end on its side. The first electrical connection end and the second electrical connection end are connected by plugging in the two ends of an electrical connection wire.
13. The keyboard structure of claim 1, wherein The first component includes a first signal group, the second component includes a second signal group, the first signal group and the second signal group are interconnected, and the first signal group and the second signal group are input to an electronic device in parallel.
14. The keyboard structure as described in claim 1, characterized in that, The first component includes a first signal group, and the second component includes a second signal group. The first signal group and the second signal group respectively transmit signals to the electronic device.