Abstract
A key structure including a carrier, a keycap, a lifting member, and an elastic member is provided. The carrier includes a carrier body and multiple positioning hooks. The carrier body has multiple vias, and the positioning hooks are respectively disposed corresponding to the vias. Orthographic projection of each of the positioning hooks falls in the corresponding via. Each of the positioning hooks includes a first positioning portion and a second positioning portion respectively connected to two inner wall surfaces in the corresponding via. The keycap is disposed above the carrier body. The lifting member is disposed between the carrier body and the keycap. One end of the lifting member is connected to the keycap, and an other end of the lifting member is connected to the positioning hooks. The elastic member is disposed between the carrier body and the keycap.
Claims
1. A key structure comprising: a carrier comprising a carrier body and a plurality of positioning hooks protruding from the carrier body, wherein the carrier body has a plurality of vias, the plurality of positioning hooks are respectively disposed corresponding to the plurality of vias, and orthographic projection of each of the plurality of positioning hooks falls in the corresponding via, wherein each of the plurality of positioning hooks comprises a first positioning portion and a second positioning portion connected to the first positioning portion, and the first positioning portion and the second positioning portion of each of the plurality of positioning hooks are respectively connected to two inner wall surfaces connected to each other or two inner wall surfaces opposite to each other in the corresponding via; a keycap disposed above the carrier body; a lifting member disposed between the carrier body and the keycap, wherein one end of the lifting member is connected to the keycap, and an other end of the lifting member is connected to the plurality of positioning hooks; and an elastic member disposed between the carrier body and the keycap.
2. The key structure according to claim 1, wherein the first positioning portion and the second positioning portion of each of the plurality of positioning hooks are respectively connected to the two inner wall surfaces connected to each other in the corresponding via, wherein one of the inner wall surfaces of each of the plurality of vias is protruded with an extension support portion, and is connected to the first positioning portion or the second positioning portion of the corresponding positioning hook.
3. The key structure according to claim 1 further comprising: a thin film circuit disposed on the carrier body, and located between the elastic member and the carrier body.
4. The key structure according to claim 3, wherein the thin film circuit has a plurality of through holes overlapping the plurality of vias, and the plurality of positioning hooks penetrate the plurality of through holes.
5. The key structure according to claim 3 further comprising: a backlight module and the thin film circuit respectively disposed at two opposite sides of the carrier body, and the thin film circuit having a plurality of through holes overlapping the plurality of vias.
6. The key structure according to claim 5, wherein the backlight module comprises a circuit board, a light source, and a light guide plate, wherein the light source and the light guide plate are disposed on the circuit board, the light guide plate has a recess for accommodating the light source, and the light guide plate is located between the carrier body and the circuit board.
7. The key structure according to claim 5, wherein the backlight module comprises a circuit board and a plurality of light sources, wherein the plurality of light sources are disposed on the circuit board.
8. The key structure according to claim 3 further comprising: an optical switch disposed on the thin film circuit, wherein the keycap has a light blocking portion protruding toward the carrier body, and the optical switch is located on a moving path of the light blocking portion.
9. The key structure according to claim 1, wherein the other end of the lifting member contacts a plurality of bottom surfaces of the first positioning portions and a plurality of side surfaces of the second positioning portions of the plurality of positioning hooks.
10. The key structure according to claim 9, wherein the lifting member comprises two lifting stands pivotally connected to each other, and each of the two lifting stands has a first end and a second end opposite to the first end, wherein the first end of each of the two lifting stands is connected to the keycap, the second end of each of the two lifting stands is connected to two of the plurality of positioning hooks, and the second end of each of the two lifting stands contacts two of the plurality of bottom surfaces of two of the first positioning portions and two of the plurality of side surfaces of two of the second positioning portions of two of the plurality of positioning hooks.
11. The key structure according to claim 9, wherein the first positioning portion of each of the plurality of positioning hooks is partially protruding relative to the side surface of the second positioning portion to form a notch.
Description
BRIEF DESCRIPTION OF THE DRAWING
[0019] The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification. The drawings illustrate exemplary embodiments of the disclosure and, together with the description, serve to explain the principles of the disclosure.
[0020] FIG. 1 is a schematic diagram of a key structure according to a first embodiment of the disclosure.
[0021] FIG. 2 is a schematic cross-sectional diagram of the key structure of FIG. 1 along a section line A-A.
[0022] FIG. 3 and FIG. 4 are schematic diagrams of a carrier according to the first embodiment of the disclosure from two different views.
[0023] FIG. 5 is a schematic cross-sectional diagram of a key structure according to a second embodiment of the disclosure.
[0024] FIG. 6 is a schematic cross-sectional diagram of a key structure according to a third embodiment of the disclosure.
[0025] FIG. 7 is a schematic cross-sectional diagram of a key structure according to a fourth embodiment of the disclosure.
[0026] FIG. 8 and FIG. 9 are schematic diagrams of a carrier according to another embodiment of the disclosure from two different views.
DESCRIPTION OF THE EMBODIMENTS
[0027] FIG. 1 is a schematic diagram of a key structure according to a first embodiment of the disclosure. FIG. 2 is a schematic cross-sectional diagram of the key structure of FIG. 1 along a section line A-A. Referring to FIG. 1 and FIG. 2 first, according to this embodiment, a key structure 100 includes a carrier 110, a keycap 120, a lifting member 130, and an elastic member 140. The keycap 120 is disposed above the carrier 110, and the lifting member 130 and the elastic member 140 are disposed between the keycap 120 and the carrier 110. The lifting member 130 and the elastic member 140 support the keycap 120 collectively. The lifting member 130 may be used to ensure that the keycap 120 is raised and lowered in a particular direction relative to the carrier 110, and the elastic member 140 may be used to maintain the height of the keycap 120 relative to the carrier 110 or to provide the required restoring force when the keycap 120 is lifted after being pressed. For example, the lifting member 130 may be a scissor structure, and the elastic member 140 may be a rubber dome or a metal dome.
[0028] The key structure 100 further includes a thin film circuit 150. The thin film circuit 150 is disposed on the carrier 110 and located between the elastic member 140 and the carrier 110. Specifically, top and bottom ends of the elastic member 140 contact the keycap 120 and the thin film circuit 150 respectively. When the keycap 120 is pressed and lowered (i.e., moved toward the carrier 110), the elastic member 140 is squeezed by the keycap 120 and deformed elastically, and the elastic member 140 is further squeezed to the thin film circuit 150, causing the circuit in the thin film circuit 150 to conduct to generate a trigger signal.
[0029] FIG. 3 and FIG. 4 are schematic diagrams of a carrier according to the first embodiment of the disclosure from two different views. Referring to FIG. 2 to FIG. 4, according to this embodiment, the carrier 110 includes a carrier body 111, two first positioning hooks 112 and two second positioning hooks 113. The keycap 120 is disposed above the carrier body 111, and the lifting member 130 is disposed between the carrier body 111 and the keycap 120. The elastic member 140 is disposed between the carrier body 111 and the keycap 120. The thin film circuit 150 is disposed on the carrier body 111, and the top and bottom ends of the elastic member 140 contact the keycap 120 and the thin film circuit 150 respectively.
[0030] The two first positioning hooks 112 are symmetrically disposed and protrude from the carrier body 111. The two second positioning hooks 113 are symmetrically disposed and protrude from the carrier body 111. One end of the lifting member 130 is connected to the keycap 120, and an other end of the lifting member 130 is connected to the positioning hooks (including the two first positioning hooks 112 and the two second positioning hooks 113). Further, the lifting member 130 includes a first lifting stand 131 and a second lifting stand 132 pivotally connected to each other. A first end 131a of the first lifting stand 131 is connected to the keycap 120, and a second end 131b of the first lifting stand 131 is connected to the two first positioning hooks 112. On the other hand, a first end 132a of the second lifting stand 132 is connected to the keycap 120, and a second end 132b of the second lifting stand 132 is connected to the two second positioning hooks 113.
[0031] Each of the first positioning hooks 112 includes a first positioning portion 112a and a second positioning portion 112b connected to each other. A bottom surface 112c of the first positioning portion 112a serves as a stop surface of the second end 131b of the first lifting stand 131 in a first direction D1 (e.g., vertical direction), and the second end 131b of the first lifting stand 131 contacts the bottom surface 112c of the first positioning portion 112a. In addition, a side surface 112d of the second positioning portion 112b serves as a stop surface of the second end 131b of the first lifting stand 131 in a second direction D2 (e.g., horizontal direction), and the second end 131b of the first lifting stand 131 contacts the side surface 112d of the second positioning portion 112b. The second end 131b of the first lifting stand 131 is rotatably or slidably engaged with the first positioning hook 112 to rotate or slide relative to the carrier 110 within a defined range or stroke without disengaging from the carrier 110.
[0032] Each of the second positioning hooks 113 includes a first positioning portion 113a and a second positioning portion 113b connected to each other. A bottom surface 113c of the first positioning portion 113a serves as a stop surface of the second end 132b of the second lifting stand 132 in the first direction D1 (e.g., vertical direction), and the second end 132b of the second lifting stand 132 contacts the bottom surface 113c of the first positioning portion 113a. In addition, a side surface 113d of the second positioning portion 113b serves as a stop surface of the second end 132b of the second lifting stand 132 in the second direction D2 (e.g., horizontal direction), and the second end 132b of the second lifting stand 132 contacts the side surface 113d of the second positioning portion 113b. The second end 132b of the second lifting stand 132 is rotatably or slidably engaged with the second positioning hook 113 to rotate or slide relative to the carrier 110 within a defined range or stroke without disengaging from the carrier 110.
[0033] Referring to FIG. 3 and FIG. 4, the carrier body 111 has two first vias 111a, two second vias 111b and multiple other vias 111c. The two first vias 111a are symmetrically disposed, and the two first positioning hooks 112 are respectively disposed corresponding to the two first vias 111a. In addition, the two second vias 111b are symmetrically disposed, and the two second positioning hooks 113 are respectively disposed corresponding to the two second vias 111b. Further, each of the first positioning hooks 112 spans the corresponding first via 111a, and each of the second positioning hooks 113 spans the corresponding second via 111b. That is, orthographic projection of each of the first positioning hooks 112 falls in the corresponding via 111a, and orthographic projection of each of the second positioning hooks 113 falls in the corresponding second via 111b.
[0034] Structures of each of the first positioning hooks 112 and each of the second positioning hooks 113 are the same or similar. The bottom surface 112c of the first positioning portion 112a of each of the first positioning hooks 112 faces the corresponding first via 111a, and the bottom surface 113c of the first positioning portion 113a of each of the second positioning hooks 113 faces the corresponding second via 111b. In addition, the side surface 112d of the second positioning portion 112b of each of the first positioning hooks 112 faces away from the side surface 113d of the second positioning portion 113b of each of the second positioning hooks 113.
[0035] As shown in FIG. 3, the first positioning portion 112a and the second positioning portion 112b of each of the first positioning hooks 112 are respectively connected to two inner wall surfaces 111d and 111e opposite to each other in the corresponding first via 111a. As shown in FIG. 4, the first positioning portion 113a and the second positioning portion 113b of each of the second positioning hooks 113 are respectively connected to two inner wall surfaces 111f and 111g opposite to each other in the corresponding second via 111b. As shown in FIG. 3 and FIG. 4, the two first positioning hooks 112 and the two second positioning hooks 113 are formed on the carrier body 111 by drawing technology, which have a high structural strength. In addition, each of the first positioning hooks 112 and each of the second positioning hooks 113 has two connections with the carrier body 111, which have a high connection strength. Therefore, the two first positioning hooks 112 and the two second positioning hooks 113 are not easily broken or cracked with the carrier body 111 by the pulling of the lifting member 130 during the repeated lifting and lowering of the lifting member 130, thus improving reliability of operation.
[0036] As shown in FIG. 3 and FIG. 4, the first positioning portion 112a of each of the first positioning hooks 112 is partially protruding relative to the side surface 112d of the second positioning portion 112b to form a notch 112e, which falls substantially on top of the first positioning hook 112. Similarly, the first positioning portion 113a of each of the second positioning hooks 113 is partially protruding relative to the side surface 113d of the second positioning portion 113b to form a notch 113e, which falls substantially on top of the second positioning hook 113. During the repeated lifting and lowering of the lifting member 130, the second end 131b of the first lifting stand 131 slides or rotates relative to the two first positioning hooks 112, and the design of the notch 112e on the top of each of the first positioning hooks 112 helps to improve the smoothness of the second end 131b as it slides or rotates. In addition, the second end 132b of the second lifting stand 132 slides or rotates relative to the two second positioning hooks 113, and the design of the notch 113e on the top of each of the second positioning hooks 113 helps to improve the smoothness of the second end 132b as it slides or rotates.
[0037] As shown in FIG. 2, the thin film circuit 150 has multiple through holes 151 overlapping the vias (e.g., the first vias 111a, the second vias 111b, and the vias 111c), and the two first through positioning hooks 112 and the two second positioning hooks 113 penetrate the through holes 151.
[0038] FIG. 5 is a schematic cross-sectional diagram of a key structure according to a second embodiment of the disclosure. Referring to FIG. 5, the design of a key structure 100A according to this embodiment is substantially the same as that of the key structure 100 shown in FIG. 2. The main difference is that according to this embodiment, the key structure 100A further includes an optical switch disposed on the thin film circuit 150. The optical switch includes an optical transmitter 160a and an optical receiver 160b, and the keycap 120 has a light blocking portion 121 protruding toward the carrier body 111. Specifically, the optical switch is located on a moving path 121a of the light blocking portion 121, or in other words, the moving path 121a of the light blocking portion 121 passes between the optical transmitter 160a and the optical receiver 160b. Therefore, when the keycap 120 is pressed and lowered (i.e., moved toward the carrier 110), the light blocking portion 121 moves toward the carrier 110 and blocks light transmitted from the optical transmitter 160a to the optical receiver 160b, so that the optical receiver 160b cannot receive the light from the optical transmitter 160a to generate a trigger signal.
[0039] FIG. 6 is a schematic cross-sectional diagram of a key structure according to a third embodiment of the disclosure. Referring to FIG. 6, the design of a key structure 100B according to this embodiment is substantially the same as that of the key structure 100 shown in FIG. 2. The main difference is that according to this embodiment, the key structure 100B further includes a backlight module 170. The carrier body 111 is disposed on the backlight module 170, and the backlight module 170 and the thin film circuit 150 are respectively disposed at two opposite sides of the carrier body 111. Specifically, light emitted by the backlight module 170 may be transmitted outwardly through the vias (e.g., the first vias 111a, the second vias 111b, and the vias 111c) and the through holes 151 to optimize the user's operating experience or visual perception. The backlight module 170 includes a circuit board 171, a light source 172, and a light guide plate 173. The light source 172 and the light guide plate 173 are disposed on the circuit board 171, and the light guide plate 173 is located between the carrier body 111 and the circuit board 171. The light guide plate 173 has a recess 173a for accommodating the light source 172, and light emitted by the light source 172 may be transmitted outward through the conduction of the light guide plate 173 to improve the uniformity of light output.
[0040] FIG. 7 is a schematic cross-sectional diagram of a key structure according to a fourth embodiment of the disclosure. Referring to FIG. 7, the design of a key structure 100C according to this embodiment is substantially the same as that of the key structure 100B shown in FIG. 6. The main difference is that according to this embodiment, a backlight module 1701 of the key structure 100C is not equipped with a light guide plate 173 (see FIG. 6), the light emitted by the light source 172 is directly transmitted outward through the vias (e.g., the first vias 111a, the second vias 111b, and the vias 111c) and the through holes 151 to increase the brightness of light output.
[0041] FIG. 8 and FIG. 9 are schematic diagrams of a carrier according to another embodiment of the disclosure from two different views. Referring to FIG. 8 and FIG. 9, the design principle of a carrier 1101 according to this embodiment is substantially the same as that of the carrier 110 shown in FIG. 3 and FIG. 4. The main difference is that according to this embodiment, a first positioning portion 1121a and a second positioning portion 1121b of each of first positioning hooks 1121 are respectively connected to two inner wall surfaces 1111d and 1111e connected to each other in a corresponding first via 1111a, and a first positioning portion 1131a and a second positioning portion 1131b of each of second positioning hooks 1131 are respectively connected to two inner wall surfaces 1111f and 1111g connected to each other in a corresponding second via 1111b.
[0042] As shown in FIG. 8, the inner wall surface 1111d of each of the first via 1111a is protruded with an extension support portion 1111h, and is connected to a bottom of the first positioning portion 1121a of the corresponding first positioning hook 1121. The first positioning portion 1121a of each of the first positioning hooks 1121 has two connections with the carrier body 1111, and the second positioning portion 1121b has one connection with the carrier body 1111. That is, the whole of each of the first positioning hooks 1121 has three connections with the carrier body 1111, which has a high connection strength.
[0043] As shown in FIG. 9, the inner wall surface 1111g of each of the second via 1111b is protruded with an extension support portion 1111i, and is connected to a bottom of the second positioning portion 1131b of the corresponding second positioning hook 1131. Further, the second positioning portion 1131b of each of the second positioning hooks 1131 is not directly connected to the inner wall surface 1111g in the corresponding second via 1111b, but is connected to the inner wall surface 1111g in the corresponding second via 1111b through the extension support portion 1111i. That is, structures of each of the first positioning hooks 1121 and each of the second positioning hooks 1131 are slightly different.
[0044] To sum up, in the key structure of the disclosure, the positioning hooks are formed on the carrier body by drawing technology, which have a high structural strength. In addition, the positioning hooks and the carrier body have at least two connections, which have a high connection strength. Therefore, the positioning hooks are not easily broken or cracked with the carrier body by the pulling of the lifting member during the repeated lifting and lowering of the lifting member, thus improving reliability of operation.
[0045] It will be apparent to those skilled in the art that various modifications and variations can be made to the disclosed without departing from the scope or spirit of the disclosure. In view of the foregoing, it is intended that the disclosure covers modifications and variations provided that they fall within the scope of the following claims and their equivalents.
