BACKGROUND
Field of the Invention
The invention relates to a key structure and more particularly, to a key structure capable of preventing light leakage.
Description of Related Art
Along with the development of technologies, many portable electronic apparatuses, such as notebook computers or personal digital assistants (PDAs), have been produced. Users use input devices, such as keyboards, mice and so on, to communicate with the electronic apparatuses.
However, in an environment with weak light, it may probably be difficult for a user to identify numerals and characters labeled on keys of a keyboard, resulting in difficulty of operations. Thus, a key structure capable of shining is launched to the market, which applies a backlight module capable of being applied to various electronic apparatuses in a keyboard module, so as to improve the input issue caused by insufficient ambient light.
However, due to the structure disposition of the keyboard module, the light emitted by the backlight module may likely leak from an assembly gap after elements are assembled, which may affect light uniformity, causing troubles in use to users.
SUMMARY
The invention provides a key structure capable of preventing light leakage and having light uniformity.
A key structure of the invention includes a keycap, a bottom plate, a supporting element, a backlight module and a thin film circuit board. The bottom plate includes a body and a plurality of protrusions. The body has a plurality of openings, and the protrusions protrude from a first surface of the body and are disposed around the openings. At least two of the protrusions have different heights. The supporting element is disposed on the bottom plate. The backlight module is disposed on a second surface of the body. The first surface and the second surface are opposite surfaces. The thin film circuit board and the keycap are both disposed on the first surface of the body, and the thin film circuit board is located between the keycap and the bottom plate, and the protrusions are located within an orthographic projection range of the keycap and do not contact the supporting element.
In an embodiment of the invention, the body has a plurality of protrusion dispositioning ports, and the protrusions are correspondingly disposed in the protrusion dispositioning ports. A material of the protrusions is the same as or different from a material of the body.
In an embodiment of the invention, each of the protrusion dispositioning ports is separated from the corresponding one of the openings by a predetermined distance.
In an embodiment of the invention, the backlight module includes a light source and a light guide plate. The light source is disposed at a side of the light guide plate or in a through hole of the light guide plate.
In an embodiment of the invention, the backlight module includes a light source. The light source is disposed within the orthographic projection range of the keycap.
In an embodiment of the invention, the key structure further includes a rubber dome disposed between the thin film circuit board and the keycap and located within a range surrounded by the protrusions.
In an embodiment of the invention, the supporting element is located within a range surrounded by the protrusions.
A key structure of the invention includes a keycap, a bottom plate, a supporting element, a backlight module and a thin film circuit board. The bottom plate includes a body and a plurality of protrusions. The body has a plurality of openings, and the protrusions protrude from a first surface of the body and are disposed around the openings. At least one of the protrusions has at least two sections having different heights. The supporting element is disposed on the bottom plate. The backlight module is disposed on a second surface of the body. The first surface and the second surface are opposite surfaces. The thin film circuit board and the keycap are both disposed on the first surface of the body, and the thin film circuit board is located between the keycap and the bottom plate, and the protrusions are located within an orthographic projection range of the keycap and do not contact the supporting element.
In an embodiment of the invention, the protrusions are located within an orthographic projection range of the keycap.
In an embodiment of the invention, the key structure further includes a rubber dome, the rubber dome is disposed on the thin film circuit board.
In an embodiment of the invention, the bottom plate has a plurality of fixing portions, and the supporting element is pivoted to the fixing portions.
In an embodiment of the invention, the at least two sections of the at least one of the protrusions are located at a same side of the corresponding opening.
In an embodiment of the invention, the at least two sections of the at least one of the protrusions are located at the two sides of the corresponding opening.
In an embodiment of the invention, one of the at least two sections of the at least one of the protrusions is a recess seated above a corner of the corresponding opening.
A key structure of the invention includes a keycap, a bottom plate, a light source, a supporting element and a thin film circuit board. The bottom plate includes a body and a protrusion. The body has a first opening and a second opening, and the protrusion protrudes from an edge of the first opening. The light source is disposed at a position corresponding to the second opening. The supporting element is disposed on the bottom plate. The thin film circuit board is disposed on the bottom plate. The protrusion does not contact the supporting element.
In an embodiment of the invention, the protrusion extends along a first direction which is substantially parallel to a side of the keycap, and a projection of the protrusion overlaps the light source along a second direction, and the first direction is substantially perpendicular to the second direction.
Based on the above, the disposition of the protrusions can preferably prevent the light emitted from the backlight module from leaking from a gap between the keycap and the bottom plate, so as to improve use convenience for users.
In order to make the aforementioned and other features and advantages of the invention more comprehensible, several embodiments accompanied with figures are described in detail below.
BRIEF DESCRIPTION OF THE DRAWINGS
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
FIG. 1 is a schematic diagram illustrating an assembly of a key structure according to an embodiment of the invention.
FIG. 2 is a schematic exploded diagram illustrating the key structure depicted in FIG. 1.
FIG. 3 is a schematic diagram illustrating that the protrusion dispositioning port is a groove, and the protrusion is disposed in the protrusion dispositioning port.
FIG. 4 is a schematic diagram illustrating that the protrusion dispositioning port is an opening, and the protrusion is disposed in the protrusion dispositioning port.
FIG. 5A through FIG. 5G are schematic diagrams illustrating different implementation aspects of the protrusions.
FIG. 6A through FIG. 6C are schematic diagrams illustrating different implementation aspects of the backlight module.
FIG. 7 is a schematic diagram illustrating a key structure according to another embodiment of the invention.
FIG. 8 is a schematic diagram illustrating a key structure according to yet another embodiment of the invention.
FIG. 9 is a schematic diagram illustrating a key structure according to still another embodiment of the invention.
DESCRIPTION OF EMBODIMENTS
FIG. 1 is a schematic diagram illustrating an assembly of a key structure according to an embodiment of the invention. FIG. 2 is a schematic exploded diagram illustrating the key structure depicted in FIG. 1. Referring to both FIG. 1 and FIG. 2, a key structure 100 of the present embodiment includes a bottom plate 110, a backlight module 120, a thin film circuit board 130 and a keycap 140. The key structure 100 of the present embodiment is, for example, a key structure of a keyboard module and more particularly, a keyboard module applied in an electronic apparatus (e.g., a notebook computer).
The bottom plate 110 includes a body 112 and a plurality of protrusions 114. The body 112 has a first surface 112a and a second surface 112b which are opposite to each other and a plurality of openings 112c penetrating through the first surface 112a and the second surface 112b. The protrusions 114 protrude from the first surface 112a of the body 112 and extend toward the keycap 140 and are disposed in the periphery of the openings 112c. In the present embodiment, the protrusions 114 are disposed around the openings 112c. The backlight module 120 is on the second surface 112b of the body 112. The thin film circuit board 130 and the keycap 140 are both disposed on the first surface 112a of the body 112, and thin film circuit board 130 is located between the keycap 140 and the bottom plate 110. The protrusions 114 are located within an orthographic projection range of the keycap 140. In other words, when the keycap 140 is installed on the body 112 of the bottom plate 110, the protrusions 114 are located beneath the keycap 140.
Following the above, the present embodiment takes the bottom plate 110 having multiple protrusions 114 as an example for description (as illustrated in FIG. 1). In other embodiments, the bottom plate 110 may has only one protrusion 114 (as illustrated in FIG. 7). Further, for the protrusions 114 of the present embodiment, the body 112 of the bottom plate 110 may be processed by means of, for example, punching, so as to form the plurality of openings 112c penetrating through the first surface 112a and the second surface 112b. In this way, the protrusions 114 and the body 112 are formed by processing the same sheet material, and thus, the protrusions 114 and the body 112 are made of the same material, and the protrusions 114 are disposed adjacent to the openings 112c. In addition, it is to be mentioned that in the present embodiment, each of the protrusions 114, in order to achieve a preferable light-shielding effect, protrudes, for example, the first surface 112a in a barrier-like manner from. In other words, each of the protrusions 114 itself does not have any through hole.
In other embodiments, the protrusions 114 may be fixed to the body 112 by means of post processing. For instance, edges surrounding the openings 112c are processed to form a plurality of protrusion dispositioning ports 116. Each of the protrusion dispositioning ports 116 is separated from the corresponding one of the openings 112c by a predetermined distance d. Then, the protrusions 114 are correspondingly disposed in the protrusion dispositioning ports 116. The aforementioned protrusion dispositioning ports 116 may be designed based on an actual requirement, for example, grooves which are recessed from the first surface 112a without penetrating through the second surface 112b, or alternatively, openings penetrating through the first surface 112a and the second surface 112b.
FIG. 3 is a schematic diagram illustrating that the protrusion dispositioning port is a groove, and the protrusion is disposed in the protrusion dispositioning port. Referring to FIG. 3, in the implementation manner as illustrated in FIG. 3, the protrusion dispositioning port 116 is a groove which is recessed from the first surface 112a without penetrating through the second surface 112b, while the protrusion 114 is disposed in the protrusion dispositioning port 116.
FIG. 4 is a schematic diagram illustrating that the protrusion dispositioning port is an opening, and the protrusion is disposed in the protrusion dispositioning port. Referring to FIG. 4, in the implementation manner as illustrated in FIG. 4, the protrusion dispositioning port 116 is an opening penetrating through the first surface 112a and the second surface 112b, and the protrusion 114, after being disposed in the protrusion dispositioning port 116, protrudes from the first surface 112a. Alternatively, the protrusion 114 is formed in the protrusion dispositioning port 116 by means of injection molding or in-mold molding.
According to FIG. 3 and FIG. 4, the design of a shape and a size of the protrusion dispositioning port 116 may be modified based on a demand, and a manner in which the protrusion 114 is assembled to or formed on the body 112 may be determined through the modification of the shape and the size of the protrusion dispositioning port 116. Then, in the implementation manners as illustrated in FIG. 3 and FIG. 4, a material selected for the protrusion 114 may be the same as a material of the body 112. For example, both the protrusion 114 and the body 112 may be made of metal, or alternatively, the material selected for the protrusion 114 may also be different from the material of the and body 112. For example, the body 112 is made of metal, while the protrusion 114 is made of plastic.
Even though the protrusion dispositioning port 116 is separated from the opening 112c by the predetermined distance d, a position that the protrusion dispositioning port 116 is disposed still falls within the orthographic projection range of the keycap 140. In this way, the protrusion 114 disposed in the protrusion dispositioning port 116 is still located within the orthographic projection range of the keycap 140 and covered by the keycap 140.
FIG. 5A through FIG. 5G are schematic diagrams illustrating different implementation aspects of the protrusions.
In addition, referring to FIG. 5A through FIG. 5C, the manner that the protrusions 114 extend toward the keycap 140 may vary with the consideration of a light state or an overall key design of the backlight module 120. For example, the protrusions 114 extend toward the keycap 140 in a direction substantially vertical to the first surface 112a (as illustrated in FIG. 5A), or alternatively, the protrusions 114 extend toward the keycap 140 in a direction forming an acute angle with respect to the first surface 112a of the body 112 (as illustrated in FIG. 5B) or an obtuse angle with respect to the first surface 112a of the body 112 (as illustrated in FIG. 5C). Certainly, the extension manner of the protrusions 114 may be an arbitrary combination selected from the extension manners described above. In other words, the protrusions 114 may be adaptively modified in the shape and the extension direction based on a demand, without being limited to those exhibited in the present embodiment.
Referring to FIG. 5D, the protrusions 114 protrude from the first surface 112a of the body 112, and at least two of the protrusions 114 have different heights. In detail, one of the protrusions 114 has a first height H1 from first surface 112a and another one of the protrusions 114 has a second height H2 from first surface 112a, and the first height H1 is higher than the second height H2. Furthermore, in other embodiments, in order to achieve a preferable light-shielding effect, a distance between a light source and the protrusion 114 having the first height H1 is shorter than a distance between the light source and the protrusion 114 having the second height H2.
Referring to FIG. 5E, the protrusions 114 protrude from the first surface 112a of the body 112, and at least one of the protrusions 114 has at least two sections having different heights. In detail, the at least one of the protrusions 114 has a first section 114a and a second section 114b connected to the first section 114a, and there is a drop between the first section 114a and the second section 114b. In other words, the first section 114a has a first height H1 from first surface 112a, and the second section 114b has a second height H2 from first surface 112a. The first height H1 is higher than the second height H2. In the present embodiment, the at least one of the protrusions 114 extends along a single side of the corresponding opening 112c, and thus the first section 114a and the second section 114b are located at the same side of the corresponding opening 112c.
Referring to FIG. 5F, the protrusions 114 protrude from the first surface 112a of the body 112, and at least one of the protrusions 114 has at least two sections having different heights. In detail, the at least one of the protrusions 114 has a first section 114a and a second section 114b connected to the first section 114a, and there is a drop between the first section 114a and the second section 114b. In other words, the first section 114a has a first height H1 from first surface 112a, and the second section 114b has a second height H2 from first surface 112a. The first height H1 is higher than the second height H2. In the present embodiment, the at least one of the protrusions 114 extends from a first side 112d to a second side 112e of the corresponding opening 112c, and thus the first section 114a and the second section 114b are located at the two different sides of the corresponding opening 112c. Furthermore, a bending 114c is existed between the first section 114a and the second section 114b, and the at least one of the protrusions 114 is represented in L shape.
Referring to FIG. 5G, the protrusions 114 protrude from the first surface 112a of the body 112, and at least one of the protrusions 114 has at least two sections having different heights. In detail, the at least one of the protrusions 114 has two first sections 114a and a second section 114b located between the two first sections 114a, and there is a drop between the second section 114b and each of the two first sections 114a. In other words, each of the two first sections 114a has a first height H1 from first surface 112a, and the second section 114b has a second height H2 from first surface 112a. The first height H1 is higher than the second height H2. In the present embodiment, the at least one of the protrusions 114 extends from a first side 112d to a second side 112e of the corresponding opening 112c and is represented in L shape. The two first sections 114a are respectively seated on the first side 112d and the second side 112e, wherein a bending 114c is existed between the two first sections 114a, and the second section 114b is a recess seated on the bending 114c. The bending 114c is corresponding to a corner 112f of the corresponding opening 112c, and the corner 112f is located between the first side 112d and the second side 112e. In other words, the second section 114b is seated above the corner 112f.
FIG. 6A through FIG. 6C are schematic diagrams illustrating different implementation aspects of the backlight module. As illustrated in FIG. 6A, the backlight module 120 includes a light source 122 and a light guide plate 124, and the light source 122 is disposed at a side of the light guide plate 124. Further, as illustrated in FIG. 6B, the backlight module 120 includes a light source 122 and a light guide plate 124, and the light source 122 is disposed in a through hole 126 of the light guide plate 124. Moreover, as illustrated in FIG. 6C, the backlight module 120 has a light source 122, and the light source 122 is disposed within the orthographic projection range of the keycap 140. In other words, the backlight module 120 may be one selected from a side-type backlight module or a direct-type backlight module. Additionally, the light source 122 in the backlight module 120 may be one selected from a light emitting diode (LED), a Mini LED, a Micro LED or an organic LED (OLED) or a combination thereof based on a demand.
As illustrated in FIG. 6C, one of the protrusions 114 extends along a first direction D1 which is substantially parallel to a side 141 of the keycap 140. In detail, two of the openings 112c are adjacent to each other along a second direction D2 which is substantially perpendicular to the first direction D1, wherein one of the two openings 112c is served as a first opening, and the protrusion 114 protrudes from an edge 121g of the first opening. On the other hand, another one of the two openings 112c is served as a second opening, wherein the light source 120 is disposed at a position corresponding to the second opening or seated in the second opening, and a projection of the protrusion 114 overlaps the light source 120 along the second direction D2.
Continuously referring to FIG. 1 and FIG. 2, the key structure 100 further includes a rubber dome 150 and a supporting element 160. In the present embodiment, the rubber dome 150 is disposed between the thin film circuit board 130 and the keycap 140, the supporting element 160 is pivoted to a plurality of fixing portions 118 of the bottom plate 110 and is located between the bottom plate 110 and the keycap 140, and the supporting element 160 surrounds the rubber dome 150. Furthermore, an assembly region A is defined by a range surrounded by the protrusions 114, and the rubber dome 150 and the supporting element 160 are located within the assembly region A.
When a user uses the key structure 100, the light emitted by the backlight module 120, after passing from the underneath of the body 112 of the bottom plate 110 and passing through the openings 112c of the body 112 and thin film circuit board 130, irradiates on the keycap 140, such that the user may recognize a character printed on the keycap 140 clearly and easily.
Specifically, since the keycap 140 covers the protrusions 114 from the top, a gap between the keycap 140 and the bottom plate 110 is shielded by the protrusions 114, and thus, the light may be prevented from leaking from the gap between the keycap 140 and the bottom plate 110, so as to prevent the user from being affected by the light leakage when recognizing the character printed on the keycap 140.
It should be mentioned that in the specification, the bottom plate 110, the backlight module 120 and thin film circuit board 130 are presented as being sliced into unit bodies in a manner for fitting the keycap 140 in the illustration for descriptive convenience, however, people of the art may be of the knowledge that the bottom plate 110, the backlight module 120 and thin film circuit board 130 as described above are usually presented in a manner that these unit bodies are integrated to form a sheet material or a plate material simultaneously corresponding to a plurality of keycaps 140.
Referring to FIG. 7, it is a schematic diagram illustrating a key structure according to another embodiment of the invention, and comparing with the key structure 100 illustrated in FIG. 1, the difference between a key structure 200 illustrated in FIG. 7 and the key structure 100 is in the key structure 200 having only one protrusion 214. In the present embodiment, the protrusion 214 is disposed on the bottom plate 110, extends toward the keycap 140 and is located within the orthographic projection range of the keycap 140, and an assembly region A is defined by the protrusions 214. The fixing portions 118 and the openings 112c of the bottom plate 110 and the supporting element 160 are all located inside the assembly region A surrounded by the protrusion 214.
Referring to FIG. 8, it is a schematic diagram illustrating a key structure according to yet another embodiment of the invention, and in a key structure 300 illustrated in FIG. 8, there are further a plurality of protrusions 314 in the assembly region A surrounded by the protrusion 214. In other words, the protrusions 214 and 314 surround the openings 112c of the bottom plate in a disposition relationship as an inner ring and an outer ring. In addition, in the present embodiment, an example that a light absorbing material 216 is further disposed on a surface of the protrusion 214 is taken for description, while in other implementation aspects, a light absorbing material may be coated on surfaces of a plurality of protrusions, a surface of a protrusion at a specific position or a surface of a plurality of protrusions at specific positions based on a demand, so as to improving an effect of preventing the light leakage.
Then, referring to FIG. 9, it is a schematic diagram illustrating a key structure according to still another embodiment of the invention. A key structure 400 illustrated in FIG. 9 is a multiple-width key, such as space key, Shift key, Enter key . . . etc. In the present embodiment, the key structure 400 has a plurality of protrusions 414, and the protrusions 414 are grouped into two groups, an assembly region A is defined by each of the groups, and a supporting element 460 is disposed in each of the assembly regions A. Next, a rubber dome 450 is located between the two supporting elements 460.
In view of the foregoing, in the key structure of the invention, through the disposition of the protrusions, the gap between the keycap and the bottom plate can be shielded by the protrusions, such that the light emitted from the backlight module can be preferably prevented from leaking from the gap between the keycap and the bottom plate. Therefore, for the user, the character printed on the keycap can be recognized more clearly and conveniently, so as to improve the convenience in use.
Although the invention has been described with reference to the above embodiments, it will be apparent to one of the ordinary skill in the art that modifications to the described embodiment may be made without departing from the spirit of the invention. Accordingly, the scope of the invention will be defined by the attached claims not by the above detailed descriptions.
Patent Application
20200350128
