The invention relates to a key switch and, more particularly, to a key switch capable of adjusting a size by moving a support member horizontally.
A keyboard, which is the most common input device, can be found in variety of electronic equipment for users to input characters, symbols, numerals and so on. The keyboard consists of a plurality of key switches for users to input characters, symbols, numerals and so on. The key switch usually comprises a base, a key cap and a support device disposed between the key cap and the base, such that the key cap can move with the support device between a non-pressed position and a pressed position with respect to the base. In general, there are lots of key switches with different sizes disposed on the keyboard. Therefore, when the keyboard is manufactured, different support devices have to be designed for the key switches with different sizes, such that the mold type of the support device becomes complicated and the number of molds increases. Consequently, the manufacturing cost increases.
An objective of the invention is to provide a key switch capable of adjusting a size by moving a support member horizontally, so as to solve the aforesaid problems.
According to an embodiment of the invention, a key switch comprises a base, a key cap, a first support member and a second support member. The key cap is disposed with respect to the base. The first support member is disposed between the key cap and the base. The first support member has a first linkage structure. The second support member is disposed between the key cap and the base and with respect to the first support member. The second support member has a second linkage structure. The first linkage structure and the second linkage structure abut against each other, such that the first support member and the second support member rotate synchronously with respect to a horizontal axis. When one of the first support member and the second support member horizontally moves with respect to the other one of the first support member and the second support member within a predetermined range along the horizontal axis, the first linkage structure and the second linkage structure keep abutting against each other.
As mentioned in the above, two support members of the invention can horizontally move with respect to each other within the predetermined range along the horizontal axis, so as to be applied to different key switches with different sizes. Therefore, when a keyboard is manufactured, the invention may classify the key switches with different sizes first and then design the support member for each type of key switch. Accordingly, the invention can simplify the mold type and reduce the number of molds, so as to reduce the manufacturing cost.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
Referring to
As shown in
The key cap 12 is disposed with respect to the base 10. The first support member 14 and the second support member 16 are disposed between the key cap 12 and the base 10, and the second support member 16 is disposed with respect to the first support member 14, such that the key cap 12 can move with the first support member 14 and the second support member 16 between a non-pressed position (as shown in
In this embodiment, the first support member 14 may have two first sliding portions 140 and two first pivot portions 142, the second support members 16 may have two second sliding portions 160 and two second pivot portions 162, the key cap 12 may have two first sliding grooves 120 corresponding to the two first sliding portions 140 and two sliding grooves 122 corresponding to the two second sliding portions 160, and the base 10 may have two first pivot holes 100 corresponding to the two first pivot portions 142 and two pivot holes 102 corresponding to the two second pivot portions 162. The first siding portion 140 is slidably disposed in the first sliding groove 120 of the key cap 12 and the first pivot portion 142 is rotatably connected to the first pivot hole 100 of the base 10, such that the first support member 14 can rotate between the positions shown in
Furthermore, the first support member has a first linkage structure 144 and the second support member 16 has a second linkage structure 164. The first linkage structure 144 and the second linkage structure 164 abut against each other, such that the first support member 14 and the second support member 16 can rotate synchronously with respect to a horizontal axis A. In this embodiment, the first linkage structure 144 may comprise a first engaging portion 1440 and a first engaging plate 1442, and the second linkage structure 164 may comprise a second engaging portion 1640 and a second engaging plate 1642. To assemble the first support member 14 and the second support member 16, the first engaging plate 1442 engages with the second engaging portion 1640 and the second engaging plate 1642 engages with the first engaging portion 1440, such that the first linkage structure 144 and the second linkage structure 164 abut against each other. Accordingly, when the key cap 12 is pressed, the first support member 14 and the second support member 16 can drive each other to rotate. In this embodiment, the first engaging portion 1440 and the second engaging portion 1640 may be designed as C-shape, such that the first engaging portion 1440 and the second engaging plate 1642 forma gear-like engaging structure and the second engaging portion 1640 and the first engaging plate 1442 also form a gear-like engaging structure. Accordingly, the first support member 14 and the second support member 16 can drive each other to rotate more stably and more smoothly.
As shown in
In this embodiment, lengths of the first engaging plate 1442 and the second engaging plate 1642 along the horizontal axis A are larger than lengths of the second engaging portion 1640 and the first engaging portion 1440 along the horizontal axis A, respectively. Accordingly, when one of the first support member 14 and the second support member 16 horizontally moves with respect to the other one of the first support member 14 and the second support member 16 within a predetermined range R along the horizontal axis A, the first linkage structure 144 and the second linkage structure 164 always keep abutting against each other, wherein the aforesaid predetermined range R is a length range of the first engaging plate 1442 and the second engaging plate 1642 along the horizontal axis A. Accordingly, the first support member 14 and the second support member 16 can horizontally move with respect to each other within the predetermined range R along the horizontal axis A, so as to be applied to different key switches with different sizes. Therefore, when a keyboard is manufactured, the invention may classify the key switches with different sizes first and then design the first support member 14 and the second support member 16 for each type of key switch. Accordingly, the invention can simplify the mold type and reduce the number of molds, so as to reduce the manufacturing cost. Moreover, the first support member 14 and the second support member 16 may have identical structure, such that the first support member 14 and the second support member 16 may be manufactured by identical mold, so as to further reduce the manufacturing cost.
As shown in
Referring to
The main difference between the key switch 1′ and the aforesaid key switch 1 is that the key switch 1′ further comprises a third support member 22. As shown in
In this embodiment, the third support member 22 may have two third sliding portions 220 and two third pivot portions 222, the key cap 12 may have two third sliding grooves 128 corresponding to the two third sliding portions 220, and the base 10 may have two third pivot holes 104 corresponding to the two third pivot portions 222. The third siding portion 220 is slidably disposed in the third sliding groove 128 of the key cap 12 and the third pivot portion 222 is rotatably connected to the third pivot hole 104 of the base 10, such that the third support member 22 can rotate with respect to the key cap 12 and the base 10.
Still further, the third support member 22 has a third linkage structure 224. In this embodiment, the first linkage structure 144 of the first support member 14 abuts against the second linkage structure 164 of the second support member 16 and the third linkage structure 224 of the third support member 22, such that the first support member 14, the second support member 16 and the third support member 22 can rotate synchronously with respect to the horizontal axis A. In this embodiment, the third linkage structure 224 may comprise a second engaging portion 2240 and a second engaging plate 2242. To assemble the first support member 14 and the third support member 22, the second engaging plate 2242 engages with the first engaging portion 1440, such that the first linkage structure 144 and the third linkage structure 224 abut against each other. Accordingly, when the key cap 12 is pressed, the first support member 14, the second support member 16 and the third support member 22 can drive each other to rotate. In this embodiment, the first engaging portion 1440 and the second engaging portion 1640 may be designed as C-shape, such that the first engaging portion 1440 and the second engaging plate 2242 form a gear-like engaging structure and the second engaging portion 1640 and the first engaging plate 1442 also form a gear-like engaging structure. Accordingly, the first support member 14, the second support member 16 and the third support member 22 can drive each other to rotate more stably and more smoothly.
As shown in
In this embodiment, the length of the first engaging plate 1442 along the horizontal axis A is larger than the length of the second engaging portion 1640 along the horizontal axis A. Accordingly, when one of the first support member 14 and the second support member 16 horizontally moves with respect to the other one of the first support member 14 and the second support member 16 within a predetermined range R along the horizontal axis A, the first linkage structure 144 and the second linkage structure 164 always keep abutting against each other, wherein the aforesaid predetermined range R is a length range of the first engaging plate 1442 along the horizontal axis A. Accordingly, the first support member 14 and the second support member 16 can horizontally move with respect to each other within the predetermined range R along the horizontal axis A, so as to be applied to different key switches with different sizes. Furthermore, the invention may add the third support member 22 for a key switch with larger size. Therefore, when a keyboard is manufactured, the invention may classify the key switches with different sizes first and then design the first support member 14, the second support member 16 and the third support member 22 for each type of key switch. Accordingly, the invention can simplify the mold type and reduce the number of molds, so as to reduce the manufacturing cost.
As shown in
As mentioned in the above, two support members of the invention can horizontally move with respect to each other within the predetermined range along the horizontal axis, so as to be applied to different key switches with different sizes. Therefore, when a keyboard is manufactured, the invention may classify the key switches with different sizes first and then design the support member for each type of key switch. Accordingly, the invention can simplify the mold type and reduce the number of molds, so as to reduce the manufacturing cost.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
Number | Date | Country | Kind |
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108124188 | Jul 2019 | TW | national |