The present invention relates to a keyswitch and a keyboard thereof, and more specifically, to a keyswitch abutting a support member of a lifting device on a membrane circuit board to separate the support member from a board and a keyboard thereof.
A keyboard, which is the most common input device, could be found in variety of electronic apparatuses for users to input characters, symbols, numerals and so on. Furthermore, from consumer electronic products to industrial machine tools, they are all equipped with a keyboard for performing input operations.
A traditional keyswitch of the keyboard includes a cap, a scissor lifting structure, a membrane circuit board, a returning member, and a board. The membrane circuit board has switches and is disposed on the board. The scissor lifting structure is connected to the cap and the board to make the cap movable relative to the board. The returning member is positioned between the cap and the board to provide an elastic returning force, enabling the cap to automatically return to its original position. A common design for the scissor lifting structure involves embedding a connecting end portion of the scissor lifting structure (e.g., a pivot end portion or a sliding end portion) into a hole of the membrane circuit board to be engaged with a hook of the board. However, when a user presses the keyswitch to cause the scissor lifting structure to directly collide with the board, it may result in noise and shaft vibration since there is a gap between the connecting end portion of the scissor lifting structure and the hook, which affects the user's tactile experience. Moreover, as mentioned above, the membrane circuit board needs to form the hole corresponding to the hook, which easily causes the excessive hole area problem to impose unnecessary constraints on the routing space of the membrane circuit board.
The present invention provides a keyswitch including a board, a cap, a membrane circuit board, and a lifting device. The board has a first engaging structure and a second engaging structure. The cap is located above the board. The membrane circuit board is disposed on the board and has a first hole and a second hole formed corresponding to the first engaging structure and the second engaging structure respectively, to make the first engaging structure and the second engaging structure protrude from the first hole and the second hole respectively. The lifting device is connected to the cap and the board to make the cap movable relative to the board via the lifting device. The lifting device includes a first support member and a second support member. The first support member is movably connected to the cap and has a pivot end portion. The pivot end portion is movably connected to the first engaging structure and the second engaging structure and has at least one first abutting portion extending toward at least one first edge of the first hole and at least one second edge of the second hole along a pivot axis of the first engaging structure. The at least one first abutting portion abuts on the membrane circuit board to make the pivot end portion partially abut on the membrane circuit board for reducing an impact noise between the first support member and the board. The second support member is movably connected to the cap and the board. The second support member rotatably intersects with the first support member.
The present invention further provides a keyboard including a board and a plurality of keyswitches. The plurality of keyswitches is disposed on the board. At least one of the plurality of keyswitches includes a cap, a membrane circuit board, and a lifting device. The cap is located above the board. The membrane circuit board is disposed on the board. The board has a first engaging structure and a second engaging structure corresponding to the at least one of the plurality of keyswitches. The membrane circuit board has a first hole and a second hole formed corresponding to the first engaging structure and the second engaging structure respectively, to make the first engaging structure and the second engaging structure protrude from the first hole and the second hole respectively. The lifting device is connected to the cap and the board to make the cap movable relative to the board via the lifting device. The lifting device includes a first support member and a second support member. The first support member is movably connected to the cap and has a pivot end portion. The pivot end portion is movably connected to the first engaging structure and the second engaging structure and has at least one first abutting portion extending toward at least one first edge of the first hole and at least one second edge of the second hole along a pivot axis of the first engaging structure. The at least one first abutting portion abuts on the membrane circuit board to make the pivot end portion partially abut on the membrane circuit board for reducing an impact noise between the first support member and the board. The second support member is movably connected to the cap and the board. The second support member rotatably intersects with the first support member.
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.
Please refer to
The support design provided by the present invention could be applied to at least one of the plurality of keyswitches 14, and the actual number depends on the practical application of the keyboard 10. For simplicity, the following description focuses on one keyswitch 14 with the support design. As for the related description for other keyswitches 14 with the same support design, it could be reasoned by analogy. Please refer to
The lifting device 20 is connected to the cap 16 and the board 12, to make the cap 16 movable relative to the board 12 via the lifting device 20. Accordingly, when the cap 16 is pressed, a switch on the membrane circuit board 18 can correspondingly be triggered (the related description for the triggering design is commonly seen in the prior art and omitted herein), so that the keyboard 10 can execute the desired input function. More specifically, in this embodiment, the lifting device 20 adopts a scissor lifting design and includes a first support member 30 and a second support member 32. The first support member 30 is movably (e.g., slidably) connected to the cap 16 and has a pivot end portion 34. The second support member 32 movably intersects with the first support member 30. The second support member 32 is movably (e.g., rotatably) connected to the cap 16 and has a sliding end portion 36.
The pivot end portion 34 is movably (e.g., rotatably) connected to the first engaging structure 1 and the second engaging structure 2, and could extend toward at least one first edge E1 of the first hole 22 and at least one second edge E2 of the second hole 24 along a pivot axis A of the first engaging structure 1 to form at least one first abutting portion 35 abutting on the membrane circuit board 18. For example, as shown in
In summary, compared with the prior art in which the connecting end portion of the scissor lifting structure (e.g., the pivot end portion or the sliding end portion) is embedded into the hole of the membrane circuit board to be engaged with the hook of the board, the present invention adopts the design in which the membrane circuit board 18 is disposed on the board 12 and the first abutting portion 35 of the pivot end portion 34 of the first support member 30 and the second abutting portion 37 of the sliding end portion 36 of the second support member 32 respectively abut on the membrane circuit board 18. The aforesaid design generates the effect of separating the first support member 30 and the second support member 32 from the board 12 and absorbing impact sounds from the first support member 30 and the second support member 32 with the board 12 via the buffering characteristics of the membrane circuit board 18, thereby reducing the impact noise of the lifting device 20 with the board 12. In such a manner, the present invention can effectively solve the prior art problem that the scissor lifting structure would directly collide with the board to cause noise and vibration of the end portion of the support member, so as to greatly improve the user's tactile experience when pressing the keyswitch. It is more advantageous to use of the keyboard in quiet environments (such as offices, libraries, etc.), thereby enhancing the application flexibility of the keyboard in various environments.
It should be mentioned that the present invention could further adopt the design of increasing the support area of the membrane circuit board. For example, please refer to
Moreover, in the practical application, as shown in
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 |
---|---|---|---|
111137784 | Oct 2022 | TW | national |