The present invention relates to a key connecting module, and in particular, to a key connecting module that can be connected to different types of keycaps, to form different types of keyboards.
Common peripheral input apparatuses of a computer include a mouse, a keyboard, a trackball, and the like, where the keyboard can be used to directly enter text and symbols to the computer, and therefore draws great attention from users and input apparatus venders. Keyboards are classified into keyboards for desktop computers and keyboard modules for notebook computers.
Next, a structure of the keyboard for the desktop computer is described. Refer to
The frame 12 is disposed above the membrane switch circuit 14, and the frame 12 has a plurality of the support structures 121 (where only one support structure is shown in the figure) corresponding to the plurality of first keycaps 11, where each support structure 121 surrounds one elastic rubber body 13. A function of the plurality of the support structures 121 is to fix the plurality of first keycaps 11 thereon, and make the plurality of first keycaps 11 movable up and down relative to the frame 12. The first keycap 11 includes a contact part 111 and a connecting part 112, where the contact part 111 is a part exposed to an outer surface of the keyboard 1, and can be pressed by a user. The connecting part 112 and the contact part 111 are integrally formed, and the connecting part 112 extends downwards to be connected to the corresponding support structure 121. Because the support structure 121 in the frame 12 is shaped to surround the elastic rubber body 13 and is like a crater, the keyboard for the desktop computer is also commonly known as a crater-architecture keyboard.
When a user presses the contact part 111 of the first keycap 11, the connecting part 112 is stressed and moves downwards relative to the frame 12 and presses the corresponding elastic rubber body 13; in this case, the elastic rubber body 13 is deformed and presses the membrane switch circuit 14 to trigger the key contact of the membrane switch circuit 14, so that the membrane switch circuit 14 outputs a corresponding key signal. When the user stops pressing the contact part 111, the connecting part 112 is no longer stressed and stops pressing the elastic rubber body 13; therefore, the elastic rubber body 13 is restored due to its elasticity, and provides upward resilience at the same time. Therefore, the first keycap 11 is pushed back to a position at which it is located before being pressed.
Next, a structure of the keyboard module for the notebook computer is described. Refer to
The membrane switch circuit 24 is disposed on the bottom board 25 and has a plurality of key contacts (not shown in the figure). When a key contact of the membrane switch circuit 14 is triggered, the membrane switch circuit 24 outputs a corresponding key signal. The plurality of elastic rubber bodies 23 is disposed on the membrane switch circuit 24 and each elastic rubber body 23 corresponds to one second keycap 21. When the elastic rubber body 23 is pressed, the elastic rubber body 23 is deformed and presses the membrane switch circuit 24 to trigger the membrane switch circuit 24. The scissors-type connecting assembly 22 is located between and separately connected to the bottom board 25 and the second keycap 21, and the scissors-type connecting assembly 22 is moveable relative to the bottom board 25, so that the second keycap 21 moves up and down. Each scissors-type connecting assembly 22 surrounds a corresponding elastic rubber body 23. Because a shape and a motion manner of the scissors-type connecting assembly 22 are similar to scissors, the keyboard module for the notebook computer is commonly known as a scissors-architecture keyboard.
An operation of the second keycap 21 when the second keycap 21 is pressed is similar to the aforementioned operation of the first keycap 11 when the first keycap 11 is pressed. When a user presses the second keycap 21, the second keycap 21 is stressed and pushes the scissors-type connecting assembly 22 to move; therefore, the second keycap 21 may move downwards relative to the bottom board 25 and press the corresponding elastic rubber body 23. In this case, the elastic rubber body 23 is deformed and presses the membrane switch circuit 24 to trigger the key contact of the membrane switch circuit 24, so that the membrane switch circuit 24 outputs a corresponding key signal. When the user stops pressing the second keycap 21, the second keycap 21 is no longer stressed and stops pressing the elastic rubber body 23; therefore, the elastic rubber body 23 is restored due to its elasticity, and provides upward resilience at the same time. Therefore, the second keycap 21 is pushed back to a position at which it is located before being pressed.
The foregoing two types of keyboards are used according to different needs, for example, the conventional keyboard 1 has relatively low costs, while the appearance of the second keycap 21 of the conventional keyboard module 2 is relatively light and thin, and a user may choose a suitable keyboard according to different needs. However, some users favor the second keycap 21 that is light and thin, and also hope that costs of the keyboard using the second keycaps 21 can be reduced. This is a problem that keyboard manufacturers want to resolve.
An objective of the present invention is to provide a key connecting module applicable to a plurality of different keycaps and a keyboard having the key connecting module.
In a preferred embodiment, the present invention provides a key connecting module and a keyboard having the key connecting module. The key connecting module is disposed on a bottom board and is used to trigger a switch circuit board. The key connecting module includes a frame and a triggering assembly. The frame is disposed above the switch circuit board, and the frame has a support structure. The triggering assembly is accommodated in the support structure, is moveable relative to the frame so as to be combined with a first keycap or a second keycap, and is pushed by the first keycap or the second keycap to trigger the switch circuit board, where when the key connecting module is connected to the first keycap, the first keycap partially extends into the triggering assembly and is combined with a first combining part of the triggering assembly; and when the key connecting module is connected to the second keycap, the second keycap partially extends into the triggering assembly and is combined with a second combining part of the triggering assembly.
In short, the key connecting module of the present invention is disposed between a switch circuit board and keycaps, and a triggering assembly of the key connecting module has multiple combining parts that fit different keycap shapes, where a shape of a first combining part of a connecting piece of the triggering assembly is complementary to a shape of a first keycap combining part, and a shape of a second combining part of the connecting piece is complementary to a shape of a second keycap combining part. Therefore, keycaps in different shapes may be combined with the triggering assembly to separately form keyboards in different shapes. In addition, as compared with a scissors-architecture keyboard, the key connecting module in the present invention has a simpler structure and a process of assembling the key connecting module with different keycaps is simpler; therefore, the keyboard formed by using the key connecting module in the present invention has lower costs than the scissors-architecture keyboard, and can provide an appearance of the scissors-architecture keyboard for the user at relatively low costs, thereby satisfying a need of the user.
In view of the problem in the prior art, the present invention provides a key connecting module that can be shared by multiple types of keycaps, so that different keyboards can be formed, thereby resolving the problem in the prior art. Referring to
In
In
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In
In another aspect, the third combining part 3214 is disposed in the center of the top end 3211 of the connecting piece 321, and is located on two sides of the second combining part 3213. A function of the third combining part 3214 is to accommodate the third keycap combining part 3051 and to clamp the third keycap combining part 3051. In this preferred embodiment, a shape of the third combining part 3214 is a groove complementary to a shape of the second keycap combining part 3051.
In addition, the connecting piece 321 further includes a plurality of fixed projections 3219 arranged around the connecting piece 321, and each fixed projection 3219 corresponds to one limiting groove 312. A function of the limiting groove 312 is to accommodate the corresponding fixed projection 3219 and to prevent the fixed projection 3219 from separating from the frame 31. In this preferred embodiment, the first combining part 3212, the second combining part 3213, the third combining part 3214, and the plurality of fixed projections 3219 are all integrally formed with the connecting piece 321.
Next, structures when the key connecting module 3 in the present invention is separately combined with different keycaps are described. Referring to
When the user stops pressing the first keycap 303, the second keycap 321 is no longer stressed and stops pressing the triggering piece 322; therefore, the triggering piece 322 is restored due to its elasticity, and provides upward resilience at the same time. Therefore, the first keycap 303 is pushed back to a position at which it is located before being pressed.
Next, referring to
Referring to
Two points need to be particularly noted: First, in preferred operations, before various keycaps are combined with the key connecting module 3, an adhesive may be disposed between the keycaps and the connecting piece 321, to strengthen the combination between the keycaps and the connecting piece 321, thereby preventing the keycaps from falling off. Second, because keycaps for different types of keyboards have different movement strokes (that is, movement distances of keycaps after being pressed), for example, a stroke of a keycap for a scissors-architecture keyboard is shorter than those of the other two types of keycaps, lengths of the plurality of limiting grooves 312 on the frame 31 may be shortened, to shorten the movement stroke of the keycap. Therefore, the keyboard formed by combining the first keycap 303 and the key connecting module 3 can provide a pressing feel similar to that of the scissors-architecture keyboard. In other words, for the key connecting module in the present invention, a movement stroke of a keycap may be controlled by adjusting the lengths of the plurality of limiting grooves.
It can be known according to the foregoing descriptions that, the key connecting module of the present invention is disposed between a switch circuit board and keycaps, and a triggering assembly of the key connecting module has multiple combining parts that fit different keycap shapes, where a shape of a first combining part of a connecting piece of the triggering assembly is complementary to a shape of a first keycap combining part, and a shape of a second combining part of the connecting piece is complementary to a shape of a second keycap combining part. Therefore, keycaps in different shapes may be combined with the triggering assembly to separately form keyboards in different shapes. In addition, as compared with a scissors-architecture keyboard, the key connecting module in the present invention has a simpler structure and a process of assembling the key connecting module with different keycaps is simpler; therefore, the keyboard formed by using the key connecting module in the present invention has lower costs than the scissors-architecture keyboard, and can provide an appearance of the scissors-architecture keyboard for the user at relatively low costs, thereby satisfying a need of the user.
The foregoing descriptions are merely preferred embodiments of the present invention, but are not intended to limit the application scope of the present invention. Any other equivalent variation or modification made without departing from the spirit disclosed in the present invention shall fall within the application scope of the present invention.
Number | Date | Country | Kind |
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104138516 | Nov 2015 | TW | national |