KEY STRUCTURE

Abstract

A key structure includes a membrane switch circuit member, a rubbery elastomer, a housing, a triggering element, a metallic elastic element and a keycap. The keycap is disposed on the triggering element. The rubbery elastomer is disposed on the membrane switch circuit member. The housing is located over the rubbery elastomer. The triggering element is movable relative to the housing. The metallic elastic element is contacted with the triggering element. While the keycap is depressed, the triggering element is moved relative to the housing to press the metallic elastic element. While the metallic elastic element is pushed by the triggering element, the metallic elastic element is swung to collide with the triggering element. Consequently, a click sound is generated.

Claims

1. A key structure, comprising: a membrane switch circuit member, wherein when the membrane switch circuit member is triggered, a key signal is generated; a rubbery elastomer disposed on the membrane switch circuit member, wherein when the rubbery elastomer is depressed, the membrane switch circuit member is triggered by the rubbery elastomer; a housing located over the rubbery elastomer, and comprising an opening and a receiving part, wherein the opening runs through the housing, and the receiving part is located beside an inner wall of the housing; a triggering element inserted into the opening and movable relative to the housing, wherein when the triggering element is pushed, the triggering element presses the rubbery elastomer the triggering element comprising: a main body; a connecting part protruded from a first end of the main body, and connected with the keycap; and a positioning part disposed on a sidewall of the main body, wherein the positioning part is penetrated through the metallic elastic element, so that the metallic elastic element is fixed in the receiving part; and plural recesses located at a second end of the main body, wherein a portion of the metallic elastic element is accommodated within the plural recesses; a metallic elastic element accommodated within the receiving part and contacted with the triggering element, wherein while the metallic elastic element is pushed by the triggering element, the metallic elastic element is swung to collide with the triggering element or the housing, so that a click sound is generated; and a keycap coupled with the triggering element, wherein when the keycap is depressed, the triggering element is pushed by the keycap.

2. (canceled)

3. The key structure according to claim 1, wherein the metallic elastic element comprises: a main plate disposed within the receiving part; a bent part connected with the main plate; plural protrusion arms connected with the bent part and partially accommodated within the corresponding recesses of the triggering element; and a hollow part arranged between the plural protrusion arms, wherein the positioning part of the triggering element is penetrated through the hollow part, so that the main plate is fixed in the receiving part.

4. The key structure according to claim 3, wherein the bent part and the plural protrusion arms are integrally formed with the main plate.

5. The key structure according to claim 3, wherein while the keycap is depressed, the triggering element is pushed by the keycap and the triggering element is moved relative to the housing, wherein while the triggering element is moved relative to the housing, the plural protrusion arms are pushed by the corresponding recesses and detached from the corresponding recesses, and the plural protrusion arms are swung to collide with the main body of the triggering element in response to metallic elasticity of the metallic elastic element, so that a click sound is generated.

6. The key structure according to claim 5, wherein the metallic elastic element further comprises a bulge, and the bulge is disposed on the main plate, wherein while the main body is swung, the bulge collides with the inner wall of the housing to generate another click sound.

7. The key structure according to claim 3, wherein there is an included angle between the protrusion arms and the main plate of the metallic elastic element, and a tactile feel of the key structure is adjustable through the metallic elastic element according to the angle.

8. The key structure according to claim 1, wherein the triggering element further comprises: a guiding track formed in another sidewall of the main body; a first stopping part located at the first end of the main body, and contacted with the housing, wherein the triggering element is stopped by the first stopping part, so that the triggering element is not detached from the opening; and a second stopping part located at the second end of the main body, and contacted with the housing, wherein the triggering element is stopped by the second stopping part, so that the triggering element is not detached from the opening.

9. The key structure according to claim 8, wherein the housing further comprises a guiding post corresponding to the guiding track, wherein the guiding track is disposed on another inner wall of the housing and inserted into the guiding track, so that the triggering element is movable relative to the housing along the guiding post.

10. The key structure according to claim 8, wherein the connecting part, the positioning part, the first stopping part and the second stopping part are integrally formed with the main body.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] FIG. 1 is a schematic side cross-sectional view illustrating a conventional key structure;

[0017] FIG. 2 is a schematic side cross-sectional view illustrating a conventional mechanical key structure;

[0018] FIG. 3 is a schematic exploded view illustrating a key structure according to an embodiment of the present invention;

[0019] FIG. 4 is a schematic exploded view illustrating the key structure of FIG. 3, and taken along another viewpoint;

[0020] FIG. 5 is a schematic cross-sectional view illustrating the key structure according to the embodiment of the present invention;

[0021] FIG. 6 is a schematic perspective view illustrating the relationship between the triggering element and the metallic elastic element of the key structure according to the embodiment the present invention; and

[0022] FIG. 7 is a schematic cross-sectional view illustrating the key structure according to the embodiment of the present invention, in which the key structure is in a depressed state.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0023] For solving the drawbacks of the conventional technologies, the present invention provides a key structure.

[0024] Please refer to FIGS. 3, 4 and 5. FIG. 3 is a schematic exploded view illustrating a key structure according to an embodiment of the present invention. FIG. 4 is a schematic exploded view illustrating the key structure of FIG. 3, and taken along another viewpoint. FIG. 5 is a schematic cross-sectional view illustrating the key structure according to the embodiment of the present invention. In this embodiment, the key structure 3 comprises a membrane switch circuit member 30, a rubbery elastomer 31, a housing 32, a triggering element 33, a metallic elastic element 34 and a keycap 35. When the membrane switch circuit member 30 is triggered, a key signal is generated. The rubbery elastomer 31 is disposed on the membrane switch circuit member 30. When the rubbery elastomer 31 is depressed, the rubbery elastomer 31 is subjected to deformation to trigger the membrane switch circuit member 30. The housing 32 is located over the rubbery elastomer 31. Moreover, the housing 32 comprises an opening 321, a receiving part 322 and plural guiding posts 323. The opening 321 runs through the housing 32 in the vertical direction. The receiving part 322 located beside a first inner wall 324 of the housing 32. The plural guiding posts 323 are disposed on a second inner wall 325 and a third inner wall 326 of the housing 32. The structure of the membrane switch circuit member 30 is well known to those skilled in the art, and is not redundantly described herein.

[0025] The triggering element 33 is inserted into the opening 321 and movable relative to the housing 32 in the vertical direction. As the triggering element 33 is pushed, the triggering element 33 presses the rubbery elastomer 31. The metallic elastic element 34 is accommodated within the receiving part 322 and contacted with the triggering element 33. While the triggering element 33 is moved, the metallic elastic element 34 is pushed by the triggering element 33 and the metallic elastic element 34 is swung accordingly. As the metallic elastic element 34 is swung to collide with the triggering element 33 or the housing 32, a click sound is generated. The keycap 35 is coupled with the triggering element 33. While the keycap 35 is depressed by the user, the keycap 35 is moved downwardly in the vertical direction so as to push the triggering element 33.

[0026] Please refer to FIGS. 3, 4, 5 and 6. FIG. 6 is a schematic perspective view illustrating the relationship between the triggering element and the metallic elastic element of the key structure according to the embodiment the present invention. The triggering element 33 comprises a main body 331, a connecting part 332, a positioning part 333, plural recesses 334, plural guiding tracks 335, a first stopping part 336 and plural second stopping parts 337. The connecting part 332 is protruded from a first end 3311 of the main body 331. The connecting part 332 is connected with the keycap 35. The positioning part 333 is disposed on a first sidewall 3313 of the main body 331 and arranged near the connecting part 332. The positioning part 333 is penetrated through the metallic elastic element 34. Consequently, the metallic elastic element 34 is fixed in the receiving part 322. The plural recesses 334 are located at a second end 3312 of the main body 331 and arranged near the positioning part 333. A portion of the metallic elastic element 34 is accommodated within the recesses 334. The plural guiding tracks 335 are formed in a second sidewall 3314 and a third sidewall 3315 of the main body 331. The plural guiding tracks 335 are aligned with the plural guiding posts 323, respectively. The guiding posts 323 are inserted into the corresponding guiding tracks 335. Consequently, the triggering element 33 can be moved relative to the housing 32 along the plural guiding posts 323 in the vertical direction.

[0027] The first stopping part 336 is located at the first end 3311 of the main body 331. The first stopping part 336 is contacted with the housing 32 to stop the triggering element 33. Consequently, the triggering element 33 is not detached from the opening 321. The function of the plural second stopping parts 337 is similar to the function of the first stopping part 336. The plural second stopping parts 337 are located at the second end 3312 of the main body 331. The plural second stopping parts 337 are contacted with the housing 32 to stop the triggering element 33. Consequently, the triggering element 33 is not detached from the opening 321. In an embodiment, the connecting part 332, the positioning part 333, the first stopping part 336 and the plural second stopping parts 337 are integrally formed with the main body 331. Moreover, these components are made of plastic material.

[0028] The metallic elastic element 34 comprises a main plate 341, a bent part 342, plural protrusion arms 343, a hollow part 344 and a bulge 345. The main plate 341 is disposed within the receiving part 322. The bent part 342 is connected with the main plate 341. Moreover, the bent part 342 has a U-shaped structure. As shown in FIGS. 5 and 6, the plural protrusion arms 343 are connected with the bent part 342 and partially accommodated within the corresponding recesses 334 of the triggering element 33. The hollow part 344 is arranged between the plural protrusion arms 343. The positioning part 333 is penetrated through the hollow part 344. Consequently, the main plate 341 is fixed in the receiving part 322. The bulge 345 is disposed on the main plate 341 and arranged near the first inner wall 324 of the housing 32. While the main plate 341 is swung, the bulge 345 collides with the first inner wall 324 of the housing 32 to generate the click sound. In this embodiment, the bent part 342, the plural protrusion arms 343 and the bulge 345 are integrally formed with the main plate 341. Moreover, the metallic elastic element 34 has an inverted-Y shape.

[0029] The operations of the key structure 3 in response to the depressing action of the user will be illustrated as follows. Please refer to FIGS. 3, 4, 5, 6 and 7. FIG. 7 is a schematic cross-sectional view illustrating the key structure according to the embodiment of the present invention, in which the key structure is in a depressed state.

[0030] While the keycap 35 is depressed by the user, the keycap 35 is moved downwardly to push the first end 3311 of the main body 331 of the triggering element 33 and the triggering element 33 is moved downwardly relative to the housing 32. While the triggering element 33 is moved downwardly, the plural protrusion arms 343 of the metallic elastic element are continuously pushed by the corresponding recesses 334.

[0031] Consequently, the plural protrusion arms 343 are detached from the recesses 334. In response to the metallic elasticity of the metallic elastic element 34, the plural protrusion arms 343 are swung at high speed to collide with the main body 331. Meanwhile, a first click sound is generated. The key structure 3 in the depressed state can be seen in FIG. 7. Moreover, while the main body 331 is moved downwardly to press the rubbery elastomer 31, the rubbery elastomer 31 is subjected to compressible deformation to trigger the membrane switch circuit member 30. Consequently, the membrane switch circuit member 30 generates a corresponding key signal. Moreover, while the triggering element 33 is moved downwardly, the triggering element 33 is moved relative to the housing 32 in the vertical direction through the plural guiding posts 323 and the plural guiding tracks 335.

[0032] When the keycap 35 is no longer pressed by the user, no external force is applied to the keycap 35. In response to the elasticity of the rubbery elastomer 31, the rubbery elastomer 31 is restored from the deformed state to its original shape to provide an upward elastic force to the main body 331 of the triggering element 33. In response to the upward elastic force, the main body 331 of the triggering element 33 pushes the keycap 35 to its original position. Moreover, while the triggering element 33 is moved upwardly, the metallic elastic element 34 in the status of FIG. 7 is swung toward the first inner wall 324 of the housing 32. Consequently, the bulge 345 on the main plate 341 collides with the first inner wall 324 of the housing 32 to generate a second click sound. When the metallic elastic element 34 is no longer swung, the metallic elastic element 34 is restored to the status of FIG. 5.

[0033] The following three aspects should be specially described. Firstly, there is an included angle A between the protrusion arms 343 and the main plate 341 of the metallic elastic element 34. According to the angle A, the tactile feel of the key structure 3 is adjustable through the metallic elastic element 34. For example, in case that the angle A is larger, the forces of the protrusion arms 343 exerted on the corresponding recesses 334 of the triggering element 33 are larger to provide heavier tactile feel to the user. Whereas, in case that the angle A is smaller, the forces of the protrusion arms 343 exerted on the corresponding recesses 334 of the triggering element 33 are smaller to provide lighter tactile feel to the user.

[0034] Secondly, the shapes of the protrusion arms 343 may be varied according to the practical requirements. Consequently, the interference between the protrusion arms 343 and the triggering element 33 will be increased or decreased. In such way, the tactile feel of the key structure 3 is adjusted, and the timing of swinging the metallic elastic element 34 controlled. In other words, the timing of generating the click sound can be controlled.

[0035] Thirdly, the key structure of the present invention further provides an illuminating function according to the practical requirements. For example, a circuit board and a top-view light emitting diode are located under the membrane switch circuit member, and the rubbery elastomer, the housing and the triggering element are made of a light-transmissible material. After the light beam emitted by the top-view light emitting diode is transmitted through the membrane switch circuit member, the rubbery elastomer, the housing and the triggering element, the light beam is projected to the keycap to illuminate the keycap. The above example is presented herein for purpose of illustration and description only. In another embodiment, the key structure is further equipped with a side-view light emitting diode, a circuit board and a light guide plate to provide the illuminating function.

[0036] From the above descriptions, the key structure of the present invention comprises the membrane switch circuit member, the rubbery elastomer, the triggering element, the housing and the metallic elastic element. The metallic elastic element has a special shape. The mechanism of these components is similar to a mechanical key structure. Due to the linkage between the triggering element and the metallic elastic element, a click sound is generated and a tactile feel is enhanced. In comparison with the conventional mechanical key structure, the key structure of the present invention is simpler. Moreover, the connection relationship and the operations between the components of the key structure of the present invention are more stable, and thus the possibility of causing erroneous operation is minimized. In other words, the key structure of the present invention is similar to a mechanical key structure. The key structure is cost-effective and capable of generating depressing feedback. Consequently, the problems of the conventional technology are overcome.

[0037] While the invention has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention needs not be limited to the disclosed embodiments. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims which are to be accorded with the broadest interpretation so as to encompass all modifications and similar structures.