阅读说明：本技术 按键装置 (Key device ) 是由 陈佳鑫 崛内光雄 于 2018-11-07 设计创作，主要内容包括：一种按键装置,包括底板、键帽及复位件。底板包括上表面,上表面具有组装区,组装区内设有枢接座与弹性臂,枢接座具有枢转轴线,弹性臂沿平行于枢转轴线方向延伸,弹性臂末端设有限位件,限位件凸出上表面。键帽设置于组装区上方,键帽的一侧延伸出连接臂,连接臂设有枢接部,枢接部枢设于枢接座,使键帽能以枢转轴线为轴相对于底板旋摆,键帽的底部还设有限位凹槽以对应活套于限位件,使键帽在枢转轴线的径向方向受到限位。复位件设置于底板与键帽之间,复位件具有回复力,以提供键帽相对于底板回复旋摆。(A key device comprises a bottom plate, a keycap and a reset piece. The bottom plate includes the upper surface, and the upper surface has the equipment district, is equipped with pin joint seat and elastic arm in the equipment district, and the pin joint seat has the pivot axis, and the elastic arm extends along being on a parallel with pivot axis direction, and the elastic arm end is equipped with the locating part, and the locating part bulges the upper surface. The key cap sets up in equipment district top, and one side of key cap extends the linking arm, and the linking arm is equipped with pin joint portion, and pin joint portion pin joint is located the pin joint seat, makes the key cap can use the pivot axis to swing soon as the axle for the bottom plate, and the bottom of key cap still is equipped with spacing recess in order to correspond loop in the locating part, makes the key cap receive spacingly in the radial direction of pivot axis. The reset piece is arranged between the base plate and the keycap and has restoring force so as to provide the keycap to restore and swing rotationally relative to the base plate.)

1. A key device, comprising:

the bottom plate comprises an upper surface, the upper surface is provided with an assembly area, a pivoting seat and an elastic arm are arranged in the assembly area, the pivoting seat is provided with a pivoting axis, the elastic arm extends along the direction parallel to the pivoting axis, the tail end of the elastic arm is provided with a limiting piece, and the limiting piece protrudes out of the upper surface;

the key cap is arranged above the assembling area, a connecting arm extends out of one side of the key cap, the connecting arm is provided with a pivoting part, the pivoting part is pivoted on the pivoting seat, so that the key cap can swing relative to the bottom plate by taking the pivot axis as an axis, and the bottom of the key cap is also provided with a limiting groove which is movably sleeved on the limiting part correspondingly, so that the key cap is limited in a certain radial direction of the pivot axis; and

the resetting piece is arranged between the base plate and the keycap and has restoring force so as to provide the keycap to restore and swing rotationally relative to the base plate.

2. The key device according to claim 1, wherein the position limiter comprises a vertical plate, and the vertical plate is integrally bent and extended upward from the end of the elastic arm.

3. The key device according to claim 2, wherein the retainer further comprises a horizontal plate integrally bent and extended from a top end of the vertical plate.

4. The key device according to claim 1, wherein said elastic arm has a first side edge and a second side edge, said first side edge and said second side edge being located on opposite sides of an extending direction of said elastic arm, and a length of said first side edge being different from a length of said second side edge.

5. The key device according to claim 1, wherein the limiting recess has a notch, the notch has a first edge and a second edge opposite to each other, the first edge is close to the pivot seat relative to the second edge, and at least one of the first edge and the second edge is provided with a guiding bevel.

6. The key device of claim 1, wherein the pivot base includes a pivot hook, a hook extends laterally from a top end of the pivot hook, the hook has a lower edge, and the pivot portion abuts against and pivots on the lower edge.

7. The device as claimed in claim 6, wherein the pivot portion has an arc top surface, and the pivot portion abuts against the lower edge of the hook.

8. The key device according to claim 1, wherein the connecting arm further extends to form an extension section, a protrusion is disposed at a bottom of the extension section, and the protrusion abuts against the upper surface of the bottom plate.

9. The key device according to claim 8, wherein the protrusion has an arc-shaped bottom surface, and the protrusion abuts against the upper surface of the bottom plate with the arc-shaped bottom surface.

10. The key device according to claim 1, wherein a first hook is further disposed in the assembly region of the bottom plate, a second hook is further disposed at the bottom of the key cap, and the first hook and the second hook are correspondingly hooked.

11. The key device according to claim 10, wherein a third hook is further disposed in the assembly region of the bottom plate, a fourth hook is further disposed at the bottom of the key cap, the third hook and the fourth hook are correspondingly hooked, and the reset member is located between the first hook and the third hook.

Technical Field

The present invention relates to an input device, and more particularly, to a key device.

Background

The key is one of the most common input devices of the current electronic devices, for example, the keyboard or the touch panel of the notebook computer generally has keys, and the user can press the keys to generate corresponding signals.

The swing type key generally comprises a keycap and a substrate, wherein one side of the keycap is pivoted on the substrate, so that the keycap can swing and lift relative to the substrate, a first assembling piece is arranged at the bottom of the keycap, and a second assembling piece corresponding to the first assembling piece is arranged on the substrate. In the assembling process of the keycap, the first assembling piece can be close to and combined with the first assembling piece to obtain limiting through rotating and swinging the keycap.

However, since the key cap is assembled to the second assembly member in a swinging manner, the first assembly member and the second assembly member are easily interfered or squeezed with each other during the assembling or disassembling process of the key cap, so that the second assembly member is damaged by force.

Disclosure of Invention

In view of the foregoing, in one embodiment, a key device includes a base plate, a key cap, and a reset element. The bottom plate includes the upper surface, and the upper surface has the equipment district, is equipped with pin joint seat and elastic arm in the equipment district, and the pin joint seat has the pivot axis, and the elastic arm extends along being on a parallel with pivot axis direction, and the elastic arm end is equipped with the locating part, and the locating part bulges the upper surface. The key cap sets up in equipment district top, and one side of key cap extends the linking arm, and the linking arm is equipped with pin joint portion, and pin joint portion pin joint is located the pin joint seat, makes the key cap can use the pivot axis to swing soon as the axle for the bottom plate, and the bottom of key cap still is equipped with spacing recess in order to correspond loop in the locating part, makes the key cap receive spacingly in the radial direction of pivot axis. The reset piece is arranged between the base plate and the keycap and has restoring force so as to provide the keycap to restore and swing rotationally relative to the base plate.

In summary, in the key device of the embodiment of the invention, the elastic arm arranged on the bottom plate extends along the direction parallel to the pivot axis of the pivot seat, so that when the limiting groove and the limiting member interfere with each other during the assembly or disassembly of the keycap, the elastic arm can generate moderate shake or swing to synchronously drive the limiting member to move, thereby avoiding the situation that the limiting member is damaged due to excessive stress. In addition, compared with the conventional key, the embodiment of the invention can omit a connecting piece for guiding the keycap to lift, such as a scissors type connecting piece (Scissor), thereby achieving the effects of simple structure, easy assembly and cost saving, further reducing the weight and thickness of the key device, and being beneficial to light weight and thinning of products.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic application diagram of a key device according to a first embodiment of the invention.

Fig. 2 is a perspective view of a key device according to a first embodiment of the present invention.

Fig. 3 is an exploded perspective view of the key device according to the first embodiment of the present invention.

Fig. 4 is another exploded perspective view of the key device according to the first embodiment of the present invention.

Fig. 5 is a partial top view of the first embodiment of the key device of the present invention.

Fig. 6 is an assembly diagram of the key device according to the first embodiment of the invention.

FIG. 7 is an operation diagram of the key device according to the first embodiment of the present invention.

Fig. 8 is a sectional view a-a of fig. 5.

Fig. 9 is a partial sectional view of B-B of fig. 5.

Fig. 10 is a cross-sectional view C-C of fig. 5.

Fig. 11 is a partial top view of a second embodiment of the key device of the present invention.

Fig. 12 is a partial top view of a third embodiment of the key device of the present invention.

Reference numerals:

1 push-button device

2 notebook computer

3 touch pad

10 base plate

11 upper surface of the container

12 assembly area

Side 121

13 pivoting seat

131 pin joint hook

132 hook piece

133 lower edge

14. 14A, 14B elastic arm

141 first side edge

142 second side edge

15 position limiting piece

151 vertical plate

152 horizontal plate

16 holes

17 first hook

18 third hook

20 keycap

21 connecting arm

22 pivoting part

221 arc-shaped top surface

23 limiting groove

24 notch

241 first edge

242 second edge

243. 244 guide ramp

25 extension segment

26 bump

261 arc bottom surface

27 second hook

28 fourth hook

30 reset piece

P pivot axis

Detailed Description

As shown in fig. 1 and fig. 2, the key device 1 of the present embodiment includes a base plate 10, a key cap 20 and a reset element 30. The key device 1 can be applied to various electronic products (e.g. input devices of desktop computers, notebook computers or other electronic devices) for users to press and generate corresponding signals. For example, in the present embodiment, the key device 1 may be a key of a keyboard of the notebook computer 2, so that a user can press and input characters, symbols, or instructions. Alternatively, the key device 1 may be a key of the touch panel 3 of the notebook computer 2 for the user to press to perform operations such as clicking, dragging, or opening a menu, but the present invention is not limited thereto.

As shown in fig. 2 and 3, the bottom plate 10 may be a hard plate made of metal (e.g., iron, aluminum, or alloy) or plastic. The base plate 10 has an upper surface 11, the upper surface 11 has an assembly area 12, and the assembly area 12 is an area of the base plate 10 where the key cap 20 is correspondingly assembled (for example, the assembly area 12 is indicated by a dashed box area in fig. 3). In addition, in the embodiment, two pivoting seats 13 and two elastic arms 14 are disposed in the assembly area 12, wherein the two pivoting seats 13 are close to one side 121 of the assembly area 12, the two pivoting seats 13 are disposed at intervals (herein, disposed at intervals along the Y-axis direction), and the two elastic arms 14 are also disposed at intervals along the Y-axis direction and are far away from the side 121 of the assembly area 12 relative to the two pivoting seats 13, but the invention is not limited thereto, and the two elastic arms 14 may not be on the same axis. In addition, each elastic arm 14 is provided with a stopper 15 at the end and protrudes from the upper surface 11 for the corresponding assembly of the key cap 20. However, the above embodiments are only examples, and the number of the pivoting seat 13 and the elastic arm 14 may vary according to the actual product requirement, for example, the number of the pivoting seat 13 and the elastic arm 14 may also be one or more than two.

As shown in fig. 3, the two pivoting seats 13 on the bottom plate 10 have a pivot axis P, where the pivot axis P is parallel to the Y axis, so that the keycap 20 can swing and lift relative to the bottom plate 10 with the pivot axis P as the axis after pivoting the two pivoting seats 13, which will be described in detail later. In the embodiment, each pivot base 13 includes a pivot hook 131 bent and extended upward integrally from the bottom plate 10, and a hook 132 is extended from a top end of the pivot hook 131 in a transverse direction, where the hook 132 is extended in a transverse direction toward the elastic arm 14 (i.e. the X-axis direction), but this is not a limitation, and in other embodiments, each pivot base 13 may also be a bearing base or an axis fixing base (not shown).

As shown in fig. 3 to 5, it should be noted that in fig. 5, the key cap 20 is hidden to clearly show the structure on the base plate 10. Each of the elastic arms 14 of the base plate 10 extends in a direction parallel to the pivot axis P (i.e., the Y-axis direction). For example, as shown in fig. 5, in the present embodiment, the bottom plate 10 is provided with two holes 16, the two elastic arms 14 are respectively located in the holes 16 and integrally bent and extended from the bottom plate 10, for example, each elastic arm 14 and the hole 16 can be formed by punching. In addition, the elastic arm 14 has a first side edge 141 and a second side edge 142, the first side edge 141 and the second side edge 142 are located at two opposite sides of the extending direction (i.e. the Y-axis direction) of the elastic arm 14, and the first side edge 141 and the second side edge 142 respectively keep a distance from the edge of the hole 16, so that each elastic arm 14 can have a space for elastic displacement when being stressed, but the invention is not limited thereto. The elastic arms 14 may also be integrally bent and extended upward directly from the upper surface 11 of the base plate 10.

As shown in fig. 3 to fig. 5, in the present embodiment, each limiting member 15 disposed at the end of each elastic arm 14 includes an upright plate 151 and a horizontal plate 152, the upright plate 151 is integrally bent and extended upward from the end of the elastic arm 14, and the horizontal plate 152 is integrally bent and extended from the top end of the upright plate 151, so that each limiting member 15 is in an L shape as a whole. However, the embodiment is only an example, each limiting member 15 may also be bent into another shape (for example, U-shape, Z-shape, or each limiting member 15 may only include the vertical plate 151 and be I-shape), or each limiting member 15 may also be a block and assembled and fixed to the end of the elastic arm 14, and the invention is not limited thereto.

As shown in fig. 2 and fig. 3, the key cap 20 is disposed above the assembly area 12, two connecting arms 21 extend from one side of the key cap 20 corresponding to the two pivoting seats 13, a pivoting portion 22 is disposed at an end of each connecting arm 21, in this embodiment, the two pivoting portions 22 are respectively pivoted to the two pivoting seats 13, in this embodiment, each pivoting portion 22 is a cross bar and extends toward the Y-axis direction, the axial direction of the cross bar is the same as the pivoting axis P of the pivoting seat 13, and each pivoting portion 22 further abuts against a lower edge 133 of a hook 132 pivoted to each pivoting hook 131 (please refer to fig. 6), so that the key cap 20 can swing around the pivoting axis P relative to the base plate 10. In addition, the bottom of the key cap 20 is further provided with two limiting grooves 23 to be respectively movably sleeved outside the two limiting members 15, so that the key cap 20 is limited at least in a radial direction of the pivot axis P, wherein the radial direction is a direction perpendicular to the pivot axis P (e.g., the X-axis direction in fig. 2 and 3).

As shown in fig. 3, the restoring element 30 is disposed between the base plate 10 and the key cap 20, wherein the restoring element 30 has a restoring force to provide the key cap 20 with a restoring swing relative to the base plate 10. In the embodiment, the restoring member 30 is a metal dome (metal dome) and abuts against the bottom of the key cap 20, and the restoring member 30 is close to the side of the key cap 20 away from the pivot seat 13, but this is not limited. When the key cap 20 is pressed, the key cap 20 can swing downward to approach the bottom plate 10 with the pivot axis P as an axis, and presses against the restoring member 30 to accumulate a restoring force. A Circuit Board (not shown) may be disposed above or below the base plate 10, such as a general Circuit Board (PCB), a Flexible Circuit Board (FPCB), or a Rigid-Flex Circuit Board (Rigid-Flex PCB), and when the reset element 30 is pressed, the Circuit Board may be triggered to generate a corresponding signal. When the key cap 20 is released, the restoring force accumulated by the restoring member 30 can make the key cap 20 swing upward around the pivot axis P to return to its natural non-pressed position. In some embodiments, the restoring member 30 may also be a rubber dome (rubber dome), a metal spring, a mechanical switch, or a magnetic component, and the embodiment is not limited thereto.

Therefore, according to the key device 1 of the embodiment of the invention, the elastic arm 14 disposed on the bottom plate 10 extends along the direction parallel to the pivot axis P of the pivot seat 13, so that when the limiting groove 23 and the limiting member 15 interfere with each other during the process of rotating and swinging the key cap 20 for assembly or disassembly, the elastic arm 14 can generate a moderate swing or swing to synchronously drive the limiting member 15 to move, thereby avoiding the situation that the limiting member is damaged due to excessive stress. In addition, compared with the conventional key, the embodiment of the invention can omit a connecting member for guiding the keycap 20 to ascend and descend, such as a scissors-type connecting member (scissoror), thereby achieving the effects of simple structure, easy assembly and cost saving, and further reducing the weight and thickness of the key device 1, which is beneficial to light weight and thinning of the product. The following is further described in detail with reference to the accompanying drawings.

As shown in fig. 6, in the process of assembling the key cap 20 to the base plate 10, the key cap 20 can be pivoted to the two pivoting seats 13 of the base plate 10 by the two pivoting portions 22, and then the key cap 20 can be swung around the pivot axis P (shown in fig. 3) to move toward the base plate 10 (shown in fig. 6L 1). As shown in fig. 5 and 7, since the key cap 20 is close to the bottom plate 10 in a swinging manner, a portion of the bottom of the key cap 20 adjacent to the limiting groove 23 will first abut against the limiting element 15 at the end of the elastic arm 14 to generate interference, and since the elastic arm 14 of the embodiment of the invention extends in parallel to the direction of the pivot axis P of the pivot seat 13, when the key cap 20 applies a downward force, the elastic arm 14 can be forced to appropriately swing or swing (as shown in fig. 7L 2) in a direction away from the pivot seat 13 to synchronously drive the limiting element 15 to move, thereby preventing the limiting element 15 from being damaged due to excessive force extrusion, and enabling the limiting groove 23 to be smoothly sleeved outside the limiting element 15. As shown in fig. 5 and 8, in the process that the limiting groove 23 is sleeved outside the limiting member 15, since the force of the limiting member 15 interfered by the key cap 20 is gradually reduced, the elastic arm 14 can gradually rock or swing back toward the pivot seat 13 (as shown in fig. 8L 3), so that the limiting groove 23 can be movably sleeved outside the limiting member 15 to limit the key cap 20 at least in the X-axis direction, specifically, the key cap 20 can be limited by at least two sides of the limiting member 15 to avoid swinging and deflection, but can still perform swinging and lifting actions with respect to the limiting member 15.

As shown in fig. 5 and 8, when the key cap 20 needs to be detached from the base plate 10, the key cap 20 can swing around a pivot axis P (as shown in fig. 3) to move away from the base plate 10, because the key cap 20 is away from the base plate 10 in a swinging manner, an inner wall of the limiting groove 23 of the key cap 20 will collide with the limiting piece 15 at the end of the elastic arm 14 to generate interference, when the key cap 20 is further applied with an upward force, the elastic arm 14 can be forced to appropriately swing or swing in a direction (as shown in fig. 8L 3) close to the pivot seat 13 to synchronously drive the limiting piece 15 to move, thereby avoiding the situation that the limiting piece 15 is damaged due to excessive force extrusion, and enabling the limiting groove 23 to smoothly detach from the limiting piece 15 for subsequent detachment. In addition, when the position-limiting groove 23 is separated from the position-limiting member 15, the elastic arm 14 can swing or swing back to the direction away from the pivot base 13 (the direction shown in fig. 7L 2).

As shown in fig. 6, in the embodiment, the notch 24 of the bottom limiting recess 23 of the key cap 20 has a first edge 241 and a second edge 242 opposite to each other, the first edge 241 is adjacent to the pivot seat 13 relative to the second edge 242, and the first edge 241 and the second edge 242 are respectively provided with guiding inclined planes 243 and 244, where the guiding inclined planes 243 and 244 are respectively disposed at the bottom of the key cap 20 and connected to the first edge 241 and the second edge 242, so that the elastic arm 14 can be guided to generate a moderate swing or swing more smoothly through the guiding inclined planes 243 and 244 during the process of assembling or disassembling the key cap 20. In some embodiments, the length or slope of the two guiding slopes 243, 244 can be designed according to actual product requirements, for example, as shown in fig. 6, in this embodiment, the length of the guiding slope 243 is greater than the length of the guiding slope 244, and the slope of the guiding slope 243 is less than the slope of the guiding slope 244.

As shown in fig. 7 and 8, in the embodiment, each pivoting portion 22 of the key cap 20 may have an arc-shaped top surface 221, and the pivoting portion 22 is abutted against the lower edge 133 of the hook 132 of the pivoting base 13 by the arc-shaped top surface 221, so that when the key cap 20 swings around the pivoting portion 22 as an axis relative to the base plate 10, the interference between the pivoting portion 22 and the pivoting hook 131 can be reduced, and the key cap 20 can be more smoothly lifted and lowered during swinging.

As shown in fig. 4 and 9, in the embodiment, each connecting arm 21 of the key cap 20 may further extend with an extending section 25, wherein each extending section 25 extends in a direction away from the limiting groove 23, and a protrusion 26 is disposed at a bottom of each extending section 25, and the protrusion 26 abuts against the upper surface 11 of the base plate 10, that is, the protrusion 26 disposed on each extending section 25 of the key cap 20 is farther away from the limiting groove 23 relative to the pivot portion 22 disposed on the connecting arm 21. Therefore, the bump 26 is abutted to the upper surface 11 of the bottom plate 10, so that the keycap 20 can be prevented from easily swinging upwards and separating from the bottom plate 10 when not pressed.

As shown in fig. 9, in the embodiment, the protrusion 26 disposed on each extending section 25 of the key cap 20 may have an arc-shaped bottom surface 161, and the protrusion 26 abuts against the upper surface 11 of the base plate 10 with the arc-shaped bottom surface 161. Therefore, when the key cap 20 swings around the pivot portion 22 as an axis with respect to the base plate 10, the interference between the protrusion 26 and the base plate 10 can be reduced, and the key cap 20 can be more smoothly lifted and lowered during swinging.

As shown in fig. 3, 4 and 10, the assembly region 12 of the base plate 10 may further include a first hook member 17 and a third hook member 18, wherein the first hook member 17 and the third hook member 18 are located on opposite sides of the side 121 of the assembly region 12, but the present invention is not limited thereto. In the present embodiment, the first hook member 17 and the third hook member 18 are disposed at intervals (herein, disposed at intervals along the Y-axis direction), and the first hook member 17 and the third hook member 18 are hooks (herein, U-shaped hooks, but also L-shaped hooks) that are integrally bent and extended upward from the base plate 10, respectively. The bottom of the key cap 20 is further provided with a second hook 27 and a fourth hook 28, in this embodiment, the second hook 27 and the fourth hook 28 are integrally protruded from the bottom of the key cap 20 to hook the first hook 17 and the second hook 27 correspondingly. Therefore, the keycap 20 can be prevented from easily swinging upwards to be separated from the bottom plate 10 when not pressed. In some embodiments, the first hook member 17 and the third hook member 18 may also be a hook integrally protruding from the upper surface 11 of the base plate 10, and the second hook member 27 and the fourth hook member 28 may be a hook integrally protruding from the bottom of the key cap 20, which is not limited in this embodiment.

As shown in fig. 3, in the embodiment, the reset element 30 may be located between the first hook element 17 and the third hook element 18, so as to be further limited by the first hook element 17 and the third hook element 18 to avoid deviation.

In some embodiments, the base plate 10 may have the same length or different lengths of the first side edge 141 and the second side edge 142 of the elastic arm 14, so that the elastic arm 14 may generate different elastic displacements when being stressed. For example, as shown in fig. 5, the first side edge 141 and the second side edge 142 of the elastic arm 14 of the present embodiment have the same length. Alternatively, as shown in fig. 11, the length of the first side edge 141 of the elastic arm 14A of the present embodiment is greater than the length of the second side edge 142. Alternatively, as shown in fig. 12, the first side edge 141 of the elastic arm 14B of the present embodiment has a length smaller than the length of the second side edge 142.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made without departing from the spirit of the invention.