TW201115401A - Input device - Google Patents

Abstract

The present invention relates to an input device. The input device comprises an upper case, a lower case, a click button, and a pressing switch. A first pressing section and a second pressing section are formed under the click button, wherein the first pressing section is used to contact the pressing switch arranged below the first pressing section. The input device further comprises a lever, an adjustable element, and at least an elastic module, wherein the lever comprises a first frame, a second frame, and a pivot between the first frame and the second frame. When the adjustable element is moved from a first position to a second position, the elastic module will press the second frame, making the first frame push the second pressing section for increasing the pressing force of the click button. Hence, one of the features of the present invention is providing an input device with a press-adjustable click button.

Description

201115401 VI. Description of the Invention: [Technical Field] The present invention relates to an electronic input device, and more particularly to an input device such as a mouse. [Prior Art] The buttons on the existing input devices (such as a mouse, etc.) generally have only a single downforce function 'as shown in FIG. 1'. One existing input device 1 is a mouse, which includes an upper case, The base u, the button 12, the touch switch 13 and the circuit board 14, the touch switch 13 is connected to the circuit board 14, wherein when the button 12 is subjected to the downward pressure, the pressing portion 121 under the button 12 and the surface of the touch switch 13 are convex. Point 131 is directly pressed into contact, resulting in a corresponding button click operation. The above button ο completes the pressing list of the pressing operation, and the actual situation is often that the user may sometimes want the button pressure to be larger to reduce the accidental hitting due to accidental pressing of the button; or sometimes the button may be desired The pressure can be reduced to reduce the fatigue of the hand in the case of quick click and long-term use, and different users have different pressure requirements. However, the existing input device cannot be used by the user according to the individual. I like to adjust the button press pressure, so I can't meet the increasing requirements of users such as mouse and other input devices. SUMMARY OF THE INVENTION The technical problem to be solved by the present invention is to provide an input device capable of adjusting the pressing force of a button in view of the above-mentioned deficiencies of the prior art. 201115401 The technical solution adopted by the present invention to solve the technical problem is to provide an input device, including an upper casing and an m-plane switch, characterized in that the button has a first pressing portion and a second pressing portion. a first pressing portion for pressing the touch switch, the input device further comprising: a lever member, an adjusting member and at least a first elastic member, the lever member comprising a pivot point and a position (4) _ fulcrum two _ - a domain and a second support plate, wherein the first elastic member presses against the second support plate when the entire member is moved from the -first position to the second position, and the first support plate is pressed The second pressing portion is pressed against.

The input device further includes a second suspension member. When the horizontal positioning base is moved from the first position to the second position, the second elastic member is pressed against the whole piece, and when the adjusting member is opposite to the base When the second position is moved to the -third position, the second elastic member presses against the second support plate, and the first elastic member continues to press against the second support plate. The adjusting member further includes a dialing portion, and the base is provided with a __, the trough accommodates the dial portion and is configured to be cast in the ground to allow the splicing phase to move. When the adjusting member is in the first position, the dialing portion is located at the front end of the guiding slot, and when the adjusting member is located at the second position, the dialing is located at the center of the guiding slot, when the adjusting member is located at the first position In the three positions, the dial portion is located at the rear end of the guide groove. The adjusting member further includes a supporting block. The first elastic pressing member presses the supporting block when the adjusting member is in the first position. When the adjusting member is in the second position, the first elastic member is disengaged from the supporting block. And press against the second support plate. The 201115401 忒 adjusting member is further provided with a limiting block spaced apart from the front and rear of the supporting block, and the second supporting plate of the first supporting plate is provided with a first receiving hole and a second receiving through hole. The first through hole can accommodate the touch switch, and the second support can accommodate the support block. The first elastic member includes a first pressing member and a first-elastic member, and the first pressing member includes a - first pressing block, and a first bump located below the first pressing block, the second county The piece includes a first pressure member and a second elastic member, the second pressure member includes a second pressing block, and a first protrusion located below the second pressing block Φ, when the adjusting member is located at the first position When the first bump is moved from the first position to the second position, the first bump is separated from the branch block and the first block is pressed against the block. Pressing the second support plate; when the bile member is moved from the second position to the first position of the first position, the second protrusion is disengaged from the support block and the second reduction block is pressed against the second support plate. The first pressure member further includes a first sleeve located above the first pressure block, and the second difficulty further includes a second sleeve above the second pressure block, the first member and the first member The second elastic members are respectively sleeved on the first sleeve and the second sleeve, and the two ends are disposed on the inner side of the outer casing and the bottom ends of the first sleeve and the second sleeve. The first elastic member and the second elastic member are springs. The first elastic member and the second elastic member are elastic pieces. The input device is a mouse. The input device further includes a bushing and a 201115401 x-axis disposed between the first support plate and the second support plate, the pivot shaft being insertable in the sleeve to form the pivot point β. The input device utilizes the pressing force of the elastic member to achieve the function of adjusting the pressing force of the button. Compared with the prior art, the input device can adapt to different demands of the user on the pressing force, and to some extent alleviates the prior art due to the single pressing force of the button. The hand feels tired; when it is necessary to adjust the pressing force, the user only needs to move the dialing portion of the adjusting member at the position of the guiding groove of the base. [Embodiment] The input device of the present invention will be further described below with reference to the accompanying drawings and embodiments. Referring to FIG. 2 to FIG. 4, FIG. 2 is a partial structural exploded view of a preferred embodiment of the input device of the present invention, and FIG. 3 is a preferred embodiment of the input device of the present invention when the adjusting member is in the first position. FIG. 4 is a bottom view of FIG. 3 . In the preferred embodiment, the spring input device 2 is a mouse, and includes an upper casing 20 , a base 30 , a button 40 , and a circuit with a touch switch 52 . The plate 50, the lever member 60, the adjusting member 70, the first elastic member 8A, and the second elastic member 9A. The circuit board 50, the lever member 6〇, the adjusting member 7〇, the first elastic member 8〇 and the second elastic member 9 are disposed in a housing surrounded by the upper casing 20, the base 30 and the button 40. The button 40 has a first pressing portion 422 and a second pressing portion 424. The first pressing portion 422 is for pressing and contacting the bump 522 of the touch switch 52 under the action of the external force, so that the touch switch 52 is turned on. And the corresponding click signal is sent to the computer system through the circuit board 5 (not shown). The first pressing portion 424 is provided on the front side (or the rear side) of the first pressing portion 422. 201115401 The lever member 60 is an elongated plate structure including a first support plate & a pivot and a first support plate 66 which are disposed in sequence. A first receiving through hole 622 and a second receiving through hole 662' are respectively formed in the center of the first supporting plate 62 and the second supporting plate 66. The first receiving through hole 622 can accommodate the touch switch 52. The pivot 64 can be inserted into a sleeve (not shown) in the mouse housing to form a pivot point. The adjustment member 70 includes a seat body 74 and a dial portion % extending downward from the bottom of the seat body 74. A stopper 722 and a support block 724 are formed on the seat body 74 at a certain distance from each other. The support block 724 can be received in the second receiving through hole 662, and the limiting block 722 is pressed under the second supporting plate 66 or accommodated in the second receiving pass with the movement of the adjusting member 7〇. Inside the hole 662. The first elastic member 80 includes a first pressing member 81 and a first elastic member 85, and the second elastic member 9A includes a second pressing member 91 and a second spring 95. The first pressing member 81 includes a first pressing block 812, a first sleeve 814 located above the first pressing block 812, and a first projection 816 located below the first pressing block 812. The second pressing member 91 includes a second pressing block 912, a second sleeve 914 located above the second pressing block 912, and a second protrusion 916 located below the second pressing block 912, wherein the first pressing portion 916 The width of the block 812 and the second damper block 912 are both greater than the width of the second accommodating via 662, and the width of the first bump 816 and the first bump 916 is smaller than the width of the second accommodating via 622. Therefore, it can be in contact with the support block 724 of the adjusting member 70 through the second receiving through hole 622. In the preferred embodiment, the first spring 85 and the second spring 95 are sleeved in the first sleeve 814 and the second sleeve 914, and the two ends abut against the inner side of the outer casing 20 and the first sleeve 814, respectively. With the bottom end of the second set of columns 914. A guide groove 32 penetrating the upper and lower surfaces of the bottom plate is defined in the bottom plate of the base plate 30. The sliding portion 76 is received in the guide groove 32 and can be slid back and forth in the guide groove 32 by an external force and positioned... 201115401 The inventive input device can adjust the working principle of the button 40 pressing force. Please refer to FIG. 2 to FIG. 6 simultaneously, when the toggle portion 76 of the adjusting member 70 is located at the first position of the guide groove 32, that is, at the foremost end (as shown in FIG. 3 and FIG. 4), due to the limit of the adjusting member 7〇. The block 722 abuts against the second support plate 66, so that the lever member 60 fails to make a swing, and the first pressing portion 424 of the button 40 fails to contact the first support plate 62. At this time, the user presses The pressure at which the button 4 is turned on causes the touch switch 52 to be turned on to a generally normal pressing pressure n. In addition, when the dialing portion 76 of the adjusting member 7 is located at the first position of the guiding groove 32, the first protrusion 816 of the first elastic member 8〇 and the first protrusion 916 of the second elastic pressing member 90 respectively pressurize On the support block 724 of the adjusting member 7〇, the first pressing block 812 of the first elastic member 80 and the second pressing block 912 of the second elastic member 9〇 are thus unable to provide a downward pressing pressure on the lever member 60. On the second support plate 66. Referring to FIG. 5, when the user toggles the toggle portion 76 of the adjustment member 70 to the second position of the guide groove 32 of the base 3, that is, the center of the guide groove 32, the limit block 722 and the support block 724 also follow It is moved backward; at this time, the limiting block 722 falls into the second receiving through hole 622 and thus no longer restricts the swing of the lever member 6〇, and the first projection 816 of the first elastic member 80 is supported by the branch The sliding of the block 724 can no longer be connected to the branch block 724. After the touch, the first dust block 812 of the first elastic member 80 is caused to abut against the third support plate 66, so that The first pressing block 812 can provide a downward pressing pressure on the second supporting plate 66. According to the lever principle, the first supporting plate 62 swings upward and contacts the second pressing portion 424 of the button 4〇. When the user presses the button 4 〇 to make the touch switch 6 turn on, it is necessary to overcome the extra pressure generated by the first elastic member 80, and therefore a pressure F2 larger than F1 is required. Finally, referring to FIG. 6, when the user toggles the dial portion 76 of the adjusting member 70 to the third position of the guiding groove 32 of the base 3, that is, the rear end of the guiding groove 32, the first elastic member 8〇 A bump 816 and a third bump 916 of the second elastic member 90 are no longer able to contact the support block 201115401 724 due to the sliding of the support block 724, resulting in the first pressing block 812 of the first elastic member 8〇 and The second pressing block 912 of the second elastic member 9A abuts against the second supporting plate 66 and provides a downward pressing pressure on the second supporting plate 66. At this time, the user presses the button 4 If the touch switch 6 is turned on, it is necessary to overcome the extra pressure generated by the first elastic member 80 and the second elastic member 9〇, so that a pressure F3 larger than that is required. That is, by adjusting the dial portion 76 from the front end of the guide groove 32 to the three stages of the rear end, the pressing force of the key 40 can be increased stepwise. The input device 2 of the present invention utilizes the elastic restoring force (pressure) of the first elastic member 8〇 and the second elastic member 90 to achieve the pressing force of the adjusting button 40, and can be adapted to the pressing force of the user compared with the prior art. The different requirements of the size, in the degree of ± relieved the hand fatigue caused by the single pressing force of the button, wherein the changed button pressing force is generated by the pressing force of the second pressing #424 of the button 4〇 However, instead of being directly pressed by the first pressing portion 422 to contact the pressure switch 52; when the pressing force needs to be adjusted, the user only needs to toggle the adjusting portion 76 of the adjusting portion 76 at the guide groove 32 of the base 30. The location can be achieved. It is to be understood that, in addition to the spring, the first spring 85 and the second spring 95 may employ other elastic members such as shrapnel or the like which provide a complicated restoring force in the downward direction. The number of elastic members may also be one, or more than two. Further, it is also possible to set the input device 2 to move left and right with respect to the base 3 by the adjusting member 7 to achieve a pressing force for adjusting the button 4〇. The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, the equivalent changes or modifications made by the other spirits disclosed in the present invention, 201115401, should be included in the present invention. Within the scope of protection of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic structural view of a prior art input device; FIG. 2 is a partial exploded perspective view of a preferred embodiment of an input device according to the present invention; FIG. 4 is a schematic side view of FIG. 3; FIG. 5 is a schematic side view of the preferred embodiment of the input device according to FIG. A schematic view of a side view of the preferred embodiment of the input device when the adjustment member is in the third position. [Main component symbol description] 62 first support plate 622, 662 second accommodation through hole 64 pivot 66 second support plate 70 adjustment member 722 limit block 724 support block 74 seat body 76 toggle portion 80 first elastic member 81 first pressure piece

1, 2 input device 10, 20 upper case 11 ' 30 base 12, 40 button pressing portion 52, 60 touch switch, 522 bump 14, 50 circuit board 32 guide groove 422 first pressing portion 424 second pressing portion 12 201115401 812 first pressing block 91 814 first set of columns 912 816 first convex piece 914 85 first spring 916 90 second elastic member 95 second pressing member second pressing block second sleeve second protruding block second bomb箦

13

Claims (1)

201115401 VII. Patent application scope: The input device includes a top case, a base, a button and a touch-off. The feature is: the button has a - first pressing portion and a second pressing portion. The first pressing portion presses the touch pressure switch. The input device further includes a lever member, a carving member and at least a first elastic member, the lever member including a pivot point and a _th branch at the pivot point a plate and a second support plate, when the adjustment member moves to a second position from the -first position relative to the base, the snap-elastic member presses the second support plate to make the first support plate The second pressing portion is reached. 2. The method of claim 2, further comprising: a second elastic member, when the adjusting member moves to the second position relative to the base from the first position, the second The elastic pressing member presses the adjusting member, and when the adjusting member moves from the second position to the third position relative to the base, the second elastic pressing member presses the second supporting plate, and the first elastic pressing member continues to press The second support plate. 3. The input device of claim 2, wherein the adjusting member further comprises: a dialing portion, the base defines a guiding slot, the guiding slot receives the dialing portion and is configured for the dialing The moving portion slides therein to allow the adjusting member to move relative to the base. 4. The input device according to claim 3, characterized in that: when the adjusting member is located at the first position of the 3 Xuan, the dialing portion is located at the front end of the guiding slot, and when the adjusting member is located at the first When the position is two, the dialing portion is located at the center of the guiding slot, and when the adjusting member is located at the third position, the dialing portion is located at the rear end of the guiding slot. 5. The input device of claim 2, wherein the adjusting member further comprises a supporting block, and when the adjusting member is located at the first position, the first elastic member presses the supporting block; 201115401 When the adjusting member is in the second position, the first elastic member is disengaged from the supporting block and presses the second supporting plate. 6. The input device according to claim 5, wherein the adjusting member further comprises a limiting block spaced apart from the front and rear of the supporting block, wherein the second supporting plate of the first supporting plate is respectively located at the center The first receiving through hole and the second receiving through hole are opened, and the first receiving through hole can accommodate the touch switch, and the second supporting plate can accommodate the supporting block. 7. The input device of claim 5, wherein the first elastic member package Φ includes a first pressing member and a first elastic member, and the first pressing member includes a first pressing member. a first protruding block located below the first pressing block, the second elastic member includes a second pressing member and a second elastic member, and the second pressing member includes a second pressing block at the first a second bump below the pressing block, when the adjusting member is in the first position, the first bump abuts the supporting block; when the adjusting member moves from the first position to the second position The first protrusion is disengaged from the support block and the first pressing block presses against the second support plate; when the adjustment member is moved from the second position to the third position, the second protrusion is disengaged from the support And the second pressing block presses against the second support plate. 8. The input device of claim 7, wherein the first pressure member further comprises a first sleeve located above the first pressure block, the second pressure member further The second set of columns is disposed above the second pressing block, and the first elastic member and the second elastic member are respectively sleeved on the first sleeve and the first sleeve, and the two ends are respectively fixed on the column The inside of the outer casing and the bottom end of the first sleeve and the second sleeve. 9. The input device of claim 7, wherein the first elastic member and the second elastic member are springs. 10. The input device as claimed in claim 7 is characterized in that the first elastic member 15 201115401 and the second elastic member are elastic pieces. 11. The input device as claimed in claim 1, wherein the input device is a mouse. 12. The input device of claim 1, further comprising: a sleeve and a pin disposed between the first plate and the second plate, the pivot can be inserted Inside the sleeve 'to form the pivot point.