TW201142886A - Button control apparatus - Google Patents

Abstract

A button control apparatus is provided. The shell of the button control apparatus includes at least one button. An inverse of the pressing surface of the button fixed a protrusion. The button control apparatus includes a first magnetism element, a second magnetism and a moving sensing device. The first magnetism element and second magnetism are placed on a carrier. The face side of the first magnetism element and the second magnetism are in a same pole. The moving sensing device is for sensing the moving of the second magnetism. The protrusion contacts with the first magnetism. When the button is pressed, the protrusion pushes the first magnetism move along the carrier, and the second magnetism is moved due to the repulsion from the first magnetism. The moving of the second magnetism is sensed by the moving sensing device. A processing unit processes the sensing result of the moving sensing device, and transmit the processing results to an apparatus connected with the button control apparatus.

Description

201142886 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a button control device. [0002] [0003] [0004] [0005] 099115899 [Prior Art] A general button control device, such as the control of the left and right keys of the mouse, the mechanical type, that is, the user presses the mouse, and generates a click number, which is a machine Muse*, the user will produce a sound when clicking the mouse, so in a quieter loop, such as the library 'produces noise, affecting others. Brother's other general button control device can only produce a single point, "Qing Hao No. 5, but in practical applications, such as the process of playing a racing game, the single ~ click signal can not be analogous to the actual speed of the car, If the speed is increased, the user cannot simulate the process of operating the car more realistically. [Invention] In view of this, it is necessary to provide a button control device, which does not generate sound during operation and can be determined. The user's temperature is controlled by the mouse. The 6-key button control device includes a base, a type: body and a handle-separable connection between the wedge-shaped body and the base, and is formed after the connection -*: the processing module is connected to the base The housing includes at least a button opposite to the pressing surface of the button, and the button control device further includes a _first magnetic material, a second magnetic material, and a knives The first magnetic material and the second magnetic material are disposed on the carrier-bearing body and are slidable along the carrier body in a straight line, and the opposite surface of the first and second magnetic materials is the same as the first surface of the first magnetic material. The The motion sensing device senses movement of the second magnetic material, and the housing is connected to the base 兮~μ in contact with the first magnetic material. When the button is pressed, the protrusion is pushed - the form number ΑΟίοι page 4 / total 22 pages 201142886 [0006] Ο [0007] [0008]

[0009] G

[0010] the first magnetic material moves along the carrier, and the second magnetic material also moves, the motion sensing device senses the movement of the second magnetic material, and the processing panel group processes the sense of the sense of the axis and will The result of the processing is transferred to the device connected to the button control device. Compared with the prior art, the present invention discharges the magnetic material in the same pole, and detects the movement of the magnetic material through the motion detecting device. When the magnetic material moves with the button when the button is pressed, the movement detecting device detects the magnetic material and can determine The button is pressed, so that no noise is generated when the button is pressed. '. . . .' In addition, the present invention can also record the time and distance of movement of the magnetic material to determine the speed at which the button is pressed. 'Embodiment' - The present invention is a button control device which can be a mouse device, a game controller or other input device that controls the operation of the electronic device. In the present embodiment, a mouse device will be described as an example. . Referring to Figures 1 and 2, the mouse device in the present embodiment. The mouse device includes a base 10, a housing 20, a processing module 3A, a displacement determining module 40, and a button control module 5A. The housing 2 is detachably connected to the base 1 and is connected to form a cavity. The displacement determining module 40 is connected to the base 10 and electrically connected to the processing module 30. The displacement determining module 4 determines the displacement and direction of the movement of the mouse device, and transmits the guest material to the processing module 30 for processing, and the processed data is transmitted to the connected electronic device through an interface (not shown). Device 0 099115899 Form No. A0101 Page 5 / Total 22 Page 0992028247-0 201142886 [0011] The body 20 includes a first button 201 ′ a second button 202 , as shown in FIG. 3 , the pressing of the first button 201 The first surface of the surface of the second button 202 is fixed to a second protrusion 204. The button control module 50 is electrically connected to the processing module 30. The button signal is generated when the first button 2〇1 or/and the second button 202 is pressed. As shown in FIG. 4, the button control module 50 includes a first magnetic material 〇1, a second magnetic material 302, a third magnetic material 〇3, a carrier 3〇4, and a 〆 movement sensing device 305. . The first magnetic material 3〇1, the second magnetic material 302, and the third magnetic material 3〇3 are placed on the receiving body 3〇4, and are slidable along the carrier 304 in a straight line. In this embodiment, the carrier 304 is a cylindrical cavity having neither ends sealed, and the first magnetic material 3〇1, the second magnetic material 302 and the third magnetic material 3〇3 are received in the cylindrical cavity. in. The opposing faces of the first magnetic material 301 and the second magnetic material 3〇2 are identical. The opposing faces of the second magnetic material 302 and the third magnetic material 3〇3 are also the same. For example, the opposing faces of the first magnetic material 3〇1 and the second magnetic material 3〇2 are north poles. The opposite faces of the second magnetic material 3〇2 and the third magnetic material 3〇3 are both south poles. According to the principle of homosexual repulsive, between the first magnetic material 30i and the second magnetic material 302, there is a predetermined gap between the second magnetic material 3〇2 and the third magnetic material 303. The movement sensing device 305 is located at a position where the movement of the second magnetic material 3〇2 is sensed, and the surface of the carrier 304 contacting the movement sensing device 3〇5 has a hole 3〇6 (as shown in FIG. 5). The movement sensing device 3〇5 is enabled to sense the movement of the second magnetic material 302. The motion sensing device 3〇5 is connected to the processing module 3〇, and transmits the sensed movement information of the second magnetic material_2 to the processing module 099115899. Form No. A0101 0992028247-0 201142886 [0014] [0015]组 [0016] Group 30 performs processing. After the housing 20 is attached to the base 10, the first projection 2〇3 is in contact with the first magnetic material 301, and the second projection 204 is in contact with the third magnetic material 3〇3. The surface of the first magnetic material 301 which is in contact with the first protrusion 203 is a slope or a curved surface. The surface of the third magnetic material 303 which is in contact with the second protrusion 2〇4 is a slope or a curved surface. When the first button 201 is pressed, the first protrusion 2〇3 pushes the first magnetic material 301 along the carrier 304 to move toward the third magnetic material 3〇3, according to the principle of homosexual repelling, the first The repulsive force generated by the first magnetic material 301 by the two magnetic materials 3〇2 also moves in the direction of the third magnetic material 3〇3. After the motion sensing device 305 senses that the second magnetic material 3〇2 moves in the direction of the third magnetic material 303, the sensing result is transmitted to the processing module 3, and the processing module 30 can determine that the first button 201 is pressed. Similarly, when the second button 202 is pressed, the second protrusion 2〇4 pushes the third magnetic material 303 along the carrier 304 to move toward the first magnetic material 3〇1, and the second magnetic 锊The material 302 is also moved in the direction of the first magnetic material 3〇1, and the processing module 30 can determine that the second key is pressed according to the sensing result of the motion sensing device 3〇5. In an embodiment of the invention, the motion sensing device 3〇5 is an infrared sensing device, and the infrared sensing device includes at least two infrared sensing devices. Here, only two infrared sensing devices are taken as an example for description. As shown in FIG. 6, the infrared sensing device includes a first infrared sensing device 6〇1 and a second infrared sensing device 602. The first infrared sensing device 6〇1 is located at the first magnetic material 301 and the second magnetic material. Between the materials 302, the second infrared sensing device 099115899 Form No. 1010101 Page 7 / Total 22 pages 0992028247-0 201142886 602 is located between the third magnetic material 303 and the second magnetic material 302, when the first infrared sensing device 6 01 When the second magnetic material 3 〇 2 is detected, the processing module 30 determines that the second button 202 is pressed. When the second infrared sensing device 602 detects the second magnetic material 30 2, the processing module 3 determines A button 201 is pressed. [0018] In another embodiment of the present invention, as shown in FIG. 7, the first infrared sensing device 601 and the second infrared sensing device 602 are blocked by the second magnetic material 302 when stationary, that is, the first infrared. Both the sensing device 6〇1 and the second infrared sensing device 602 can detect the second magnetic material 3〇2, and when the first infrared sensing device 061 does not sense the second magnetic material 3 〇2, the spotting module 3 〇 It can be determined that the first button 201 is pressed. When the second infrared sensing device 6〇2 does not sense the second magnetic material 302, the processing module 3 can determine that the second button 2 0 2 is pressed. In another embodiment of the present invention, the infrared sensing device includes at least four infrared sensing devices, and only four of them are described as an example. Such as ..... ν'. ........ .. : 'The four infrared sensing devices shown in Figure 8 are the third infrared sensing device 701, the fourth infrared sensing device 7〇2, a fifth infrared sensing device 7〇3 and a sixth infrared sensing device 704, wherein the third infrared sensing device 〇1 and the fourth infrared sensing device 702 are located between the first magnetic material 3 〇1 and the second magnetic material 302 'And there is a certain distance between the third infrared sensing device 7〇1 and the fourth infrared sensing device 702'. The fifth infrared sensing device 7〇3 and the sixth infrared sensing device 704 are located at the third magnetic material 3〇3 and the second. There is a certain distance between the magnetic material 3〇2 and the fifth infrared sensing device 7〇3 and the sixth infrared sensing device 7〇4. When the first button 2〇1 is pressed, the processing module 30 records the second magnetic material 3〇2 to reach the fifth infrared sensing device 7〇3 099115899, the form bat number Α0101, page 8 / total 22 pages 0992028247-0 201142886 and The time difference between the sixth infrared sensing device 704 is then determined according to the distance between the fifth infrared sensing device 703 and the sixth infrared sensing device 704, thereby determining the speed at which the first button 201 is pressed. Similarly, when the second button 202 is pressed, the processing module 30 records the time difference between the second magnetic material 302 reaching the third infrared sensing device 071 and the fourth infrared sensing device 7 〇 2, and then according to the third infrared. The distance between the sensing device 710 and the fourth infrared sensing device 702 determines the speed at which the second button 202 is pressed. [0019] In another embodiment of the present invention, as shown in FIG. 9, the four infrared sensing devices are blocked by the second magnetic material 302, and the third infrared sensing device 701 and the fourth infrared sensing device 702 are close to the first A magnetic material 3〇1 is placed with a certain distance in the middle, and the fifth infrared sensing device 7〇3 and the fourth infrared sensing device 704 are placed close to the third magnetic material 3〇3, and there is a distance between the middle and the processing module. 30 recording the third infrared sensing device and the fourth infrared sensing device 7 0 2 can not detect the time difference of the second magnetic material 3 〇 2, and then according to the second infrared sensing device _ 7 〇 1 and the fourth infrared sensing device 7 〇 The distance between 2 determines the speed at which the first button 2〇1 is pressed. Similarly, the processing module 30 records that the fifth infrared sensing device 7〇3 and the sixth infrared sensing device 704 cannot detect the time difference of the second magnetic material 3〇2, and then according to the fifth infrared sensing device 7 0 3 and the sixth infrared. The distance between the sensing devices 74 determines the speed at which the second button 202 is pressed. [0020] The present invention can also be implemented with a button and a two-like button control device. The implementation method is the same as that of the above-described real money, and it is only necessary to increase or decrease the τ piece as needed. In a button control device having a single button, only the first magnetic material and the second magnetic material are included. In the embodiment that only needs to determine that the button is pressed, only the first infrared sensing device is included for detecting the second 099115899 form number. A0101 Page 9 of 22 0992028247-0 201142886 The movement of the magnetic material, in the embodiment in which the pressing speed needs to be determined, includes only the third infrared sensing device and the fourth infrared sensing device, and the third infrared sensing device and the third When the four infrared sensing device is not covered by the second magnetic material, after the first magnetic material, the processing module records the time difference between the second magnetic material reaching the third infrared sensing device and the fourth infrared sensing device. The distance between the three infrared sensing device and the fourth infrared sensing device determines the speed at which the button is pressed. [0030] [0030] [0030] FIG. 1 is a schematic diagram of a mouse device according to an embodiment of the present invention; . Fig. 2 is an exploded view of the mouse device in accordance with an embodiment of the present invention. Fig. 3 is a bottom plan view showing the housing of the mouse device according to the embodiment of the present invention. 4 and 5 are schematic views of a button control module of a mouse device according to an embodiment of the present invention. Figures 6 and 7 are schematic views showing two embodiments in which the keys of the mouse device of the present invention are pressed. 8 and 9 are schematic views showing two embodiments for determining the speed at which the button of the mouse device is pressed in the present invention. [Main component symbol description] Base: 10 Housing: 20 Processing module: 30 Displacement determination module: 40 099115899 Form number A0101 Page 10 of 22 0992028247-0 201142886

[0031] and a button control module: 50 [0032] first button: 201 [0033] second button: 202 [0034] first protrusion: 203 [0035] second protrusion: 204 [0036] first Magnetic material: 301 [0037] Second magnetic material: 302 [0038] Third magnetic material: 303 [0039] Carrier: 304 [0040] Motion sensing device: 305 [0041] First infrared sensing device: 601 [0042] Second infrared sensing device: 602 [0043] Third infrared sensing device: 701 [0044] Fourth infrared sensing device: 702 [0045] Fifth infrared sensing device: 703 [0046] and sixth infrared sensing device: 704

099115899 Form No. A0101 Page 11 of 22 0992028247-0

Claims (1)

201142886 VII. Patent application scope: 1. A button control device, the button control device comprises a base, a casing and a processing module, the casing is detachably connected with the base, and a cavity is formed after the connection, The processing module is connected to the base, and the housing includes at least one button, and the reverse surface of the pressing surface of the button is fixed with a protrusion. The improvement is that the button control device further includes a first magnetic material and a second magnetic material. And the at least one movement sensing device, the first magnetic material and the second magnetic material are placed on a carrier and are slidable along the carrier in a straight line, and the opposite sides of the first magnetic material and the second magnetic material are Similarly, the motion sensing device senses movement of the second magnetic material, and after the housing is coupled to the base, the protrusion contacts the first magnetic material, and when the button is pressed, the protrusion pushes the first magnetic material Moving along the carrier, the second magnetic material also moves, the motion sensing device senses movement of the second magnetic material, and the processing module senses the motion sensing device Fruit processing, and the processing result is transmitted to the device connected with the control buttons. 2. The button control device of claim 1, wherein the carrier is a cavity, and the first magnetic material and the second magnetic material are placed in the cavity. 3. The button control device according to claim 1, wherein the surface of the first magnetic material in contact with the first protrusion is a slope or a curved surface. 4. The button control device of claim 1, wherein the motion sensing device is an infrared sensing device. 5. The button control device of claim 4, wherein the infrared sensing device is located after the second magnetic material, and when the infrared sensing device detects the second magnetic material, the processing module determines that the button is pressed. </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; When the sensing device does not detect the second magnetic material, the processing module determines that the button is pressed. 7. The button control device of claim 4, wherein the at least one infrared sensing device comprises a first infrared sensing device, a second infrared sensing device, the first infrared sensing device and the second infrared sensing device. The device is located behind the second magnetic material, and the first infrared sensing device is at a certain distance from the second infrared sensing device. When the button is pressed, the processing module reaches the first infrared sensing device according to the second magnetic material recorded by the defect. The time difference between the second infrared sensing device determines the speed at which the user presses the button. 8. The button control device of claim 4, wherein the at least one infrared sensing device comprises a first infrared sensing device and a second infrared sensing device, wherein the two infrared sensing devices are both second magnetic The material is occluded, and the first infrared sensing device and the second infrared sensing device have a certain distance therebetween, and the processing module records that the first infrared sensing device and the second infrared sensing device start detecting the time difference of the second magnetic material, and then according to the The distance between the red sensing device and the second infrared sensing device determines the speed at which the button is pressed. 099115899 Form No. A0101 Page 13 of 22 0992028247-0