Patent application number | Description | Published |
20110039426 | USB Application Device - An USB application device includes a casing and a printed circuit board received in the casing. The printed circuit board includes a top surface disposed a plurality of contacts, and a bottom surface disposed a plurality of electrical elements. A first supporting portion is received in the casing and located between the bottom surface of the printed circuit board and the casing, which supports the printed circuit board and is in front of all the electrical elements and abuts against up front one of the electrical elements disposed on the bottom surface of the printed circuit board. Therefore, the first supporting portion supports a central portion of the printed circuit board to resist an external pressing force in order to prevent the printed circuit board from damage. Furthermore, the first supporting portion positions the printed circuit board during the fabricating procedure of the USB application device. | 02-17-2011 |
20110092108 | RECEPTACLE - A receptacle for receiving a plug-in module with at least one depression at a side surface thereof includes a main body, an elastic element, a first resilient strip and a control element. The main body has a receiving chamber penetrating a bottom thereof for engaging the plug-in module and a first slot extending up and down defined in a front surface thereof and connecting the receiving chamber. The elastic element has an elastic portion received in an upper portion of the receiving chamber. The first resilient strip is received in the first slot, and defines a locking portion extending rearward at a lower portion thereof and penetrating into the receiving chamber for buckling to the depression of the plug-in module. The control element is for driving the locking portion to depart from the depression of the plug-in module for allowing the plug-in module to move outward due to the pulling of the elastic element. | 04-21-2011 |
20110122065 | Mouse - A mouse includes a bottom casing, a PCB with a controller fixed thereon and a roller unit assembled to the bottom casing, and a top casing coupled with the bottom casing. The bottom casing has a retainer plate and a backing plate in rear of the retainer plate. The retainer plate and the backing plate respectively define a location hole and a receiving recess thereon. The PCB defines an opening in front of the controller and a slit positioned between the controller and the opening. The backing plate passes through the slit while the retainer plate locates in front of the opening. The roller unit includes a roller bearing which has a location post extended forward from a front thereof to be inserted into the location hole, and a contact post extended rearward from a rear thereof to be received in the receiving recess so as to movably activate the controller. | 05-26-2011 |
20110134037 | MOUSE - A mouse includes a bottom casing and a top casing coupled with the bottom casing to receive a PCB and a roller unit therebetween. The PCB defines an opening penetrating a front side thereof to form two opposite side edges and a rear edge connected to the two side edges. The PCB further has at least three switches two of which respectively located near the two side edges of the opening and the other one located near the rear edge of the opening. The roller unit includes a roller bearing which has a pair of press wings extended outwardly from two opposite lateral sides thereof for corresponding to the two switches located near the two side edges of the opening, and a projection protruded from a bottom of a rear thereof for corresponding to the switch located near the rear edge of the opening. | 06-09-2011 |
20110180380 | Wireless Dongle - A wireless dongle includes a shell having a base board of which an appropriate portion is made of elastic materials to be acted as a switch section, a printed circuit board mounted in the shell and spaced from the base board of the shell, and an elastic member made of elastic materials. The printed circuit board defines a contact area facing to the switch section of the shell. The elastic member is mounted between the switch section of the shell and the contact area of the printed circuit board, and further spaced from the contact area. The elastic member can be elastically pressed to contact the contact area of the printed circuit board by means of pressing the switch section of the shell against the elastic member so as to trigger an electrical signal. | 07-28-2011 |
20110279994 | WIRELESS INPUT APPARATUS - A wireless input apparatus includes a shell having a recess at a top surface thereof. The recess has an opening at a rear wall thereof. A bottom of the recess is formed with two abreast sliding slots which extend perpendicular to the rear wall. A stopper is disposed across each sliding slot and spaced from a rear side of the sliding slot to form a stopping recess. Each of two opposite lateral walls of the recess has a guiding trough. A rear side of the guiding trough has a buckling notch at a lower portion thereof. A wireless transmitter has a main body and an insertion portion protruded from a rear end of the main body. The main body has two lumps at a bottom thereof corresponding to the stopping recesses, and a pair of sliding pieces protruded outwards from two opposite sides thereof corresponding to the buckling notches. | 11-17-2011 |
Patent application number | Description | Published |
20120032884 | WIRELESS MOUSE - A wireless mouse includes a mouse body, a main body, a power switch, a connection portion fixed on the main body, and an elastic shell covering the main body. The main body includes a baseboard on the mouse body, a pressing element on a surface of the baseboard, and board elements connecting each other. The baseboard defines a holding slot. The pressing element includes a holding portion from which a pressing portion extends. Each board element includes a base plate. The board element next to the baseboard includes a resisting piece protruding from the base plate to selectively depress the pressing portion. The power switch is secured in the holding slot and includes a button. The wireless mouse utilizes the pressing portion to multiply movement distance of turned resisting piece during using, thereby providing the button with enough movement distance so that the power switch can be reliably actuated. | 02-09-2012 |
20120075186 | BENDABLE MOUSE - Disclosed is a bendable mouse, comprising an operating portion, a bendable portion and a rubber body. The bendable portion comprises a base and a bendable body. The base is fixed to the operating portion. The base comprises a base plate and an attached body. The base plate is jointed with the bendable body. The attached body is fixed with the base plate. A fixing block is positioned at the attached body. The rubber body covers the bendable portion and comprises a base joint sleeve and bendable sleeve. An inserter is formed at the bendable sleeve toward the inside of the base joint sleeve and inseparably adheres with the fixing block. The bendable mouse can prevent the separation phenomenon of the rubber body from the base and ensures the rubber body to remain adhering closely with the bendable portion when it changes from the curved status to the straight status. | 03-29-2012 |
20120106056 | COMPUTER MOUSE - A computer mouse is provided, and has a mouse main body, a rubber cover and a foot pad. The mouse main body has at least one engagement hole. The rubber cover is covered on an outer side of the mouse main body and formed with at least one opening corresponding to the engagement hole. The foot pad has a flat foot-pad main body which has at least one engagement member. The engagement member has an elastic arm and an engagement fastener protruded from a distal end of the elastic arm. The engagement member passes through the opening, and then engaged and received in the engagement hole. When installing the computer mouse, the engagement fastener can be engaged and received in the engagement hole, so that the foot pad is firmly mounted on the computer mouse. Thus, the computer mouse has simpler installation and aesthetic appearance. | 05-03-2012 |
20120106057 | COMPUTER MOUSE - A computer mouse is provided and has a mouse main body, a rubber cover and a foot pad. The mouse main body has engagement holes. The rubber cover is covered on the mouse main body and formed with an opening. The foot pad has a flat foot-pad main body which has engagement members, each of which has a connection portion. The connection portion has a first end connected to the engagement member and having a height matched with that of the engagement hole, and a second end protruded to form an umbrella-like engagement portion. When installing the computer mouse, the connection portion passes through the opening and is then received in the engagement hole, and the engagement portion is engaged against an inner edge of the engagement hole, so that the foot pad is firmly mounted on the computer mouse. Thus, the computer mouse has simpler installation and aesthetic appearance. | 05-03-2012 |
Patent application number | Description | Published |
20130098745 | BUTTON DEVICE - Provided is a button device, including a button body and a circuit board. The button body includes a first surface provided for being pressed, and a bottom base being located on the left of the button body and extending downward from the first surface. The circuit board has an electronic switch for mechanically touching the bottom base of the button body. The button body forms two recesses on the middle and the right of the button body, respectively. Each of the recesses extends along a direction perpendicular to the first surface, and accommodates an elastic member therein. According to the button device of the present invention, a working force is applied onto any position of the button body, the counterforces may be produced to balance the working force, thereby improving the handle feeling of the user during the operation and solving the problem of the button body tilting. | 04-25-2013 |
20130098748 | MULTI-WAY BUTTON STRUCTURE - A multi-way button structure is disclosed. The multi-way button structure includes a multi-way switch, a knob, and an operating stick. The multi-way switch is welded on a circuit board and includes an operating stick. A stick inserting hole is defined in the center of the bottom of the knob. The stick inserting hole is used for the operating stick inserted therein for assembling the knob with the multi-way switch. Plural elastic elements surround the multi-way switch and are disposed between the circuit board and the knob. By disposing the elastic elements between the circuit board and the knob, when the knob is pressed, a pivot to which bearing force is applied is positioned on the elastic elements. Accordingly, the design width of the knob is not limited by the width of the multi-way switch, thereby increasing the design flexibility, the durability, and the bearing force of the knob. | 04-25-2013 |
20130107379 | ADJUSTABLE LENS HOLDER | 05-02-2013 |
20130140664 | FLIP CHIP PACKAGING STRUCTURE - The present invention discloses a flip chip packaging structure which is applied to a process of a compact camera module (CCM), and the structure thereof comprises an image sensor component, at least one connection member, a circuit board and an insulating plate. The image sensor component is electrically connected with the circuit board via an electrical-conduction of the connection body. Hence, by disposing the insulating plate between the image sensor component and the circuit board, the present invention not only can provide a thermal insulating protection to the image sensor component but also use enough space to execute a surface mount technology (SMT), so as to simplify the flip chip process and to increase the yield of manufacture. | 06-06-2013 |
Patent application number | Description | Published |
20130214657 | MOUSE STRUCTURE - A mouse structure includes a housing and first and second sliding apparatuses. The housing has an accommodating portion and an opening The first sliding apparatus includes a base board and a sliding element, the base board being fixedly disposed in the accommodating portion, and the sliding element being slidably mounted on the base board. The second sliding apparatus is slidably disposed in the accommodating portion and includes a main body and a reacting portion connecting the main body, the main body being capable of sliding in and out of the accommodating portion from the opening When the main body slides out of the opening, the sliding element is concurrently and separately pulled by the reacting portion to the first position, and when the main body slides into the accommodating portion, the sliding element is concurrently and separately pushed by the reacting portion to the second position. | 08-22-2013 |
20130215030 | MOUSE STRUCTURE - A mouse structure including a housing having a base portion, and a tongue portion having a guiding slot and at least a sliding channel; a first sliding device; a second sliding device including a base board, a sliding element, and a resilient apparatus having a pivoting end rotatably connected to the base board, a connecting bar connected to the sliding element, and a resilient portion; a linking element having a first linking portion fastened with the first sliding device, and a second linking portion fixedly attached to the sliding element, wherein when the first sliding device is being pulled or pushed, the linking element moves in conjunction with the first sliding device and drives the sliding element sliding on the base board, whereby the resilient apparatus rotates in conjunction with the sliding element to enable the sliding element to move between first and second positions. | 08-22-2013 |
20130221817 | MOUSE STRUCTURE - A mouse structure includes a housing and a sliding apparatus slidably engaged with the housing. The sliding apparatus includes a reacting portion having a cover and a bottom board, wherein the cover is provided with a first magnet group and at least two engaging portions, and the bottom board is provided with a second magnet group and at least two position portions. The first and second magnet groups are in polar opposition to and spaced from each other. When the sliding apparatus is in a closed state, the cover is propped against an upper wall of the housing by a repelling magnetic force, while the reacting portion moves out of the housing, the cover is being automatically pushed outwards by the repelling magnetic force and is retained by the engaging portions engaged with the position portions so as to position the cover in place. | 08-29-2013 |
20130240338 | SWITCH APPARATUS - A switch apparatus adapted to be assembled with a casing of an electronic product, the switch apparatus includes a control device having a base portion, a position portion, at least a pressing portion, and a linking portion having one end connected to the casing. A resilient element is installed in the control device, and has a fixing portion fixed into the position portion, and at least a deforming portion and a contact portion. At least a triggering device is electrically connected with the printed circuit board. When the control device is being pressed with a first force, the triggering device is being pushed downwards by the contact portion, while the control device is being pressed with a second force larger than the first force, the at least a deforming portion deforms, and the contact portion continuing pressing against the triggering device. | 09-19-2013 |
20130257731 | MOUSE STRUCTURE - A mouse structure includes a housing, a sliding apparatus, and a resilient device. The housing has upper and lower walls, an internal space, and an opening communicating with the internal space. The sliding apparatus slidably disposed in the housing has a base portion and a reacting portion having a cover and a bottom board. The resilient device is connected with and disposed between the cover and the bottom board. When the sliding apparatus is in a closed state, the cover is retained by the upper wall of the housing in the internal space, and the resilient device is compressed and deformed by the cover, while the reacting portion moves out of the housing, the resilient device is not compressed, and the cover is automatically pushed outwards by the resilient device so as to position the cover in place. | 10-03-2013 |
20130319803 | MAGNETIC SHOCK ABSORBING DEVICE - A magnetic shock absorbing device includes a cylinder and a magnetic module, and the magnetic module includes a plurality of magnetic units, and each magnetic unit includes a magnet, a protective cover covered onto the magnet, and an opening formed on both sides of each protective cover separately, and each magnetic unit is installed in series inside the cylinder, and a magnetic repulsive force is formed between sides of any two of the adjacent magnetic units, and the magnetic repulsive force produced by each magnetic unit in the magnetic module is used for producing a damping force to achieve a shock absorbing effect. | 12-05-2013 |
20130321999 | MOUSE STRUCTURE - A mouse structure includes a housing defining an opening and accommodating space therein, a pair of track devices fixed onto the housing in the accommodating space, a sliding device slidably coupled with the pair of track devices. Each track device has a sliding channel, a first position portion, and at least a second position portion. A limiting side is formed at an end of the sliding channel. The sliding device includes a base portion and an operating portion, the operating portion having a first rod and at least a second rod. When the sliding device slides along the sliding channels for use, the first rods are firstly retained by the limiting sides, and then moved upwards to allow the first and second rods to be located at the first and second position portions respectively, where the base portion is in alignment with an upper wall of the housing. | 12-05-2013 |
20140001935 | MOUSE HOUSING STRUCTURE | 01-02-2014 |
20140232654 | MOUSE WHEEL DEVICE - A mouse wheel device includes a mouse wheel assembly including at least two scroll wheels, at least two wheel shafts and a track, and a mounting bracket. Each scroll wheel has a through hole axially penetrating through a center thereof. The outer side surface of the scroll wheel defines a plurality of meshing grooves. Each of the scroll wheels is axially mounted to the middle of one of the wheel shafts via the through hole. The track is sheathed on the outer side surfaces of the scroll wheels with the scroll wheels being apart arranged side-by-side. The inner surface of the track protrudes inward to form a plurality of meshing ribs engaged with the meshing grooves to drive the scroll wheels and the wheel shafts to rotate in the same direction. The mouse wheel assembly is pivoted to the mounting bracket through two ends of each wheel shaft. | 08-21-2014 |
20140323220 | GAME CONTROLLER - A game controller includes a lower shell, an upper shell matched with the lower shell for receiving magnets therein and defining a battery-holding chamber, and a top cover removably attached on the upper shell to cover the battery-holding chamber. A bottom side of the upper shell protrudes downward to form at least one positioning pillar sheathed with a rubber sleeve of which an inside wall defines a first fixing structure. A through aperture extends vertically to penetrate through the positioning pillar and the upper shell. A bottom side of the top cover protrudes downward to form a fixing pillar of which a lower part defines a second fixing structure. The fixing pillar passes through the through aperture to be inserted in the rubber sleeve, and the first fixing structure is snapped with the second fixing structure. The top cover is equipped with metal blocks attracted with the magnets. | 10-30-2014 |
20140357371 | BUTTON STRUCTURE FOR GAME CONTROLLER - A button structure includes a base frame longitudinally defining an arc-shaped guide slot, a button body pivoted to a front end of the base frame, a sliding part transversely defining a guide channel, and a rotating part with a guide pillar protruded thereon. The sliding part is longitudinally slidably mounted on the base frame and abuts against the button body under the elasticity of an elastic part. The rotating part is rotatably mounted under the base frame and the guide pillar passes through the guide slot to be inserted in the guide channel. In use, the sliding part can longitudinally slide on the base frame by the push of the button body and the elastic part, and the sliding of the sliding part drives the guide pillar to slide rearward and forward along the guide slot and the guide channel and further drive the rotating part to rotate. | 12-04-2014 |
20140378227 | BUTTON STRUCTURE FOR GAME CONTROLLER - A button structure includes a base frame longitudinally defining an arc-shaped guide slot, a sliding part transversely defining a guide channel and longitudinally slidably mounted on the base frame, a rotating part defining a guide pillar and rotatably mounted under the base frame with the guide pillar being inserted in the guide slot and the guide channel, and a button body having a lower portion pivoted to the base frame. A drive part is rotatably pivoted between an upper portion of the button body and the sliding part, and can drive the sliding part to longitudinally slide on the base frame by the push of the button body and an elastic part clamped between the drive part and the base frame, so as to drive the guide pillar to slide rearward and forward along the guide slot and the guide channel and further drive the rotating part to rotate. | 12-25-2014 |