CN210573685U - Ultrathin mouse and electronic equipment applying same - Google Patents

Abstract

The utility model relates to an ultra-thin mouse and electronic equipment using the ultra-thin mouse, which comprises an upper shell, a lower shell, a support rod, a slide block and a circuit board component, wherein the edge of the upper shell is downwards protruded to form an upper apron plate, the lower shell comprises a lower shell bottom plate, the edge of the lower shell bottom plate is upwards protruded to form an upper apron plate, the tail end of the upper apron plate or the lower apron plate is provided with an apron plate notch, the lower shell bottom plate is provided with a chute suitable for the slide block to slide, the chute extends from the tail part of the lower shell bottom plate to the front part of the lower shell bottom plate, the bottom end of the support rod is hinged and matched with the slide block, the top end of the support rod is hinged and matched with the front end of the upper shell, the upper shell is hinged and matched with the tail end of the lower shell, the slide block is arranged in the inclined holding cavity of the support rod when the slide block is arranged, the support rod stands up and supports the front end of the upper shell.

Description

Ultrathin mouse and electronic equipment applying same

Technical Field

The utility model relates to a computer auxiliary equipment technical field, especially an electronic equipment of ultra-thin mouse and applied this ultra-thin mouse.

Background

The mouse is a commonly used auxiliary input device of an electronic computer, in particular to a commonly used optical mouse, and is widely applied to desktop computers, notebook computers and tablet computers; the principle of the optical mouse is that the displacement of the mouse is detected through infrared rays or laser, a displacement signal is converted into an electric pulse signal, and the movement of a cursor arrow in a screen is controlled through the processing of a program. According to the connection mode classification, the mouse can be simply divided into a wireless mouse and a wired mouse, and the wireless mouse is developed to the present, so that the problems of large size and difficult storage generally exist, and particularly when the wireless mouse is matched with a notebook computer and a tablet computer for use. The samsung electronic corporation applied for several mouse patents embedded in the notebook computer in china, such as the patent publication No. CN205620957U, the patent name CN204790889U, the patent name mouse, the patent name notebook with built-in mouse, and the like, and the above-mentioned mouse also has the problem of large volume or difficult storage, so it is a technical problem that those skilled in the art need to solve for designing a mouse that is easy to store and meets the requirement of ergonomics.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an ultra-thin mouse that structure flexible, easily accomodate and applied this ultra-thin mouse's electronic equipment.

In order to solve the technical problem, the utility model provides an ultra-thin mouse, include: the edge of the upper shell is downwards protruded to form an upper apron plate, the lower shell comprises a lower shell bottom plate, the edge of the lower shell bottom plate is upwards protruded to form the upper apron plate, the tail end of the upper apron plate or the lower apron plate is provided with an apron plate notch, the lower shell bottom plate is provided with a sliding groove suitable for the sliding of the sliding block, the sliding groove extends from the tail part of the lower shell bottom plate to the front part of the lower shell bottom plate, the bottom end of the supporting rod is hinged and matched with the sliding block, the top end of the supporting rod is hinged and matched with the front end of the upper shell, the upper shell is hinged and matched with the tail end of the lower shell, the circuit board assembly is fixedly arranged in an accommodating cavity formed by the upper shell and the lower shell, the sliding block is arranged in the inclined accommodating cavity of the supporting rod when the tail part of the lower shell is accommodated, at least the part of, when the sliding block is used, the sliding block moves from the tail part of the sliding groove to the front part of the sliding groove outside the lower shell along the sliding groove, and the supporting rod stands up and supports the front end of the upper shell so as to be convenient for a user to hold.

Further, the ultra-thin mouse still includes flexible frame subassembly, flexible frame subassembly includes two at least structure the same and flexible frames that can cup joint, and the tail end of each flexible frame sets up the frame breach with skirtboard breach looks adaptation, the tail end of each flexible frame with the articulated cooperation of tail end of last casing or lower casing, the bottom of going up the casing, the top of casing down, the top and the bottom of each flexible frame set up spacing buckle respectively to between last casing and the flexible frame, form by spacing buckle between each flexible frame and collude when making the front end of last casing prop up by the bracing piece, make the front end of each flexible frame follow the casing upwarp.

Further, the tail end of the sliding groove is provided with an inclined limiting groove matched with the sliding block, so that the sliding block slides to the inclined limiting groove and then is limited by the inclined limiting groove, and the sliding block is pushed out of the inclined limiting groove by external force during storage.

Further, the both sides indent of spout sets up in order forming the slider storage tank, the slider is arranged in the slider storage tank when sliding along the spout, avoids the bottom surface protrusion of slider, influences its removal.

Furthermore, two sides of the lower apron board are outwards protruded to form outward flanges, two sides of the upper apron board and two sides of each telescopic frame are provided with inner grooves matched with the outward flanges, and the outward flanges support the thumb of a user.

Further, the ultra-thin mouse is characterized by further comprising a rechargeable battery panel arranged in the accommodating cavity, the battery panel is electrically connected with the circuit board assembly, and a charging contact piece is arranged on the circuit board assembly and charges the battery panel through the charging contact piece.

An electronic device comprises the ultrathin mouse.

The technical effects of the utility model are that: (1) compared with the prior art, the ultrathin mouse has the advantages that the apron boards are respectively arranged on the upper shell and the lower shell, the front end of the upper shell can be unfolded by arranging the slidable supporting rod, the tail end of the upper shell is hinged with the tail end of the lower shell, the apron boards of the upper shell and the lower shell are partially overlapped during storage, the sum of the thicknesses of the upper shell and the lower shell is reduced, and the storage space is saved; (2) by arranging the telescopic frame assembly, the upper shell and the lower shell can be supported by a plurality of telescopic frames capable of being lifted, when the upper shell is unfolded, the telescopic frames ascend, and the tail ends of the telescopic frames are hinged with the tail ends of the upper shell and the lower shell to form a fan-shaped arrangement, so that the total thickness of the ultrathin mouse after being supported is effectively increased, and meanwhile, the thicknesses of the upper shell and the lower shell can be reduced to achieve the aim of being light and thin; (3) the inclined limiting groove is arranged, so that the sliding block cannot be separated from the inclined limiting groove under the condition of not using external force after the sliding block slides to the inclined limiting groove, and the supporting rod can be kept in an upright state; (4) the setting of spacing buckle forms spacingly when last casing, flexible frame expand, avoids breaking away from one another.

Drawings

The invention will be described in further detail with reference to the accompanying drawings:

FIG. 1 is a side view of the ultra-thin mouse of the present invention in a storage state;

FIG. 2 is a side view of the ultra-thin mouse of the present invention in an open state;

FIG. 3 is a schematic structural view of the bottom surface of the ultra-thin mouse of the present invention;

FIG. 4 is a cross-sectional view of the ultra-thin mouse of the present invention in an open state;

FIG. 5 is a partial schematic view of a retainer clip portion;

FIG. 6 is a schematic view of the three-dimensional structure of the ultra-thin mouse of the present invention in an open state;

fig. 7 is a schematic diagram of the exploded explosion structure of the present invention.

In the figure: an upper shell 1, a fixed shaft 11, an inner groove 12, a panel clamping groove 13, a circuit board supporting plate 14, a charging hole 15, an upper skirt plate 16,

a lower shell 2, a slide block containing groove 21, a sliding groove 22, an inclined limiting groove 23, an outward flanging 24, a light inlet 25, a lower skirt plate 26, a skirt plate gap 27, a lower shell bottom plate 28,

a telescopic frame component 3, a first telescopic frame 31, a second telescopic frame 32, a third telescopic frame 33,

a support rod 4, a first pin shaft 41, a second pin shaft 42, a slide block 5, a limit buckle 6,

photoelectric sensing circuit board 7, photoelectric sensing subassembly 71, right button 72, left button 73, charging contact 74, button circuit board 75, left and right key panel 8, panel 9.

Detailed Description

Embodiment 1 as shown in fig. 1 to 7, the ultra-thin mouse of this embodiment includes an upper housing 1, a lower housing 2, a support rod 4, a slider 5, a telescopic frame assembly 3, a circuit board assembly, and a rechargeable battery panel 9, where the upper housing 1 includes a square upper housing frame, an upper skirt board 16 is disposed at an edge of the upper housing frame and protrudes downward, the upper skirt board 16 includes a left upper skirt board, a tail upper skirt board, a right upper skirt board, and a front upper skirt board, which are integrally formed, to form a box-shaped frame, a left key panel 8 is disposed at a top end of the upper housing frame, a fixed shaft 11 is disposed at the left upper skirt board and the right upper skirt board protruding inward, the lower housing 2 includes a square lower housing bottom plate 28, a lower skirt board 26 is disposed at an edge of the lower housing bottom plate 28 and protrudes upward, the lower skirt board 26 includes a left lower skirt board, a right lower skirt board, and a front lower skirt board, which are integrally formed, so, lower casing 2 forms the box-like structure of tail end opening setting and with last casing 1 looks adaptation, and the tail end of apron board under left side lower apron board, the right side sets up the fixed axle through-hole respectively for the tail end of apron board 26 is through fixed axle 11 and the articulated cooperation of last casing 1 down, and the setting of apron board breach 27 receives the restriction when can avoiding last casing 1 to rotate.

The gliding spout 22 of slider 5 is suitable for along vertically setting up in the middle part of lower casing bottom plate 28, spout 22 extends to the anterior of lower casing bottom plate 28 by the afterbody of lower casing bottom plate 28, slider 5 includes slider seat and the connecting rod that integrated into one piece set up, the slider seat is arranged outside spout 22 in, the connecting rod passes spout 22 and sets up, so that the slider seat can slide along spout 22 outside lower casing bottom plate 28, set up second round pin axle 42 on the connecting rod, the anterior of going up casing 1 sets up first round pin axle 41, and first round pin axle 41 is located casing 1 and lower casing 2 lock back spout 22 front end corresponds directly over, the bottom of bracing piece 4 is through the articulated cooperation of second round pin axle 42 and the connecting rod of slider 5, the top of bracing piece 4 is through the articulated cooperation of first round pin axle 41 and the front end of last casing 1, so that the bracing piece 5 can drive the front end lift of casing 1 when making slider 5 remove.

Preferably, the telescopic frame assembly 3 includes 3 square first telescopic frames 31, second telescopic frames 32 and third telescopic frames 33 which can be sleeved, and each of the first telescopic frames 31, the second telescopic frames 32 and the third telescopic frames 33 includes a left frame, a front frame and a right frame, so that the openings at the tail ends of the first telescopic frames 31, the second telescopic frames 32 and the third telescopic frames 33 are arranged to form frame gaps matched with the apron board gaps 28; the tail ends of the first telescopic frame 31, the second telescopic frame 32 and the third telescopic frame 33 are sequentially hinged and matched with the fixed shaft, so that the tail ends of the first telescopic frame 31, the second telescopic frame 32 and the third telescopic frame 33 can rotate around the fixed shaft 11, the bottom of the front end of the upper shell 1 and the top of the front frame body of the first telescopic frame 31 are respectively provided with a limiting buckle 6 for matching, the bottom of the front frame body of the first telescopic frame 31 and the top of the front frame body of the second telescopic frame 32 are respectively provided with a limiting buckle 6 for matching, the bottom of the front frame body of the second telescopic frame 32 and the top of the front frame body of the third telescopic frame 33 are also respectively provided with a limiting buckle 6 for matching, and the top of the front end of the lower shell and the bottom of the front frame body of the third telescopic frame are respectively provided with a limiting buckle 6 for matching, so that the front end of the upper shell 1 is supported by the support rod 4, The first telescopic frame 31 and the second telescopic frame 32, the second telescopic frame 32 and the third telescopic frame 33, and the third telescopic frame 33 and the lower shell 2 are hooked by the corresponding limit buckles 6, so that the front ends of the first telescopic frame 31, the second telescopic frame 32, and the third telescopic frame 33 are tilted upwards along with the upper shell 1 and matched with the fixed shaft at the tail end of the upper shell 1 to form fan-shaped expansion, and the upper shell 1 and the first telescopic frame 31, the first telescopic frame 31 and the second telescopic frame 32, the second telescopic frame 32 and the third telescopic frame 33, and the third telescopic frame 33 and the lower shell 2 are prevented from being disjointed; the first telescopic frame 31, the second telescopic frame 32 and the third telescopic frame 33 can reduce the thickness of the upper shell 1 and the lower shell 2, and the multiple sections of telescopic frames are unfolded to obtain enough thickness, so that the ultrathin mouse can have proper height after being unfolded, and is suitable for an operator to use. In order to avoid mutual influence between the limiting buckles 6 on the same telescopic frame, the upper and lower limiting buckles 6 on the same telescopic frame are staggered and distributed.

The circuit board assembly and the battery board 9 are fixedly arranged in an accommodating cavity formed by the upper shell 1 and the lower shell 2, the circuit board assembly comprises a photoelectric sensing circuit board 7 and a key circuit board 75 which are electrically connected, the photoelectric sensing circuit board 7 is fixedly arranged on the lower shell bottom plate 28 through screws and is positioned on the right side of the chute 22, a photoelectric sensing assembly 71 is arranged on the photoelectric sensing circuit board 7, a transparent light inlet 25 is arranged on the lower shell bottom plate 28, and the photoelectric sensing assembly 71 is arranged at the light inlet 25 and is used for light sensing; the battery board 9 is arranged on the lower casing bottom plate 28 and is positioned on the left side of the sliding groove 22, the battery board 9 and the key circuit board 75, the photoelectric sensing circuit board 7 is electrically connected, the key circuit board 75 is provided with a left key 73 and a right key 72, the middle part of the apron board at the tail end of the upper casing 1 extends inwards to form a circuit board supporting plate 14, the middle part of the tail end of the key circuit board 75 is fixedly arranged on the circuit board supporting plate 14 through screws, the front end of the left key panel 8 and the front end of the right key panel 8 are clamped into the panel clamping groove 13 on the upper casing 1 through clamping buckles, so that the front end of the left key panel 8 and the front end of the upper casing 1 are fixedly connected, the left part and the right part of the tail end of the left key panel 8 penetrate through the upper casing 1 to.

In order to charge the battery panel 9 conveniently, the positive and negative charging contacts 74 electrically connected with the battery panel 9 are further arranged on one side of the key circuit board 75, the corresponding charging hole 15 is formed in one side of the apron board at the tail end of the upper shell 1, and the battery panel 9 in the accommodating cavity can be charged through the external charging contact pins.

When the sliding block 5 moves to the tail end of the sliding groove 22, the sliding block needs to be limited, so that the tail end of the sliding groove 22 is provided with an inclined limiting groove 23 matched with the sliding block 5, after the sliding block 5 slides to the inclined limiting groove 23, the sliding block 5 cannot be separated from the inclined limiting groove 23 under the condition of no external force, and when the sliding block 5 is stored, the sliding block 5 is pushed out of the inclined limiting groove 23 by the external force; in order to prevent the bottom surface of the slider 5 from protruding the bottom surface of the lower housing bottom plate 28, the two sides of the sliding groove 22 are recessed to form a slider accommodating groove 21, and the slider seat is disposed in the slider accommodating groove 21 when the slider 5 slides along the sliding groove 22, thereby preventing the bottom surface of the slider 5 from protruding.

The two sides of the lower apron board 26 are provided with outward flanges 24 in a protruding manner, the two sides of the upper apron board 16, the two sides of the first telescopic frame 31, the second telescopic frame 32 and the third telescopic frame 33 are provided with inner grooves 12 matched with the flanges 24, and the flanges 24 support the thumb of a user when the ultrathin mouse is used.

When in storage, the sliding block 5 is arranged at the tail part of the sliding groove 22, the supporting rod 4 is obliquely laid in the containing cavity, the lower part of the upper apron board 16, the first telescopic frame 31, the second telescopic frame 32, the third telescopic frame 33 and the upper part of the lower apron board 26 are overlapped, so that the space occupied by the upper shell 1 and the lower shell 2 is reduced, when in use, the sliding block 5 moves from the tail part of the sliding groove 22 to the front part of the lower shell 2 along the sliding groove 22, the supporting rod 4 stands up and supports the upper shell 1, the first telescopic frame 31, the second telescopic frame 32 and the front end of the third telescopic frame 33, the shape with high front part and low back part is formed, and the higher front part is arranged in the palm center of a user so as to be convenient.

Example 2

An electronic device can be a tablet computer or a notebook computer, and comprises an ultrathin mouse in embodiment 1, wherein an accommodating groove for accommodating the ultrathin mouse is formed in the electronic device, a charging contact pin for charging a battery panel 9 is arranged in the accommodating groove, and the ultrathin mouse can be charged after being placed in the accommodating groove.

It should be understood that the above examples are only for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And that obvious changes and modifications may be made without departing from the spirit of the invention.

Claims (7)

1. An ultra-thin mouse, comprising: the edge of the upper shell is downwards protruded to form an upper apron plate, the lower shell comprises a lower shell bottom plate, the edge of the lower shell bottom plate is upwards protruded to form the upper apron plate, the tail end of the upper apron plate or the lower apron plate is provided with an apron plate notch, the lower shell bottom plate is provided with a sliding groove suitable for the sliding of the sliding block, the sliding groove extends from the tail part of the lower shell bottom plate to the front part of the lower shell bottom plate, the bottom end of the supporting rod is hinged and matched with the sliding block, the top end of the supporting rod is hinged and matched with the front end of the upper shell, the upper shell is hinged and matched with the tail end of the lower shell, the circuit board assembly is fixedly arranged in an accommodating cavity formed by the upper shell and the lower shell, the sliding block is arranged in the inclined accommodating cavity of the supporting rod when the tail part of the lower shell is accommodated, at least the part of, when the sliding block is used, the sliding block moves from the tail part of the sliding groove to the front part of the sliding groove outside the lower shell along the sliding groove, and the supporting rod stands up and supports the front end of the upper shell.

2. The ultra-thin mouse of claim 1, further comprising a telescopic frame assembly, wherein the telescopic frame assembly comprises at least two telescopic frames which have the same structure and can be sleeved, a frame notch matched with the apron notch is formed at the tail end of each telescopic frame, the tail end of each telescopic frame is hinged and matched with the tail end of the upper shell or the lower shell, and limit buckles are respectively arranged at the bottom of the upper shell, the top of the lower shell, and the top and the bottom of each telescopic frame, so that when the front end of the upper shell is supported by the supporting rod, the upper shell and the telescopic frames are hooked together and the front ends of the telescopic frames are tilted up along with the upper shell.

3. The ultra-thin mouse of claim 2, wherein an inclined limiting groove adapted to the sliding block is disposed at a tail end of the sliding groove, so that the sliding block is limited by the inclined limiting groove after sliding to the inclined limiting groove.

4. The ultra-thin mouse of claim 3, wherein two sides of the sliding groove are recessed to form a sliding block receiving groove, and the sliding block is disposed in the sliding block receiving groove when sliding along the sliding groove.

5. The ultra-thin mouse of claim 4, wherein two sides of the lower skirt plate are protruded outwards to form outward flanges, and two sides of the upper skirt plate and two sides of each telescopic frame are provided with inner grooves matched with the outward flanges.

6. The ultra-thin mouse of claim 5, further comprising a rechargeable battery board disposed in the cavity, the battery board being electrically connected to the circuit board assembly, the circuit board assembly having a charging contact.

7. An electronic device characterized by comprising the ultra-thin mouse of one of claims 1 to 6.

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