CN107632723B - Mouse capable of adjusting pressing hand feeling - Google Patents

Abstract

A mouse capable of adjusting pressing hand feeling comprises: the device comprises a bottom shell, an upper shell and a first fulcrum piece. The bottom shell is provided with a first lower positioning part and a second lower positioning part, and the upper shell is provided with a first upper positioning part and a second upper positioning part. The first upper positioning part and the first lower positioning part correspond to form a first pair of positioning structures, the second upper positioning part and the second lower positioning part correspond to form a second pair of positioning structures, a first distance and a second distance are respectively arranged between the first pair of positioning structures and the front end of the second pair of positioning structures and the front end of the first upper shell, and the first distance is larger than the second distance. The first fulcrum piece can be selectively combined with one of the first pair of positioning structures or the second pair of positioning structures, so that when the front end of the first upper shell is pressed by external force and the upper shell deforms by taking the first pair of positioning structures or the second pair of positioning structures as fulcrums, the upper shell resists the deformation and has different resistances, and a user can feel different pressing handfeels.

Description

Mouse capable of adjusting pressing hand feeling

Technical Field

The present invention relates to a mouse, and more particularly, to a mouse with adjustable pressing feel.

Background

In the modern times, the use of computers has become an indispensable part of most people. Especially, as various types of software applications in different types such as games, communities and networks are developed, the faster the operating performance of the computer becomes more important, and therefore, the peripheral of the computer such as a mouse must be improved and improved according to the needs of the user.

In the prior art, the pressing hand feeling of the mouse pressing button is fixed, and the pressing hand feeling of the mouse pressing button cannot be changed according to different requirements of users. However, in practical use of the mouse, the user's operation habits are different or the sensitivity of the mouse when clicking the button is required, so that the pressing hand feeling of the touch button of the mouse can be adjusted, and different adaptability of each user to different mouse operation hand feelings can be met. Therefore, the mouse with fixed pressing hand feeling for pressing the key is difficult to be suitable for different users, the unsmooth situation occurs when the mouse is used, the controllability is poor, and the use is inconvenient.

Disclosure of Invention

The invention provides a mouse, which is used for adjusting the pressing hand feeling of a touch button of the mouse.

Other objects and advantages of the present invention will be further understood from the technical features disclosed in the present invention.

To achieve one or a part of or all of the above or other objects, an embodiment of the invention provides a mouse with adjustable pressing feel, which includes: the device comprises a bottom shell, an upper shell and a first fulcrum piece. The bottom shell part is provided with a first lower positioning part and a second lower positioning part. The upper shell is provided with a first upper shell front end, an arc-shaped lower surface, an upper shell rear end, a first upper positioning portion and a second upper positioning portion, the upper shell rear end is connected with the bottom shell portion, the first upper positioning portion and the second upper positioning portion are arranged on the arc-shaped lower surface, the upper shell front end is separated from the bottom shell portion, the first upper shell front end can move up and down relative to the bottom shell portion due to elastic deformation of the upper shell to be pressed by a user, the first upper positioning portion and the first lower positioning portion correspond to each other to form a first pair of positioning structures, the second upper positioning portion and the second lower positioning portion correspond to each other to form a second pair of positioning structures, a first distance is reserved between the first pair of positioning structures and the first upper shell front end, a second distance is reserved between the second pair of positioning structures and the first upper shell front end, and the first. The first fulcrum piece is provided with a first upper end and a first lower end, wherein the first upper end can be selectively combined with one of the first upper positioning part and the second upper positioning part, and the first lower end can be selectively combined with one of the first lower positioning part and the second lower positioning part. When the first fulcrum piece is combined with the first pair of positioning structures and the front end of the first upper shell is pressed by external force to enable the upper shell to deform by taking the first pair of positioning structures as fulcrums, the upper shell resists the deformation and has first resistance. When the first fulcrum piece is combined with the second pair of positioning structures and the front end of the first upper shell is pressed by the same external force to enable the upper shell to deform by taking the second pair of positioning structures as fulcrums, the upper shell resists the deformation and has a second resistance, and the second distance is smaller than the first distance, so that the first resistance is smaller than the second resistance.

As an optional technical solution, the first upper positioning portion has a first upper joint surface, the second upper positioning portion has a second upper joint surface, the first lower positioning portion has a first lower joint surface, the second lower positioning portion has a second lower joint surface, the first upper joint surface and the second upper joint surface in the first pair of positioning structures and the second pair of positioning structures have a corresponding relationship with the first lower joint surface and the second lower joint surface up and down, and a gap between the first upper joint surface and the corresponding first lower joint surface in the first pair of positioning structures and the second pair of positioning structures is the same as a gap between the second upper joint surface and the corresponding second lower joint surface.

As an optional technical solution, the first upper positioning portion and the second upper positioning portion have different extending lengths from the arc-shaped lower surface, so that the first upper bonding surface and the second upper bonding surface are located at substantially the same horizontal height.

As an optional technical solution, one of the first lower end and the first and second lower bonding surfaces is a magnet, and the other of the first lower end and the first and second lower bonding surfaces is a magnetic conductive material.

As an optional technical solution, the material of one of the first upper end and the first upper bonding surface and the second upper bonding surface is a magnet, and the opposite other of the first upper end and the first upper bonding surface and the second upper bonding surface is a magnetic conductive material.

As an optional technical solution, when the first fulcrum piece is combined with the first pair of positioning structures, the upper housing has a first curved surface shape, and when the first fulcrum piece is combined with the second pair of positioning structures, the upper housing has a second curved surface shape, and the first curved surface shape is substantially the same as the second curved surface shape.

Alternatively, the upper housing further has an arcuate upper surface, and the arcuate upper surface and the arcuate lower surface have substantially the same curvature.

As an optional technical solution, the first upper positioning portion and the second upper positioning portion respectively have a first engaging structure, and the first fulcrum piece is selectively engaged and fixed to one of the first engaging structure of the first upper positioning portion and the first engaging structure of the second upper positioning portion by the first upper end.

As an optional technical solution, the first lower positioning portion and the second lower positioning portion respectively have a second engaging structure, and the first fulcrum piece is selectively engaged and fixed to one of the second engaging structure of the first lower positioning portion and the second engaging structure of the second lower positioning portion by the first lower end.

As an optional technical solution, the mouse further has a second fulcrum piece, the bottom case further has a third lower positioning portion and a fourth lower positioning portion, the upper shell is also provided with a second upper shell front end, a third upper positioning part and a fourth upper positioning part, the third upper positioning part and the third lower positioning part form a third pair of positioning structures, the fourth upper positioning part and the fourth lower positioning part form a fourth pair of positioning structures, a third distance is reserved between the third pair of positioning structures and the front end of the second upper shell, a fourth distance is arranged between the fourth pair of positioning structures and the front end of the second upper shell, the third distance is larger than the fourth distance, the second fulcrum piece can be selectively combined with one of the third pair of positioning structures and the fourth pair of positioning structures, the first fulcrum piece and the second fulcrum piece are separated, and one of the combined first positioning structure and the combined fourth positioning structure can be independently changed.

As an optional technical solution, the mouse has a long axis of a bottom shell, a first connection line connects the first pair of positioning structures and the second pair of positioning structures, a second connection line connects the third pair of positioning structures and the fourth pair of positioning structures, and the first connection line and the second connection line are substantially parallel to the long axis of the bottom shell.

As an optional technical solution, the upper housing further has a second upper housing front end, a third upper positioning portion and a fourth upper positioning portion, a third distance is provided between the third upper positioning portion and the second upper housing front end, a fourth distance is provided between the fourth upper positioning portion and the second upper housing front end, the third distance is greater than the fourth distance, the first fulcrum piece is a Y-shaped structure, and the first fulcrum has a second upper end; when the lower end of the first fulcrum piece is combined with the first lower positioning part, the first upper end is combined with the first upper positioning part, and the second upper end is combined with the third upper positioning part; when the lower end of the first fulcrum piece is combined with the second lower positioning part, the first upper end is combined with the second upper positioning part, and the second upper end is combined with the fourth upper positioning part.

As an optional technical solution, the first fulcrum member has a cross bar, and the first upper end and the second upper end are respectively located at left and right ends of the cross bar to serve as fulcrums when the front end of the first upper housing and/or the front end of the second upper housing are pressed.

To achieve one or a part of or all of the above or other objects, an embodiment of the invention provides a mouse with adjustable pressing feel, which includes: the device comprises a bottom shell, an upper shell and a first fulcrum piece. The bottom shell part is provided with a first lower fixing plate which is provided with a first lower positioning surface and a second lower positioning surface. The upper shell is provided with a first upper shell front end, an arc-shaped lower surface, an upper shell rear end and a first upper fixing plate, the first upper fixing plate is provided with a first upper positioning surface and a second upper positioning surface, the upper shell rear end is connected to the bottom shell portion, the upper fixing plate is arranged on the arc-shaped lower surface, the upper shell front end is separated from the bottom shell portion, the first upper shell front end can move up and down relative to the bottom shell portion due to elastic deformation of the upper shell to be pressed by a user, the first upper positioning surface corresponds to the first lower positioning surface, the second upper positioning surface corresponds to the second lower positioning surface, a first distance is reserved between the first upper positioning surface and the first upper shell front end, a second distance is reserved between the second upper positioning surface and the first upper shell front end, and the first distance is larger than the second distance. The first supporting element has a first upper end and a first lower end, wherein the first upper end is selectively combined with one of the first upper positioning surface and the second upper positioning surface by a first magnetic attraction force, the first lower end is selectively combined with one of the first lower positioning surface and the second lower positioning surface by a second magnetic attraction force, and at least one of the first upper fixing plate, the first lower fixing plate and the first supporting element is a magnet to generate the first magnetic attraction force and the second magnetic attraction force. When the first fulcrum piece is combined between the first upper positioning surface and the first lower positioning surface, and the front end of the first upper shell is pressed by external force to enable the upper shell to deform by taking the first fulcrum piece as a fulcrum, the upper shell resists the deformation and has first resistance. When the first fulcrum piece is combined between the second upper positioning surface and the second lower positioning surface, and the front end of the first upper shell is pressed by the same external force to enable the upper shell to deform by taking the first fulcrum piece as a fulcrum, the upper shell resists the deformation and has second resistance, and the second distance is smaller than the first distance, so that the first resistance is smaller than the second resistance.

Alternatively, the bottom shell has a long bottom shell axis, the first lower fixing plate has a first flat upper surface, and the first lower positioning surface and the second lower positioning surface are both located on the first flat upper surface, and the first flat upper surface extends below the upper shell substantially along the long bottom shell axis.

As an optional technical solution, the upper housing has an upper housing long axis, the first upper fixing plate has a first flat lower surface, the first upper positioning surface and the second upper positioning surface are both located on the first flat lower surface, and the first flat lower surface substantially extends above the bottom housing along the upper housing long axis.

Compared with the prior art, the mouse with the adjustable pressing hand feeling has the advantages that through the arrangement of the plurality of pairs of positioning structures and the fulcrum pieces, when the fulcrum pieces are arranged on different positioning structures, the front end of the upper shell of the mouse is pressed by external force to have different resistances, and the purpose of adjusting the pressing hand feeling of the touch keys of the mouse is achieved.

In order to make the aforementioned and other objects, features and advantages of the invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1A is an exploded view of a mouse with adjustable pressing feel according to an embodiment of the invention.

Fig. 1B is a schematic cross-sectional view of a mouse with adjustable pressing feel according to an embodiment of the invention.

Fig. 2A is an exploded view of a mouse with adjustable pressing feel according to another embodiment of the invention.

Fig. 2B is a schematic cross-sectional view of a mouse with adjustable pressing feel according to another embodiment of the invention.

Fig. 3 is an exploded view of a mouse with adjustable pressing feel according to another embodiment of the invention.

Fig. 4 is an exploded view of a mouse with adjustable pressing feel according to another embodiment of the invention.

Fig. 5A is an exploded view of a mouse with adjustable pressing feel according to another embodiment of the invention.

Fig. 5B is a schematic cross-sectional view of a mouse with adjustable pressing feel according to another embodiment of the invention.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of a preferred embodiment, as illustrated in the accompanying drawings. Directional terms as referred to in the following examples, for example: up, down, left, right, front or rear, etc., are referred to only in the direction of the attached drawings. Accordingly, the directional terminology is used for purposes of illustration and is in no way limiting.

Fig. 1A is an exploded schematic view of a mouse with adjustable pressing hand feeling according to an embodiment of the invention, and fig. 1B is a cross-sectional view of the mouse with adjustable pressing hand feeling according to an embodiment of the invention. Fig. 1A is a schematic diagram of the first fulcrum piece 15 and the second fulcrum piece 17 separated from the positioning structures, and fig. 1B is a cross-sectional view of the first fulcrum piece 15 disposed on the first pair of positioning structures and along the first pair of positioning structures and the second pair of positioning structures. Referring to fig. 1A and 1B, a mouse 10 includes a bottom housing 13, an upper housing 11, and a first fulcrum member 15. The bottom housing 13 has a first lower positioning portion 132 and a second lower positioning portion 134, and the upper housing 11 has a first upper housing front end 1111, an arc-shaped lower surface 1115, an upper housing rear end 1113, a first upper positioning portion 112 and a second upper positioning portion 114. Upper housing 11 is connected to bottom housing 13 at upper housing rear end 1113, and first upper positioning portion 112 and second upper positioning portion 114 are disposed on arc-shaped lower surface 1115 of upper housing 11. The first upper housing front end 1111 is separated from the bottom housing 13, and the first upper housing front end 1111 can move up and down relative to the bottom housing 13 for the user to press and operate in response to the elastic deformation of the upper housing 11. The first upper positioning portion 112 and the first lower positioning portion 132 form a first pair of positioning structures, the second upper positioning portion 114 and the second lower positioning portion 134 form a second pair of positioning structures, a first distance d1 is provided between the first pair of positioning structures and the first upper housing front end 1111, a second distance d2 is provided between the second pair of positioning structures and the first upper housing front end 1111, and the first distance d1 is greater than the second distance d 2.

The first fulcrum member 15 has a first upper end 151 and a first lower end 153, wherein the first upper end 151 can be selectively combined with one of the first upper positioning portion 112 and the second upper positioning portion 114, and the first lower end 153 can be selectively combined with one of the first lower positioning portion 132 and the second lower positioning portion 134. The combination manner of the first fulcrum 15 and the first upper positioning portion 112 or the second upper positioning portion 114 may be, for example, a snap-fit manner, a magnetic attraction manner, or a screw-fastening manner, and the combination manner of the first fulcrum 15 and the first lower positioning portion 132 or the second lower positioning portion 134 may be, for example, a snap-fit manner, a magnetic attraction manner, or a screw-fastening manner, which is not limited in the present invention. When the first pivot element 15 is coupled to the first pair of positioning structures and the front end 1111 of the first upper housing is pressed by the external force F to deform the upper housing 11 with the first pair of positioning structures as the pivot, the upper housing 11 has a first resistance to deformation because the first distance d1 suspending the upper housing 11 is long, so that the upper housing 11 is easier to deform, i.e. the upper housing 11 provides a small first resistance, thereby providing a user with a feeling of low resistance to pressing the button. When the first pivot element 15 is combined with the second pair of positioning structures, and the front end 1111 of the first upper housing is pressed by the same external force F to deform the upper housing 11 with the second pair of positioning structures as a pivot, the upper housing 11 has a second resistance to deformation because the second suspended distance d2 of the upper housing 11 is short, so that the upper housing 11 is difficult to deform, i.e., the upper housing 11 provides a large second resistance, thereby providing a user with a feeling of high resistance to pressing. Wherein the first resistance is smaller than the second resistance due to the first distance d1 being greater than the second distance d 2. Therefore, the user can adjust the pressing hand feeling when pressing the front end 1111 of the first upper housing by selectively disposing the first fulcrum element 15 on one of the first pair of positioning structures or the second pair of positioning structures, thereby achieving the purpose of adjusting the pressing hand feeling of the touch button of the mouse 10.

As shown in fig. 1A and 1B, the first upper positioning portion 112 may have a first upper bonding surface 1121, the second upper positioning portion 114 may have a second upper bonding surface 1141, the first lower positioning portion 132 may have a first lower bonding surface 1321, and the second lower positioning portion 134 may have a second lower bonding surface 1341, which is not limited in the disclosure. The first upper positioning portion 112 has, for example, a first extending length e1 from the arc-shaped lower surface 1115, the second upper positioning portion 114 has, for example, a second extending length e2 from the arc-shaped lower surface 1115, and the first extending length e1 is greater than the second extending length e2, so that the first upper bonding surface 1121 of the first upper positioning portion 112 and the second upper bonding surface 1141 of the second upper positioning portion 114 can be located at substantially the same horizontal height, which facilitates the user to replace the bonding position of the first fulcrum member 15. In addition, when the mouse 10 is not pressed and any fulcrum member is not provided, the first upper bonding surface 1121 and the first lower bonding surface 1321 of the first pair of positioning structures have a corresponding relationship in the vertical direction, and a gap g is provided between the first upper bonding surface 1121 and the first lower bonding surface 1321. The second upper bonding surface 1141 and the second lower bonding surface 1341 of the second pair of positioning structures have a corresponding relationship in the vertical direction, and a gap g is also formed between the second upper bonding surface 1141 and the second lower bonding surface 1341. Thus, under the condition that the front end 1111 of the first upper housing is not pressed by the external force F, when the first fulcrum piece 15 is combined with the first pair of positioning structures, the upper housing 11 may have a first curved surface shape, for example; when the first fulcrum piece 15 is combined with the second pair of positioning structures, the upper shell 11 may have a second curved surface shape, for example. Since the first upper bonding surface 1121 and the second upper bonding surface 1141 of the first upper positioning portion 112 and the second upper positioning portion 114 and the corresponding first lower bonding surface 1321 and the second lower bonding surface 1341 of the first lower positioning portion 132 and the second lower positioning portion 134 have the same gap g, the first curved surface profile is substantially the same as the second curved surface profile, and will not be different due to the installation position of the first fulcrum 15.

The upper housing 11 may further have an arc-shaped upper surface 1116, and the arc-shaped upper surface 1116 and the arc-shaped lower surface 1115 may have substantially the same curvature, which should not be construed as a limitation of the present invention.

In an embodiment of the invention, one of the first lower end 153 of the first fulcrum member 15 and the first and second lower engaging surfaces 1321 and 1341 of the first and second lower positioning portions 132 and 134 may be, for example, a magnet, and the other of the first lower end 153 opposite to the first and second lower engaging surfaces 1321 and 1341 may be, for example, a magnet or a magnetic conductive material, so that the first lower end 153 of the first fulcrum member 15 may be selectively fixed to the first lower engaging surface 1321 of the first pair of positioning structures or the second lower engaging surface 1341 of the second pair of positioning structures in a magnetic attraction manner.

In an embodiment of the invention, one of the first upper end 151 of the first fulcrum member 15 and the first upper bonding surface 1121 and the second upper bonding surface 1141 of the first upper positioning portion 112 and the second upper positioning portion 114 may be made of a magnet, for example, and the other of the first upper end 151 opposite to the first upper bonding surface 1121 and the second upper bonding surface 1141 may be made of a magnet or a magnetic conductive material, for example, so that the first upper end 151 of the first fulcrum member 15 may be selectively fixed to the first upper bonding surface 1121 of the first pair of positioning structures or the second upper bonding surface 1141 of the second pair of positioning structures in a magnetic attraction manner.

In an embodiment of the present invention, the mouse 10 further has the second fulcrum 17, the bottom housing 13 further has the third lower positioning portion 136 and the fourth lower positioning portion 138, and the upper housing 11 further has the second upper housing front end 1112, the third upper positioning portion 116 and the fourth upper positioning portion 118. The third upper positioning portion 116 and the third lower positioning portion 136 constitute a third pair of positioning structures, and the fourth upper positioning portion 118 and the fourth lower positioning portion 138 constitute a fourth pair of positioning structures. The third pair of alignment structures is a third distance d3 from the second upper housing front 1112, the fourth pair of alignment structures is a fourth distance d4 from the second upper housing front 1112, and the third distance d3 is greater than the fourth distance d 4.

The second fulcrum member 17 can be selectively combined with one of the third pair of positioning structures and the fourth pair of positioning structures, wherein the second fulcrum member 17 can have a second upper end 171 and a second lower end 173, the second upper end 171 can be selectively combined with one of the third upper positioning portion 116 and the fourth upper positioning portion 118, the second lower end 173 can be selectively combined with one of the third lower positioning portion 136 and the fourth lower positioning portion 138, and the first fulcrum member 15 and the second fulcrum member 17 are separated and can be independently changed and combined with one of the positioning structures. Third upper locator portion 116 may have a third upper bonding surface 1161, fourth upper locator portion 118 may have a fourth upper bonding surface 1181, third lower locator portion 136 may have a third lower bonding surface 1361, and fourth lower locator portion 138 may have a fourth lower bonding surface 1381. The functions and functions of the second upper housing front end 1112, the second fulcrum piece 17, the third upper positioning portion 116, the fourth upper positioning portion 118, the third lower positioning portion 136, and the fourth lower positioning portion 138 of this embodiment are substantially the same as those of the first upper housing front end 1111, the first fulcrum piece 15, the first upper positioning portion 112, the second upper positioning portion 114, the first lower positioning portion 132, and the second lower positioning portion 134, which will not be described again.

The mouse 10 may have a bottom case long axis a, for example, the first connection line a1 connects the first pair of positioning structures and the second pair of positioning structures, the second connection line a2 connects the third pair of positioning structures and the fourth pair of positioning structures, and the first connection line a1 and the second connection line a2 may be substantially parallel to the bottom case long axis a, which is not limited in the present invention. The first line a1 and the second line a2 are virtual line segments, which are only used to illustrate the arrangement of the first pair of positioning structures and the second pair of positioning structures, and are not actually present on the surface of the bottom shell 13 of the mouse 10. The first upper housing front end 1111 and the second upper housing front end 1112 of the mouse 10 can be compared with, for example, a left key and a right key of a general mouse device, and the upper housing 11 is detachably connected to the bottom housing 13, for example, after the upper housing 11 is detached, the first positioning structure to the fourth pair of positioning structures are partially exposed, so that a user can adjust the setting positions of the first fulcrum piece 15 and/or the second fulcrum piece 17, and adjust the pressing hand feeling when pressing the first upper housing front end 1111 and/or the second upper housing front end 1112, thereby achieving the purpose of adjusting the pressing hand feeling of the touch keys of the mouse 10.

Referring to fig. 2A and 2B, fig. 2A is an exploded schematic view of a mouse with adjustable pressing touch according to another embodiment of the invention, and fig. 2B is a cross-sectional view of a mouse with adjustable pressing touch according to another embodiment of the invention. The mouse 20 of the present embodiment is similar to the mouse 10 of the embodiment shown in fig. 1A and 1B in structure, and has the same function and efficacy. The present embodiment is different from the embodiment described in fig. 1A and 1B in that: the mouse 20 has 4 first upper positioning portions 211, 212, 213, 214 at the upper housing 11 corresponding to the first upper housing front end 1111, 4 corresponding first lower positioning portions 231, 232, 233, 234 at the bottom housing 13, 4 first upper positioning portions 211, 212, 213, 214 having first upper coupling surfaces 2111, 2121, 2131, 2141, and 4 first lower positioning portions 231, 232, 233, and 234 having first lower coupling surfaces 2311, 2321, 2331, and 2341, respectively. The 4 first upper positioning portions 211, 212, 213, and 214 respectively have first engaging structures 2113, 2123, 2133, and 2143, and the first fulcrum element 15 is selectively engaged and fixed to one of the 4 first engaging structures 2113, 2123, 2133, and 2143 by the first upper end 151. The structural shapes of the first engaging structures 2113, 2123, 2133 and 2143 shown in fig. 2A and 2B are only for illustration, and the invention is not limited thereto. As shown in fig. 2B, the first fulcrum piece 15 engages with the first engaging structure 2123 at the first upper end 151.

In an embodiment of the invention, the 4 first lower positioning portions 231, 232, 233, and 234 respectively have second engaging structures 2313, 2323, 2333, and 2343, and the first fulcrum piece 15 is selectively engaged and fixed to one of the 4 second engaging structures 2313, 2323, 2333, and 2343 by the lower end 153. The structural shapes of the 4 second engaging structures 2313, 2323, 2333 and 2343 shown in fig. 2A and 2B are only for illustration, and the present invention is not limited thereto.

In the present embodiment, 4 pairs of positioning structures are formed by the 4 first upper positioning portions 211, 212, 213, and 214 and the 4 second lower positioning portions 231, 232, 233, and 234, respectively, for illustration, and the invention is not limited thereto. In other embodiments, the mouse may have any pair of positioning structures. In this embodiment, any two pairs of the 4 pairs of positioning structures may be selected as the first pair of positioning structures and the second pair of positioning structures in the embodiment described in fig. 1A and fig. 1B by comparison, and the embodiment takes the positioning structure formed by the first upper positioning portion 212 and the corresponding first lower positioning portion 232 as an example compared with the first pair of positioning structures, and takes the positioning structure formed by the first upper positioning portion 214 and the first lower positioning portion 234 as an example compared with the second pair of positioning structures, which is not limited in this disclosure. When the first fulcrum piece 15 is disposed in different positioning structures, since the second distance d2 is smaller than the first distance d1, that is, the suspended length of the upper housing 11 is different, the resistance of the upper housing 11 against the pressing deformation of the user will change accordingly, so that the user can dispose the first fulcrum piece 15 to be engaged with the different positioning structures, so as to adjust the pressing feel when pressing the front end 1111 of the first upper housing, thereby achieving the purpose of adjusting the pressing feel of the touch button of the mouse 20.

In an embodiment of the invention, the mouse 20 has 4 second upper positioning portions 215, 216, 217, 218 at the upper housing 11 corresponding to the second upper housing front end 1112, and the bottom housing 13 has 4 second lower positioning portions 235, 236, 237, 238, and the structure and function of the 4 second upper positioning portions and the 4 second lower positioning portions are the same as those of the 4 first upper positioning portions 211, 212, 213, 214 and the 4 first lower positioning portions 231, 232, 233, 234 corresponding to the first upper housing front end 1111, which will not be described again. Therefore, the user can engage the first fulcrum piece 15 and/or the second fulcrum piece 17 with different positioning structures, so as to achieve the purpose of adjusting the pressing feel when pressing the first upper housing front end 1111 and/or the second upper housing front end 1112.

Referring to fig. 3, fig. 3 is an exploded view of a mouse with adjustable pressing feel according to another embodiment of the invention. The mouse 30 of the present embodiment is similar to the mouse 10 of the embodiment shown in fig. 1A and 1B in structure, and has the same function and efficacy. The present embodiment is different from the embodiment described in fig. 1A and 1B in that: the bottom housing 13 of the mouse 30 only has the first lower positioning portion 332 and the second lower positioning portion 334, but does not have the third lower positioning portion and the fourth lower positioning portion, wherein the first lower positioning portion 332 has the first lower coupling surface 3321 and the first engaging structure 3323, and the second lower positioning portion 334 has the second lower coupling surface 3341 and the second engaging structure 3343. The first fulcrum member 35 is a Y-shaped structure and has a first lower end 353, a first upper end 351 and a second upper end 352. When the first lower end 353 of the first fulcrum member 35 is coupled to the first lower positioning portion 332, the first upper end 351 may be coupled to the first upper positioning portion 112, and the second upper end 352 may be coupled to the third upper positioning portion 116; when the lower end 353 of the first fulcrum member 35 is coupled to the second lower positioning portion 334, the first upper end 351 may be coupled to the second upper positioning portion 114, and the second upper end 352 may be coupled to the fourth upper positioning portion 118. In the present embodiment, the manner in which the lower end 353 of the first fulcrum member 35 is coupled to the first lower positioning portion 332 or the second lower positioning portion 334 is engaged with the first engaging structure 3323 or the second engaging structure 3343 as an example, and the invention is not limited thereto.

Therefore, in the present embodiment, through the design of the first fulcrum member 35 with the Y-shaped structure, the user only needs to adjust the position of the first fulcrum member 35 disposed at the first lower positioning portion 332 or the second lower positioning portion 334, so as to adjust the pressing hand feeling when pressing the first upper housing front end 1111 and the second upper housing front end 1112 at the same time, thereby achieving the purpose of adjusting the pressing hand feeling of the touch button of the mouse 30.

Referring to fig. 4, fig. 4 is an exploded view of a mouse with adjustable pressing feel according to another embodiment of the invention. The mouse 40 of the present embodiment is similar to the mouse 30 of the embodiment shown in FIG. 3 in structure, and has the same function and efficacy. This embodiment differs from the embodiment described in fig. 3 in that: the upper housing 11 of the mouse 40 has only an upper fixing plate 412, and does not have the first to fourth upper positioning portions, wherein the fixing plate 412 has a fixing surface 4121, and the distance between the fixing surface 4121 and the first and second lower bonding surfaces 4321 and 4341 of the first and second lower positioning portions 432 and 434 of the bottom housing 13 is fixed. The first fulcrum element 45 has a cross bar, the first upper end 451 and the second upper end 452 are respectively located at the left end and the right end of the cross bar, the first lower end 453 of the first fulcrum element 45 can be selectively combined with the first lower positioning portion 432 or the second lower positioning portion 434, wherein the manner of combining the first lower end 453 of the first fulcrum element 45 with the first lower positioning portion 432 or the second lower positioning portion 434 is to be engaged with the first engaging structure 4323 or the second engaging structure 4343 as an example, which should not be construed as a limitation to the present invention. The cross bar of the first pivot element 45 can abut against the fixing surface 4121 of the fixing plate 412, so that the first upper end 451 and the second upper end 452 serve as pivots when the front ends of the first upper housing 1111 and the second upper housing 1112 are pressed. Therefore, in the present embodiment, by designing the first fulcrum member 45 having the cross bar with the first upper end 451 and the second upper end 452, the user only needs to adjust the positions of the first fulcrum member 45 disposed on the first lower positioning portion 432 and the second lower positioning portion 434, so as to adjust the pressing hand feeling when pressing the first upper housing front end 1111 and the second upper housing front end 1112, thereby achieving the purpose of adjusting the pressing hand feeling of the touch button of the mouse 40.

Fig. 5A is an exploded view of a mouse with adjustable pressing feel according to another embodiment of the invention, and fig. 5B is a cross-sectional view of a mouse with adjustable pressing feel according to another embodiment of the invention. Referring to fig. 5A and 5B, the mouse 50 includes a bottom housing 13, an upper housing 11, and a first fulcrum member 55. The base portion 13 has a first lower fixing plate 56, the first lower fixing plate 56 has a first flat upper surface 561, and the first flat upper surface 561 may have a first lower positioning surface 532 and a second lower positioning surface 534, for example. The upper housing 11 has a first upper housing front end 1111, an arc-shaped lower surface 1115, an upper housing rear end 1113 and a first upper fixing plate 52, the first upper fixing plate 52 has a first flat lower surface 521, the first flat lower surface 521 may have a first upper positioning surface 512 and a second upper positioning surface 514, for example, and the upper housing rear end 1113 is connected to the bottom housing 13. The first upper fixing plate 52 is disposed on the arc-shaped lower surface 1115, the first upper housing front end 1111 is separated from the bottom housing 13, and the first upper housing front end 1111 can move up and down relative to the bottom housing 13 for pressing operation by a user due to elastic deformation of the upper housing 11. The first upper positioning surface 512 corresponds to the first lower positioning surface 532, the second upper positioning surface 514 corresponds to the second lower positioning surface 534, a first distance d1 is provided between the first upper positioning surface 512 and the first upper housing front end 1111, a second distance d2 is provided between the second upper positioning surface 514 and the first upper housing front end 1111, and the first distance d1 is greater than the second distance d 2.

The first supporting point element 55 has a first upper end 551 and a first lower end 553, wherein the first upper end 551 can be selectively coupled to one of the first upper positioning surface 512 and the second upper positioning surface 514 by a first magnetic attraction force, and the first lower end 553 can be selectively coupled to one of the first lower positioning surface 532 and the second lower positioning surface 534 by a second magnetic attraction force, wherein at least one of the first upper fixing plate 52, the first lower fixing plate 56 and the first supporting point element 55 is a magnet to generate the first magnetic attraction force and the second magnetic attraction force. When the first fulcrum piece 55 is coupled between the first upper positioning surface 512 and the first lower positioning surface 532, and the first upper housing front end 1111 is pressed by the external force F to deform the upper housing 11 with the first fulcrum piece 55 as a fulcrum, the upper housing 11 has a first resistance to deformation, because the first suspended distance d1 of the upper housing 11 is longer, the upper housing 11 is easier to deform, that is, the upper housing 11 provides a smaller first resistance, thereby providing a user with a lower hand feeling of resistance. When the first fulcrum piece 55 is combined between the second upper positioning surface 514 and the second lower positioning surface 534 and the first upper housing front end 1111 is pressed by the same external force F to deform the upper housing 11 with the first fulcrum piece 55 as a fulcrum, the upper housing 11 has a second resistance to deformation because the second distance d2 of the upper housing 11 being suspended is short, so that the upper housing 11 is difficult to deform, i.e. the upper housing 11 provides a larger second resistance, thereby providing a user with a feeling of higher resistance. Wherein the first resistance is smaller than the second resistance due to the first distance d1 being greater than the second distance d 2. Therefore, the user can adjust the pressing feeling when pressing the front end 1111 of the first upper housing by selectively disposing the first fulcrum piece 55 at different positions of the first upper fixing plate 52 and the first lower fixing plate 56, thereby achieving the purpose of adjusting the pressing feeling of the touch button of the mouse 50. The positions of the first upper positioning surface 512 and the second upper positioning surface 514 on the first flat lower surface 521 and the positions of the first lower positioning surface 532 and the second lower positioning surface 534 on the first flat upper surface 561 shown in fig. 5 are only for illustration and the invention is not limited thereto. In practical applications, a user can set the first fulcrum piece 55 at an arbitrary position on the first flat lower surface 521 of the upper first fixing plate 52 and set the first fulcrum piece 55 at a position corresponding to the first flat upper surface 561 of the first lower fixing plate 56, so as to achieve the purpose of arbitrarily fine-tuning the pressing feel when pressing the front end 1111 of the first upper housing.

The bottom shell 13 may have a bottom shell major axis a, for example, and the first flat upper surface 561 of the first bottom fixing plate 56 extends below the top shell 11 substantially along the bottom shell major axis a.

The upper housing 11 may have an upper housing longitudinal axis B, and the first flat lower surface 521 extends above the bottom housing 13 substantially along the upper housing longitudinal axis B.

In an embodiment of the present invention, the mouse 50 further includes a second fulcrum member 57, the bottom housing 13 further includes a second lower fixing plate 58, the second lower fixing plate 58 has a second flat upper surface 581, and the second flat upper surface 581 may have, for example, a third lower positioning surface 536 and a fourth lower positioning surface 538. The upper housing 11 further has a second upper housing front end 1112 and a second upper fixing plate 54, the second upper fixing plate 54 has a second flat lower surface 541, and the second flat lower surface 541 can have, for example, a third upper positioning surface 516 and a fourth upper positioning surface 518. The second upper fixing plate 54 is disposed on the arc-shaped lower surface 1115, the second upper housing front end 1112 is separated from the bottom housing 13, and the second upper housing front end 1112 can move up and down relative to the bottom housing 13 for pressing operation by a user due to the elastic deformation of the upper housing 11. The third upper positioning surface 516 corresponds to the third lower positioning surface 536, and the fourth upper positioning surface 518 corresponds to the fourth lower positioning surface 538. A third distance d3 is provided between the third upper positioning surface 516 and the second upper housing front 1112, a fourth distance d4 is provided between the fourth upper positioning surface 518 and the second upper housing front 1112, and the third distance d3 is greater than the fourth distance d4, so as to achieve the purpose of adjusting the pressing feel when pressing the second upper housing front 1112. The functions and functions of the second fulcrum element 57, the second upper fixing plate 54, the second lower fixing plate 58 and the second upper housing front end 1112 are substantially the same as those of the first fulcrum element 55, the first upper fixing plate 52, the first lower fixing plate 56 and the first upper housing front end 1111, which will not be described herein again.

In summary, in the mouse with the adjustable pressing hand feeling according to the embodiment of the invention, through the arrangement of the plurality of pairs of positioning structures and the fulcrum pieces, when the fulcrum pieces are arranged in different positioning structures, different resistances are generated when the front end of the upper shell of the mouse is pressed by an external force, so as to achieve the purpose of adjusting the pressing hand feeling of the touch button of the mouse.

Although the present invention has been described with reference to the above embodiments, it should be understood that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (16)

1. A mouse capable of adjusting pressing hand feeling is characterized in that the mouse comprises:

the bottom shell part is provided with a first lower positioning part and a second lower positioning part;

the upper shell is provided with a first upper shell front end, an arc-shaped lower surface, an upper shell rear end, a first upper positioning part and a second upper positioning part, the upper shell rear end is connected with the bottom shell part, the first upper positioning part and the second upper positioning part are arranged on the arc-shaped lower surface, the first upper shell front end is separated from the bottom shell part, the upper shell is elastically deformed to enable the first upper shell front end to move up and down relative to the bottom shell part, the first upper positioning part and the first lower positioning part correspond to form a first pair of positioning structures, the second upper positioning part and the second lower positioning part correspond to form a second pair of positioning structures, a first distance is reserved between the first pair of positioning structures and the first upper shell front end, a second distance is reserved between the second pair of positioning structures and the first upper shell front end, and the first distance is larger than the second distance; and

a first fulcrum member having a first upper end and a first lower end, the first upper end being combined with the first upper positioning portion and the first lower end being combined with the first lower positioning portion or the first upper end being combined with the second upper positioning portion and the first lower end being combined with the second lower positioning portion;

when the first fulcrum piece is combined with the first pair of positioning structures and the front end of the first upper shell is pressed by external force to enable the upper shell to deform by taking the first pair of positioning structures as fulcrums, the upper shell resists the deformation and has first resistance;

when the first fulcrum piece is combined with the second pair of positioning structures and the front end of the first upper shell is pressed by the same external force to enable the upper shell to deform by taking the second pair of positioning structures as fulcrums, the upper shell resists the deformation and has second resistance, and the second distance is smaller than the first distance, so that the first resistance is smaller than the second resistance.

2. The mouse with adjustable pressing hand feeling of claim 1, wherein the first upper positioning portion has a first upper bonding surface, the second upper positioning portion has a second upper bonding surface, the first lower positioning portion has a first lower bonding surface, the second lower positioning portion has a second lower bonding surface, and the first upper bonding surface and the first lower bonding surface of the first pair of positioning structures have a vertical correspondence; the second upper bonding surface and the second lower bonding surface in the second pair of positioning structures have a vertical corresponding relationship; and the clearance between the first upper joint surface and the corresponding first lower joint surface in the first pair of positioning structures and the second pair of positioning structures is the same as the clearance between the second upper joint surface and the corresponding second lower joint surface.

3. The mouse with adjustable pressing touch feeling of claim 2, wherein the first upper positioning portion and the second upper positioning portion have different extension lengths from the arc-shaped lower surface, so that the first upper bonding surface and the second upper bonding surface are at the same level.

4. The mouse with adjustable pressing hand feeling of claim 2, wherein one of the first lower end and the first lower combining surface is a magnet, and the other of the first lower end and the first lower combining surface is a magnetic conductive material; or one of the first lower end and the second lower combining surface is a magnet, and the other of the first lower end and the second lower combining surface is a magnetic conductive material.

5. The mouse with adjustable pressing hand feeling of claim 2, wherein one of the first upper end and the first upper combining surface is a magnet, and the other of the first upper end and the first upper combining surface is a magnetic conductive material; or one of the first upper end and the second upper combining surface is a magnet, and the other of the first upper end and the second upper combining surface is a magnetic conductive material.

6. The mouse with adjustable pressing feeling as claimed in claim 1, wherein the upper housing has a first curved surface when the first fulcrum member is coupled to the first pair of positioning structures, and a second curved surface when the first fulcrum member is coupled to the second pair of positioning structures, the first curved surface and the second curved surface having the same shape.

7. The hand feeling adjustable mouse of claim 1, wherein the upper housing further has an arcuate upper surface, and the arcuate upper surface and the arcuate lower surface have the same curvature.

8. The mouse with adjustable pressing touch as claimed in claim 1, wherein the first upper positioning portion and the second upper positioning portion respectively have a first engaging structure, and the first fulcrum member is selectively engaged and fixed to one of the first engaging structure of the first upper positioning portion and the first engaging structure of the second upper positioning portion by the first upper end.

9. The mouse with adjustable pressing touch as claimed in claim 1, wherein the first lower positioning portion and the second lower positioning portion respectively have a second engaging structure, and the first fulcrum member is selectively engaged and fixed to one of the second engaging structure of the first lower positioning portion and the second engaging structure of the second lower positioning portion by the first lower end.

10. The hand feeling adjustable mouse according to claim 1, further comprising a second fulcrum member, the bottom shell part is also provided with a third lower positioning part and a fourth lower positioning part, the upper shell is also provided with a second upper shell front end, a third upper positioning part and a fourth upper positioning part, the third upper positioning part and the third lower positioning part form a third pair of positioning structures, the fourth upper positioning part and the fourth lower positioning part form a fourth pair of positioning structures, a third distance is arranged between the third pair of positioning structures and the front end of the second upper shell, a fourth distance is arranged between the fourth pair of positioning structures and the front end of the second upper shell, the third distance is greater than the fourth distance, the second fulcrum piece can be selectively combined with one of the third pair of positioning structures and the fourth pair of positioning structures, the first fulcrum piece is separated from the second fulcrum piece, and one of the first positioning structure pair to the fourth positioning structure pair combined with the first fulcrum piece can be independently changed.

11. The mouse with adjustable pressing feel as claimed in claim 10, wherein the mouse has a long axis of a bottom housing, a first connecting line connects the first pair of positioning structures and the second pair of positioning structures, a second connecting line connects the third pair of positioning structures and the fourth pair of positioning structures, and the first connecting line and the second connecting line are parallel to the long axis of the bottom housing.

12. The mouse with adjustable pressing touch feeling of claim 1, wherein the upper housing further has a second upper housing front end, a third upper positioning portion and a fourth upper positioning portion, a third distance is provided between the third upper positioning portion and the second upper housing front end, a fourth distance is provided between the fourth upper positioning portion and the second upper housing front end, the third distance is greater than the fourth distance, the first fulcrum member is a Y-shaped structure, and the first fulcrum further has a second upper end;

when the lower end of the first fulcrum piece is combined with the first lower positioning part, the first upper end is combined with the first upper positioning part, and the second upper end is combined with the third upper positioning part;

when the lower end of the first fulcrum piece is combined with the second lower positioning part, the first upper end is combined with the second upper positioning part, and the second upper end is combined with the fourth upper positioning part.

13. The mouse with adjustable pressing feeling as claimed in claim 12, wherein the first fulcrum member has a cross bar, and the first upper end and the second upper end are respectively located at the left and right ends of the cross bar to serve as fulcrums when the front end of the first upper housing and/or the front end of the second upper housing are pressed.

14. A mouse capable of adjusting pressing hand feeling is characterized in that the mouse comprises:

the bottom shell part is provided with a first lower fixing plate which is provided with a first lower positioning surface and a second lower positioning surface;

an upper housing, the upper housing having a first upper housing front end, an arc lower surface, an upper housing rear end and a first upper fixing plate, the first upper fixing plate having a first upper positioning surface and a second upper positioning surface, the upper housing rear end being connected to the bottom housing portion, the first upper fixing plate being disposed on the arc lower surface, the first upper housing front end being spaced apart from the bottom housing portion, the upper housing being elastically deformed such that the first upper housing front end is movable up and down relative to the bottom housing portion, the first upper positioning surface corresponding to the first lower positioning surface, the second upper positioning surface corresponding to the second lower positioning surface, the first upper positioning surface having a first distance from the first upper housing front end, the second upper positioning surface having a second distance from the first upper housing front end, the first distance being greater than the second distance; and

a first fulcrum member having a first upper end and a first lower end, wherein the first upper end is coupled to the first upper positioning surface by a first magnetic attraction and the first lower end is coupled to the first lower positioning surface by a second magnetic attraction or the first upper end is coupled to the second upper positioning surface by a first magnetic attraction and the first lower end is coupled to the second lower positioning surface by a second magnetic attraction; at least one of the first upper fixing plate, the first lower fixing plate and the first fulcrum piece is a magnet to generate the first magnetic attraction and the second magnetic attraction;

when the first fulcrum piece is combined between the first upper positioning surface and the first lower positioning surface and the front end of the first upper shell is pressed by external force to enable the upper shell to deform by taking the first fulcrum piece as a fulcrum, the upper shell resists the deformation and has first resistance;

when the first fulcrum piece is combined between the second upper positioning surface and the second lower positioning surface and the front end of the first upper shell is pressed by the same external force to enable the upper shell to deform by taking the first fulcrum piece as a fulcrum, the upper shell resists the deformation and has second resistance, and the second distance is smaller than the first distance, so that the first resistance is smaller than the second resistance.

15. The touch sensation adjustable mouse according to claim 14, wherein the bottom housing has a bottom housing long axis, the first bottom fixing plate has a first flat upper surface, the first bottom positioning surface and the second bottom positioning surface are both located on the first flat upper surface, and the first flat upper surface extends below the upper housing along the bottom housing long axis.

16. The hand feeling adjustable mouse of claim 14, wherein the upper housing has an upper housing long axis, the first upper fixing plate has a first flat lower surface, and the first upper positioning surface and the second upper positioning surface are both located on the first flat lower surface, and the first flat lower surface extends above the bottom housing along the upper housing long axis.

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