TWI756740B - Adjustable mouse structure - Google Patents

Abstract

Disclosed is an adjustable mouse structure, including a base module, a housing module and a deformation module. The base module is provided with an opening. The housing module can be detachably disposed on the base module, an accommodating space is defined between the housing module and the base module, and the housing module is provided with a plurality of movable openings arranged oppositely. The deformation module includes a driving unit, a transmission unit and a movable unit. The driving unit is located in the accommodating space, and a part of the body of the driving unit is located in the opening. The transmission unit is arranged in the accommodating space and connected to the driving unit. The movable unit is located on the housing module. The movable unit is provided with a plurality of support parts, each of which is penetrated through the corresponding movable port and connected to the transmission unit. When the driving unit is driven by an external force and rotates in a first direction, the transmission unit is driven by the driving unit to drive the movable unit to move toward a first orientation, so that the adjustable mouse structure is deformed from a first body to a second body. By means of the manner, the adjustable mouse structure can achieve the effect of adjusting the size of the body.

Description

Adjustable mouse structure

The present invention relates to a mouse structure, in particular to an adjustable mouse structure with adjustable body size.

With the development of technology, computers have become inseparable from our work and life. Therefore, input devices used to connect computer equipment play a very important role. A mouse, as an input device commonly used in computer equipment, can replace the complicated command language and provide users with fast and flexible manipulation of the computer.

However, since the size of each person's palm is different, the mouse of the same style and size can only satisfy the grip of a part of users, but cannot exactly meet the needs of each person, making the same family Or in the workplace, in order to satisfy the grip of each member when operating, it is necessary to prepare multiple mice of different specifications.

Therefore, how to overcome the above-mentioned defects by improving the structural design has become one of the important issues to be solved in the art.

The technical problem to be solved by the present invention is to provide an adjustable mouse structure in view of the deficiencies of the prior art.

In order to solve the above technical problems, one of the technical solutions adopted by the present invention is to provide an adjustable mouse structure, which includes a base module, a shell module and a deformation module. The base module has an opening. The casing module is detachably arranged on the base module, an accommodating space is defined between the casing module and the base module, and the casing module has a plurality of movable ports arranged oppositely. The deformation module includes a driving unit, a transmission unit and a movable unit. The driving unit is located in the accommodating space, and a part of the body of the driving unit is located in the opening. The transmission unit is arranged in the accommodating space and connected to the driving unit. The movable unit is located on the housing module, and the movable unit has a plurality of supporting parts, each of which is penetrated through the corresponding movable port and is connected to the transmission unit. Wherein, when the driving unit is driven by an external force and rotates in a first direction, the transmission unit is driven by the driving unit to drive the movable unit to displace in a first direction, so that the adjustable mouse structure is driven by a first direction. The shape body is deformed into a second shape body.

In order to solve the above technical problems, another technical solution adopted by the present invention is to provide an adjustable mouse structure, which includes a base module, a shell module and a deformation module. The casing module is detachably arranged on the base module, an accommodating space is defined between the casing module and the base module, and the casing module has a plurality of movable ports arranged oppositely. The deformation module includes a driving unit, a transmission unit and a movable unit. The drive unit is located in the accommodating space. The transmission unit is arranged in the accommodating space and connected to the driving unit. The movable unit is located on the housing module, and the movable unit has a plurality of supporting parts, each of which is penetrated through the corresponding movable port and is connected to the transmission unit. Wherein, when the drive unit drives the transmission unit to perform a first action, the transmission unit drives the movable unit to move toward a first orientation, thereby deforming the adjustable mouse structure from a first body to a second body model.

One of the beneficial effects of the present invention is that the adjustable mouse structure provided by the present invention can include a base module, a shell module and a deformation module through the "adjustable mouse structure. The base module has An opening. An accommodating space is defined between the casing module and the base module, and the casing module has a plurality of movable openings arranged oppositely. The deformation module includes a driving unit, a transmission unit and a movable unit The driving unit is located in the accommodating space, and a part of the main body of the driving unit is located in the opening. The transmission unit is arranged in the accommodating space and connected to the driving unit. The movable unit is located on the housing module, and the movable unit is located on the housing module. The unit has a plurality of supporting parts, each of which is penetrated through the corresponding movable port and connected to the transmission unit; wherein, when the driving unit is driven by an external force to rotate in a first direction, the transmission unit is driven by the Driven by the driving unit, the movable unit is driven to move toward a first direction, so that the adjustable mouse structure is deformed from a first shape to a second shape", so as to achieve the effect of adjusting the size of the body. .

Another beneficial effect of the present invention is that the adjustable mouse structure provided by the present invention can pass through the "adjustable mouse structure including a base module, a shell module and a deformation module. The shell mold An accommodating space is defined between the group and the base module, and the casing module has a plurality of movable ports arranged oppositely. The deformation module includes a driving unit, a transmission unit and a movable unit. The driving unit is located in the accommodating unit. The transmission unit is arranged in the accommodating space and is connected to the drive unit. The movable unit is located on the housing module, and the movable unit has a plurality of support parts, each of which is passed through the corresponding The movable port is connected to the transmission unit; wherein, when the drive unit drives the transmission unit to perform a first action, the transmission unit drives the movable unit to move toward a first orientation, so that the adjustable mouse structure is A first-shaped body is transformed into a second-shaped body" technical scheme, so as to achieve the effect of adjusting the size of the body.

For a further understanding of the features and technical content of the present invention, please refer to the following detailed descriptions and drawings of the present invention. However, the drawings provided are only for reference and description, and are not intended to limit the present invention.

The following are specific embodiments to illustrate the implementation of the "adjustable mouse structure" disclosed in the present invention, and those skilled in the art can understand the advantages and effects of the present invention from the content disclosed in this specification. The present invention can be implemented or applied through other different specific embodiments, and various details in this specification can also be modified and changed based on different viewpoints and applications without departing from the concept of the present invention. In addition, the drawings of the present invention are merely schematic illustrations, and are not drawn according to the actual size, and are stated in advance. The following embodiments will further describe the related technical contents of the present invention in detail, but the disclosed contents are not intended to limit the protection scope of the present invention.

It should be understood that, although the terms "first", "second", "third" and the like may be used herein to describe various elements, these elements should not be limited by these terms. These terms are primarily used to distinguish one element from another. In addition, the term "or", as used herein, should include any one or a combination of more of the associated listed items, as the case may be.

[First Embodiment]

Referring to FIG. 1 to FIG. 6 , which are respectively a first three-dimensional schematic diagram, a second three-dimensional schematic diagram, a top-view schematic diagram, an exploded schematic diagram, a first cross-sectional schematic diagram, and a second cross-sectional schematic diagram of the adjustable mouse structure of the first embodiment. As shown in the figure, the first embodiment of the present invention provides an adjustable mouse structure Z, which includes a base module 1 , a shell module 2 and a deformation module 3 . The base module 1 has an opening 100 . The casing module 2 is detachably disposed on the base module 1 , a accommodating space S is defined between the casing module 2 and the base module 1 , and the casing module 2 has a plurality of movable ports 210 arranged opposite to each other. The deformation module 3 includes a driving unit 30 , a transmission unit 31 and a movable unit 32 . The driving unit 30 is located in the accommodating space S, and a part of the body of the driving unit 30 is located in the opening 100 . The transmission unit 31 is disposed in the accommodating space S and connected to the driving unit 30 . The movable unit 32 is located on the housing module 2 , and the movable unit 32 has a plurality of supporting portions 320 , each supporting portion 320 penetrates through the corresponding movable port 210 and is connected to the transmission unit 31 . Wherein, when the driving unit 30 is driven by an external force and rotates in a first direction, the transmission unit 31 is driven by the driving unit 30 to drive the movable unit 32 to move in a first direction, so that the adjustable mouse structure Z is moved by a first direction. The shape body is deformed into a second shape body.

Specifically, the adjustable mouse structure Z provided by the present invention includes a base module 1 , a shell module 2 and a deformation module 3 , and the deformation module 3 includes a drive unit 30 , a transmission unit 31 and a movable unit 32 . The casing module 2 and the movable unit 32 can be the part that the user holds when operating the adjustable mouse structure Z; wherein, the movable unit 32 corresponds to the part of the user's palm. The inner wall of the housing module 2 and the base module 1 define an accommodating space S, the drive unit 30 and the transmission unit 31 are located in the accommodating space S, and the movable unit 32 is located on the outer wall of the housing module 2 . The side of the movable unit 32 facing the casing module 2 protrudes outward to form a plurality of supporting parts 320 , each supporting part 320 is connected to the transmission unit 31 through the movable opening 210 on the casing module 2 .

Therefore, when the user wants to adjust the size of the adjustable mouse structure Z, he can rotate the driving unit 30 exposed on the base module 1 (as shown in FIG. 3 ) so that the driving unit 30 faces the first direction (as shown in FIG. 3 ). such as clockwise or counterclockwise). Next, the driving unit 30 will drive the transmission unit 31 to displace toward the first orientation D1 (for example, toward the rear of the housing module 2 ); at this time, the transmission unit 31 will drive the plurality of supporting parts 320 to displace toward the first orientation. , thereby driving the movable unit 32 to move toward the first orientation. Finally, the adjustable mouse structure Z can be deformed from the first shape to the second shape. Wherein, the length of the first type body (as shown in Figure 1) is smaller than the length of the second type body (as shown in Figure 2).

On the contrary, when the drive unit 30 is driven by an external force to rotate in a second direction, the transmission unit 31 is driven by the drive unit 30 to drive the movable unit 32 to displace in a second direction, thereby causing the adjustable mouse structure Z to move from the second direction to the second direction. The shape is deformed into the first shape. That is, the user can also rotate the driving unit 30 to rotate the driving unit 30 in the second direction (eg, clockwise or counterclockwise). Next, the driving unit 30 drives the transmission unit 31 to indirectly drive the movable unit 32 to move toward the second orientation D2 (eg, toward the front of the housing module 2 , as shown in FIG. 9 ). Finally, the adjustable mouse structure Z can be changed from the second shape (as shown in Figure 2) back to the first shape (as shown in Figure 1).

Thereby, the adjustable mouse structure Z provided by the present invention adopts the above-mentioned technical solution, so that the movable unit 32 can move back and forth relative to the housing module 2 to adjust the stretching length of the adjustable mouse structure Z, The adjustable mouse structure Z is made to have different lengths and sizes, so as to be suitable for users with different palm sizes.

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

[Second Embodiment]

Please refer to FIG. 7 and FIG. 8 , which are a partial cross-sectional schematic diagram and a functional block diagram of the adjustable mouse structure according to the second embodiment of the present invention, respectively, and please refer to FIGS. 1 to 6 together. As shown in the figure, the adjustable mouse structure Z of this embodiment is substantially similar to the adjustable mouse structure Z of the above-mentioned first embodiment, which is not repeated here. The difference between this embodiment and the above-mentioned first embodiment is that, in this embodiment, the base module 1 may include a substrate unit 10 and a partition unit 11 , and the partition unit 11 is disposed on the substrate unit 10 and connects The accommodating space S is divided into a first space S1 and a second space S2, and the substrate unit 10 has an opening 100, and the opening 100 corresponds to the second space S2; wherein the housing module 2 can be detachably connected to the substrate unit 10 With the partition unit 11, a part of the housing module 2 corresponds to the first space S1, the other part of the housing module 2 corresponds to the second space S2, and the driving unit 30 and the transmission unit 31 are located in the second space S2. in space S2. Moreover, the adjustable mouse structure Z further includes a control module 4 and a sensing module 5 . The control module 4 is located in the first space S1 , and the control module 4 is connected to an external electronic device E for communication. The sensing module 5 is disposed on the substrate unit 10 and located in the first space S1 , and the sensing module 5 is electrically connected to the control module 4 .

For example, the base module 1 of the present invention includes a substrate unit 10 and a partition unit 11 . The partition unit 11 can be erected on the substrate unit 10, and divides the accommodating space S into a first space S1 and a second space S2. The first space S1 can be used to accommodate the control module 4 and the sensing module 5; wherein, the control module 4 can include a processor and a circuit board, and the control module 4 can be wired or wirelessly connected to the external electronic device E ( For example, a computer, but not limited thereto), the sensing module 5 can be a light source component with a sensing function, but not limited thereto. The second space S2 can be used to accommodate the driving unit 30 and the transmission unit 31 . Therefore, the accommodating space S is divided into two independent spaces by the partition unit 11 , which can prevent the external foreign matter from entering the inside of the adjustable mouse structure Z through the opening 100 , causing the control module 4 and the sensing module 5 to be separated from each other. malfunction or damage.

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

[Third Embodiment]

Please refer to FIG. 9 , which is an exploded schematic view of the adjustable mouse structure according to the third embodiment of the present invention, and please refer to FIGS. 1 to 8 together. As shown in the figure, the adjustable mouse structure Z of this embodiment is substantially similar to the adjustable mouse structure Z of the above-mentioned embodiments, and details are not described herein again. The difference between this embodiment and the above-mentioned embodiments is that, in this embodiment, the housing module 2 includes a first housing unit 20 and a second housing unit 21 , and the first housing unit 20 can be disassembled Connected to the base plate unit 10 and the spacer unit 11, a part of the first case unit 20 and the base plate unit 10 and a first surface 110 of the spacer unit 11 define a first space S1, and the second case unit 21 Removably connected to the base plate unit 10 and the partition unit 11, the second housing unit 21 has a plurality of movable ports 210, a first surface 211, and a second surface 212 opposite to the first surface 211. The second housing The first surface 211 of the unit 21 , another part of the substrate unit 10 and a second surface 111 of the partition unit 11 define a second space S2 ; wherein the movable unit 32 is located on the second surface of the second housing unit 21 212 on. In addition, the transmission unit 31 includes a driving member 310 and a driven member 311. The driving member 310 is penetrated through the driving unit 30 and the driven member 311, and is engaged with the driving unit 30 and the driven member 311, and the driven member 311 can Removably connected to the plurality of support parts 320 . Wherein, when the driving unit 30 rotates in the first direction, the driving element 310 is driven by the driving unit 30 to drive the driven element 311 to move toward the first orientation, and the driven element 311 drives the movable unit 32 toward the first orientation. make a displacement. Wherein, when the driving unit 30 rotates in the second direction, the driving element 310 is driven by the driving unit 30 to drive the driven element 311 to move toward the second orientation, and the movable element 32 is driven toward the second orientation by the driven element 311 make a displacement.

For example, the housing module 2 of the present invention includes a first housing unit 20 and a second housing unit 21 ; wherein, in this embodiment, the first housing unit 20 and the second housing unit 21 are They are independent components, but not limited thereto. In actual implementation, the first housing unit 20 and the second housing unit 21 may also be an integrated structure. The first housing unit 20 can form a first space S1 with the front half of the base unit 10 and the partition unit 11 , and the first housing unit 20 can also be provided with a button element and a scroll wheel element (component symbols are not marked in the figure), And the first housing unit 20 may correspond to the user's finger part. The second housing unit 21 can form a second space S2 with the front half of the base unit 10 and the partition unit 11 , the movable unit 32 can be movably covered on the second housing unit 21 , and the movable unit 32 and the second housing The unit 21 may correspond to the palm portion of the user.

The transmission unit 31 of the present invention includes a driving member 310 and a driven member 311 , the driving member 310 can be a screw, and the driven member 311 can be a slider, but not limited thereto. The first surface 211 of the second housing unit 21 can extend outward to form a first limiting portion 213 and a second limiting portion 214 . The other end of the member 310 can be movably connected to the second limiting portion 214 , and the driving member 310 passes through the driving unit 30 and the driven member 311 ; the driving unit 30 may be a gear, but not limited thereto. The plurality of support parts 320 of the movable unit 32 are connected to the follower 311 .

Therefore, when the driving unit 30 rotates in the first direction (for example, the clockwise direction), the driving unit 30 will drive the driving member 310 to rotate together, and drive the driven member 311 to displace, thereby driving the movable unit through the driven member 311 32 is displaced toward the first orientation D1, so that the adjustable mouse structure Z can be deformed from the first body (as shown in FIG. 1 ) to the second body (as shown in FIG. 2 ). When the driving unit 30 rotates in the second direction (for example, the counterclockwise direction), the driving unit 30 also drives the driving member 310 to rotate together, so that the driven member 311 drives the movable unit 32 to move toward the second direction D2. Then, the adjustable mouse structure Z can be deformed from the second body (as shown in FIG. 2 ) to the first body (as shown in FIG. 1 ).

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

[Fourth Embodiment]

Please refer to FIG. 10 and FIG. 11 , which are a partial cross-sectional schematic diagram and a functional block diagram of the adjustable mouse structure according to the fourth embodiment of the present invention, respectively, and please refer to FIGS. 1 to 9 together. As shown in the figure, the fourth embodiment of the present invention provides an adjustable mouse structure Z, which includes a base module 1 , a shell module 2 and a deformation module 3 . The casing module 2 is detachably disposed on the base module 1 , a accommodating space S is defined between the casing module 2 and the base module 1 , and the casing module 2 has a plurality of movable ports 210 arranged opposite to each other. The deformation module 3 includes a driving unit 30 , a transmission unit 31 and a movable unit 32 . The driving unit 30 is located in the accommodating space S. The transmission unit 31 is disposed in the accommodating space S and connected to the driving unit 30 . The movable unit 32 is located on the housing module 2 , and the movable unit 32 has a plurality of supporting portions 320 , each supporting portion 320 penetrates through the corresponding movable port 210 and is connected to the transmission unit 31 . Wherein, when the drive unit 30 drives the transmission unit 31 to perform a first action, the transmission unit 31 drives the movable unit 32 to move toward a first orientation, thereby deforming the adjustable mouse structure Z from a first body to a second body model.

Specifically, the adjustable mouse structure Z of this embodiment is substantially similar to the adjustable mouse structures of the above-mentioned embodiments, and will not be repeated here. The difference between this embodiment and the above-mentioned embodiments is that, in this embodiment, the driving unit 30 may be a motor element (eg, an electric motor, but not limited thereto). Therefore, when the drive unit 30 operates and rotates (for example, when it rotates forwardly, but not limited thereto), the drive unit 30 can drive the transmission unit 31 to move toward the first orientation (for example, toward the rear of the housing module 2 ); At this time, the transmission unit 31 will drive the plurality of supporting parts 320 to displace toward the first orientation, and then drive the movable unit 32 to displace toward the first orientation. Then, the adjustable mouse structure Z can be deformed from the first shape to the second shape. Wherein, the length of the first type body (as shown in Figure 1) is smaller than the length of the second type body (as shown in Figure 2).

On the contrary, when the drive unit 30 drives the transmission unit 31 to perform a second action, the transmission unit 31 drives the movable unit 32 to move toward a second direction, thereby deforming the adjustable mouse structure Z from the second shape to the first shape body. That is to say, when the drive unit 30 operates and rotates (for example, when reversed, but not limited to), the drive unit 30 can drive the transmission unit 31 to move toward the second direction (for example, toward the front of the housing module 2 ). Displacement; at this time, the transmission unit 31 will drive the plurality of supporting parts 320 to displace toward the second orientation, and then drive the movable unit 32 to displace toward the second orientation. Then, the adjustable mouse structure Z can be changed from the second shape (as shown in FIG. 2 ) back to the first shape (as shown in FIG. 1 ).

Further, the adjustable mouse structure Z of the present invention may further include a switching module 6 which is electrically connected to the driving unit 30 . When the switching module 6 is in a first mode, the switching module 6 drives the driving unit 30 The transmission unit 31 is driven to perform the first operation, and when the switching module 6 is in a second mode, the switching module 6 drives the driving unit 30 to drive the transmission unit 31 to perform the second operation.

For example, as shown in FIG. 11 , the adjustable mouse structure Z of the present invention may further include a switching module 6 , which can be a multi-stage switching switch, that is, has a control driving unit 30 for forward rotation and reverse rotation and functions such as stopping rotation, but not limited to this. The switching module 6 can be embedded in the base module 1 or other positions accessible to the user. The switching module 6 is electrically connected to the driving unit 30 , and can also be electrically connected to the aforementioned control module 4 . Therefore, when the user touches and presses the switching module 6 and the switching module 6 is in the first mode (ie, controls the driving unit 30 to rotate forward, but not limited to this), the driving unit 30 will be affected by the switching module 6 . It operates and rotates under the control of the controller, and drives the transmission unit 31 to move toward the first direction (eg, toward the rear of the housing module 2 ), so that the adjustable mouse structure Z is deformed from the first shape to the second shape.

When the user touches the switching module 6 to make the switching module 6 in the second mode (ie, controls the driving unit 30 to reverse, but not limited to), the driving unit 30 will be affected by the switching module 6 . Control to operate, rotate, and drive the transmission unit 31 to move toward the second direction (eg, toward the rear of the housing module 2 ), so that the adjustable mouse structure Z is deformed from the second body to the first body.

In addition, the switching module 6 may also include a third mode, that is, a mode in which the drive unit 30 is controlled to stop rotating.

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

It should be noted that, in the above embodiments, the first direction and the second direction are opposite to each other, and the first orientation and the second orientation are opposite to each other. Moreover, the deformable type of the adjustable mouse structure Z of the present invention is not limited to the above two types (the first type body and the second type body), and the present invention can rotate the driving unit 30 in different directions by rotating the driving unit 30 in different directions. And rotating different number of turns, so that the movable unit 32 is displaced to different positions, so that the adjustable mouse structure Z can be changed into shapes of different sizes.

[Advantageous effects of the embodiment]

One of the beneficial effects of the present invention is that the adjustable mouse structure Z provided by the present invention can pass through "the adjustable mouse structure includes a base module 1 , a shell module 2 and a deformation module 3 . The base module 1 has an opening 100. An accommodating space S is defined between the housing module 2 and the base module 1, and the housing module 2 has a plurality of movable ports 210 arranged oppositely. The deformation module includes a driving unit 30. A transmission unit 31 and a movable unit 32. The driving unit 30 is located in the accommodating space S, and a part of the body of the driving unit 30 is located in the opening 100. The transmission unit 31 is arranged in the accommodating space S and is connected to the driving unit 30 The movable unit 32 is located on the housing module 2, and the movable unit 32 has a plurality of supporting parts 320, each supporting part 320 passes through the corresponding movable port 210 and is connected to the transmission unit 31. Among them, the driving unit 30 receives When the external force is driven to rotate in a first direction, the transmission unit 31 is driven by the driving unit 30 to drive the movable unit 32 to move in a first direction, so that the adjustable mouse structure Z is deformed from a first body to a second body. Body shape" technical solution to achieve the effect of adjustable body size.

Another beneficial effect of the present invention is that the adjustable mouse structure provided by the present invention can pass through the "adjustable mouse structure including a base module 1, a shell module 2 and a deformation module 3. The shell An accommodating space S is defined between the body module 2 and the base module 1, and the casing module 2 has a plurality of movable ports 210 arranged oppositely. The deformation module includes a driving unit 30, a transmission unit 31 and a movable unit 32. The driving unit 30 is located in the accommodating space S. The transmission unit 31 is arranged in the accommodating space S and is connected to the driving unit 30. The movable unit 32 is located on the housing module 2, and the movable unit 32 has a plurality of supporting parts 320 , each supporting portion 320 is passed through the corresponding movable port 210 and connected to the transmission unit 31; wherein, when the driving unit 30 drives the transmission unit 31 to perform a first action, the transmission unit 31 drives the movable unit 32 to a first orientation Displacement, and then the adjustable mouse structure Z is deformed from a first body to a second body" technical scheme, so as to achieve the effect of adjusting the size of the body.

Furthermore, the adjustable mouse structure Z provided by the present invention utilizes the above-mentioned technical solutions, and utilizes the coordination of the multi-layer housing (ie the movable unit 32 and the housing module 2), gears, screws and sliders. , so that the movable unit 32 can move back and forth relative to the housing module 2, and stretch or shorten the length of the adjustable mouse structure Z, thereby achieving the effect of adjusting the length of the adjustable mouse structure Z, allowing the adjustable sliding The mouse structure Z can have different lengths and sizes, and can be adapted to users with different palm sizes.

The contents disclosed above are only preferred feasible embodiments of the present invention, and are not intended to limit the scope of the present invention. Therefore, any equivalent technical changes made by using the contents of the description and drawings of the present invention are included in the application of the present invention. within the scope of the patent.

Z: Adjustable mouse structure 1: base module 10: Substrate unit 100: Opening 11: Baffle unit 110: First surface 111: Second surface 2: Shell module 20: The first housing unit 21: Second housing unit 210: Active mouth 211: First Surface 212: Second Surface 213: The first limit part 214: The second limit part 3: Deformation module 30: Drive unit 31: Transmission unit 310: Active Parts 311: Follower 32: Activity Unit 320: Support Department 4: Control module 5: Sensing module 6: Switch modules D1: first position D2: The second position E: External Electronics S: accommodation space S1: First space S2: Second space

FIG. 1 is a first three-dimensional schematic diagram of an adjustable mouse structure according to a first embodiment of the present invention.

FIG. 2 is a second schematic perspective view of the adjustable mouse structure according to the first embodiment of the present invention.

FIG. 3 is a schematic top view of the adjustable mouse structure according to the first embodiment of the present invention.

FIG. 4 is an exploded schematic diagram of the adjustable mouse structure according to the first embodiment of the present invention.

5 is a first schematic cross-sectional view of a partial cross-section of the adjustable mouse structure according to the first embodiment of the present invention.

6 is a second schematic cross-sectional view of a partial cross-section of the adjustable mouse structure according to the first embodiment of the present invention.

7 is a partial cross-sectional schematic diagram of an adjustable mouse structure according to a second embodiment of the present invention.

FIG. 8 is a functional block diagram of an adjustable mouse structure according to a second embodiment of the present invention.

FIG. 9 is an exploded schematic diagram of an adjustable mouse structure according to a third embodiment of the present invention.

10 is a partial cross-sectional schematic diagram of an adjustable mouse structure according to a fourth embodiment of the present invention.

FIG. 11 is a functional block diagram of an adjustable mouse structure according to a fourth embodiment of the present invention.

Z: Adjustable mouse structure 1: base module 2: Shell module 210: Active mouth 30: Drive unit 31: Transmission unit 32: Activity Unit 320: Support Department S: accommodating space

Claims (9)

An adjustable mouse structure, which includes: a base module, which has an opening; a shell module, which can be detachably arranged on the base module, the shell module and the base module are defined between an accommodating space, the casing module has a plurality of movable openings; and a deformation module including: a driving unit located in the accommodating space, a part of the body of the driving unit is located in the opening; a transmission a unit, which is arranged in the accommodating space and is connected to the driving unit; and a movable unit, which is located on the casing module, the movable unit has a plurality of support parts, and each of the support parts passes through the The corresponding movable port is connected to the transmission unit; wherein, when the driving unit is driven by an external force to rotate in a first direction, the transmission unit is driven by the driving unit to drive the movable unit to displace in a first direction, Then, the adjustable mouse structure is deformed from a first body to a second body; wherein, the base module includes a base plate unit and a partition unit, the baffle unit is arranged on the base plate unit and the The accommodating space is divided into a first space and a second space, the substrate unit has the opening, and the opening corresponds to the second space; wherein the housing module is detachably connected to the substrate unit and the A partition unit, a part of the casing module corresponds to the first space, another part of the casing module corresponds to the second space, and the driving unit and the transmission unit are located in the second space middle. The adjustable mouse structure according to claim 1, wherein when the driving unit is driven by an external force to rotate in a second direction, the transmission unit is driven by the driving unit The driving of the movable unit drives the movable unit to move toward a second direction, so that the adjustable mouse structure is deformed from the second body to the first body. The adjustable mouse structure of claim 2, wherein the first direction and the second direction are opposite to each other, and the first orientation and the second orientation are opposite to each other. The adjustable mouse structure according to claim 2, wherein the housing module comprises a first housing unit and a second housing unit, and the first housing unit is detachably connected to the base unit and the base unit. The partition unit, the first housing unit and a part of the base unit and a first surface of the partition unit define the first space, and the second housing unit is detachably connected to the base unit With the partition unit, the second housing unit has a plurality of the movable ports, a first surface and a second surface opposite to the first surface, the first surface of the second housing unit and the base plate Another part of the unit and a second surface of the partition unit define the second space; wherein the movable unit is located on the second surface of the second housing unit. The adjustable mouse structure as claimed in claim 4, wherein the transmission unit includes a driving member and a driven member, the driving member passes through the driving unit and the driven member, and communicates with the driving unit and the driven member. The follower is meshed, and the follower is detachably connected to a plurality of the support parts; wherein, the driving unit is a gear, the driving part is a screw, and the follower is a slider. The adjustable mouse structure according to claim 5, wherein when the driving unit rotates in the first direction, the driving member is driven by the driving unit to drive the driven member to displace in the first direction, and drive the movable unit to displace toward the first direction by the driven element; wherein, when the driving unit rotates toward the second direction, the driving element is driven by the drive unit to drive the driven element toward the second direction The second orientation is displaced, and the movable unit is driven by the follower to move toward the second orientation. The adjustable mouse structure according to claim 2, further comprising: a control module located in the first space, the control module being communicatively connected to an external electronic device; and a sensing module provided with On the substrate unit and in the first space, the sensing module is electrically connected to the control module. An adjustable mouse structure, comprising: a base module; a shell module, which can be detachably arranged on the base module, and an accommodating space is defined between the shell module and the base module, The casing module has a plurality of movable ports; and a deformation module includes: a drive unit located in the accommodating space; a transmission unit disposed in the accommodating space and connected to the drive unit unit; and a movable unit, which is located on the housing module, the movable unit has a plurality of supporting parts, each of the supporting parts is penetrated through the corresponding movable port and is connected to the transmission unit; wherein, in the When the drive unit drives the transmission unit to perform a first action, the transmission unit drives the movable unit to move toward a first orientation, so that the adjustable mouse structure is deformed from a first body to a second body; wherein , the base module includes a substrate unit and a partition unit, the partition unit is arranged on the substrate unit and the accommodating space is divided into a first space and a second space; wherein, the shell module Removably connected to the base plate unit and the partition unit, a part of the casing module corresponds to the first space, the other part of the casing module corresponds to the second space, and the drive The unit and the transmission unit are located in the second space. The adjustable mouse structure according to claim 8, wherein the drive unit drives When the transmission unit performs a second action, the transmission unit drives the movable unit to move toward a second direction, so that the adjustable mouse structure is deformed from the second body to the first body; wherein, the The driving unit is a motor element, and the adjustable mouse structure further includes a switching module, which is electrically connected to the driving unit. When the switching module is in a first mode, the switching module drives the driving unit to drive The transmission unit performs the first operation, and when the switch module is in a second mode, the switch module drives the drive unit to drive the transmission unit to perform the second operation.

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