CN218525084U - Mouse device - Google Patents

Abstract

The utility model provides a mouse device, which comprises a mouse main body and a mouse foot pad, wherein the mouse main body is provided with a device base, the device base is provided with a bottom surface, and the bottom surface is extended along a transverse shaft of the mouse main body to form a foot pad accommodating groove; the mouse foot pad is detachably accommodated in the foot pad accommodating groove, and the projection length of the mouse foot pad on the transverse axis is between one half and three quarters of the width of the mouse main body relative to the transverse axis. The utility model discloses a mouse device through the design with mouse callus on the sole detachably holding in the callus on the sole storage tank, can greatly promote the functional and the convenient to use nature of mouse callus on the sole.

Description

Mouse device

Technical Field

The utility model discloses a mouse device especially relates to a mouse device with callus on sole storage tank is with detachably holding mouse callus on sole.

Background

Due to the progress of the times, people have increasingly become dependent on computer equipment such as desktop computers, notebook computers and tablet computers, and mice are used for operating the computer equipment and become indispensable computer accessories in daily life.

A conventional mouse pad is designed to be fixed to a base of a mouse body by a pad made of a material with a low friction coefficient (e.g., TEFLON), so as to reduce the friction between the mouse and a contact surface, and allow a user to smoothly slide the mouse. However, the above-mentioned foot pad fixing design can not provide the foot pad detaching and replacing function, but also can only produce the slip-assisting effect, and can not provide the anti-slip effect, thereby greatly limiting the functionality and the use convenience of the mouse foot pad.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mouse device with callus on the sole storage tank with detachably holding mouse callus on the sole, in order to solve above-mentioned problem.

In order to achieve the above object, the present invention provides a mouse device, which comprises a mouse main body and a mouse pad. The mouse body is provided with a device base which is provided with a bottom surface, and a foot pad accommodating groove is formed in the bottom surface along the transverse axis of the mouse body in an extending mode. The mouse foot pad is detachably accommodated in the foot pad accommodating groove, and the projection length of the mouse foot pad on the transverse shaft is between one half and three quarters of the width of the mouse main body relative to the transverse shaft.

As an optional technical solution, the mouse foot pad comprises an anti-slip layer and a low friction layer, wherein the anti-slip layer is laminated on the low friction layer; when the mouse foot pad is turned to the anti-skidding position and is accommodated in the foot pad accommodating groove, the mouse foot pad is exposed out of the anti-skidding layer relative to the bottom surface; when the mouse foot pad is turned over to the sliding-assistant position and is accommodated in the foot pad accommodating groove, the mouse foot pad is exposed out of the low friction layer relative to the bottom surface.

As an optional technical solution, a first magnetic attraction layer is formed in the foot pad accommodating groove, the mouse foot pad includes a second magnetic attraction layer, the second magnetic attraction layer is sandwiched between the anti-slip layer and the low friction layer, and the first magnetic attraction layer and the second magnetic attraction layer are magnetically attracted with each other to detachably accommodate the mouse foot pad in the foot pad accommodating groove.

As an optional technical solution, the first magnetic attraction layer is composed of one of a magnetic conductive material and a magnet, and the second magnetic attraction layer is composed of the other of the magnetic conductive material and the magnet.

As an optional technical solution, a first fastening structure is formed at least one fixed end of the mouse foot pad, a second fastening structure is formed in the foot pad accommodating groove at a position corresponding to the at least one fixed end, and the first fastening structure and the second fastening structure are fastened to each other so that the mouse foot pad is detachably accommodated in the foot pad accommodating groove.

As an optional technical solution, the first fastening structure is one of a convex point structure and a concave structure, and the second fastening structure is the other of the convex point structure and the concave structure.

The utility model provides a mouse device, which comprises a mouse main body and a mouse foot pad, wherein the mouse main body is provided with a device base, the device base is provided with a bottom surface, the bottom surface is formed with a foot pad accommodating groove along the extension of a transverse shaft of the mouse main body, and a first magnetic absorption layer is formed in the foot pad accommodating groove; the mouse foot pad comprises an anti-skid layer, a second magnetic attraction layer and a low friction layer, wherein the second magnetic attraction layer is clamped between the anti-skid layer and the low friction layer, and the second magnetic attraction layer and the first magnetic attraction layer are mutually magnetically attracted to enable the mouse foot pad to be detachably accommodated in the foot pad accommodating groove; when the mouse foot pad is turned to the anti-skidding position and is contained in the foot pad containing groove, the mouse foot pad is exposed out of the anti-skidding layer relative to the bottom surface. When the mouse foot pad is turned over to the sliding-assistant position and is accommodated in the foot pad accommodating groove, the mouse foot pad is exposed out of the low friction layer relative to the bottom surface.

As an optional technical solution, the first magnetic attraction layer is composed of one of a magnetic conductive material and a magnet, and the second magnetic attraction layer is composed of the other of the magnetic conductive material and the magnet.

The utility model provides a mouse device, which comprises a mouse main body and a mouse foot pad, wherein the mouse main body is provided with a device base, the device base is provided with a bottom surface, and the bottom surface is extended along a transverse shaft of the mouse main body to form a foot pad accommodating groove; a first buckle structure is formed at least one fixed end of the mouse foot pad, a second buckle structure is formed in the position, corresponding to the at least one fixed end, of the foot pad accommodating groove, and the first buckle structure and the second buckle structure are mutually buckled to enable the mouse foot pad to be detachably accommodated in the foot pad accommodating groove.

As an optional technical solution, the first snap structure is one of a convex point structure and a concave structure, and the second snap structure is the other of the convex point structure and the concave structure.

As an alternative solution, the mouse foot pad is convexly curved forward relative to the lateral axis.

The utility model provides a mouse device through the design with mouse callus on the sole detachably holding in the callus on the sole storage tank, can solve the callus on the sole fixed design that mentions among the prior art effectively and can't provide the callus on the sole and dismantle the problem of changing the function to greatly promote the functional and the convenience in use of mouse callus on the sole.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a side view of a mouse device according to an embodiment of the present invention;

FIG. 2 is a partially exploded view of the mouse apparatus of FIG. 1;

FIG. 3 is a bottom view of the mouse apparatus of FIG. 1;

FIG. 4 isbase:Sub>A cross-sectional view of the mouse apparatus of FIG. 3 along section line A-A';

FIG. 5 is a simplified diagram of the internal components of the mouse pad of FIG. 2;

fig. 6 is a schematic diagram of a partial explosion of a mouse device according to another embodiment of the present invention;

fig. 7 is a simplified diagram illustrating the internal components of the mouse pad of fig. 6.

Detailed Description

In order to explain the present invention more clearly, the present invention will be further described with reference to the preferred embodiments and the accompanying drawings. Similar parts in the figures are denoted by the same reference numerals. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and is not to be taken as limiting the scope of the invention.

Referring to fig. 1, fig. 2 and fig. 3, fig. 1 is a side view of a mouse device 10 according to an embodiment of the present invention, fig. 2 is a schematic partially exploded view of the mouse device 10 in fig. 1, and fig. 3 is a bottom view of the mouse device 10 in fig. 1. As shown in fig. 1, 2 and 3, the mouse device 10 includes a mouse body 12 and a mouse pad 14, the mouse body 12 may include conventional mouse components (such as a wheel, a mouse button, a mouse housing, a mouse control circuit board, etc., related descriptions of which are common in the prior art and are not described herein), the mouse body 12 has a device base 16 for carrying the components, the device base 16 has a bottom surface 17, the bottom surface 17 extends along a transverse axis T of the mouse body 12 to form a pad accommodating groove 18, and the mouse pad 14 is detachably accommodated in the pad accommodating groove 18. As shown in fig. 2 and 3, a projection length L of the mouse pad 14 on the transverse axis T may be preferably between one half and three quarters (but not limited to) of a width W of the mouse body 12 relative to the transverse axis T, so as to increase an area occupied by the mouse pad 14 on the bottom surface 17 to further improve functionality of the mouse pad 14, and the mouse pad 14 is preferably convexly curved forward relative to the transverse axis T (but not limited to this range).

The detachable design of the mouse foot pad 14 will be described in detail below, referring to fig. 2 and 4, and fig. 4 isbase:Sub>A schematic cross-sectional view of the mouse device 10 alongbase:Sub>A sectional linebase:Sub>A-base:Sub>A' in fig. 3. As can be seen from fig. 2 and 4, at least one fixing end 15 of the mouse pad 14 is formed with a first fastening structure 20 (two fixing ends 15 are shown in fig. 4, but not limited thereto), and a second fastening structure 22 is formed in the pad accommodating groove 18 corresponding to the fixing end 15, wherein the first fastening structure 20 is preferably a concave structure, and the second fastening structure 22 is correspondingly a convex structure. In this way, by the design that the first fastening structure 20 and the second fastening structure 22 are fastened to each other in a concave-convex manner, the mouse mat 14 is detachably received in the mat receiving groove 18 (as shown in fig. 4), so that the subsequent mat replacement or turning can be performed. It should be noted that the design of the fastening structure adopted by the mouse device 10 is not limited to the embodiment shown in fig. 4, and other common fastening designs may also be adopted, for example, the first fastening structure 20 may be a convex point structure and the second fastening structure 22 may be an inward concave structure, or the first fastening structure 20 and the second fastening structure 22 may be hook structures capable of mutually hooking and fastening each other, in other words, as long as the design of the fastening structure can fasten the fixing end portion 15 of the mouse pad 14 in the pad accommodating groove 18.

In practical applications, in order to make the mouse pad 14 have the anti-slip and anti-sliding functions, the utility model discloses a double-layer pad design can be further adopted, for example, please refer to fig. 5, fig. 5 is a simplified diagram of the internal components of the mouse pad 14 in fig. 2, as shown in fig. 5, the mouse pad 14 can include an anti-slip layer 24 and a low friction layer 26, the anti-slip layer 24 can be composed of anti-slip materials (such as PVC, rubber, etc.) and overlapped on the low friction layer 26 (composed of low friction materials, such as TEFLON, etc.), thereby, when the mouse pad 14 is correspondingly turned over to the anti-slip position and accommodated in the pad accommodating groove 18, the mouse pad 14 can expose the anti-slip layer 24 relative to the bottom surface 17 to increase the bottom surface friction of the mouse device 10, thereby reducing the risk of accidental dropping of the mouse device 10 when being accommodated and carried, on the other hand, when the mouse pad 14 is correspondingly turned over to the anti-slip position and accommodated in the pad accommodating groove 18, the mouse pad 14 can expose the low friction layer 26 relative to the bottom surface 17 to reduce the friction force of the mouse device 10, so that the mouse pad can be operated more smoothly, and the mouse pad 14 can be conveniently used.

It should be noted that the detachable design of the foot pad of the present invention is not limited to the above-mentioned embodiments, but it can also adopt a magnetic attraction design, for example, please refer to fig. 6 and 7, fig. 6 is a schematic diagram of a part of an explosion of a mouse device 100 according to another embodiment of the present invention, fig. 7 is a simplified diagram of an internal component of the mouse foot pad 102 in fig. 6, if the components in this embodiment have the same numbers as those in the above-mentioned embodiments, it represents that the components have the same structure or function, and the related descriptions thereof are not repeated herein. As can be seen from fig. 6 and 7, the mouse device 100 includes a mouse body 12 and a mouse foot pad 102, in this embodiment, a first magnetically-attracting layer 104 (shown by a dotted line in fig. 6) is formed in the foot pad receiving slot 18, the mouse foot pad 102 includes an anti-slip layer 24, a low-friction layer 26 and a second magnetically-attracting layer 106, the second magnetically-attracting layer 106 is sandwiched between the anti-slip layer 24 and the low-friction layer 26, wherein the first magnetically-attracting layer 104 may be made of one of a magnetically-conductive material and a magnet, and the second magnetically-attracting layer 106 may be correspondingly made of the other of a magnetically-conductive material and a magnet. In this way, the first magnetic absorption layer 104 and the second magnetic absorption layer 106 can magnetically attract each other to detachably accommodate the mouse foot pad 102 in the foot pad accommodating groove 18, so as to facilitate subsequent foot pad replacement or turnover.

In addition, above-mentioned callus on the sole length design, callus on the sole detachable design (for example the design is inhaled to the magnetism shown in buckle structure design or fig. 6 that fig. 2 shows) and callus on the sole antiskid helps smooth design can alternately make up the design of configuration wantonly or can single configuration, by promoting the utility model discloses a mouse device is at the structural design elasticity of callus on the sole. For example, in an embodiment that the length design of the foot pad is omitted, the mouse device provided by the present invention can only be configured with the magnetic attraction design and the anti-slip design, so that the mouse device has the detachable and replaceable foot pad and anti-slip functions; in the embodiment of omitting callus on the sole length design and callus on the sole antiskid and help smooth design, the utility model provides a mouse device can only dispose above-mentioned callus on the sole buckle structural design to make mouse device have the removable function that trades of callus on the sole. For the related description of other derived variant embodiments (for example, the mouse device can be configured with the above-mentioned foot pad length design and foot pad detachable design), it can refer to the above embodiments by analogy, and the description thereof is omitted here.

To sum up, the utility model provides a mouse device through the design with mouse callus on the sole detachably holding in the callus on the sole storage tank, can solve the callus on the sole fixed design that mentions among the prior art effectively and can't provide the callus on the sole and dismantle the problem of changing the function to greatly promote the functional and the convenient to use nature of mouse callus on the sole.

Obviously, the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it is obvious for those skilled in the art to make other variations or changes based on the above descriptions, and all the embodiments cannot be exhausted here, and all the obvious variations or changes that belong to the technical solutions of the present invention are still in the protection scope of the present invention.

Claims (11)

1. A mouse device, comprising:

the mouse comprises a mouse body, a base and a foot pad accommodating groove, wherein the mouse body is provided with a device base which is provided with a bottom surface, and the bottom surface extends along the transverse axis of the mouse body to form the foot pad accommodating groove; and

the mouse foot pad is detachably accommodated in the foot pad accommodating groove, and the projection length of the mouse foot pad on the transverse shaft is between one half and three quarters of the width of the mouse main body relative to the transverse shaft.

2. The mouse device of claim 1, wherein the mouse pad comprises an anti-slip layer and a low friction layer, the anti-slip layer being laminated to the low friction layer; when the mouse foot pad is turned to the anti-skidding position and is accommodated in the foot pad accommodating groove, the mouse foot pad is exposed out of the anti-skidding layer relative to the bottom surface; when the mouse foot pad is turned over to the sliding-assistant position and is accommodated in the foot pad accommodating groove, the mouse foot pad is exposed out of the low friction layer relative to the bottom surface.

3. The mouse device as claimed in claim 2, wherein a first magnetic absorption layer is formed in the pad receiving groove, the mouse pad includes a second magnetic absorption layer sandwiched between the anti-slip layer and the low friction layer, and the first magnetic absorption layer and the second magnetic absorption layer are magnetically absorbed to each other so that the mouse pad is detachably received in the pad receiving groove.

4. The mouse device as recited in claim 3 wherein the first magnetically attractive layer is comprised of one of a magnetically permeable material and a magnet and the second magnetically attractive layer is comprised of the other of a magnetically permeable material and a magnet.

5. The mouse device as claimed in claim 1, wherein a first fastening structure is formed at least one of the fixing end portions of the mouse pad, a second fastening structure is formed in the pad receiving groove at a position corresponding to the at least one of the fixing end portions, and the first fastening structure and the second fastening structure are fastened to each other so that the mouse pad is detachably received in the pad receiving groove.

6. The mouse device as claimed in claim 5, wherein the first latch structure is one of a bump structure and a recess structure, and the second latch structure is the other of the bump structure and the recess structure.

7. A mouse device, comprising:

the mouse comprises a mouse body, a first magnetic absorption layer and a second magnetic absorption layer, wherein the mouse body is provided with a device base, the device base is provided with a bottom surface, a foot pad accommodating groove is formed in the bottom surface in an extending mode along a transverse axis of the mouse body, and the first magnetic absorption layer is formed in the foot pad accommodating groove; and

the mouse foot pad comprises an anti-slip layer, a second magnetic absorption layer and a low friction layer, wherein the second magnetic absorption layer is clamped between the anti-slip layer and the low friction layer, and the second magnetic absorption layer and the first magnetic absorption layer are mutually magnetically absorbed to enable the mouse foot pad to be detachably accommodated in the foot pad accommodating groove;

when the mouse foot pad is turned to the anti-skidding position and is accommodated in the foot pad accommodating groove, the mouse foot pad is exposed out of the anti-skidding layer relative to the bottom surface;

when the mouse foot pad is turned over to the sliding-assistant position and is accommodated in the foot pad accommodating groove, the mouse foot pad is exposed out of the low friction layer relative to the bottom surface.

8. The mouse device as claimed in claim 7, wherein the first magnetically attractive layer is formed of one of a magnetically permeable material and a magnet, and the second magnetically attractive layer is formed of the other of a magnetically permeable material and a magnet.

9. A mouse device, comprising:

the mouse comprises a mouse body, a base and a foot pad accommodating groove, wherein the mouse body is provided with a device base which is provided with a bottom surface, and the bottom surface extends along the transverse axis of the mouse body to form the foot pad accommodating groove; and

the mouse foot pad comprises a mouse foot pad, wherein a first buckle structure is formed at least one fixed end part of the mouse foot pad, a second buckle structure is formed in the position, corresponding to the at least one fixed end part, of the foot pad accommodating groove, and the first buckle structure and the second buckle structure are mutually buckled to enable the mouse foot pad to be detachably accommodated in the foot pad accommodating groove.

10. The mouse device of claim 9, wherein the first latch structure is one of a bump structure and a recess structure, and the second latch structure is the other of the bump structure and the recess structure.

11. The mouse device of claim 1, 7 or 9, wherein the mouse foot pad is convexly curved forward relative to the lateral axis.

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