CN213518216U - Anti-slip mouse pad - Google Patents

Abstract

The utility model discloses a slip-resistant mouse pad, which comprises a supporting layer, a hydrophilic layer, a slip-resistant layer and a hot-melting edge film; the supporting layer is positioned between the anti-slip layer and the hydrophilic layer, and is formed by hot pressing; the hydrophilic layer is used for placing the mouse to move and is made of hydrophilic materials; the anti-slip layer is used for preventing the mouse pad from sliding, the anti-slip layer and the supporting layer are integrally formed, a plurality of anti-slip units are arranged on the bottom surface, away from the supporting layer, of the anti-slip layer, each anti-slip unit is composed of a plurality of embedded polygons, any polygon is provided with convex lines, and the convex lines of two adjacent polygons face different directions; and the hot-melting edge film is wrapped at the outer side edge parts of the anti-slip layer, the supporting layer and the hydrophilic layer. The utility model discloses can guarantee mouse at the in-process of quick travel, the mouse pad is enough stable, in addition, can absorb sweat and water fast through hydrophilic layer, improves mouse at the friction stability of removal in-process with the mouse pad.

Description

Anti-slip mouse pad

Technical Field

The utility model relates to a computer accessories technical field especially relates to limited slip mouse pad.

Background

The anti-slip mouse pad is a small pad for mouse, and has the main function of preventing the surface reflection and refraction of glass and other special materials from affecting the positioning of the mouse photoreceptor and providing a plane for the mouse photoreceptor to calculate the motion vector conveniently. The cushion can be divided into a soft cushion and a hard cushion according to different materials.

In the prior art, the anti-slip effect of the anti-slip mouse pad is poor, particularly in the field of electric competitions, when a mouse is used, the action amplitude is large, the moving speed of the mouse is high, and the mouse is moved towards different directions to drive the anti-slip mouse pad to slide, so that the normal use is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the anti-slip mouse pad can slip in the process of moving the mouse in the prior art, and providing the anti-slip mouse pad.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the anti-slip mouse pad comprises a supporting layer, a hydrophilic layer, an anti-slip layer and a hot-melt side film;

the supporting layer is positioned between the anti-slip layer and the hydrophilic layer, and is formed by hot pressing;

the hydrophilic layer is used for placing the mouse to move and is made of hydrophilic materials;

the anti-slip layer is used for preventing the mouse pad from sliding, the anti-slip layer and the supporting layer are integrally formed, a plurality of anti-slip units are arranged on the bottom surface, away from the supporting layer, of the anti-slip layer, each anti-slip unit is composed of a plurality of embedded polygons, any polygon is provided with convex lines, and the convex lines of two adjacent polygons face different directions;

and the hot-melting edge film is wrapped at the outer side edge parts of the anti-slip layer, the supporting layer and the hydrophilic layer.

Preferably, the edge of the polygon is indented.

Preferably, any one of the anti-skid units comprises a plurality of congruent polygons.

Preferably, the polygon is a rhombus, and a plurality of parallel oblique ribs are arranged inside any rhombus.

Preferably, the three sets of ribs inside any one of the anti-slip units are 120 ° to each other.

Preferably, the hydrophilic layer is one of a polyester fabric layer, a nylon fabric layer or a leather layer.

Preferably, the anti-slip layer and the supporting layer are both made of TPE.

Preferably, the total thickness range of the anti-slip layer and the supporting layer is 1-2 mm.

Preferably, the static friction coefficient of the anti-slip layer is greater than 1.2 mus, and the dynamic friction coefficient of the anti-slip layer is greater than 1.0 muk.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through the arrangement of the plurality of anti-slip units and the convex patterns and the inclined convex patterns, the anti-slip effect of the mouse pad in all directions can be greatly improved, and the mouse pad is ensured to be stable enough even when a mouse is moved rapidly;

2. through the arrangement of the hydrophilic layer, the hand can be more comfortable when contacting with the mouse pad, the friction is smaller, and meanwhile, the hydrophilic layer can absorb water and sweat, so that the hand can absorb the water and sweat quickly even if the user sweats after using the mouse pad for a long time, and the bad influence of the conditions of water, sweat and the like on the movement of the mouse is avoided;

3. the supporting layer, the hydrophilic layer and the anti-slip layer can be connected together more stably through the hot-melting edge film, the processing technology is simple, the service life is long, and the edge cannot be warped due to friction.

Drawings

FIG. 1 is a schematic perspective view of a non-slip mouse pad according to the present invention;

FIG. 2 is a schematic view of a three-dimensional connection structure of the anti-slip layer, the supporting layer and the hydrophilic layer of the anti-slip mouse pad of the present invention;

FIG. 3 is a schematic plan view of the anti-slip layer;

fig. 4 is a schematic plan view of the antiskid unit.

In the figure: 10 anti-slip layers, 101 anti-slip units, 102 polygons and 103 oblique ribs;

20 a support layer;

30 a hydrophilic layer;

40 hot-melt the edge film.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1 to 4, the anti-slip mouse pad includes a support layer 20, a hydrophilic layer 30, an anti-slip layer 10, and a hot-melt edge film 40;

the supporting layer 20 is positioned between the anti-slip layer 10 and the hydrophilic layer 30, and the supporting layer 20 and the hydrophilic layer 30 are subjected to hot press molding;

the hydrophilic layer 30 is used for placing the mouse to move and is made of hydrophilic materials;

the anti-slip layer 10 is used for preventing the mouse pad from slipping, the anti-slip layer 10 and the supporting layer 20 are integrally formed, a plurality of anti-slip units 101 are arranged on the bottom surface of the anti-slip layer 10, which is far away from the supporting layer 20, each anti-slip unit 101 is composed of a plurality of embedded polygons 102, any polygon 102 is provided with convex patterns, and the convex patterns of two adjacent polygons 102 face different directions;

the hot-melt edge film 40 is wrapped at the outer side edge parts of the anti-slip layer 10, the support layer 20 and the hydrophilic layer 30.

The edge of the polygon 102 is a concave line, so that the mouse pad is more flexible and is convenient to store and roll up.

Any antiskid unit 101 contains a plurality of congruent polygons 102, and through different polygons 102, can all play good antiskid effect to the slip in a plurality of directions, when guaranteeing that mouse moves in different directions, can both play good antiskid effect, increases mouse pad's stability.

The polygon 102 is a rhombus, a plurality of parallel inclined ribs 103 are arranged in any rhombus, of course, the inclined ribs 103 can be parallel to one side of the rhombus, and friction can be further increased through the inclined ribs 103, so that the anti-slip effect of the mouse pad is improved.

Inside three oblique burr 103 of group of arbitrary antiskid unit 101 are 120 each other, contained angle between every two sets of oblique burr 103 is when 120, three groups just in time constitute 360, the angle is very even, can guarantee that the interval between every group oblique burr 103 is the same, and simultaneously, respectively angle between three oblique burr 103 of group, no matter when mouse removes to which direction like this, three oblique burr 103 of group can both play the limited slip effect of removal, thereby promote the limited slip effect of mouse pad on the whole, technical mouse is quick, when acutely moving towards all directions, can both guarantee mouse pad's stability.

Hydrophilic layer 30 is one of dacron precoat, nylon precoat or leather layer, and the material on dacron precoat is softer, uses more comfortablely, and the material on nylon precoat is harder, and life is longer, and the outward appearance on leather layer is more pleasing to the eye, also very convenient clearance simultaneously.

The anti-slip layer 10 and the supporting layer 20 are both made of TPE (thermoplastic elastomer), the TPE is a hot-melt forming object of styrene oxide-butadiene block copolymer and polypropylene, and the anti-slip layer is convenient to process, low in price, good in anti-slip effect, long in service life, not easy to damage, clear in texture, convenient to clean, good in softness, high in toughness, wide in temperature resistance range, capable of being stably used under various conditions, resistant to friction and resistant to ageing.

The total thickness range of the anti-slip layer 10 and the supporting layer 20 is 1-2 mm, so that the mouse is held by a wrist with proper thickness, and the mouse is convenient to move by hands.

The static friction coefficient of the anti-slip layer 10 is larger than 1.2 mu s, and the dynamic friction coefficient of the anti-slip layer 10 is larger than 1.0 mu k, so that the anti-slip effect of the anti-slip layer 10 is ideal, and the anti-slip layer 10 can be ensured to have good anti-slip effect even if the mouse rapidly and violently moves on the mouse pad.

The utility model can play a good supporting effect through the supporting layer 20, ensure the whole stability of the mouse pad, and the supporting layer 20 and the hydrophilic layer 30 are hot-press molded, which is fast and convenient, and has good heat resistance, the hydrophilic layer 30 of the hydrophilic material can absorb sweat and moisture fast, and ensure that the mouse and the mouse pad can be contacted stably when sweating when using the mouse, thereby avoiding affecting the sliding of the mouse on the mouse pad due to the sweat and the water, the connection between the anti-slip layer 10 and the supporting layer 20 is stable, the appearance is more beautiful, the firmness is stronger, and the anti-slip unit 101 can move in all directions, and can play a good blocking effect, thus even if the mouse moves on the mouse pad in all directions, the stability of the mouse pad can be ensured, the supporting layer 20, the hydrophilic layer 30 and the anti-slip layer 10 can be connected together more stably through the hot melt edge film 40, and the processing technology is simple, the service life is long, and the edge cannot be warped due to friction.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (9)

1. The anti-slip mouse pad comprises a support layer (20), a hydrophilic layer (30), an anti-slip layer (10) and a hot-melt edge film (40), and is characterized in that;

the supporting layer (20) is positioned between the anti-slip layer (10) and the hydrophilic layer (30), and the supporting layer (20) and the hydrophilic layer (30) are subjected to hot press forming;

the hydrophilic layer (30) is used for placing the mouse to move and is made of hydrophilic materials;

the anti-slip layer (10) is used for preventing the mouse pad from slipping, the anti-slip layer (10) and the supporting layer (20) are integrally formed, a plurality of anti-slip units (101) are arranged on the bottom surface, away from the supporting layer (20), of the anti-slip layer (10), each anti-slip unit (101) is composed of a plurality of inlaid polygons (102), any polygon (102) is provided with convex patterns, and the convex patterns of two adjacent polygons (102) face different directions;

the hot-melt side film (40) is wrapped at the outer side edge parts of the anti-slip layer (10), the supporting layer (20) and the hydrophilic layer (30).

2. The anti-slip mouse pad according to claim 1, wherein the edge of the polygon (102) is indented.

3. The anti-slip mouse pad according to claim 1, wherein any one of the anti-slip units (101) comprises a plurality of congruent polygons (102).

4. The anti-slip mouse pad according to claim 3, wherein the polygon (102) is a diamond shape, and a plurality of parallel inclined ribs (103) are arranged inside each diamond shape.

5. The anti-slip mouse pad according to claim 4, wherein the three sets of slanted ribs (103) of any one of the anti-slip units (101) are 120 ° to each other.

6. The anti-slip mouse pad according to claim 1, wherein the hydrophilic layer (30) is one of a polyester fabric layer, a nylon fabric layer or a leather layer.

7. The anti-slip mouse pad as claimed in claim 1, wherein the anti-slip layer (10) and the support layer (20) are both made of TPE.

8. The anti-slip mouse pad according to claim 1 or 2, wherein the total thickness of the anti-slip layer (10) and the support layer (20) is 1-2 mm.

9. The anti-slip mouse pad according to claim 1, wherein the static friction coefficient of the anti-slip layer (10) is greater than 1.2 μ s, and the dynamic friction coefficient of the anti-slip layer (10) is greater than 1.0 μ k.

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