CN212698475U - Elastic water-absorbing floor mat - Google Patents

Abstract

The utility model provides an elasticity ground mat that absorbs water can place in the bathroom gate, supplies to step on the moisture in order to adsorb sole or sole, includes an elastic layer and a weaving layer, the porous foaming body of connectivity that this elastic layer was made with the foaming material that has the effect of absorbing water, still mixes water-absorbing material in its foaming material, supplies to paste and places in ground, and this weaving layer pastes and places the elastic layer top side in, and for the cloth of porous clearance, its surface still is equipped with a plurality of printing district to the printing ink printing forms, and still mixes water-absorbing material in the printing ink.

Description

Elastic water-absorbing floor mat

Technical Field

The present invention relates to a water-absorbing floor mat for bathroom doorways, and more particularly to an elastic water-absorbing mat.

Background

The early water-absorbing floor mat for the bathroom doorway is mostly woven cloth, mainly absorbs water by utilizing the capillary phenomenon, but has no anti-slip effect, and is easy to slip when being trampled. In order to solve the above disadvantages, manufacturers have developed a water-absorbing floor mat with woven cloth and rubber adhered to each other, which can absorb water by the woven cloth on the top side and prevent slip by the rubber bottom layer on the bottom side, and has both water-absorbing and slip-preventing effects.

Although the water-absorbing floor mat with the rubber bottom layer has better use effect than the traditional woven cloth, the time for a general person to tread the water-absorbing floor mat is usually not long, under the condition of short contact time, the woven cloth is difficult to rapidly absorb the moisture of the sole or the sole by utilizing the capillary phenomenon, and the situation that the sole or the sole brings the residual moisture into the indoor floor can often occur.

Secondly, in recent years, a common hard diatomite water absorption floor mat is mainly made of gypsum and diatomite powder mixed water, can rapidly absorb water by utilizing the porous material characteristics, has a faster water absorption speed than woven cloth, has the problems of poor treading touch feeling, easy breakage, easy slippage (needing to be matched with a non-slip mat), and the like, and obviously has a need of improvement.

Therefore, the inventor developed the patents of the utility model No. ZL201921062530.3, taiwan invention No. I693909 and taiwan new type M582806 "elastic water-absorbing floor mat", which consists of an anti-slip layer and an elastic layer, wherein the anti-slip layer is a porous foam body with connectivity, the surface of the elastic layer is further provided with a plurality of breaking areas with broken holes and roughness, the foaming material of the elastic layer is further mixed with water-absorbing material, the elastic layer can rapidly absorb the moisture of the sole or sole, and the treading feeling is soft and can not slide, therefore, the defects of the existing water-absorbing floor mat with rubber bottom layer and the hard diatomite water-absorbing floor mat can be really solved.

However, the elastic water-absorbing floor mat is made of porous foam and has a rather unattractive appearance, so a cloth layer is required to be adhered to the surface of the elastic layer, and the cloth layer is required to be dyed and printed with patterns, which can attract consumers to buy and use the elastic water-absorbing floor mat. However, the printed ink is easy to block the water absorbed by the cloth layer (the time for absorbing 1 ml of water is prolonged from 30 seconds to about 60 seconds), but the water absorption speed of the elastic water-absorbing mat is reduced, so far, no technology for solving the problem that the ink delays the water absorption speed is available in the technical field, and the technology is very difficult.

SUMMERY OF THE UTILITY MODEL

The main objective of the present invention is to provide an elastic water-absorbing floor mat which can solve the above-mentioned disadvantages, and which not only has a fast water-absorbing speed, soft treading feeling, but also can absorb and discharge water rapidly on the dyed and printed cloth layer.

Accordingly, in order to achieve the above objects, the present invention provides an elastic water-absorbing floor mat, which comprises an elastic layer, a porous foam body made of a foam material with water-absorbing effect, wherein the foam material is mixed with a water-absorbing material in a predetermined ratio for being attached to the ground; the textile layer is attached to the top side of the elastic layer and is made of porous cloth, the surface of the textile layer is also provided with a plurality of printing areas which are printed by ink, and the ink is also mixed with water-absorbing materials in a preset proportion.

Preferably, the foaming material of the elastic sheet is mixed with 5% to 85% of water-absorbing material.

Preferably, the bottom side of the elastic sheet is further provided with a plurality of anti-slip parts.

Preferably, each of the anti-slip parts is a concave-convex structure.

Preferably, the ink of each of said printed areas penetrates into the textile layer.

Preferably, the ink of each of said printed areas penetrates the textile layer and connects the elastic layers.

Preferably, the printed area of the surface of the textile layer is between 5% and 100% of the surface area of the textile layer.

Preferably, the ink in the printing area is mixed with 5% to 95% of water-absorbing material.

Preferably, the water-absorbing material is mineral powder such as diatomite, pottery clay, sand, etc., or/and plant powder such as cotton, cold weather, etc., or/and chemical powder such as sludge, furnace slag, super absorbent resin, nylon, polyacrylate, etc.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of a cross section and a moisture transfer state according to a preferred embodiment of the present invention.

Fig. 3 is a schematic view of a cross section and a moisture transmission state according to another preferred embodiment of the present invention.

Fig. 4 is a schematic view of a cross section and a moisture transmission state according to still another preferred embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1 and 2, an elastic water-absorbing floor mat 10 according to a preferred embodiment of the present invention, which can be placed at the doorway of a bathroom, includes an elastic layer 12 and a textile layer 14.

The elastic layer 12 is a porous foam made of a foaming material having a water absorbing effect, such as Natural Rubber (NR), synthetic rubber (PU), Polyurethane (PVC), or Styrene Butadiene Rubber (SBR), which are known in the art, and preferably, the elastic layer is made of synthetic rubber, in which a water absorbing material (mineral powder such as diatomaceous earth, pottery clay, and sand, and/or plant powder such as cotton, and plant powder such as silt, slag, super absorbent resin, nylon, and polyacrylate) is added in an amount of 5% to 85% (the flexibility of the elastic layer 14 gradually decreases as the ratio increases), and a plurality of slip prevention portions 22 having a concavo-convex structure are further provided on the bottom side.

The textile layer 14 is a porous fabric such as non-woven fabric or sandwich mesh fabric, and is bonded on the top side of the elastic layer 12 without adhesive by using the force generated by the foaming of the elastic layer 12 and the gas pressure generated by the chemical change of the foaming agent contained in the raw material, and the surface is further printed with a plurality of printing areas 24 by using ink, wherein each printing area 24 occupies about 5% to 100% of the surface area of the textile layer 14, and the printed ink can be made of various water-absorbing materials known in the art, preferably, the ink in the printing areas can be mixed with 5% to 95% of water-absorbing materials such as diatomite powder, pottery clay, sand and other mineral powder or/and cotton, plant powder such as cold day and/or sludge, slag, super absorbent resin, nylon, polyacrylate and other chemical powder.

Therefore, the elastic water-absorbing ground mat 10 of the utility model is formed by the elastic layer 12 formed by the porous foaming elastomer and the plurality of printing areas 24 arranged on the surface of the textile layer 14, can be stepped by a bather when the bather leaves the bathroom, the stepping feeling is soft, and the surface of the textile layer 14 is provided with a plurality of printing areas 24, since the ink in each of the printing areas 24 contains the water-absorbing material, each of the printing areas 24 can rapidly absorb moisture from the sole or sole of the foot, and then absorb the moisture through the textile layer 14 and introduce the moisture into the elastic layer 12, as shown in fig. 2, the three-dimensional and loose cloth structure of the textile layer 14 can absorb, guide and drain water to the elastic layer 12, and is further helpful for drying the absorbed water, and the anti-slip part 22 at the bottom side of the elastic layer 12 is anti-slip relative to the ground, so that the elastic water-absorbing floor mat 10 can not slip on the ground when being trodden on, thereby avoiding the occurrence of foot sprain or slip.

Although the existing porous foam mat body (for example, yoga mat) made of foam material has the original water absorption effect, however, the water absorption speed is very slow, the water absorption speed of the elastic water absorption floor mat 10 of the present invention is very fast, and through practical tests, when water drops on the printing area 24 on the surface of the textile layer 14, it only takes less than about 1 second to absorb 1 ml of water, that is, the water absorption speed is about 15-30 times of the existing porous foam mat body, therefore, each printing area 24 can actually improve the water absorption effect of the textile layer 14.

Moreover, the higher the proportion of the printing areas 24 to the entire surface area of the textile layer 14, the higher the probability of the shoes or feet contacting the printing areas 24 when they step on the elastic water-absorbing mat 10, and the higher the proportion of the printing areas 24 to the entire surface area of the textile layer 14, the better the shoes or feet can be easily stepped on, and certainly, if the proportion of the printing areas 24 to the entire surface area of the textile layer 14 is lower, the printing areas can be disposed in the middle of the top side of the textile layer 14.

In other words, the higher the proportion of the ink in each printing area 24 and the water-absorbing material added to the elastic layer 12, the faster the elastic water-absorbing mat 10 absorbs water.

Furthermore, the anti-slip portion 22 on the bottom side of the elastic layer 12 not only can generate anti-slip property relative to the ground, but also can generate a plurality of gaps on the bottom side of the elastic layer 12 for air circulation, thereby improving the effect of air drying the bottom side of the elastic water-absorbing floor mat 10.

Next, as shown in fig. 3, an elastic water-absorbing mat 30 according to another preferred embodiment of the present invention is substantially the same as the elastic water-absorbing mat 10, except that: the structure of the textile layer 34 into which the ink of each printed area 32 penetrates, i.e., a portion of the bottom of each printed area 32 extends into the interior of the textile layer 34, increases the contact area between each printed area 32 and the textile layer 34, thereby increasing the speed at which the textile layer 34 can transfer the moisture absorbed by each printed area 32 into the elastic layer 36. The amount of ink that penetrates into the textile layer 34 in each of the printing areas 32 can be controlled by the amount of ink and the degree of weave density of the textile layer 34.

As shown in fig. 4, an elastic water-absorbing mat 40 according to another preferred embodiment of the present invention is different from the elastic water-absorbing mat 30 in that: the ink in each printed area 42 thereof not only penetrates textile layer 44 but also joins elastic layer 46. Therefore, compared to the elastic water-absorbing mat 30, the elastic water-absorbing mat 40 also has a structure in which each printing region 42 is partially connected to the elastic layer 46, so that the water absorbed by each printing region 42 can be transported to the elastic layer 46 through two ways (the conduction of the textile layer 44 and the direct transmission of the printing region 42 to the elastic layer 46), and the water absorption speed can be faster than that of the elastic water-absorbing mat 30. And the ink of each printing region 42 is allowed to penetrate into the textile layer 34 and connect with the elastic layer 46, so that the ink amount can be increased or the weaving density of the textile layer 34 can be controlled.

By last knowing, the utility model provides an elasticity ground mat that absorbs water, its constitution through a plurality of printing districts on this elastic layer and weaving layer surface not only absorbs water fastly, and steps on and feel soft, can not slide, can solve the shortcoming that traditional woven cloth ground mat absorbed water effect is not good, easily slides to and the hard formula diatomaceous earth ground mat that absorbs water common in recent years easily breaks, easily slides and the not good scheduling problem of sense of touch, the printing ink can easily the separation moisture absorption when still solving cloth layer surface printing problem, has practical value very much.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (6)

1. An elastic water-absorbing floor mat, comprising:

the elastic layer is a connected porous foaming body made of foaming materials with water absorption effect and is attached to the ground; and

a textile layer, which is adhered on the top side of the elastic layer and is made of porous cloth, and the surface of the textile layer is also provided with a plurality of printing areas, and the printing areas are printed by ink with water absorption.

2. An elastic water-absorbing mat as claimed in claim 1, wherein the elastic layer is further provided at its underside with a plurality of slip-resistant portions.

3. An elastic water-absorbing floor mat as claimed in claim 2, wherein each of the slip-stopping portions has a concavo-convex structure.

4. An elastic water-absorbing mat as claimed in claim 1, in which the ink of each of said printed areas penetrates into the textile layer.

5. An elastic water-absorbing mat as claimed in claim 4, in which the ink of each of said printed areas penetrates the textile layer and joins the elastic layer.

6. An elastic water-absorbing mat as claimed in any one of claims 1 to 5, wherein the printed area of the surface of the textile layer accounts for 5 to 100% of the surface area of the textile layer.

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