CN204016200U - Clean-fiber cloth - Google Patents

Abstract

The utility model discloses a kind of Clean-fiber cloth, comprise cloth, at least part of surface of described cloth is convex-concave structure, described convex-concave structure comprises the protrusion for increasing contact friction force, described protrusion surrounds several for holding concave part, described protrusion and the described concave part alternative arrangement of the foreign matter of removing from clean face.Clean-fiber cloth of the present utility model utilizes the protrusion of design on fabric surface to increase and the frictional force that cleans face, thereby can easierly clean spot, and the foreign matter of removing from clean face can be adsorbed on to the concave part between protrusion, prevent that foreign matter from dropping again on clean face, thereby make a slice cleaning cloth can clean larger area.

Description

Clean-fiber cloth

Technical field

The utility model relates to cleaning supplies field, relates in particular to a kind of Clean-fiber cloth.

Background technology

The foreign matters such as dust, hair be covered with ground for the ease of removing, people can select whisk broom or folder cloth mop conventionally.Recently, along with the growth of consumers in general to the demand of simple cleaning instrument, mop lower end adopts the utilization rate of the burnisher of disposable doing/wet cleaning cloth to rise gradually.But the surface of this type of cleaning cloth is simple plane, therefore during cleaning floor, exist because the little spot of the frictional force with ground is difficult for cleaning, need repeatedly change the problem of rag during wiping large area.In order to solve problems, people re-use after conventionally adopting the moistening cleaning cloth of cleaning solution, thereby improve the cleaning capacity of cleaning cloth, but this way brings harm can to the health of human body.In addition, although use dry cleaning cloth and ground friction can produce Electrostatic Absorption foreign matter, use dry cleaning cloth to exist because of the little foreign matter problem limited in one's ability of adsorbing of the raw static content of frictional force abortion.

Utility model content

When which kind of structure is the technical problem that the utility model solves be to adopt to solve the wiped clean face that current cleaning cloth exists because the little spot of frictional force is difficult for cleaning, need repeatedly change the problem of rag during wiping large area, and then provide a kind of can increase and wiped clean face between frictional force be easy to remove foreign matter and the large-area Clean-fiber cloth of erasable on clean face.

The utility model further solves the problem of larger static content that how also can produce in the situation that frictional force is less.

In order to address the above problem, the technical solution adopted in the utility model is as follows:

Clean-fiber cloth, comprise cloth, on described cloth, scribble the static genetic horizon that paraffin forms, at least part of surface of described cloth is convex-concave structure, described convex-concave structure comprises the protrusion for increasing contact friction force, described protrusion is provided with a plurality of for holding the concave part of the foreign matter of removing from clean face, and the profile of described concave part becomes polygon, circle or oval, described protrusion and described concave part alternative arrangement.

Preferably, described convex-concave structure is covered with the one or both sides of described cloth.

Preferably, one or more in staple fibre, synthetic fibers and natural fiber of described cloth are mixed.

Preferably, described cloth is mixed by two or more staple fibres, or is mixed by two or more synthetic fibers, or is mixed and made by two or more natural fibers.

Preferably, a kind of make of described cloth in terylene, cotton fiber, viscose rayon, paper pulp, bamboo fibre, or described cloth is mixed by terylene and artificial silk, or described cloth is mixed by terylene and polypropylene, or described cloth is by viscose rayon mixed pulp or mixes terylene and make, or described cloth is by bamboo fibre mixed pulp or mixes terylene and make.

Preferably, described protrusion becomes ordered series of numbers convex-concave structure row with described concave part alternative arrangement, the bearing of trend that described convex-concave structure is listed as with respect to an edge of described cloth is in tilted layout, described protrusion in described convex-concave structure row, described concave part are contrary with described protrusion, described concave part incline direction in adjacent described convex-concave structure row, and the protrusion during same described convex-concave structure is listed as, the incline direction of described concave part are identical.

Preferably, described protrusion becomes ordered series of numbers convex-concave structure row with described concave part alternative arrangement, the described protrusion in described convex-concave structure row, described concave part and described protrusion, described concave part cross arrangement or the arrangement of aliging during adjacent described convex-concave structure is listed as.

Preferably, the described protrusion in described convex-concave structure and described concave part are arranged by honeycomb.

The beneficial effects of the utility model are as follows:

Clean-fiber cloth of the present utility model utilizes the protrusion of design on fabric surface to increase and the frictional force that cleans face, thereby can easierly clean spot, and the foreign matter of removing from clean face can be adsorbed on to the concave part between protrusion, prevent that foreign matter from dropping again on clean face, thereby be able to by the clean more large-area effect of a slice cleaning cloth.

Accompanying drawing explanation

Fig. 1 is the oblique view of Clean-fiber cloth of the present utility model;

Fig. 2 is the partial enlarged drawing of Clean-fiber cloth of the present utility model;

Fig. 3 is the sectional drawing of Clean-fiber cloth of the present utility model;

Fig. 4 is plane and the sectional drawing of Clean-fiber cloth of the present utility model.

In figure:

1000 Clean-fiber cloth, 100 clothes, 110 protrusions, 120 concave parts, the t discrepancy in elevation, d foreign matter, the clean face of f.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the technical solution of the utility model and beneficial effect are further described.

Referring to figs. 1 through Fig. 4, Clean-fiber cloth 1000 of the present utility model, comprise cloth 100, the static genetic horizon that coated with paraffin forms on cloth 100, at least part of surface of described cloth 100 becomes convex-concave structure, described convex-concave structure comprises the protrusion 110 for increasing contact friction force, and described protrusion 110 is provided with a plurality of for holding concave part 120, described protrusion 110 and described concave part 120 alternative arrangements of the foreign matter of removing from clean face.

Clean-fiber cloth 1000 of the present utility model can be used under moist water state, also can under drying regime, use:

While using under moist water state, because containing moisture in cleaning cloth, can increase the frictional force between clean fiber cloth of the present utility model and clean face, and, be printed on the above-mentioned cloth 100 of protrusion 110 and concave part 120 with respect to common thinner cloth, can more more easily adsorb more juicy on cloth 100 by protrusion 110 and concave part 120, thereby can improve the water content of Clean-fiber cloth 1000, and then improve the frictional force between clean fiber cloth and clean face;

If used under drying regime, should select the material of easy generation static to make Clean-fiber cloth of the present utility model as far as possible, for example cloth 100 can be made with terylene, also can be mixed with terylene and artificial silk, or be mixed with terylene and PP raw material (being polypropylene), can also select a kind of the making in natural fiber or staple fibre, such as a kind of the making that can select in viscose rayon, cotton fiber, paper pulp, bamboo fibre etc., cloth 100 can also be by being at least mixed at two kinds of different types of fibers, for example, can be to be mixed by natural fiber and synthetic fibers, also can mix and form with natural fiber by natural fiber, can also be mixed by synthetic fibers and synthetic fibers, particularly, cloth 100 can be that viscose rayon mixed pulp or mixing terylene form, also bamboo fibre mixed pulp or mixing terylene form, more specifically, cloth 100 can be by 10% to 65% viscose rayon or bamboo fibre, to mix 90% to 35% terylene or paper pulp to form, according to the ratio of above-mentioned viscose rayon or above-mentioned bamboo fibre, the above-mentioned terylene mixing from above-mentioned viscose rayon or above-mentioned bamboo fibre or the proportion of fibers of above-mentioned pulp type also can be different.But the ratio of above-mentioned viscose rayon or above-mentioned bamboo fibre is not must be limited between 10% to 65%, it also can be below 10% or more than 65%.

In addition, the static genetic horizon that coated with paraffin forms on cloth 100, in the time of also can making Clean-fiber cloth of the present utility model and the friction of clean face, produces more static.

Below the convex-concave structure on cloth 100 is described.

The surface of cloth 100 becomes convex-concave structure, convex-concave structure can be covered with the one or both sides of cloth 100, also can be distributed in the surface of cloth 100 any parts, this convex-concave structure comprises the protrusion 110 for increasing contact friction force, described protrusion 110 is provided with a plurality of for holding concave part 120, described protrusion 110 and described concave part 120 alternative arrangements of the foreign matter of removing from clean face.Between protrusion 110 and concave part 120, there is discrepancy in elevation t, when fiber cloth and clean face f friction, can scrape foreign matter d.This foreign matter d can be dust or the hair that people occur in daily life, or food dreg, the cutin that drops from human body etc.

Meanwhile, the foreign matter d coming off from above-mentioned clean face f can be attached in the concave part 120 adjacent with above-mentioned protrusion 110.The above-mentioned foreign matter d being distributed on clean face f, by as above-mentioned protrusion 110 scrape and be received in concave part 120, thereby can effectively increase the clean area of a cleaning cloth.

As shown in Figure 4, concave part 120 can become polygon, circle or oval.

Described protrusion 110 can become ordered series of numbers convex-concave structure row by alternative arrangement with described concave part 120, described convex-concave structure row can be in tilted layout with respect to the bearing of trend at an edge of described cloth 100, described protrusion 110 in described convex-concave structure row, described protrusion 110 in described concave part 120 and adjacent described convex-concave structure row, described concave part 120 incline directions are contrary, thereby can make Clean-fiber cloth of the present utility model there is in different directions balanced frictional force and dirt is taken in ability, use convenient, with reference to Fig. 4 e, the edge of cloth 100 is straight flange, it is benchmark that protrusion 110 in convex-concave structure row and concave part 120 be take an edge stating cloth 100, to a direction rotation certain angle, from forming, be in tilted layout, the cloth that is non-straight flange for edge, the cloth of edge waviness for example, above-mentioned be in tilted layout be the bearing of trend of stating an edge of cloth 100 be benchmark, for example, suppose that cloth 100 is squares, above-mentioned protrusion 110 is as the criterion with the edge of concave part 120 with above-mentioned cloth 100, to a sideway swivel certain angle, become to be in tilted layout.Described protrusion 110 in described convex-concave structure row, described concave part 120 are contrary with protrusion 110, concave part 120 incline directions during adjacent described convex-concave structure is listed as, be that protrusion 110 is that "the" shape is arranged with concave part 120, and the incline direction of protrusion 110 in same described convex-concave structure row, concave part 120 is identical.

As a kind of embodiment, the protrusion 110 in convex-concave structure can be covered with at whole cloth 100 with concave part 120.Described protrusion 110 becomes ordered series of numbers convex-concave structure row with described concave part 120 alternative arrangements, described protrusion 110,120 cross arrangements of described concave part during described protrusion 110 in described convex-concave structure row, the arrangement of described concave part 120 are listed as with adjacent described convex-concave structure, thereby can increase the intensity of cloth, with reference to each figure in Fig. 4.As the embodiment that can convert, the protrusion 110 forming in the adjacent column arrangement of aliging with concave part 120.Preferably as shown in Figure 4, above-mentioned protrusion 110 is arranged in honeycomb shape with concave part 120.

As another kind of embodiment, the part surface of cloth 100 is distributed with above-mentioned protrusion 110 and concave part 120, and protrusion 110, concave part 120 are given prominence to the form of convex-concave seal to the one or both sides of cloth 100.With do not have the cloth of above-mentioned convex-concave structure to compare, the frictional force of the utility model and clean face increases to some extent, has advantages of and is easy to remove dirt or the foreign matter d stick on clean face f.Also have, above-mentioned thicker with the original thickness of the more above-mentioned cloth 100 of concave part 120 with the outstanding protrusion 110 of convex-concave impression state, when consumer uses, can obviously feel this abundant texture, thereby provide better use impression for consumer.

The process that protrusion 110 and the concave part 120 of convex-concave structure form on above-mentioned cloth 100 is as follows:

In order to manufacture Clean-fiber cloth 1000 of the present utility model, first above-mentioned cloth 100 is twisted in (without diagram) on roller, on the surface of this roller (without diagram), be formed with several projections;

Above-mentioned cloth 100 twist in roller (without diagram) upper after, by flusher (without diagram), on the cloth 100 twisting on roller (without diagram), spray water under high pressure, this flusher (without diagram) can be a plurality of;

The water under high pressure being sprayed by above-mentioned flusher (without diagram), fits in the upper projection that forms of roller (without diagram) by above-mentioned cloth 100;

Water under high pressure pressurization cloth 100 certain hours that spray from above-mentioned flusher (without diagram), above-mentioned cloth 100 is printed off and forms protrusion 110 and concave part 120 by the upper projection forming of above-mentioned rollers (without diagram);

Form protrusion 110 and by a certain size, cut out packing with the above-mentioned cloth 100 of concave part 120.

Clean-fiber cloth 1000 of the present utility model can be answered required output, by said process, repeatedly makes.

With reference to Fig. 3, as follows by the process of Clean-fiber cloth 1000 clean face f:

First Clean-fiber cloth 1000 is attached to fixed on mop, the version of this mop can freely be selected, and the mode that Clean-fiber cloth 1000 is fixed on mop can change according to the mop using is different.Then Clean-fiber cloth 1000 dociles are upper in clean face f, the application of force pushes away forward, and now the foreign matter d on clean face f can depart from clean face under the effect of protrusion 110, and the foreign matter d of disengaging will close in the space of above-mentioned concave part 120 formation.This process is until above-mentioned concave part 120 while piling with foreign matter d repeatedly, after will Clean-fiber cloth 1000 changing, continues to sweep.

Claims (8)

1. Clean-fiber cloth, comprise cloth (100), it is characterized in that: on described cloth (100), scribble the static genetic horizon that paraffin forms, at least part of surface of described cloth (100) is convex-concave structure, described convex-concave structure comprises the protrusion (110) for increasing contact friction force, described protrusion (110) is provided with a plurality of for holding the concave part (120) of the foreign matter of removing from clean face, the profile of described concave part (120) becomes polygon, circle or oval, described protrusion (110) and described concave part (120) alternative arrangement.

2. Clean-fiber cloth as claimed in claim 1, is characterized in that: described convex-concave structure is covered with the one or both sides of described cloth (100).

3. Clean-fiber cloth as claimed in claim 1, is characterized in that: one or more in staple fibre, synthetic fibers and natural fiber of described cloth (100) are mixed.

4. Clean-fiber cloth as claimed in claim 3, is characterized in that: described cloth (100) is mixed by two or more staple fibres, or is mixed by two or more synthetic fibers, or is mixed and made by two or more natural fibers.

5. Clean-fiber cloth as claimed in claim 3, it is characterized in that: a kind of make of described cloth (100) in terylene, cotton fiber, viscose rayon, paper pulp, bamboo fibre, or described cloth (100) is mixed by terylene and artificial silk, or described cloth (100) is mixed by terylene and polypropylene, or described cloth (100) is by viscose rayon mixed pulp or mixes terylene and make, or described cloth (100) is by bamboo fibre mixed pulp or mixes terylene and make.

6. Clean-fiber cloth as claimed in claim 1, it is characterized in that: described protrusion (110) becomes ordered series of numbers convex-concave structure row with described concave part (120) alternative arrangement, the bearing of trend that described convex-concave structure is listed as with respect to an edge of described cloth (100) is in tilted layout, described protrusion (110) in described convex-concave structure row, described protrusion (110) in described concave part (120) and adjacent described convex-concave structure row, described concave part (120) incline direction is contrary, described protrusion (110) in same described convex-concave structure row, the incline direction of described concave part (120) is identical.

7. Clean-fiber cloth as described in claim 1 or 6, it is characterized in that: described protrusion (110) becomes ordered series of numbers convex-concave structure row with described concave part (120) alternative arrangement the described protrusion (110) in described convex-concave structure row, described concave part (120) and described protrusion (110), (120) cross arrangement of described concave part or the arrangement of aliging during adjacent described convex-concave structure is listed as.

8. Clean-fiber cloth as described in any one in claim 1 to 6, is characterized in that: the described protrusion (110) in described convex-concave structure is arranged by honeycomb with described concave part (120).