CN214215021U - Disposable electrostatic dust-sticking wiping cloth - Google Patents

Abstract

The utility model provides a cloth is cleaned to disposable static binding dust, it includes the base course cloth, the unilateral of base course cloth or two sides be provided with electrostatic absorption dust storage layer, the base course cloth be non-woven fabrics structure, electrostatic absorption dust storage layer be fibre fine hair layer, electrostatic absorption dust storage layer pass through hot rolling structure and base course cloth fixed combination. The dust sticking wiping cloth provided by the utility model adopts the non-woven fabric as the base layer, and the fiber velvet layer is combined with the non-woven fabric base layer through the hot rolling process, so as to realize the forming and fixing of the fiber velvet; the fiber pile layer on the surface of the formed dust sticking wiping cloth can generate static electricity due to the friction effect in the wiping process, so that the attraction force is generated on impurities such as dust, wool and the like, and meanwhile, the fiber pile layer has larger and more complex gaps to form a storage space for the impurities, so that the excellent removing effect on the impurities is realized; the disposable electrostatic dust-sticking wiping cloth of the utility model is made of cheap and easily available raw materials, and the use cost is lower.

Description

Disposable electrostatic dust-sticking wiping cloth

Technical Field

The utility model belongs to the technical field of cleaning supplies technique and specifically relates to a disposable static adhesive dust wiping cloth is related to.

Background

The dust sticking wiping cloth is a novel wiping material and has multiple performances of soft texture, high decontamination rate, convenient use and the like. The dust sticking wiping cloth is the best article for cleaning the paint spraying surface before paint spraying operation, can effectively remove dust and foreign matters on the surface to be sprayed, and enables the paint surface after paint spraying to be firmer, smoother and glossy. The dust-sticking cloth is widely used for cleaning and wiping in the fields of electronic factories, medical factories, laboratories, food factories and precision manufacturing industries, and for pretreatment of painting in automobiles, motorcycles, airplanes and high-grade plastic parts or before painting finish paint, and can be applied to dust removal and cleaning in daily life.

At present, most of domestic common dust-sticking cloth is made of cotton gauze as a base material, or the cotton gauze is made into a product after being soaked in resin, and after being wiped, the dust-sticking cloth is easy to generate small fluff and fiber scraps to remain on the surface of a workpiece. In the automotive industry, wiping the corner portions of the car body is most obvious, and a small amount of fibers fly in the air of a coating room to affect the coating quality. A few dust-binding cloths are used for binding dust by materials with adhesive properties, the dust-binding cloths cannot be cleaned in a wiping mode, the dust-binding efficiency is low, the cleaning effect is poor, and the use cost of the product is high.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model discloses a structural design of innovation provides a disposable static adhesion dust wiping cloth with good adhesion dust, dust removal effect.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the utility model provides a disposable static dust binding wiping cloth, its includes base course cloth, the unilateral of base course cloth or two sides be provided with electrostatic absorption dust storage layer, base course cloth be non-woven fabrics structure, electrostatic absorption dust storage layer be fibre matte layer, electrostatic absorption dust storage layer pass through hot rolling structure and base course cloth fixed combination.

Furthermore, the base layer cloth is a PP or PET non-woven fabric, and the electrostatic adsorption dust storage layer is a PP fiber velvet layer or a PET fiber velvet layer.

Further, the hot rolling structure is a hot rolling strip, or a square strip frame, or an annular strip frame.

Further, the hot rolling structure is parallel hot rolling strips arranged at equal intervals, or concentric square strip frames arranged at equal intervals, or concentric annular strip frames arranged at equal intervals. The concentric square strip frames arranged at equal intervals are square strip frames with the same center, the same direction and different sizes, and the intervals between two adjacent square strip frames are the same; the concentric annular frames arranged at equal intervals are annular frames with the same circle center and different radiuses, and the radius difference between every two adjacent annular frames is the same.

Furthermore, the width of the edge strips of the hot rolling structure is 1-5mm, and the distance between the adjacent hot rolling strips, square strip frames or annular strip frames is 10-30 mm.

Furthermore, the thickness of the base layer cloth in a non-pressure-bearing state after the electrostatic adsorption dust storage layer is arranged on one side of the base layer cloth is 1-4 mm.

Furthermore, the thickness of the base layer cloth in the non-pressure-bearing state after the electrostatic adsorption dust storage layers are arranged on the two sides of the base layer cloth is 2-6 mm.

Compared with the prior art, the utility model discloses the beneficial effect who possesses does:

the utility model provides a disposable static dust-binding wiping cloth which adopts non-woven fabrics as a base layer, and combines a fiber velvet layer with the non-woven fabrics base layer through a hot rolling process to realize the forming and fixing of fiber velvet; the hot rolling structure can enable the fiber velvet layer to be firmly combined with the non-woven fabric base layer, keep the softness and the storage space of the velvet layer and simultaneously avoid the phenomenon of velvet falling; the fiber pile layer on the surface of the formed dust sticking wiping cloth can generate static electricity due to the friction effect in the wiping process, so that the attraction force is generated on impurities such as dust, wool and the like, and meanwhile, the fiber pile layer has larger and more complex gaps to form a storage space for the impurities, so that the excellent removing effect on the impurities is realized; one surface of the dust sticking wiping cloth of the single-layer electrostatic adsorption dust storage layer is a non-woven fabric which can clean a stubborn dirty surface, and the other surface of the dust sticking wiping cloth of the single-layer electrostatic adsorption dust storage layer is a fiber velvet layer which can wipe and clean floating dust impurities; both sides of the dust sticking wiping cloth of the double-layer electrostatic adsorption dust storage layer are fiber velvet layers, and the surface to be cleaned can be cleaned by utilizing the extremely large friction area of the fiber velvet surface; the disposable electrostatic dust-sticking wiping cloth of the utility model is made of cheap and easily available raw materials, and the use cost is lower.

Drawings

Fig. 1 is a schematic cross-sectional structure view of a dust-binding wiping cloth according to embodiment 1 of the present invention.

In the figure, 1-base layer cloth, 2-electrostatic adsorption dust storage layer and 3-hot rolling structure.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, but the scope of the present invention is not limited to the following embodiments. Any equivalent modifications made by those skilled in the art in the light of the present disclosure are intended to be within the scope of the present disclosure.

As shown in fig. 1, a disposable electrostatic dust-binding wiping cloth comprises a base layer cloth 1, wherein an electrostatic adsorption dust storage layer 2 is arranged on one side or two sides of the base layer cloth 1, the base layer cloth 1 is a non-woven fabric, the electrostatic adsorption dust storage layer 2 is a fiber velvet layer, and the electrostatic adsorption dust storage layer 2 is fixedly combined with the base layer cloth 1 through a hot rolling structure 3.

Further, the base layer cloth 1 is a PP or PET non-woven fabric, and the electrostatic adsorption dust storage layer 2 is a PP fiber velvet layer or a PET fiber velvet layer.

Further, the hot-rolled structure 3 is a hot-rolled bar, or a square bar frame, or a circular bar frame.

Further, the hot rolling structure 3 is parallel hot rolling strips arranged at equal intervals, or concentric square strip frames arranged at equal intervals, or concentric annular strip frames arranged at equal intervals. The concentric square strip frames arranged at equal intervals are square strip frames with the same center, the same direction and different sizes, and the intervals between two adjacent square strip frames are the same; the concentric annular frames arranged at equal intervals are annular frames with the same circle center and different radiuses, and the radius difference between every two adjacent annular frames is the same. In other embodiments of the present invention, other shapes of the hot rolled structure 3, such as the cartoon-shaped hot rolled structure 3, may be used.

Further, the width of the hot rolling structure 3 is 1-5mm, and the width of the hot rolling structure 3 is the width at reference numeral 3 shown in fig. 1, that is, the width of the hot rolling bar, or the width of the sides of the square bar frame and the annular bar frame; the distance between the adjacent hot rolled strips, the square strip frames or the annular strip frames is 10-30 mm.

Further, the thickness of the base layer cloth 1 in a non-pressure-bearing state, namely the thickness of the base layer cloth in a natural standing state after the electrostatic adsorption dust storage layer 2 is arranged on one side of the base layer cloth is 1-4 mm.

Further, the thickness of the base layer cloth 1 in the non-pressure-bearing state after the electrostatic adsorption dust storage layer 2 is arranged on the two sides is 2-6 mm.

Example 1: the utility model provides a disposable static dust binding wiping cloth, its includes base course cloth 1, the both sides of base course cloth 1 all be provided with electrostatic adsorption dust storage layer 2, the thickness under non-pressure-bearing state is 4mm, base course cloth 1 be the PP non-woven fabrics, electrostatic adsorption dust storage layer 2 be PP fibre matte layer, electrostatic adsorption dust storage layer 2 pass through hot rolling structure 3 and base course cloth 1 fixed combination.

Further, the hot rolling structure 3 is concentric square frames arranged at equal intervals, that is, square frames with the same center, the same direction and different sizes, and the intervals between two adjacent square frames are the same.

Furthermore, the width of the edge strips of the hot rolling structure 3 is 3mm, and the distance between the adjacent square strip frames is 20 mm.

Example 2: the utility model provides a disposable static dust binding wiping cloth, its includes base course cloth 1, the unilateral of base course cloth 1 be provided with electrostatic adsorption dust storage layer 2, the thickness under non-pressure-bearing state is 3mm, base course cloth 1 be the PET non-woven fabrics, electrostatic adsorption dust storage layer 2 be PET fibre matte layer, electrostatic adsorption dust storage layer 2 pass through hot rolling structure 3 and base course cloth 1 fixed combination.

Furthermore, the hot rolling structures 3 are parallel hot rolling strips arranged at equal intervals, the width of the edge strips of the hot rolling structures 3 is 2mm, and the interval between the adjacent hot rolling strips is 18 mm.

Example 3: the utility model provides a cloth is cleaned to disposable static binding dust, its includes base course cloth 1, base course cloth 1 two sides all be provided with electrostatic absorption dust storage layer 2, the thickness under non-pressure-bearing state is 5mm, base course cloth 1 be the PP non-woven fabrics, 2 one side of electrostatic absorption dust storage layer be PP fibre matte layer, the opposite side is PET fibre matte layer, electrostatic absorption dust storage layer 2 pass through hot rolling structure 3 and base course cloth 1 fixed binding.

Further, the hot rolling structure 3 is a concentric circular frame arranged at equal intervals, that is, a circular ring similar to a corrugated ring with the same center, the same direction and different sizes, and the intervals between two adjacent circular rings are the same.

Furthermore, the width of the edge strip of the hot rolling structure 3 is 5mm, and the distance between adjacent circular rings is 25 mm.

The utility model discloses a disposable static dust binding wiping cloth makes the PP or the PET fibre on surperficial fibre matte layer melt through hot rolling technology knurling technology promptly, and then bonds compound with the non-woven fabrics layer of inlayer, and hot rolling structure 3 forms one bar or other patterns together. The utility model discloses a thereby disposable static adhesion dirt wiping cloth can adsorb impurity such as dust, batting, hair that the clean surface was waited for on ground through the friction production static. The surface velvet of the electrostatic adsorption dust storage layer 2 of the disposable electrostatic sticky dust wiping cloth can generate more impurity collecting spaces and has larger friction area, and the electrostatic adsorption dust storage cloth is easy to generate friction static and has stronger cleaning capability. The utility model discloses a PP fibre fine hair layer is as electrostatic absorption dust storage layer, and PP fibre is changeed and is bonded with base course cloth 1 through hot rolling process, has more firm cohesiveness, and then makes the fine hair layer on sticky dust wiping cloth surface layer more firm be connected with the base course, does not drop fibre fine hair during the use, and hot rolling structure 3 after the overheated rolling process of PP fibre has good compliance equally simultaneously, can not produce the scratch to wiping the surface because of the structural hardness is high; adopt PET fibre matte layer as electrostatic absorption dust storage layer, because PET fibre melting point is higher, fine hair is difficult for flattening when overheated rolling technology, even if consequently the matte layer at hot rolling structure 3 department also has the dust storage space, and then obtains bigger frictional area and rubbish storage space, improves the cleaning performance of wiping cloth.

The disposable electrostatic dust-binding wiping cloths obtained in the example 1 and the example 3 are used for standardized tests to test the service performance, and meanwhile, the same test is carried out by taking the commercial common cotton gauze base wiping cloth with the same specification as a comparative example, and the results are shown in the following table:

above technical feature constitutes the utility model discloses a best embodiment, it has stronger adaptability and best implementation effect, can increase and decrease unnecessary technical feature according to actual need, satisfies the demand of different situation.

Claims (7)

1. A disposable electrostatic dust-binding wiping cloth is characterized in that: including the base course cloth, the unilateral of base course cloth or two sides be provided with electrostatic adsorption dust storage layer, the base course cloth be non-woven fabrics structure, electrostatic adsorption dust storage layer be fibre matte layer, electrostatic adsorption dust storage layer pass through hot rolling structure and base course cloth fixed combination.

2. A disposable electrostatic dusting wipe as recited in claim 1, wherein: the base layer cloth is a PP or PET non-woven fabric, and the electrostatic adsorption dust storage layer is a PP fiber velvet layer or a PET fiber velvet layer.

3. A disposable electrostatic dusting wipe as recited in claim 1, wherein: the hot rolling structure is a hot rolling strip, or a square strip frame, or an annular strip frame.

4. A disposable electrostatic dusting wipe as claimed in claim 1 or 3, wherein: the hot rolling structure is parallel hot rolling strips arranged at equal intervals, or concentric square strip frames arranged at equal intervals, or concentric annular strip frames arranged at equal intervals.

5. A disposable electrostatic dusting wipe as claimed in claim 4, wherein: the width of the edge strips of the hot rolling structure is 1-5mm, and the distance between the adjacent hot rolling strips, the square strip frames or the annular strip frames is 10-30 mm.

6. A disposable electrostatic dusting wipe as recited in claim 1, wherein: the thickness of the base cloth is 1-4mm in a non-bearing state after the electrostatic adsorption dust storage layer is arranged on one side of the base cloth.

7. A disposable electrostatic dusting wipe as recited in claim 1, wherein: the thickness of the base cloth in a non-bearing state after the electrostatic adsorption dust storage layer is arranged on the two sides of the base cloth is 2-6 mm.

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