KR100364868B1 - A carbin air filter for car, and a process of preparing the same - Google Patents

Abstract

The present invention relates to a filter for cleaning indoor air of automobiles, in which a microfiber layer (3) made of microfibers of 1.0 denier or less, a web layer (2) made of fibers of 1 to 15 denier, and a base layer (1) are sequentially stacked. And the layers are integrally bound to each other by the entanglement between the fibers constituting them. The indoor air purification filter for automobiles of the present invention is manufactured by sequentially stacking the three layers and then spraying water at high pressure thereto. The filter of the present invention sequentially collects the pollutant according to the particle size over three stages, and in particular, the final stage of the microfibrous layer 1 collects all of the micropollutant source, and thus has excellent air purification performance.

Description

A carbin air filter for car, and a process of preparing the same}

The present invention relates to an automobile indoor air purification filter (hereinafter referred to as a "cabinet filter") and a method of manufacturing the same.

As a conventional Cabin Filter, a base layer 1 and a melt blown type microfiber layer 3 are stacked as shown in FIG. 2, and a spunbond bubble having a low weight to protect the microfiber layer thereon. The three-layered filter in which the manufactured cover sheet 4 is laminated has been mainly used. Conventional cabin filter was manufactured by laminating the substrate layer (1), the microfiber layer (3) and the cover sheet (4), and then subjected to ultrasonic treatment thereto. By the ultrasonic treatment, a part of the microfibers forming the microfiber layer 3 is partially adhered to the base layer 1 so that the microfiber layer 3 and the base layer 1 are integrated. . The base layer 1 serves to filter the pollutant with large particles while maintaining the basic properties of the filter, and the microfiber layer 3 mainly serves to filter the pollutant with small particles. However, in the case of the conventional cabin filter, there is a problem in that the filtering function of the entire filter is degraded as spot adhesive marks exist in the filter. In other words, the spot-bonded part of the filter surface does not perform the filtering function, and thus the filter function is degraded.

In addition, the conventional cabin filter has a problem that the replacement time of the filter is too short because it only filters the contaminant in the base layer (1) and the microfiber layer (3). Specifically, since the primary source of large particles in the substrate layer 1 is first filtered, the microfiber layer 3 simultaneously filters both medium-sized particles and fine particles, thereby increasing the amount of contaminants deposited on the microfibrous layer 3. , Thereby causing a problem that the replacement time of the microfiber layer 3 is shortened.

The present invention provides a three-layer cabin filter in which an intermediate web layer (2) capable of filtering the contaminant of medium size particles is laminated between the base layer (1) and the microfiber layer (3) in order to solve the conventional problems. To provide. In another aspect, the present invention provides a cabin filter in which each layer is bound to each other by the entanglement between the fibers, not the spot adhesion method so that the filtering efficiency of the cabin filter can be improved. In addition, the present invention provides a method for the base layer (1), the intermediate web layer (2) and the microfiber layer (3) to bind to each other by the entanglement between the fibers constituting them.

1 is a schematic diagram showing a cross-sectional state of the cabin filter of the present invention.

2 is a schematic diagram showing a cross-sectional state of a conventional cabin filter.

※ Explanation of Codes of Major Parts

1: Base material layer 2: Web (WEB) layer

3: microfiber layer 4: cover sheet

In order to achieve the above problems, the indoor air purification filter for automobiles includes a microfiber layer 3 made of microfibers of 1.0 denier or less, a web layer 2 made of fibers of 1 to 15 deniers, and a base layer 1. It is laminated | stacked sequentially, It is characterized by the said each layer being united integrally with each other by the entanglement phenomenon of the fiber which comprises these.

In addition, the cabin filter manufacturing method of the present invention is a nonwoven fabric, woven fabric, mesh or scrim (Scrim) base layer (1) selected, a web layer consisting of 1 to 5 denier fibers (2) and a microfiber layer consisting of fine fibers of 1.0 denier or less After stacking (3) sequentially, it is characterized in that the high pressure (Water) is sprayed on them to bind them.

Hereinafter, the present invention will be described in detail.

First, in the filter of the present invention, a microfiber layer 3 made of microfibers of 1.0 denier or less, a web layer 2 made of fibers of 1 to 15 denier, and a base material layer 1 are sequentially stacked.

The microfiber layer 3 is composed of short fibers or long fibers having a fine denier, and more preferably in the form of a melt blown. The microfibers constituting the microfiber layer 3 are polyolefin resin, polyamide resin, rayon or polyester resin. The microfibrous layer finally serves to filter the pollutant of the fine particles. If the fineness of the fine fibers exceeds 1.0 denier, it becomes impossible to efficiently collect the pollutants of the fine particles.

The web layer 2 is of a short fiber web (Web), that is, a short fiber web (Web) or spun bond type manufactured through a carding machine. The web layer 2 serves to trap the pollutant of medium-sized particles. When the fineness of the fibers constituting the web layer 2 exceeds 1 to 15 deniers, it becomes difficult to efficiently collect the pollutant of medium-sized particles.

On the other hand, the base layer (1) serves as a non-woven fabric, woven fabric, mesh or scrim (Scrim) and the like to collect the pollutant with large particles while maintaining the basic properties of the filter.

The indoor air purifying filter for automobiles of the present invention is characterized in that the base material layer 1, the web layer 2 and the fine fiber layer 3 are integrally bound to each other due to entanglement between the fibers constituting them. . As a result, the filtering efficiency is increased as compared with the conventional spot filter cabin filter.

The cabin filter of the present invention is manufactured by sequentially stacking the substrate layer 1, the web layer 2, and the microfiber layer 3 described above, and then spraying water of high press thereon. . Lastly, it is more preferable to perform electrostatic treatment on the manufactured filter. By water spraying, the fibers constituting each layer are entangled with each other. By this phenomenon, each of the layers is integrally bound.

The filter of the present invention collects the pollutant of the large particles in the substrate layer 1 in one step, collects the pollutant of the medium size particles in the web layer 2 in the next two steps, and finally the micropollution source in the microfiber layer 3. Will be captured. The result is a very good filtering effect and a long replacement cycle.

Hereinafter, the present invention will be described in more detail with reference to Examples and Comparative Examples. However, the present invention is not limited only to the following examples.

Example 1

Laminating sequentially the base layer (1) of the polyamide fabric, the carded web layer (2) composed of 5 denier polypropylene fibers, and the melt blown type microfiber layer (3) composed of 0.07 denier polyester long fibers Then, high pressure water (water) was sprayed on them to bind them integrally and then electrostatically processed to prepare a cabin filter. Comparative results of the filtering efficiency and filter replacement time of the manufactured cabin filter are shown in Table 1 below.

Example 2

The base layer 1 of the polyamide nonwoven fabric and the spunbond web layer 2 composed of 8 denier polyester fibers and the melt blown type microfiber layer 3 composed of 0.09 denier polypropylene long fibers were sequentially Laminated by, followed by an electrostatic treatment to produce a cabin filter. Comparative results of the filtering efficiency and filter replacement time of the manufactured cabin filter are shown in Table 1 below.

Comparative Example 1

The base layer (1) of the polyamide fabric and the melt blown type microfiber layer (3) composed of 1.2 denier polyester long fibers are laminated, and then ultrasonic waves are injected thereon to form the base layer (1) and the microfiber layer. Spot bonding (3) was partially carried out, and the cover sheet 4, which is a spunbond bubble of low weight, was laminated on the microfiber layer 3, and then electrostatically processed to prepare a cabin filter having a three-layer structure. Comparative results of the filtering efficiency and filter replacement time of the manufactured cabin filter are shown in Table 1 below.

Filter property evaluation result division Filtering Efficiency (Relative Evaluation) Filter replacement cycle (months) Example 1 Great 4 Example 2 Great 4 Comparative Example 1 Bad 2

The indoor air purification filter for automobiles of the present invention has no spot bonding marks in the filter, and filters them gradually over three stages according to the particle size of the pollutant, so that the filtering efficiency is high and the replacement period of the filter is extended.

Claims (8)

A microfiber layer 3 made of microfibers of 1.0 denier or less, a web layer 2 made of fibers of 1 to 15 deniers, and a base layer 1 are sequentially stacked, and the layers are entangled with each other. An indoor air purifying filter for automobiles, which is integrally bound to each other by a phenomenon. The filter for automobile indoor air purification according to claim 1, characterized in that the fine fibers constituting the fine fiber layer (3) are short fibers or long fibers. The filter for automobile indoor air purification according to claim 1, characterized in that the fine fiber layer (3) is in the form of a melt blown. The filter for cleaning indoor air of claim 1, wherein the fine fibers constituting the fine fiber layer (3) are polyolefin resin, polyamide resin, rayon or polyester resin. The filter for automobile indoor air purification according to claim 1, characterized in that the web layer (2) is a short fiber web or a spun bond. The filter for automobile indoor air purification according to claim 1, wherein the base layer (1) is a nonwoven fabric, a woven fabric, a mesh, or a scrim. Sequentially stacking a base layer (1) selected from a nonwoven fabric, a woven fabric, a mesh or a scrim, a web layer made of 1 to 5 denier fibers, and a microfiber layer 3 made of microfibers of 1.0 denier or less. , Here, the manufacturing method of the indoor air purification filter for automobiles, characterized in that the spray of high pressure (Water). The method of claim 7, wherein the high pressure water is sprayed to bind the fiber layers to each other and then electrostatically treated.