JP2015120108A - Nonwoven fabric filter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a nonwoven fabric filter by which perforation is easily and visually recognized.SOLUTION: A nonwoven fabric filter 11 is constituted by integrating a first sheet-like nonwoven fabric 21 and a second nonwoven fabric 22 in a state of facing each other on a sheet surface. The nonwoven fabric filter 11 is ventilated from the second nonwoven fabric 22 toward the first nonwoven fabric 21, and in which perforation 25 penetrating the first nonwoven fabric 21 and the second nonwoven fabric 22 is formed. The total thickness of the nonwoven fabric filter 11 is 10 mm-20 mm, ratio of thickness between the first nonwoven fabric 21 and the second nonwoven fabric 22 is 1:1-1.6:1, apparent density of the first nonwoven fabric is 1.25×10g/cm-1.4×10g/cm, and the apparent density of the second nonwoven fabric 22 is 0.7×10g/cm-1.0×10g/cm. Thus, it becomes easier to confirm the formed perforation 25 when the nonwoven fabric filter 11 is observed from the side of the first nonwoven fabric 21.

Description

  The present invention relates to a non-woven fabric filter, and more particularly to a non-woven fabric filter in which two different non-woven fabrics are integrated and a perforation penetrating through the integrated non-woven fabric is formed.

  FIG. 3 is a diagram schematically showing the configuration of the nonwoven fabric filter shown in Patent Document 1. As shown in FIG.

Referring to the drawing, the nonwoven fabric filter 61 is disposed on the nanofiber forming substrate 65, the meltblown nonwoven fabric 66 disposed on the filtration inflow side of the nanofiber forming substrate 65, and the filtration outflow side of the nanofiber forming substrate 65. The long-fiber nonwoven fabric 67 thus formed is integrated.
A nonwoven fabric filter formed by integrating nonwoven fabrics as shown in Patent Document 1 is used as, for example, a filter for filtration, utilizing the difference in characteristics of each nonwoven fabric. One example of such a filter for filtration is a non-woven fabric filter for a vent which is attached to a vent of a ventilator and removes particulate matter contained in the vent flow. In addition, in the nonwoven fabric filter for vents, since there are various types of vents, a perforation that penetrates the nonwoven fabric filter is formed so that the nonwoven fabric filter can be cut according to the size of the vents. There is a case.

JP 2009-28617 A

  However, even when the perforation is formed on the nonwoven fabric filter disclosed in Patent Document 1, the nonwoven fabric filter is not often configured on the assumption that the perforation is formed. May be difficult to see.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a nonwoven fabric filter in which two nonwoven fabrics are integrated, and the nonwoven fabric filter that allows easy perforation to penetrate. And

In order to achieve the above-mentioned object, the invention according to claim 1 is formed by integrating the sheet-like first nonwoven fabric and the sheet-like second nonwoven fabric with each other facing each other on the sheet surface, A non-woven fabric filter in which perforations passing through the first non-woven fabric and the second non-woven fabric are formed by aeration from the second non-woven fabric to the first non-woven fabric, and the total thickness of the non-woven fabric filter is 10 mm to 20 mm Yes, the ratio of the thickness of the first nonwoven fabric and the second nonwoven fabric is 1: 1 to 1.6: 1, and the apparent density of the first nonwoven fabric is 1.25 × 10 ⁻² g / cm ^3. 1.4 a × ¹⁰ -2 g / cm ^3, an apparent density of the second non-woven fabric is ^{0.7 × 10 -2 g / cm 3} ~1.0 × 10 -2 g / cm 3 as It is.

  If comprised in this way, it will become easy to confirm a perforation when seeing a perforation from the 1st nonwoven fabric side.

  According to a second aspect of the present invention, in the configuration of the first aspect of the invention, the first nonwoven fabric and the second nonwoven fabric are each formed from a polyethylene terephthalate fiber.

  If comprised in this way, it is excellent in heat resistance and cold resistance.

  According to a third aspect of the present invention, in the configuration of the first or second aspect of the present invention, the first nonwoven fabric and the second nonwoven fabric are integrated by a needle punch method.

  If comprised in this way, the intensity | strength of a nonwoven fabric filter will increase.

  As described above, the invention according to claim 1 is easy to use when cutting the nonwoven fabric filter with a perforation because it becomes easier to confirm the perforation when the perforation is viewed from the first nonwoven fabric side. Is good.

  The invention according to claim 2 is excellent in heat resistance and cold resistance in addition to the effect of the invention according to claim 1, and therefore, the versatility of the nonwoven fabric filter is improved.

  In addition to the effect of the invention of claim 1 or 2, the invention of claim 3 increases the strength of the nonwoven fabric filter, so the reliability of the nonwoven fabric filter is improved.

It is sectional drawing which showed roughly the external appearance shape of the nonwoven fabric filter by 1st Embodiment of this invention. It is a top view when the nonwoven fabric filter shown in FIG. 1 is seen from the 1st nonwoven fabric side. It is a figure which shows roughly the structure of the nonwoven fabric filter shown by patent document 1. FIG.

  FIG. 1 is a cross-sectional view schematically showing the external shape of a nonwoven fabric filter according to the first embodiment of the present invention, and FIG. 2 is a view of the nonwoven fabric filter shown in FIG. 1 when viewed from the first nonwoven fabric side. It is a top view.

  Referring to these drawings, the nonwoven fabric filter 11 is integrated by the needle punch method in a state where the sheet-like first nonwoven fabric 21 and the sheet-like second nonwoven fabric 22 face each other on the sheet surface. Configured. In the present embodiment, the nonwoven fabric filter 11 is configured to be attached to a vent of a ventilation device (not shown). Air flows from the second nonwoven fabric 22 side, and air flows from the first nonwoven fabric 21 side. By flowing out, the air flows from the second nonwoven fabric 22 toward the first nonwoven fabric 21.

  Since the first nonwoven fabric 21 and the second nonwoven fabric 22 are each made of 13 denier polyethylene terephthalate (PET) fibers, the nonwoven fabric filter 11 is excellent in heat resistance and cold resistance, so that versatility is improved. Yes. Moreover, it is comprised so that the intensity | strength of the nonwoven fabric filter 11 may increase by integrating the 1st nonwoven fabric 21 and the 2nd nonwoven fabric 22 with a needle punch method.

  Further, the non-woven fabric filter 11 has a perforation 25 formed in a circular shape and penetrated through the first non-woven fabric 21 and the second non-woven fabric 22 by inserting a cutting blade from the first non-woven fabric 21 side. Three eyes 26 and perforations 28 are formed in a similar manner. The perforation 25 and the perforation 26 are formed so that the nonwoven fabric filter 11 can be attached to vent holes (not shown) of different sizes by cutting at the portions. The perforation 28 is formed in order to form an opening for attaching the nonwoven fabric filter 11 to a ventilation device (not shown) by cutting at that portion.

In this Embodiment, the whole thickness (t) of the nonwoven fabric filter 11 is set in the range of 10 mm-20 mm. The thickness of the first nonwoven 21 _(t 1), the thickness of the second nonwoven fabric 22 _{(t 2)} is set within the ranges of 5 mm to 10 mm. The ratio of the thickness of the first nonwoven fabric 21 (t ₁ ) to the thickness of the second nonwoven fabric 22 (t ₂ ) is in the range of t ₁ : t ₂ = 1: 1 to 1.6: 1. Is set in.

Furthermore, the overall basis weight of the nonwoven fabric filter 11 ^is set in the range of ^{120g / m 2 ~200g / m 2} . Also, the basis weight of the first nonwoven 21 ^is set within a range of ^{70g / m 2 ~130g / m 2} . Also, the basis weight of the second nonwoven 22 ^is in the range of ^{50g / m 2 ~70g / m 2} .

Furthermore, when the apparent density = (weight of the nonwoven fabric) / (thickness of the nonwoven fabric), the apparent density of the first nonwoven fabric 21 is 1.25 × 10 ⁻² g / cm ^{3 to} 1.4 × 10 ⁻² g /. The apparent density of the second non-woven fabric 22 is set within a range of cm ³ and is set within a range of 0.7 × 10 ⁻² g / cm ^{3 to} 1.0 × 10 ⁻² g / cm ³ . .

  By setting the first nonwoven fabric 21 and the second nonwoven fabric 22 in this way, the nonwoven fabric filter 11 can easily confirm the perforation 25 when viewing the perforation 25 from the first nonwoven fabric 21 side. Become. Therefore, when cutting the nonwoven fabric filter 11 at the perforation 25, it is easy to use.

  In the above embodiment, each of the first nonwoven fabric and the second nonwoven fabric is composed of specific fibers. For example, the first nonwoven fabric and the second nonwoven fabric are composed of fibers such as polypropylene (PP), polyethylene (PE), and nylon. good.

  Moreover, in said embodiment, although a 1st nonwoven fabric and a 2nd nonwoven fabric are comprised from the same kind of fiber, these may be comprised from a different kind of fiber.

  Furthermore, in the above embodiment, the first nonwoven fabric and the second nonwoven fabric each have a specific denier number, but the first nonwoven fabric and the second nonwoven fabric each have a denier number of 3 deniers. It may be set within a range of ˜15 denier. Further, the first nonwoven fabric and the second nonwoven fabric may have different denier numbers.

  Furthermore, in the above embodiment, the first nonwoven fabric and the second nonwoven fabric are integrated by a specific method. For example, thermal bond (heat), spunlace (hydroentanglement method), chemical bond method, etc. May be integrated.

  Furthermore, in said embodiment, although the nonwoven fabric filter is set for the specific use, if it is used so that it may ventilate from the 2nd nonwoven fabric toward the 1st nonwoven fabric, as other uses Also good.

  Furthermore, in the above embodiment, the perforation is formed from the first nonwoven fabric side, but the same result can be obtained for the perforation visibility even if it is formed from the second nonwoven fabric side.

  Furthermore, in the above embodiment, the cutting blade to be inserted from the first nonwoven fabric side to form the perforation is not particularly limited, but considering the ease of confirmation of the perforation, The thickness is preferably set within a range of 0.5 mm to 1.5 mm, and more preferably set within a range of 0.5 mm to 1.0 mm.

  Furthermore, in the above embodiment, the continuous perforations have a specific shape, but these may have other shapes.

  Furthermore, in the above embodiment, the cuts and the connecting portions are alternately and continuously formed as the plurality of perforations, but one cut may be formed.

  The features of the present invention will be described more specifically with reference to the following examples and comparative examples. However, the scope of the present invention is not limited to the examples.

First, the structure and test method of the nonwoven fabric filters of Examples 1 to 3 and Comparative Examples 1 to 8 will be described.
(Nonwoven fabric filter: common for each sample)
As the first nonwoven fabric and the second nonwoven fabric, two sheet-shaped nonwoven fabrics each comprising a PET fiber and having a size of 15.5 cm × 15.5 cm were prepared. And the nonwoven fabric filter was obtained by integrating two nonwoven fabrics by the needle punch method. The thickness of the nonwoven fabric conforms to JIS (L) 1913.
(Perforation: common to each sample)
Using a cutting blade having a thickness of 0.75 mm, a perforation penetrating the first nonwoven fabric and the second nonwoven fabric was formed from the first nonwoven fabric side of the nonwoven fabric filter. The perforation has a circular shape in which the perforations are continuous in a plan view of the nonwoven fabric filter, the circumferential length of the perforation is 20 mm, and the distance between adjacent perforations on the circumference is 5 mm. It was.
(1) Ease of checking perforations (test method: common to each sample)
On the first non-woven fabric side of the non-woven filter, a fishing line (manufactured by Toray International Co., Ltd., trade name: Silver Scale (registered trademark) No. 0.6, standard diameter 0.128 mm) is located at the position where it is assumed that there are perforations or perforations. It was placed along the perforation sideways, and the formed perforation and the fishing line placed were examined to see which one was easier to check visually, and the results were evaluated in the following three stages. .
○: Perforation is easier to check than fishing line.
Δ: There is no difference in ease of confirmation between fishing line and perforation.
×: Perforation is harder to confirm than fishing line.
(2) Breathability as a nonwoven fabric filter for vents (Test method: common to each sample)
The air permeability of each sample was evaluated in the following two stages.
○: The air permeability for the vent is appropriate (aeration amount: 600 cc / cm ² · sec or more).
X: The air permeability for the air vent is inappropriate (aeration amount: less than 600 cc / cm ² · sec).
(3) Judgment (Judgment method: common to each sample)
By combining the results of (1) ease of perforation and (2) breathability as a nonwoven fabric filter for vents, the following 3 Judged by stage.
○ ... Suitable as a nonwoven fabric filter for vents.
Δ: Unpreferable as a cloth filter for vents.
X: Not suitable as a nonwoven fabric filter for vents.
These results are summarized in Table 1.

表１に示した結果から、不織布フィルターの全体厚み（ｔ）が１０ｍｍ〜２０ｍｍの範囲内であり、第１の不織布の厚み（ｔ_１）と第２の不織布の厚み（ｔ_２）との厚み比がｔ_１：ｔ_２＝１：１〜１．６：１の範囲内であり、第１の不織布のみかけ密度が１．２５×１０^−２ｇ／ｃｍ^３〜１．４×１０^−２ｇ／ｃｍ^３の範囲内であり、第２の不織布のみかけ密度が０．７×１０^−２ｇ／ｃｍ^３〜１．０×１０^−２ｇ／ｃｍ^３であれば（実施例１〜実施例３）、不織布フィルターは通気口用不織布フィルターとして適切であることが示された。

From the results shown in Table 1, the total thickness (t) of the nonwoven fabric filter is in the range of 10 mm to 20 mm, and the thickness between the thickness (t ₁ ) of the first nonwoven fabric and the thickness (t ₂ ) of the _second nonwoven fabric. The ratio is in the range of t ₁ : t ₂ = 1: 1 to 1.6: 1, and the apparent density of the first nonwoven fabric is 1.25 × 10 ⁻² g / cm ^{3 to} 1.4 × 10 ^−2. It is in the range of g / cm ³ , and the apparent density of the second nonwoven fabric is 0.7 × 10 ⁻² g / cm ^{3 to} 1.0 × 10 ⁻² g / cm ³ (Example 1 to Implementation) Example 3), the nonwoven filter was shown to be suitable as a nonwoven filter for vents.

  On the other hand, any one of the total thickness of the nonwoven fabric filter, the ratio of the thickness of the first nonwoven fabric and the second nonwoven fabric, the apparent density of the first nonwoven fabric, or the apparent density of the second nonwoven fabric is the above-described air flow range. When it remove | deviates from (Comparative example 1- Comparative example 8), it was shown that a nonwoven fabric filter is improper or not preferable as a nonwoven fabric filter for vents.

DESCRIPTION OF SYMBOLS 11 ... Nonwoven fabric filter 21 ... 1st nonwoven fabric 22 ... 2nd nonwoven fabric 25 ... Perforation 26 ... Perforation 28 ... Perforation In addition, the same code | symbol in each figure shows the same or an equivalent part.

Claims (3)

The sheet-like first nonwoven fabric and the sheet-like second nonwoven fabric are integrated in a state of facing each other on the sheet surface, and are ventilated from the second nonwoven fabric toward the first nonwoven fabric, A non-woven fabric filter having a perforation that penetrates the first non-woven fabric and the second non-woven fabric,
The overall thickness of the nonwoven fabric filter is 10 mm to 20 mm,
The ratio of the thickness of the first nonwoven fabric and the second nonwoven fabric is 1: 1 to 1.6: 1,
The apparent density of the first nonwoven fabric is 1.25 × 10 ⁻² g / cm ^{3 to} 1.4 × 10 ⁻² g / cm ³ ,
The apparent density of the second nonwoven fabric is a nonwoven fabric filter having a density of 0.7 × 10 ⁻² g / cm ^{3 to} 1.0 × 10 ⁻² g / cm ³ .   The nonwoven fabric filter according to claim 1, wherein each of the first nonwoven fabric and the second nonwoven fabric is formed from polyethylene terephthalate fiber.   The nonwoven fabric filter according to claim 1 or 2, wherein the first nonwoven fabric and the second nonwoven fabric are integrated by a needle punch method.

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