JP2017213118A - Deodorizing filter - Google Patents

Abstract

The present invention provides a deodorizing filter excellent in immediate effect and durability against aldehyde gas as a filter for an air conditioner, an air purifier, etc. for home use or business use.
SOLUTION: A deodorizing filter comprising an activated carbon mixed paper carrying a polyamine compound and a metal salt of a halide, wherein the polyamine compound is selected from polyallylamine, polydiallylamine, diethylenetriamine, tetraethylenepentamine, and hexamethylenediamine. A deodorizing filter in which the metal salt of the halide is at least one selected from calcium fluoride, sodium chloride, potassium iodide, potassium bromide, and magnesium chloride. It is preferable that the polyamine compound is supported on 50 to 280 mg per 1 g of the activated carbon mixed paper, and the halide metal salt is supported on 10 to 280 mg per 1 g of the activated carbon mixed paper. .
[Selection figure] None

Description

   The present invention relates to a filter that is used as a filter for home or commercial air conditioners, air purifiers, and the like, and in particular, filters that efficiently adsorb and purify aldehydes.

  Deodorant filters are used in various applications, and their deodorization methods are broadly classified into physical adsorption types that use physical adsorbents such as activated carbon and zeolite, and target gases are removed by adding chemical adsorbents. Chemical adsorption type, catalytic type that decomposes and removes malodorous substances by ozone, photocatalyst, metal phthalocyanine complex, etc., or combined type that uses this adsorption type and catalytic type together.

  Of these, for example, techniques using the excellent adsorption action of activated carbon are well known, but these adsorb bad odor components and are excellent in reducing the odor concentration in the short term, but bad odor The amount of components does not decrease, and is said to be a deodorizing method with a limited effective period. Recently, a catalyst type or a combination type that decomposes and removes malodorous substances is increasing.

  The applicant has applied for Patent Document 1 and discloses a deodorizing filter in which an activated carbon mixed paper is loaded with a cyclic saturated amine and a polycarboxylic acid. As a deodorizing effect, it is effective for all malodorous gases, and in particular, a tobacco odor can be efficiently deodorized.

JP 2014-113214 A

  Although the above technique exhibits great deodorizing performance, an aldehyde removal filter that exhibits a further excellent removal effect on aldehyde-based gas is required.

  The present invention has been made in view of such a technical background, and is used as a filter for household or commercial air conditioners, air purifiers, etc., and has a deodorizing effect that is excellent in immediate effect and durability against aldehyde-based gas. The purpose is to provide a filter.

   In order to achieve the above object, the present invention provides the following means.

[1] A deodorizing filter characterized in that a polyamine compound and a metal salt of a halide are supported on activated carbon mixed paper.

[2] The deodorizing filter according to item 1, wherein the polyamine compound is at least one polyamine compound selected from polyallylamine, polydiallylamine, diethylenetriamine, tetraethylenepentamine, and hexamethylenediamine.

[3] The consumption according to item 1 or 2, wherein the halide metal salt is a metal salt of at least one halide selected from calcium fluoride, sodium chloride, potassium iodide, potassium bromide, and magnesium chloride. Odor filter.

[4] The deodorizing filter according to any one of items 1 to 3, wherein the polyamine compound is supported in an amount of 50 mg to 280 mg per 1 g of the activated carbon mixed paper.

[5] The deodorizing filter according to any one of [1] to [4], wherein a supported amount of the metal salt of the halide is 10 mg to 280 mg supported per 1 g of the activated carbon mixed paper.

  In the invention of [1], the deodorizing filter is characterized by having activated carbon mixed paper loaded with a polyamine compound and a metal salt of a halide. A deodorizing filter can be obtained.

  In the invention of [2], since the polyamine compound is at least one polyamine compound selected from polyallylamine, polydiallylamine, diethylenetriamine, tetraethylenepentamine, and hexamethylenediamine, the amine reacts with the carboxyl group of the aldehyde. Aldehyde can be chemisorbed.

  In the invention of [3], the halide metal salt is a metal salt of at least one halide selected from calcium fluoride, sodium chloride, potassium iodide, potassium bromide, and magnesium chloride. It can promote the aldehyde adsorption reaction.

  In the invention of [4], since the amount of polyamine compound supported is 50 mg to 280 mg per gram of the activated carbon mixed paper, the pores of the activated carbon are blocked, and the physical adsorption of the activated carbon is less affected. Can be removed well.

  In the invention of [5], since the supported amount of the halide metal salt is 10 mg to 280 mg supported per 1 g of the activated carbon mixed paper, the pores of the activated carbon are blocked, and the physical adsorption of the activated carbon is less affected. Aldehyde can be removed efficiently.

  The deodorizing filter of the present invention will be described in detail. The deodorizing filter of the present invention is characterized in that a polyamine compound and a metal salt of a halide are supported on activated carbon mixed paper.

  The activated carbon mixed paper constituting the deodorizing filter of the present invention can be produced by a normal wet paper making method. For example, activated carbon and natural pulp are added to water to create a water slurry. The slurry is adjusted to a predetermined solid content concentration while stirring, and then a cationic polymer or an anionic polymer is added, and the resulting aggregate aqueous dispersion is formed into a sheet by a wet papermaking method using a paper machine and dried. To obtain activated carbon mixed paper. This activated carbon mixed paper is pressed using a heat press. This activated carbon mixed paper is processed into a honeycomb shape by a corrugating machine to obtain a filter shape. It is preferable that the aperture ratio of the filter be in the range of 65% to 80% from the total thickness by press working using a heat press machine, the height of the corrugated peak by the corrugating machine, and the corrugated interval (pitch).

  The honeycomb filter made of the activated carbon mixed paper serves as an adsorbent for malodorous gas due to the strong adsorption power of the activated carbon. As the activated carbon used in the present invention, activated carbon-based carbon porous bodies such as coconut shell activated carbon, petroleum pitch-based spherical activated carbon, activated carbon fiber, and wood-based activated carbon are preferably used because of their very high specific adsorption surface area. Of these, coconut shell activated carbon is preferable. Moreover, although the fiber used for this activated carbon mixed paper should just use fibrillated fibers, such as a natural pulp, polyolefin, and an acrylic fiber, a natural pulp is more preferable especially.

  The polyamine compound is preferably at least one polyamine compound selected from polyallylamine, polydiallylamine, diethylenetriamine, tetraethylenepentamine, and hexamethylenediamine. Among these, polyallylamine is more preferable. In the case of these polyamine compounds, the aldehyde can be chemisorbed by the lone pair of amine nitrogen atoms acting as a nucleophile on the carbonyl carbon of the aldehyde.

  The metal salt of the halide is preferably a metal salt of at least one halide selected from calcium fluoride, sodium chloride, potassium iodide, potassium bromide, and magnesium chloride. Among these, potassium iodide is more preferable. In the case of these metal salts of halides, the aldehyde adsorption reaction can be promoted by acting as a reducing agent.

  The amount of the polyamine compound supported is preferably 50 mg to 280 mg supported per 1 g of the activated carbon mixed paper. If it is less than 50 mg, the deodorizing effect cannot be obtained, and if it exceeds 280 mg, the pores of the activated carbon are blocked and the adsorption capacity is lowered, which is not preferable. Especially, it is more preferable that it is 60 mg-80 mg.

  The supported amount of the metal salt of the halide is preferably 10 mg to 280 mg supported per 1 g of the activated carbon mixed paper. If it is less than 10 mg, the deodorizing effect cannot be obtained, and if it exceeds 280 mg, the pores of the activated carbon are blocked and the adsorption capacity is lowered, which is not preferable. Especially, it is more preferable that it is 15 mg-60 mg.

  The method of supporting the metal salt of the halide and the polyamine compound on the activated carbon mixed paper is not particularly limited, but the method of spraying and supporting using a jetting machine, immersing the substrate in the liquid In particular, a method of immersing and supporting is preferable because it can be uniformly supported throughout.

  Moreover, if it is a range which does not inhibit the objective of this invention, other additives, such as a penetrant and an antifoamer, can be added as needed.

  Next, specific examples of the present invention will be described, but the present invention is not particularly limited to these examples.

<Example 1>
70 parts by weight of coconut shell activated carbon and 30 parts by weight of natural pulp were added to 100 parts by weight of water to prepare a water slurry. The obtained aggregate aqueous dispersion was formed into a sheet by a wet papermaking method using a paper machine and dried to obtain activated carbon mixed paper. The paper thickness was 0.17 mm, and the basis weight was 70 g / m ² . Next, 4% of polyallylamine as a polyamine compound, 1% of potassium iodide as a metal salt of a halide, and 95% of water are mixed, so that the concentration of polyallylamine is 4% and the concentration of potassium iodide is A 1% aqueous solution was made. Thereafter, the obtained activated carbon mixed paper was immersed in an aqueous solution having a polyallylamine concentration of 4% and a potassium iodide concentration of 1% for 3 minutes, followed by a drying step to obtain a deodorizing filter. The amount of polyamine compound supported per 1 g of the activated carbon mixed paper was 62.2 mg. The supported amount of halide metal salt per 1 g of the activated carbon mixed paper was 15.6 mg.

<Example 2>
Example except that polyallylamine 4%, potassium iodide 4% and water 92% were mixed to form an aqueous solution having a polyallylamine concentration of 4% and a potassium iodide concentration of 4%. In the same manner as in No. 1, a deodorizing filter was obtained.

<Example 3>
Example, except that polyallylamine 4%, potassium iodide 16%, and water 80% were mixed to form an aqueous solution having a polyallylamine concentration of 4% and a potassium iodide concentration of 16%. In the same manner as in No. 1, a deodorizing filter was obtained.

<Example 4>
A deodorizing filter was obtained in the same manner as in Example 1 except that the type of polyamine compound was set to polydiallylamine.

<Example 5>
A deodorizing filter was obtained in the same manner as in Example 1 except that the type of polyamine compound was set to diethylenetriamine.

<Example 6>
A deodorizing filter was obtained in the same manner as in Example 1 except that the type of the metal salt of the halide was set to potassium bromide.

<Example 7>
A deodorizing filter was obtained in the same manner as in Example 1, except that the metal salt of the halide was set to magnesium chloride.

<Comparative Example 1>
A deodorizing filter was obtained in the same manner as in Example 1 except that the mixed paper without activated carbon was used.

<Comparative example 2>
A deodorizing filter was obtained in the same manner as in Example 1 except that the polyamine compound was not included.

<Comparative Example 3>
A deodorizing filter was obtained in the same manner as in Example 1 except that the setting did not include the metal salt of the halide.

<Evaluation of immediate effect>
After putting a test piece (2 cm × 2 cm) from each evaluation deodorizing filter into a 3 L resin bag (manufactured by GL Science Co., Ltd., trade name: Smart Bag PA), 3 L of 200 ppm acetaldehyde gas is injected into the resin bag. The bag making was sealed. After sealing, measure the concentration of acetaldehyde (in the following calculation formula, “X” ppm) after 30 minutes,
Removal rate of acetaldehyde after 30 minutes (%) = {(200−X) ÷ 200} × 100
The removal rate (%) of acetaldehyde after 30 minutes was calculated from the above formula. As evaluation criteria, the removal rate after 30 minutes of “acetaldehyde” is 50% or more, “以上”, 40% or more and less than 50% is “◯”, 30% or more and less than 40% is “△”, and less than 30% is “×”. ”, And“ ○ ”or higher was accepted.

<Durability evaluation>
After putting a test piece (2 cm × 2 cm) from each evaluation deodorizing filter into a 3 L resin bag (manufactured by GL Science Co., Ltd., trade name: Smart Bag PA), 3 L of 200 ppm acetaldehyde gas is injected into the resin bag. The bag making was sealed. After sealing, measure the concentration of acetaldehyde (in the following calculation formula, “Y” ppm) after 120 minutes,
Removal rate of acetaldehyde after 120 minutes (%) = {(200−Y) ÷ 200} × 100
The removal rate (%) of acetaldehyde after 120 minutes was calculated from the above formula. As evaluation criteria, the removal rate after 120 minutes of “acetaldehyde” is 55% or more “以上”, 50% or more and less than 55% “◯”, 45% or more and less than 50% “Δ”, and less than 45% “×”. ”, And“ ○ ”or higher was accepted.

  As is clear from Table 1, the deodorizing filters of Examples 1 to 7 of the present invention were excellent in immediate effect and durability.

  On the other hand, since the mixed paper which does not contain activated carbon is used for the comparative example 1, the immediate effect and durability were inferior. Since Comparative Example 2 did not contain a polyamine compound, the immediate effect and durability were inferior. Since the comparative example 3 did not contain the metal salt of a halide, the immediate effect and durability were inferior.

  The deodorizing filter according to the present invention is used, for example, as a filter for home or commercial air conditioners, air purifiers, etc., and is particularly suitable as a filter for efficiently adsorbing and purifying aldehydes.

Claims (5)

   A deodorizing filter characterized in that a polyamine compound and a metal salt of a halide are supported on activated carbon mixed paper.   The deodorizing filter according to claim 1, wherein the polyamine compound is at least one polyamine compound selected from polyallylamine, polydiallylamine, diethylenetriamine, tetraethylenepentamine, and hexamethylenediamine.   The deodorizing filter according to claim 1 or 2, wherein the metal salt of the halide is a metal salt of at least one halide selected from calcium fluoride, sodium chloride, potassium iodide, potassium bromide, and magnesium chloride. .   The deodorizing filter according to any one of claims 1 to 3, wherein an amount of the polyamine compound supported is 50 mg to 280 mg per gram of the activated carbon mixed paper.   The deodorizing filter according to any one of claims 1 to 4, wherein a supported amount of the metal salt of the halide is supported by 10 mg to 280 mg per 1 g of the activated carbon mixed paper.