JP2016043103A - Deodorizing filter material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a deodorizing filter material in which oxidative and hydrolytic degradation of ascorbic acid and/or an ascorbic acid derivative is suppressed and simultaneously the amount of a binder to be used is reduced, when ceramic is stuck to a nonwoven fabric layer, so that the service life of the deodorizing filter material is prolonged and the amounts of the ascorbic acid and/or ascorbic acid derivative to be released are made larger.SOLUTION: The deodorizing filter material comprises a laminate which is obtained by inserting a porous material-containing layer between two nonwoven fabric layers and has three or more layers. The deodorizing filter material is obtained by sticking the ceramic, in which the ascorbic acid and/or ascorbic acid derivative are incorporated, to at least one nonwoven fabric layer of the two nonwoven fabric layers by using the acrylic resin binder.SELECTED DRAWING: None

Description

  The present invention relates to a filter deodorizing filter medium having a function of removing dust and odor and releasing an active ingredient into the air.

  The deodorizing filter medium of the present invention can be suitably used as a filter for an automobile cabin filter, an air purifier, an air conditioner or the like.

  Filters that remove dust and odor are common, but in recent years, filters with a function of releasing active ingredients into the air have been developed.

  A technique for carrying an active ingredient on a filter and releasing it into the air is disclosed in Patent Document 1 and the like.

  When air-conditioning a room or a vehicle interior with a room air conditioner, an automobile air conditioner, or the like, usually in the winter, outside air is taken in, heated to a desired temperature, and then heated into a room before being blown into the room. There is a known problem that the outdoor air in winter has low absolute humidity due to low temperature, and heating the air to a comfortable temperature lowers the relative humidity, drying the indoor air and feeling uncomfortable. .

  Generally, ascorbic acid and ascorbic acid derivatives are known to contribute to the formation of collagen that retains moisture in the skin when absorbed from the skin, and are known to have an action of reducing discomfort due to drying.

  Therefore, in order to eliminate the discomfort caused by drying of indoor air especially in winter, it has been studied to contain ascorbic acid or an ascorbic acid derivative in the filter medium. However, ascorbic acid and ascorbic acid derivatives are liable to be deteriorated by oxidation and hydrolysis, and therefore, there is a problem that the effect does not last for a long time when it is contained in the filter medium as it is.

  For the purpose of preventing deterioration due to oxidation and hydrolysis, Patent Document 2 discloses a technique for containing ascorbic acid or an ascorbic acid derivative in ceramics and reducing contact with air and moisture in the air.

  In order to support the ceramic containing ascorbic acid or ascorbic acid derivative on the filter medium, it is necessary to use a large amount of binder. This is because the ceramics are fixed so that they do not fall off the filter medium, and the contact between the ceramics and air and moisture in the air is reduced. Ascorbic acid and ascorbic acid derivatives contained in the ceramics are deteriorated by oxidation and hydrolysis. It is for suppressing.

  However, when loaded with a large amount of binder, the binder hinders the release of ascorbic acid and ascorbic acid derivatives, and there is a problem that an effect of reducing discomfort due to drying cannot be expected.

JP 2009-12572 A JP 2004-230040 A

  The present invention suppresses deterioration due to oxidation and hydrolysis of ascorbic acid and / or ascorbic acid derivatives, and at the same time, suppresses the amount of binder used for loading, and has a long life and ascorbic acid and / or ascorbic acid derivative release amount. The object is to realize a large amount of deodorizing filter medium.

As a result of intensive studies, the present inventors have finally completed the present invention. That is, the present invention is as follows.
(1) In a deodorizing filter medium comprising a laminate of three or more layers in which a layer containing a porous material is laminated between two nonwoven fabric layers, at least one nonwoven fabric layer of the two nonwoven fabric layers contains ascorbic acid and / or A deodorizing filter medium which is a non-woven fabric layer in which an ascorbic acid derivative-containing ceramic is attached with an acrylic resin binder.
(2) The deodorizing filter medium according to (1), wherein the porous body is activated carbon and / or silica gel.
(3) The deodorizing filter medium according to (1) or (2), wherein a weight ratio of the ceramic containing the ascorbic acid and / or the ascorbic acid derivative and the acrylic resin binder is 1: 1 to 10: 1.

  The deodorizing filter medium according to the present invention contains ascorbic acid and / or an ascorbic acid derivative, and has an advantage that the dry feeling of the skin can be suppressed by releasing it into the air and absorbing it from the skin.

  The deodorizing filter medium according to the present invention is a deodorizing filter medium composed of a laminate of three or more layers in which a layer containing a porous body is laminated between two nonwoven fabric layers. At least one of the two nonwoven fabric layers is a nonwoven fabric layer. A deodorizing filter medium in which a ceramic containing ascorbic acid and / or an ascorbic acid derivative is supported by an acrylic resin binder.

  In general, ascorbic acid is oxidized to dehydroascorbic acid, and further hydrolyzed to digetogulonic acid. Dehydroascorbic acid is reduced to ascorbic acid and used in the human body, whereas digetoguronic acid is considered to have no physiological activity. Therefore, in order to prevent deactivation due to hydrolysis of ascorbic acid, it can be said that it is desirable to stop supplying water so that hydrolysis does not occur.

  The deodorizing filter medium of the present invention has a layer containing a ceramic material that is a porous body, and thus can absorb the moisture in the vicinity of the ceramic material, thereby preventing inactivation due to hydrolysis of ascorbic acid and / or ascorbic acid derivatives. .

  Furthermore, a higher effect can be obtained by using an acrylic resin having a relatively high water absorption among the resins. In addition, the acrylic resin binder is suitable because it has a strong adhesive force with inorganic materials such as ceramics.

  As described above, since the deactivation of ascorbic acid and / or ascorbic acid derivatives is suppressed by the synergistic effect of the porous body and the acrylic resin binder, the amount of binder used can be reduced. Reducing the amount of binder used is not only advantageous in terms of production cost, but can also increase the effects of ascorbic acid and / or ascorbic acid derivatives.

  The weight ratio of the ceramic containing the ascorbic acid and / or ascorbic acid derivative and the binder is preferably ceramics: binder = 1: 1 to 10: 1. When the weight ratio of the binder is smaller than the above, it becomes difficult to fix the ceramic to the filter medium substantially, and when the weight ratio of the binder is larger than the above, the exposed portion of the ceramic is reduced, and ascorbic acid and / or ascorbic acid derivatives. The effect that can be obtained by reducing the amount of release becomes lower.

  The cabin filter according to the present invention is produced by adhering and drying a slurry obtained by mixing ceramic containing an ascorbic acid and / or an ascorbic acid derivative and a binder, and the viscosity of the slurry is 100 mPa · s or less.

  When the viscosity of the slurry is high, the binder coats the ceramic, so that the amount of released ascorbic acid and / or ascorbic acid derivative decreases.

  In order to carry ceramics with a small amount of binder, it is necessary to reduce the viscosity in order to spread the binder evenly.

  It is preferable that ascorbic acid and / or ascorbic acid derivatives are contained in ceramics, and ceramics containing ascorbic acid and / or ascorbic acid derivatives are further supported on the filter medium. Examples of a method for incorporating ascorbic acid and / or an ascorbic acid derivative into the ceramic include a method in which a solution containing ascorbic acid and / or an ascorbic acid derivative is attached to the ceramic and dried.

  The weight ratio of ascorbic acid and / or ascorbic acid derivative and ceramic is preferably ascorbic acid and / or ascorbic acid derivative: ceramics = 1: 10 to 10: 1, and preferably 1: 3 to 3: 1. More preferred. When the weight ratio of ascorbic acid and / or ascorbic acid derivative is smaller than the above, ceramics are contained more than necessary with respect to ascorbic acid and / or ascorbic acid derivative, resulting in economical waste, or ascorbine The amount of acid and / or ascorbic acid derivative may be too small, and if the weight ratio of ascorbic acid and / or ascorbic acid derivative is larger than the above, it cannot be retained in ceramics, and ascorbic acid and / or ascorbic acid derivative Stability may be reduced.

  The ceramic is preferably fine particles, and ascorbic acid and / or an ascorbic acid derivative is contained on the surface and / or inside of the fine particles. The average particle diameter of the fine particles is preferably 20 μm or less, and more preferably 15 μm or less. The lower limit is not particularly limited, but may be on the order of about 1 μm or even submicron (0.1 μm).

  Ceramics are silica-based colloidal silica, calcium silicate, ethyl silicate, sodium silicate, potassium silicate, lithium silicate, alumina-based calcium aluminate, β-alumina, boehmite, alumina sol, phosphate-based It is preferably selected from any of inorganic materials consisting of calcium phosphate, aluminum phosphate, and magnesium phosphate.

  Specific examples of ascorbic acid and / or ascorbic acid derivatives include ascorbic acid, ascorbyl phosphate Ca, ascorbyl phosphate Mg, and ascorbyl phosphate Na.

In the cabin filter which is one of the usage forms of the deodorizing filter medium of the present invention, the amount of ceramic supported on the filter medium is preferably 1 to 10 g / m ² . When the loading amount is less than 1 g / m ^2, it is difficult to obtain an effect, and when it is more than 10 g / m ² , practical use as a filter becomes difficult, such as an increase in ventilation resistance.

  The deodorizing filter medium of the present invention may simultaneously carry components other than ceramics and binder, such as antibacterial agents, flame retardants, and pigments for coloring.

  As the porous body of the present invention, activated carbon, silica gel, zeolite or the like can be used.

  The particle size of the porous material is preferably 100 to 1000 μm in the form of granules. When the particle diameter is smaller than 100 μm, the pressure loss becomes too high when processed into a filter medium, which is not preferable. On the other hand, when the particle diameter is larger than 1000 μm, the contact efficiency with air is deteriorated due to the small surface area, so that it is difficult to obtain the deodorizing effect.

It is preferable that the usage-amount of a porous body is 20-300 g / m < ² >. When the amount used is less than 20 g / m ^2, it is difficult to obtain a deodorizing effect, and when it is more than 300 g / m ² , practical use as a filter becomes difficult, such as an increase in ventilation resistance.

  Hereinafter, the present invention will be described in more detail with reference to examples. The characteristics shown in the examples were measured by the following methods.

(Evaluation of initial performance)
The filter medium cut to 60 mm × 390 mm was folded into a 10 mm high pleat and fixed inside a 60 mm × 60 mm × 10 mm frame to obtain an evaluation filter. An evaluation filter was attached to the center of a 60 mm × 60 mm × 500 mm duct, a fan was connected to one side of the duct, and air was passed through the evaluation filter at 1.3 m ³ / hour. The air that passed through the evaluation filter was connected to a bubbling container so that it could be sucked with a vacuum pump. In a bubbling container, 100 ml of pure water was put in advance, and the concentration of ascorbic acid dissolved in pure water after bubbling for 3 hours was determined as the reduction amount of DPPH (1,1-diphenyl-2-picrylhydrazyl) radical. Quantitative analysis was performed from the numerical method.

(Evaluation of life)
The filter medium was put in a glove box of an automobile for 3 months and allowed to stand, and the back material was collected and evaluated in the same manner as the initial performance evaluation, and the life was evaluated.

(Example 1)
-Filter medium 1:
An aqueous slurry containing ceramic particles containing ascorbyl magnesium phosphate (APM) and a styrene / acrylic binder was prepared, and was applied to a resin bonded nonwoven fabric with a basis weight of 40 g / m ² to be dried to obtain a filter medium 1. The amount of ceramics attached was 5 g / m ² , the amount of binder attached was 5 g / m ² , and the basis weight of the filter medium 1 after attachment was 50 g / m ² in total.
-Porous layer:
The basis weight of activated carbon is 15 g / m ² , the basis weight of silica gel is 30 g / m ² , and further, a thermoplastic resin powder that plays the role of adhering each layer (EVA resin powder basis weight 15 g / m ² , polyethylene resin powder basis weight 2 g / m m ²⁾ was a porous body layer that contains.
The porous body layer was sandwiched between the filter medium 1 and 25 g / m ² melt blown nonwoven fabric and heated and pressed at 120 ° C. to obtain a laminated integrated filter medium.

(Example 2)
A filter medium was obtained in the same manner as in Example 1 except that the amount of binder attached to the filter medium 1 was changed to ² g / m ² .

(Example 3)
A filter medium was obtained in the same manner as in Example 1 except that the amount of binder attached to the filter medium 1 was changed to 0.5 g / m ² .

(Comparative Example 1)
A filter medium was obtained in the same manner as in Example 1 except that the binder type of the filter medium 1 was changed to EVA.

(Comparative Example 2)
A filter medium was obtained in the same manner as in Example 1 except that the amount of binder attached to the filter medium 1 was changed to 6 g / m ² .

(Comparative Example 3)
A filter medium was obtained in the same manner as in Example 2 except that the activated carbon and silica gel of the porous body layer were not added.

(Comparative Example 4)
A filter medium was obtained in the same manner as in Example 2 except that the binder amount of the filter medium 1 was changed to 0.3 g / m ² . The obtained filter medium is in a state where the ceramic particles fall off only by touching by hand, and a filter medium sample could not be substantially produced, so evaluation was not performed.

  The evaluation results of each filter medium are shown in Table 1.

  The deodorizing filter medium of the present invention contains an ascorbic acid and / or an ascorbic acid derivative in the filter, released into the air, and absorbed from the skin, thereby having an advantage that the dry feeling of the skin can be suppressed. The contribution to industry is great.

Claims (3)

  In a deodorizing filter medium comprising a laminate of three or more layers in which a layer containing a porous material is laminated between two nonwoven fabric layers, at least one of the two nonwoven fabric layers is an ascorbic acid and / or ascorbic acid derivative. A deodorizing filter medium, which is a non-woven fabric layer in which ceramics containing bismuth are attached with an acrylic resin binder.   The deodorizing filter medium according to claim 1, wherein the porous body is activated carbon and / or silica gel.   The deodorizing filter medium according to claim 1 or 2, wherein a weight ratio of the ceramic containing the ascorbic acid and / or the ascorbic acid derivative and the acrylic resin binder is 1: 1 to 10: 1.