JPH11128329A - Method for displaying capturing condition of formaldehyde capturing materials, formaldehyde adsorbent, formaldehyde generation suppressing member and formaldehyde capturing section - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a formaldehyde capturing material or the like excellent in the characteristics to capture formaldehyde by using an ammonium salt. SOLUTION: The formaldehyde capturing material consists of the ammonium salt, such as ammonium amidesulfate and ammonium sulfate. The ammonium salt is a substance acquired as a result of studies by the inventors of this invention and has the excellent characteristic to capture the formaldehyde. If this ammonium salt is applied to interior materials, such as gypsum board and wall paper, coating materials, such as paint and wax, and interior furniture, the formaldehyde released into interior spaces may be easily captured and decreased. In addition, if the ammonium salt is applied to plywood material which emit the formaldehyde, the dissipation of the formaldehyde into the air is prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a formaldehyde trapping material, a formaldehyde adsorbing material, a formaldehyde generation suppressing member and a method for displaying a trapping state of a formaldehyde trapping portion for reducing air pollution caused by formaldehyde used in building materials and furniture. It is.

[0002]

2. Description of the Related Art Recently, VOCs (volatile organic compounds, hereinafter the same) which may adversely affect the human body are generated from building materials, furniture, etc., and the indoor air is polluted. In particular, among VOCs, formaldehyde (chemical formula: HCH
O) is contained in large amounts in phenolic, urea-based or melamine-based adhesives used in the manufacture of plywood materials and furniture used for flooring materials and the like, and is released in large amounts into indoor spaces. Therefore, it is a major substance that pollutes the indoor space.

[0003] In view of the above, in order to suppress or prevent indoor contamination by formaldehyde, conventionally,
The following measures have been proposed: (A) A method for producing building materials and furniture using an adhesive containing no formaldehyde or an adhesive containing little formaldehyde.
(B) A method of suppressing the emission of formaldehyde by applying some substance that adsorbs or fixes formaldehyde to plywood. (C) A method in which a sheet or wallpaper on which a substance that decomposes formaldehyde by a catalytic reaction is spread on a base fabric is provided on the indoor surface. (D) A method of removing formaldehyde in the air with activated carbon using an air purifier.
(F) A method of reducing indoor formaldehyde concentration by indoor ventilation.

[0004]

However, the above-mentioned solution has the following problems. That is, the adhesive of (A) which does not contain formaldehyde or has a low formaldehyde content is inferior in adhesive performance to the adhesive containing formaldehyde.
Since it is extremely expensive, there has been a problem that the cost is greatly increased. In addition, the existing buildings could not be implemented without extensive renovation work, and could not be considered a drastic solution. In addition, it can be said that the conventional formaldehyde-adsorbing or reaction-fixing substance (B) is not so excellent in formaldehyde-trapping effect and sustainability, or in the material effect and texture on furniture and building materials. Did not. Further, the substance decomposed by the catalytic reaction of (C) has a problem that another gaseous substance is newly generated as a decomposition product and released into the air. Also,
The activated carbon (D) physically adsorbs and removes formaldehyde, but is susceptible to temperature and does not have a very large adsorption capacity. In addition, activated carbon has problems in terms of color and processing, and it has been difficult to apply it to finishing materials such as wallpaper. In addition, the method (F) is a simple method, but the air-conditioning or the like must be used for ventilation.
There was a problem of causing a large energy loss.

[0005] For these reasons, there has been a demand for a new trapping substance which is excellent in formaldehyde trapping performance, has little influence on furniture and building materials, and can be easily applied to finishing materials and the like. .

[0006] In view of such circumstances, the present inventors have intensively researched and developed a substance capable of capturing formaldehyde. As a result, the ammonium salt has excellent properties with respect to capture of formaldehyde,
In addition, they have come to know that they have the property of trapping formaldehyde even in a solid state, not in an aqueous solution.

The present invention has been made based on such knowledge, and it is an object of the present invention to provide a formaldehyde scavenger, a formaldehyde adsorbent, a formaldehyde adsorbent, and a formaldehyde adsorbent which are excellent in formaldehyde scavenging ability by using an ammonium salt. It is an object of the present invention to provide a method for displaying a capturing state of a member and a formaldehyde capturing section.

[0008]

In order to achieve the above object, a formaldehyde scavenger according to the present invention is characterized in that the scavenger for trapping formaldehyde contained in air is formed of an ammonium salt. .

As described above, the ammonium salt is a substance which the present inventors have learned through their own research and development, and is a substance having excellent properties with respect to capturing formaldehyde. It has been confirmed that this ammonium salt undergoes a chemical reaction with formaldehyde and can be converted into a very stable compound. The formaldehyde scavenging material according to the present invention formed by the ammonium salt is configured to convert formaldehyde into a stable compound by the ammonium salt and to scavenge the compound. Thereby, formaldehyde contained in the air can be reduced, and indoor contamination by formaldehyde can be prevented in the indoor space.

The first formaldehyde adsorbent according to the present invention is characterized in that a formaldehyde trapping portion formed by the formaldehyde trapping material is provided in the interior material. If the interior material is provided with a formaldehyde capturing portion formed by the formaldehyde capturing material, the interior material can have an excellent formaldehyde capturing function using an ammonium salt. This makes it possible to install the formaldehyde adsorbent at low cost and very simply without much trouble.

[0011] In the second formaldehyde adsorbent according to the present invention, the formaldehyde trapping portion formed by the formaldehyde trapping material is provided in the indoor placement, so that the interior material and the interior material can be removed from the indoor placement. Similarly,
An excellent formaldehyde trapping function can be provided by the ammonium salt, and the formaldehyde adsorbing material can be installed very simply and at a low cost without much trouble as in the case of the interior material. In addition, it can be easily installed as needed, and can be easily replaced when its life has expired.

Also, in the third formaldehyde adsorbent according to the present invention, by adding the formaldehyde scavenger to the surface treatment material, the surface treatment material can be used to remove the interior material and the indoor arrangement. Similarly, it is possible to have an excellent formaldehyde trapping function by an ammonium salt, and, similarly to the case of the interior material and the indoor arrangement, by the surface treatment material to which the ammonium salt is added, without much trouble. The formaldehyde adsorbent can be provided at low cost and very simply.

[0013] In the fourth formaldehyde adsorbing material according to the present invention, the formaldehyde trapping portion formed by the formaldehyde trapping material is provided in a filter material used in a device for sucking and discharging air. ,
As in the case of the interior material and the like, the filter material can have an excellent formaldehyde trapping function using an ammonium salt. Since this filter material is used for a device that sucks and discharges air, the function of sucking and discharging air can capture formaldehyde contained in air very efficiently. .

Further, if an acidic substance neutralizing agent for neutralizing an acidic substance generated by trapping formaldehyde is added to the formaldehyde adsorbent, the acidic substance generated by trapping formaldehyde by the acidic substance neutralizing agent is added. To prevent the occurrence of inconveniences such as deterioration and discoloration due to the acidic substance.

Further, in the formaldehyde generation suppressing member according to the present invention, the member for generating formaldehyde is provided with a formaldehyde capturing portion for capturing the formaldehyde generated thereby, and the capturing portion is formed of an ammonium salt. Features. In this formaldehyde generation suppressing member, the formaldehyde trapping portion for trapping formaldehyde generated thereby is formed of an ammonium salt, so that formaldehyde generated thereby can be trapped very effectively, and formaldehyde can be suppressed in the air by suppressing formaldehyde. Can be prevented from being released. As a result, generation of formaldehyde in the formaldehyde generation suppression member can be suppressed, and indoor contamination due to formaldehyde can be prevented.

Further, if an acidic substance neutralizing agent for neutralizing the acidic substance generated by trapping formaldehyde is added to the formaldehyde capturing section of the formaldehyde generation suppressing member, the acidic substance generated by trapping formaldehyde is added. By the neutralization, the occurrence of problems such as deterioration and discoloration due to acidic substances can be prevented.

[0017] On the other hand, in the method for displaying a capturing state of a formaldehyde capturing section according to the present invention, the capturing section formed so as to capture formaldehyde with an ammonium salt includes:
An indicator which detects an acidic substance generated by the capture of the formaldehyde and develops a color is added to display a capture state of the capture section. In this method,
By adding an indicator that detects and generates a color by detecting an acidic substance generated by capturing formaldehyde, the formaldehyde capturing unit captures formaldehyde with the ammonium salt to the formaldehyde capturing unit formed so that formaldehyde can be captured by the ammonium salt. The indicator can be visually recognized from the outside by coloring. Thereby, it is possible to know how much the formaldehyde capturing unit has captured the formaldehyde,
The life and the like of the formaldehyde trap can be checked.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a formaldehyde trapping material, a formaldehyde adsorbing material, a formaldehyde generation suppressing member and a trapping status display method of a formaldehyde trapping portion according to the present invention will be described with reference to the accompanying drawings.

First, an embodiment of the formaldehyde scavenger according to the present invention will be described. The formaldehyde scavenger according to the present embodiment is formed of an ammonium salt. As described above, this ammonium salt is a substance obtained by the present inventors' own research and development, and undergoes a chemical reaction with formaldehyde at room temperature to convert it into an extremely stable compound, thereby forming formaldehyde. Is a substance that can capture high performance. Examples of the ammonium salt include ammonium amidosulfate [NH ₄ SO ₃ NH ₂ ], ammonium sulfate [(NH ₄ ) ₂ SO ₄ ], and ammonium nitrate [NH
₄ NO ₃ ]. These ammonium salts are composed of colorless crystals, are stable at room temperature, do not undergo natural weathering, and are safe and easy to handle because they are not poisons or deleterious substances. Specifically, for example, a chemical reaction occurs with formaldehyde as shown below. Ammonium sulfate [(NH ₄ ) ₂ S
O ₄ ] <Chemical reaction formula 1> 2 (NH ₄ ) ₂ SO ₄ + 6HCHO → C ₆ H ₁₂ N ₄ +2
H ₂ SO ₄ + 6H ₂ O ammonium salt was added to ammonium amide sulfate [NH ₄ S
O ₃ NH ₂ ] <Chemical reaction formula 2> 4NH ₄ SO ₃ NH ₂ + 6HCHO → C ₆ H ₁₂ N ₄ +4
HSO ₃ NH ₂ + 6H ₂ O

As a result of these reactions, HCHO (formaldehyde) is converted into C, which is known as stable and colorless crystals.
It is converted into ₆ H ₁₂ N ₄ (hexamethylenetetramine). As described above, in the formaldehyde capturing material according to the present embodiment, the ammonium salt converts formaldehyde into an extremely stable compound, and captures formaldehyde contained in the air.

Hereinafter, a test performed to confirm the formaldehyde trapping effect of the ammonium salt will be described. In this test, three plywood materials (size: 450 mm x 450 mm x 12 mm) that generate formaldehyde were used.
Each of the chambers A, B, and C was placed under predetermined conditions, and after a lapse of a predetermined time, the formaldehyde concentration in each of the chambers A, B, and C was measured. In this test, ammonium amidosulfate was used as the ammonium salt. Ammonium amidosulfate is converted to an aqueous solution, applied once to one of the three plywood materials, allowed to dry naturally, provided in chamber B, and also made into an aqueous solution to impregnate paper. And then naturally dried and attached, and as a wallpaper, a chamber C containing a plywood material not coated with the ammonium amidosulfate.
On the inner wall surface. The area of the paper used here was set to about half of one side of the plywood material. And
The remaining one chamber A was not coated with ammonium amidosulfate or the like. Thereafter, the insides of the chambers A, B, and C were sealed, and after a lapse of a predetermined time, the concentration of formaldehyde in the chambers A, B, and C was measured.
FIG. 1 shows the test results. In the test, the chambers A, B, and C each had 70
One having a volume of liter was used, and the predetermined time was 20 hours.

As shown in FIG. 1, the results obtained were that the concentration of formaldehyde was significantly lower in chambers B and C to which ammonium amidosulfate was applied than in chamber A to which nothing was applied. From this,
It is considered that, in the chamber B, formaldehyde generated from the plywood material was suppressed by ammonium amidosulfate applied to the plywood material. Further, in chamber C, it is considered that formaldehyde generated from the plywood material was captured and absorbed by ammonium amidosulfate provided by impregnating the wallpaper stuck to the inner wall surface of chamber C. Therefore, it can be said that ammonium amidosulfate has a property of suppressing or trapping formaldehyde.

Next, a description will be given of a test conducted for examining the formaldehyde trapping effect of other ammonium salts and the like. In this test, dilute aqueous solutions of a certain concentration were prepared from various test compounds containing ammonium salts, impregnated with gauze, squeezed lightly and dried, and then each gauze was placed in a plastic tube. Filled to make a test filter. A gas bag is attached to one end of the test filter, and the air in the gas bag is adjusted to a formaldehyde concentration of 2 to 3 ppm. Then, the air containing formaldehyde is forcibly exhausted from the gas bag and passes through each test filter. Then, the air was collected, and the formaldehyde concentration after the air was collected was measured. In this test, as test compounds, ammonium amide sulfate, ammonium nitrate, ammonium chloride, ammonium sulfate, ammonium alum,
Ammonium persulfate, ammonium phosphate, sulfamic acid and sodium sulfite were used. FIG. 2 is a graph showing various test compounds and measured values of the formaldehyde concentration of the air collected by permeating the gauze to which these compounds were applied. FIG. 2 also shows, as comparative examples, a case where gauze is not permeated and a case where gauze to which no test compound is applied is used.

As shown in FIG. 2, various ammonium salts such as ammonium nitrate, ammonium chloride, ammonium sulfate and the like have a low formaldehyde concentration and an effect of trapping formaldehyde similarly to the above-mentioned ammonium amide sulfate. You can check.

In the formaldehyde scavenger according to the present embodiment, the ammonium salt may be directly constituted in a solid state, for example, in the form of a powder or a lump, or the ammonium salt may be in the form of a liquid such as an aqueous solution. It may be formed by applying to a substrate. As the substrate used here, for example, a substrate formed of a porous solid such as activated carbon or silica gel is used, and it is preferable that the ammonium salt is applied by impregnation. The property of trapping formaldehyde is not lost even when the ammonium salt changes from a liquid state to a solid state by drying or the like. When the formaldehyde scavenger is in the form of powder or lump, it is preferable that the scavenger be housed in a gas-permeable container to facilitate the implementation. Further, the formaldehyde scavenger is preferably installed at a position close to the formaldehyde generation source.

As has been confirmed in the above test, the formaldehyde-trapping material according to the present embodiment is formed of an ammonium salt, so that formaldehyde contained in the air can be trapped and reduced very efficiently. Therefore, formaldehyde contained in the air in the indoor space can be captured and reduced, and indoor contamination due to formaldehyde can be reduced.

Next, first to fourth embodiments of the formaldehyde adsorbent according to the present invention will be described. The formaldehyde adsorbent according to the first to fourth embodiments uses a formaldehyde scavenger formed by the ammonium salt.

<< First Embodiment >> The formaldehyde adsorbing material according to the first embodiment has a formaldehyde trapping portion formed by the formaldehyde trapping material provided in an interior material. Here, the formaldehyde capturing portion is formed by the formaldehyde capturing material,
By the ammonium salt of this formaldehyde scavenger,
It captures formaldehyde in the air. On the other hand, examples of the interior material include various boards, such as a plaster board, provided for the purpose of finishing, decoration, and the like in a room, or a wallpaper material made of, for example, a paper material or a cloth material.
Here, in providing the formaldehyde trapping part to the interior material, a thin layer state, a filling state or the like on the outer surface or inside of the interior material by various methods such as applying or impregnating a liquid formaldehyde trapping material, for example. Provided in an impregnated state. Then, if necessary, after coating or impregnation, a drying treatment is performed by natural drying or the like. As described above, if the formaldehyde trapping portion is provided in the interior material, the interior material can have an excellent formaldehyde trapping function, and the formaldehyde adsorbing material can be installed very easily at low cost without much trouble. can do.

<Second Embodiment> A formaldehyde adsorbing material according to a second embodiment has a formaldehyde trapping portion formed by the formaldehyde trapping material provided in an indoor arrangement. Here, the formaldehyde trapping portion is formed of the formaldehyde trapping material and traps formaldehyde with an ammonium salt, similarly to the interior material. On the other hand, as indoor arrangements, for example, indoor furniture such as a wardrobe, a desk, a chair, a sofa, or indoor equipment such as a cushion, a cushion, a stuffed toy, or a blind, a curtain, etc. Indoor interior goods and the like can be mentioned. Indoor arrangements, such as cushions and cushions,
In the case of a stuffed animal, a curtain, or the like, the cloth or panya (batting) or the like made of these materials is impregnated with a liquid formaldehyde trapping material such as an aqueous solution and dried to form a formaldehyde trap. Provide. In addition, when the indoor object is another such as a wardrobe, a desk, a chair, or a blind, for example, the outer surface of the indoor object is formed by various methods such as impregnation or application of a liquid formaldehyde trapping material. Alternatively, a thin layer, a filled state, or an impregnated state is provided inside. Then, if necessary, after impregnation or application, a drying treatment is performed by natural drying or the like.

When the formaldehyde trapping portion is provided in the indoor object as described above, an excellent formaldehyde trapping function can be provided similarly to the interior material.
The formaldehyde adsorbing material can be installed at low cost and very simply without much trouble. In addition, when the temperature is high and the formaldehyde is likely to be generated, such as in summer, it can be easily installed as needed, and when the life has expired, replacement can be easily performed.

Hereinafter, a test performed to confirm the formaldehyde trapping effect when a formaldehyde trapping portion is provided on furniture will be described. This exam is
Formaldehyde trapping units are provided inside cabinets and drawers provided on furniture, and after a predetermined time has elapsed, air is sampled from each interior and the formaldehyde concentration in the air is measured, and cabinets without formaldehyde trapping units are provided. And withdrawals.

The furniture used here is a built-in furniture made of decorative plywood of a new apartment house as shown in FIG.
Double door cabinet (accommodation size: 70cm in width X 60cm in height)
× 55 cm deep, 1 and 2, and drawers (accommodation size:
(Width 70 cm x height 18 cm x depth 55 cm). In providing the formaldehyde capturing section, the paper material is impregnated with a dilute aqueous solution of ammonium amidosulfate and air-dried, and the captured paper A (60 cm × 60 c
m), a capture paper B (60 cm × 50 cm) was prepared. Then, the trapping paper A is temporarily fixed in the form of a wallpaper on the back plate surface at the front rear in the closet 2 and one sheet is set, and the trapping paper B is set in the drawer 3 so as to be laid on the bottom surface, and one sheet is set. On the other hand, cupboard 1
The inside of the drawer 4 was not provided with the capturing paper as described above. In addition, in order to perform sampling, thin tubes were respectively extended from inside the cabinets 1 and 2 and the drawers 3 and 4 and attached, and the ends of the tubes were closed until sampling. After about 16 hours have passed since the setting of the trapping papers A and B, air was sampled from the interior of the cabinets 1 and 2 and the drawers 3 and 4 through the tubes, respectively.
The formaldehyde concentration in 4 was measured. The analysis is
The measurement was performed by the AHMT colorimetric method. The test results are shown below.

<< Results of Measurement of Formaldehyde Concentration >> Closet 1 (without capturing paper): 0.35 [ppm] Closet 2 (with capturing paper): 0.029 [ppm] Drawer 3 (with capturing paper): 0.020 [ppm] Drawer 4 (without capturing paper): 1.06 [ppm]

From the above, it was confirmed that formaldehyde can be trapped by providing a formaldehyde trapping portion made of an ammonium salt on furniture.

Third Embodiment A formaldehyde adsorbent according to a third embodiment is obtained by adding the formaldehyde scavenger to a surface treatment material. Here, the surface treatment material is, for example, a paint, a wax, or the like, which is applied to a solid surface in a thin layer or the like for the purpose of finishing, decoration, protection, or the like. The surface treatment material may be in a powder form or a solid form, including a liquid form. The addition of the formaldehyde scavenger to the surface treatment material is carried out by mixing or dissolving the powder or liquid formaldehyde scavenger. As described above, if the formaldehyde scavenging material is added to the surface treatment material, the surface treatment material can have an excellent formaldehyde scavenging function, and the surface treatment material can be applied at low cost without much trouble. Thus, the formaldehyde adsorbing material can be provided extremely easily. In addition, when the life is reached, it can be easily provided later by coating or the like.

<< Fourth Embodiment >> A formaldehyde adsorbing material according to a fourth embodiment has a formaldehyde trapping portion provided on a filter material used in a device for sucking and discharging air. . Here, the formaldehyde trapping part is formed of the formaldehyde trapping material, and traps formaldehyde with an ammonium salt, similarly to the interior material and the indoor arrangement. On the other hand, a device that sucks and discharges air is, for example, an air purifier, an air conditioner such as a home air conditioner, a vacuum cleaner, a fan heater, and the like. It is a device that discharges and circulates. The filter material used in this device is provided in, for example, an air flow passage of the device for the purpose of removing dust, dust, and the like from the air taken in by the device, and allows the air to pass therethrough. And made of, for example, paper or nonwoven fabric. In providing the formaldehyde trapping part in such a filter material, for example, by impregnating or applying a liquid formaldehyde trapping material, the thin layer state, the filling state, or the impregnation state is provided on the outer surface or inside of the indoor arrangement. I do. Also, it may be superimposed on a normal filter material, for example, on top of it. If the formaldehyde trapping portion is provided in a filter material used for a device that sucks and discharges air, excellent formaldehyde trapping can be achieved. A function can be provided, and the formaldehyde adsorbing material can be installed very simply and at low cost without much trouble. In addition, a device that sucks in and discharges air can capture and remove formaldehyde from the air very efficiently.

In the formaldehyde adsorbing materials according to the first to fifth embodiments, when formaldehyde is captured, an acidic substance (H ₂ SO ₄ or HSO _{4) is} secondarily generated by a chemical reaction between formaldehyde and an ammonium salt. ₃ N
H _2, etc.) is generated, there is a problem occurs a fear of deterioration such as formaldehyde adsorbent in its influence. Therefore,
If necessary, an acidic substance neutralizing agent for neutralizing the acidic substance is added to the formaldehyde adsorbent. Here, as the acidic substance neutralizing agent, for example, an alkaline substance, as well as a substance mixed with calcium carbonate or the like is used. If such an acidic substance neutralizing agent is added, the acidic substance can be removed by neutralization, and problems such as deterioration can be prevented.

In addition, in the formaldehyde adsorbent according to the first to fifth embodiments, when extreme drying occurs, a humectant such as glycerin is used in combination.

Next, an embodiment of the formaldehyde generation suppressing member according to the present invention will be described. In the formaldehyde generation suppressing member according to the present embodiment, a formaldehyde generation member is provided on a member that generates formaldehyde, and the formaldehyde generation portion is formed of an ammonium salt. Here, the member that generates formaldehyde is, for example, formed or formed of a material containing a substance caused by the generation of formaldehyde, such as an adhesive based on phenol, urea, or melamine, thereby forming formaldehyde. Plywood, furniture, and other members that may generate methane as a gas. On the other hand, the formaldehyde capturing section captures formaldehyde generated from the formaldehyde generation suppressing member. The formaldehyde capturing portion is formed of an ammonium salt, and captures the formaldehyde by converting formaldehyde into an extremely stable compound as described above. In providing the formaldehyde trapping part in the formaldehyde generation suppressing member, the ammonium salt is made into a liquid state by, for example, an aqueous solution or the like, and is provided on the surface layer portion or inside of the formaldehyde generation suppressing member by impregnation or coating. By capturing the formaldehyde by the formaldehyde capturing unit,
In the formaldehyde generation suppressing member, the generated formaldehyde is prevented from being released into the air, so that indoor pollution due to formaldehyde can be prevented.

Further, acidic substances (H ₂ SO ₄ and HSO ₃ NH) generated by trapping formaldehyde
₂ ) is added to the formaldehyde trapping part of the formaldehyde generation suppression member to neutralize the acidic substance generated by trapping formaldehyde. Can be prevented from occurring. At this time, as the acidic substance neutralizing agent, for example, an alkaline substance or a substance containing calcium carbonate or the like is used.

Next, a description will be given of an embodiment of a method for displaying a capturing state of a formaldehyde capturing section according to the present invention.
In the method for displaying the capturing status of the formaldehyde capturing unit according to the present embodiment, an indicator that detects an acidic substance generated by capturing the formaldehyde and adds a color to a capturing unit formed so as to capture formaldehyde with an ammonium salt is added. Then, the capturing status of the capturing unit is displayed. In this method, the trapping portion formed by the ammonium salt generates an acidic substance (H ₂ SO ₄ , HSO ₃ NH _2, etc.) when trapping formaldehyde.
By detecting this with an indicator and displaying it externally by coloring, it is possible to know the capturing status of the capturing unit. As the indicator, for example, a pH indicator or the like is used. The indicator may be one that develops a color that changes the existing color. In addition, this indicator may be one that develops color when the generated acidic substance reaches a predetermined amount. In particular, when an indicator that changes color according to the pH is used, it is possible to know the generation amount of the acidic substance and to know the degree of capture of formaldehyde. Thus, in this method, the life and the like of the formaldehyde trapping portion can be checked. For example, when the method is applied to the formaldehyde trapping material or the like, the replacement time and the like can be known.

[0042]

According to the formaldehyde scavenger according to the present invention as described in the embodiments of the present invention, since the formaldehyde scavenger is formed of an ammonium salt, the formaldehyde contained in the air is extremely stable. Can be captured by converting to
In the indoor space, indoor contamination due to formaldehyde can be reduced. Formaldehyde contained in the air can be reduced.

According to the first formaldehyde adsorbing material of the present invention, a formaldehyde trapping portion is provided on the interior material by the formaldehyde trapping material, so that the interior material can have a formaldehyde trapping function.
As a result, a high-performance formaldehyde adsorbing material can be installed easily at low cost and without much trouble.

Further, in the second formaldehyde adsorbing material according to the present invention, the formaldehyde trapping portion is provided in the indoor arrangement by the formaldehyde trapping material, so that the formaldehyde trapping function is provided in the indoor arrangement similarly to the case of the interior material. Can be added, and since the present invention is applied to the indoor arrangement, it is possible to make it easy to handle at low cost without much trouble. In particular, it can be easily installed as needed, and can be replaced as needed when its life has expired.

Further, in the third formaldehyde adsorbent according to the present invention, by adding the formaldehyde-trapping material to the surface-treating material, the surface-treating material is provided with a formaldehyde-trapping function, so that it is easy and simple. Moreover, the formaldehyde adsorbent can be provided at low cost.

Further, in the fourth formaldehyde adsorbing material according to the present invention, the formaldehyde trapping material is provided by the formaldehyde trapping material on a filter material used in a device for inhaling and discharging air, so that the air in the device can be reduced. By utilizing the function of inhaling and discharging air, formaldehyde contained in air can be captured extremely efficiently.

Further, by adding an acidic substance neutralizing agent to these formaldehyde adsorbents, it is possible to neutralize and remove acidic substances generated by formaldehyde trapping of the formaldehyde adsorbent, and to cause deterioration or discoloration due to the acidic substances. Can be prevented from occurring.

Further, according to the formaldehyde generation suppressing member according to the present invention, the formaldehyde trapping portion formed by the ammonium salt is provided, so that the generated formaldehyde can be suppressed and prevented from being released into the air. Thus, it is possible to prevent indoor pollution by the formaldehyde generation suppressing member. Further, if an acidic substance neutralizing agent that neutralizes the acidic substance is added to the formaldehyde capturing section, the acidic substance generated by capturing the formaldehyde is neutralized, and the acidic substance causes a problem such as deterioration or discoloration. The occurrence can be prevented.

On the other hand, in the method for displaying the capturing state of the formaldehyde capturing section according to the present invention, an indicator which detects an acidic substance and develops a color is added to the formaldehyde capturing section formed by an ammonium salt, thereby forming a formaldehyde capturing section. When the unit captures formaldehyde, it can be known, and the capture status can be visually recognized from the outside. As a result, the life of the formaldehyde trapping section can be checked, and the replacement time and the like can be known.

[Brief description of the drawings]

FIG. 1 is a graph showing the results of a test performed to examine the formaldehyde trapping effect of the ammonium salt according to the present invention.

FIG. 2 is a graph showing the results of a test performed to examine the formaldehyde trapping effect of various test compounds containing an ammonium salt according to the present invention.

FIG. 3 is a front view showing furniture used in a test for confirming the effect of capturing ammonium by the ammonium salt according to the present invention.

Claims (9)

[Claims] 1. A formaldehyde scavenger, wherein a scavenger for trapping formaldehyde contained in air is formed of an ammonium salt. 2. A formaldehyde adsorbent, wherein a formaldehyde trapping part formed by the formaldehyde trapping material according to claim 1 is provided on an interior material. 3. A formaldehyde adsorbing material, wherein a formaldehyde trapping portion formed by the formaldehyde trapping material according to claim 1 is provided in a room. 4. A formaldehyde adsorbent, wherein the formaldehyde scavenger according to claim 1 is added to a surface treatment material. 5. A formaldehyde adsorbent, wherein a formaldehyde trapping part formed by the formaldehyde trapping material according to claim 1 is provided on a filter material used in a device for sucking and discharging air. 6. The formaldehyde adsorbent according to claim 2, wherein an acidic substance neutralizing agent for neutralizing an acidic substance generated by trapping the formaldehyde is added to the formaldehyde adsorbing material. Formaldehyde adsorbent. 7. A formaldehyde generation suppressing member characterized in that a member for generating formaldehyde is provided with a formaldehyde trapping portion for trapping formaldehyde generated thereby, and the trapping portion is formed of an ammonium salt. 8. The formaldehyde generation suppressing member according to claim 7, wherein an acidic substance neutralizing agent for neutralizing an acidic substance generated by capturing the formaldehyde is added to the formaldehyde capturing section. 9. An indicator which detects an acidic substance generated by trapping formaldehyde and adds a color indicator to a trapping portion formed so as to trap formaldehyde with an ammonium salt, and displays a trapping state of the trapping portion. A method for displaying a capturing state of a formaldehyde capturing section, comprising: