JP2002115957A - Freezing refrigerator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a freezing refrigerator which can preserve food sanitarily and deliciously by circulating minus ions within itself, thereby performing the sterilization of bacteria and the deodorization. SOLUTION: Composite material which discharges minus ions is constituted of an ion emitting natural ore, an infrared ray emitting substance, and silicon, and this composite material is arranged as minus ion emitting material 14 within a refrigerator 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator which can increase the concentration of negative ions in a refrigerator. More specifically, the present invention relates to a refrigerator in which a composite material made of ion-emitting natural ore is mounted in a refrigerator or the like. The present invention relates to a refrigerator having a high negative ion concentration.

[0002]

2. Description of the Related Art Many studies have been made on the effects of negative ions, and there are air purifiers and the like having a built-in ion generator. Further, for example, Japanese Patent Application Laid-Open No. 54-15 / 1979
The prior art (not shown) disclosed in US Pat.
A synthetic resin material mixed with ion ore constitutes air path components such as a fan or a duct, a blower, and a suction grill, which are components in the refrigerator, so as to increase the negative ion concentration.

[0003]

However, according to the above-mentioned prior art in which an ion ore is mixed into a synthetic resin to form an air path component, ions are hardly generated when the ion ore enters the synthetic resin. It is necessary to increase the amount of addition. Moreover, the amount of negative ions generated when ion ore is mixed in the synthetic resin is not clear,
The specific effect of generating negative ions in cold air has not been clarified.

[0004] In addition, if the amount of ion ore necessary to generate negative ions in the synthetic resin is mixed, the strength of parts and the like is affected. In particular, mixing of ion ore having a volume ratio of about 30% causes a decrease in mechanical strength even in the case of an injection-molded product, and has a problem that it cannot be applied to weighted parts. In the case of the discharge method, the amount of generated ions decreases due to deterioration of the surface of the discharge electrode,
Not only does the generation of ions decrease due to the attachment of dust and the like, but there is a risk that the dust may ignite during discharge.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and a composite material made of a natural ion ore releasing anions is attached to a refrigerator or the like in a refrigerator.
An object of the present invention is to provide a refrigerator capable of circulating negative ions in a refrigerator to remove bacteria and deodorize bacteria, and to store food in a hygienic and delicious manner.

[0006]

A refrigerator according to the present invention comprises a composite material that releases negative ions by using an ion-emitting natural ore, a far-infrared-emitting substance, and silicon,
This composite material was disposed in a refrigerator as a negative ion releasing material. Further, the negative ion releasing material was disposed in both or either of the refrigerator compartment duct or the vegetable compartment cooling duct. Further, the negative ion releasing material was disposed near the outlet of one or both of the refrigerator compartment duct and the vegetable compartment cooling duct.

[0007] Further, the negative ion releasing material is composed of a sheet coated with a composite material, and this sheet is mounted in a refrigerator. Further, an adhesive was applied to the back surface of the sheet to which the composite material was applied, and the adhesive side of the sheet was stuck in a refrigerator. Further, a composite material was directly applied instead of the negative ion releasing material.

[0008]

[First Embodiment] FIG. 1 is a sectional view of a first embodiment of the present invention. 1 is a refrigerator, 1a is a main body of the refrigerator 1, 2 is a refrigerator room located at the top of the refrigerator main body 1a, 3 is a vegetable room located at the center, and 4 is a freezing room located at the bottom. Reference numeral 5 denotes a cooler room provided at a rear portion of the freezing room 4, and a cooler 6 is provided, and a fan device 7 is provided above the cooler 6.

Numeral 8 denotes a duct through which cool air passes. The duct 8 passes through the rear wall of the vegetable compartment 3 and the refrigerator compartment 2 from the upper part of the cooler compartment 5, and a duct 9 for cooling the vegetable compartment provided on the ceiling of the vegetable compartment 3. Room 2
To the refrigerator compartment duct 10 provided at the rear of the refrigerator. Numeral 11 denotes a cooler room 5 for flowing cool air from the cooler room 5 to the freezing room 4.
The air outlet of the cold air provided in 12 is a duct 9 for cooling the vegetable compartment.
Vegetable compartment cooling duct 9 to let cool air flow from
The cold air outlet 13 provided in the refrigerator compartment duct 10 for flowing cold air from the refrigerator compartment duct 10 to the refrigerator compartment 2 is provided.

Reference numeral 14 denotes a negative ion releasing sheet attached to the refrigerator compartment duct 10 and the vegetable compartment cooling duct 9. The negative ion emitting sheet 14 is obtained by applying a composite material including an ion emitting natural ore, a far-infrared ray emitting substance, and silicon to, for example, a plastic sheet having flexibility. As the ion-emitting natural ore, a rare-earth natural ore containing a radioactive substance such as radium or thorium oxide is used, and the radioactive substance released from this substance ionizes surrounding substances. By adding a far-infrared emitting material to this ion-emitting natural ore, the ionization ability can be increased, and the amount of negative ions released can be increased without inhibiting ion emission by silicon. The amount of generated ions increases. For example, there is Sesion (product name) sold by the world head.

An adhesive material may be applied to the back surface of the negative ion releasing sheet 14, so that it can be easily attached to the vegetable room cooling duct 9, the refrigerator room duct 10, and the like. More specifically, for example, a composite material is applied to the sheet at a rate of 250 g / m ² and the negative ion release rate 14 is attached to the vegetable cooling duct 9 or the like with an adhesive material provided on the back surface.

Regarding the release of negative ions from ion-emitting natural ores, the energy required for ionizing water, oxygen and nitrogen molecules is about 10 to 20 eV.
The energy of the radiation is about 5 MeV, and the surrounding substance is ionized by the radioactive substance. Thus, since radiation is emitted semipermanently, negative ions can also be emitted semipermanently.

The operation of the first embodiment configured as described above will be described. The cool air cooled by the cooler 6 in the cooler room 5 is blown into the freezing room 4 from the outlet 11 of the cooling room 4 by the fan device 7. The cool air passes through the duct 8, enters the refrigerator compartment duct 10 and is blown out from the outlet 13, and enters the vegetable compartment cooling duct 9 on the ceiling portion of the vegetable compartment 3 and passes through the outlet 12. Are also blown out and distributed to the refrigerator compartment 2 and the vegetable compartment 3, respectively.

At this time, the refrigerator compartment duct 10 of the refrigerator compartment 2
The cool air passes through the surface of the negative ion releasing sheet 14 attached inside, and at this time, the negative ions are taken into the cool air. Similarly, the negative ion release sheet 1 stuck inside the vegetable compartment cooling duct 9 of the vegetable compartment 3
Cool air passes through the surface of No. 4, and at this time, negative ions are taken into the cool air.

In this way, the cold air containing a large amount of negative ions is circulated in the refrigerator 1 to enhance the deodorizing performance and the antibacterial performance in the refrigerator, and to store the food deliciously.
On the other hand, the moldability and basic physical properties of the refrigerator components are not reduced. In addition, since the refrigerator 1 has a closed structure, unlike a living space, negative ions are easily filled in the refrigerator when the refrigerator is not used, such as at night, so even if the amount of generated negative ions is relatively small. The effect can be expected. In the above description, the case where the negative ion release sheet 14 coated with the composite material is attached to the sheet is attached and attached, but the composite material is directly applied to the vegetable compartment cooling duct 9, the refrigerator compartment duct 10 and the like. May be.

[Second Embodiment] FIG. 2 is a front view of a second embodiment of the present invention, showing a portion of a refrigerator compartment duct 10 of FIG. Numeral 14 denotes a negative ion release sheet in the refrigerator compartment duct 10, whose sheet size is set so as to take a distance to the outlet 13, so that the contact distance with the cold air is long, that is, the cold ion discharge sheet is provided. The contact time is extended, and the cool air is kept for a longer period of time.
To increase the concentration of negative ions. Further, in the above case, the negative ion release sheet 14 is arranged over a wide area near the outlet 13 of the refrigerator compartment duct 10.

If the distance of the negative ion releasing sheet 14 is insufficient due to the wind speed of the cold air, it is difficult to sufficiently take in the negative ions into the cold air. In addition, by installing the nozzle in such a manner that the distance to the outlet 13 is sufficiently long, the cool air can be kept for a longer time in the negative ion releasing sheet 1.
4 can be contacted. In addition, as described above, in addition to keeping the negative ion releasing sheet 14 in contact with the cold air for a long time, the negative ion releasing sheet 14 is provided with an area near the outlet 13 so that negative ions are easily released into the refrigerator, Is designed to increase the concentration of negative ions in the storage in which it is actually stored.

According to the first and second embodiments configured as described above, unlike the generation method such as the discharge method, the negative ion emission sheet 14 utilizes natural phenomena due to radiation. No worries about the face. On the other hand, regarding radiation safety, the radiation dose equivalent rate detected from the negative ion emission sheet 14 is equal to or less than the detection limit, and there is no problem in safety. The negative ion concentration is also safe because of the waterfall pot level often given as an example in an environment with a large amount of negative ions. In addition to safety advantages, it can be cheaper than the discharge method, and the installation space is
Since it can be applied to a sheet, a case, or the inside of a refrigerator, the number of pieces can be reduced.

Also, when compared with the conventional method in which ion ore is added to the wind path parts, it is excellent in recyclability, and can be separated from plastics and the like by peeling off the sheet. Can be removed, and since silicon is used as a composite material, it becomes rubber-like, and it is also possible to remove only the painted surface with a sharp object or the like. In the above description, the negative ion releasing material is supplied to the vegetable compartment cooling duct 9 and the refrigerator compartment duct 1.
Although the explanation has been made mainly of the case where the sheet is attached to the inside of the refrigerator 0, not only the inside of the vegetable compartment cooling duct 9 and the refrigerator compartment duct 10, but also the entire refrigerator 1, for example, the inner box, the partition plate surface, the vegetable case, etc. You may make it stick to a case, a tray, a shelf, a pocket, etc., and may apply a composite material directly to these instead of sticking a sheet.

Example 1 Table 1 shows the amount of negative ions in cold air and the antibacterial effect of Escherichia coli with and without the negative ion releasing sheet 14.

[0021]

[Table 1]

When the negative ion release sheet 14 was attached to the vegetable room cooling duct 9 and the refrigerator room duct 10, 2520 ions / ml were detected. On the other hand, when the negative ion releasing sheet 14 was not provided, the number of negative ions was 73 / ml. The antibacterial effect also shows that the number of bacteria is 10 ² when the negative ion releasing sheet 14 is attached, while the number of bacteria is 10 ³ when the negative ion releasing sheet 14 is not provided. In the case where the ion release sheet 14 was provided, the number of bacteria was reduced by one digit.

Example 2 FIG. 3 is a diagram showing the deodorizing effect, in which the horizontal axis represents time (minutes) and the vertical axis represents acetaldehyde residual rate (%). According to the result of measuring the change in the concentration of acetaldehyde, when the negative ion releasing sheet 14 is provided,
It can be seen that there is a deodorizing effect. Antibacterial of negative ion,
The principle of deodorization is considered to be because bacteria and odor molecules are positively charged, while negative ions adhere to them, which kill or electrically neutralize them.

[0024]

As is apparent from the above description, the refrigerator-freezer according to the present invention comprises a composite material that emits negative ions by using the ion-emitting natural ore, the far-infrared ray emitting substance, and silicon. Is disposed in the refrigerator as a negative ion releasing material, so that the concentration of negative ions circulating in the refrigerator can be increased, thereby improving the antibacterial and deodorizing performance and making the food delicious and hygienic. it can.

In addition, since the negative ion releasing material is disposed in the duct for the refrigerator compartment or the duct for cooling the vegetable compartment, or both, the antibacterial effect of the cold air passing through the duct is improved.
Deodorization can be performed. Furthermore, since the negative ion releasing member is disposed near the outlet of either or both of the refrigerator compartment duct and the vegetable compartment cooling duct, it is possible to increase the negative ion concentration in the refrigerator where food is actually stored. Can be.

Further, since the negative ion releasing material is composed of a sheet coated with a composite material and this sheet is mounted in the refrigerator, the negative ion releasing material can be easily installed in the refrigerator. In addition, an adhesive is applied to the back of the sheet coated with the composite material, and the adhesive side of this sheet is stuck in the refrigerator, so it can be used as an adhesive specification, making it extremely easy to install in the refrigerator. Can be. Further, since the composite material is directly applied instead of the negative ion releasing material, the negative ion releasing material can be easily installed in the refrigerator.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of Embodiment 1 of the present invention.

FIG. 2 is a front view of a main part according to a second embodiment of the present invention.

FIG. 3 is a diagram showing a change in concentration of acetaldehyde.

[Explanation of symbols]

1 refrigerator, 2 refrigerator compartment, 3 vegetable compartment, 4 freezer compartment, 5
Cooler room, 6 Cooler, 8 duct, 9 Vegetable room cooling duct, 10 Cold room duct, 11, 12, 13
Outlet, 14 negative ion release sheet.

Claims (6)

[Claims] 1. A refrigerator comprising a composite material that emits negative ions by using an ion-emitting natural ore, a far-infrared ray emitting substance, and silicon, and the composite material is disposed in a refrigerator as a negative ion releasing material. . 2. The refrigerator according to claim 1, wherein the negative ion releasing material is disposed in both or one of the refrigerator compartment duct and the vegetable compartment cooling duct. 3. The refrigerator according to claim 1, wherein the negative ion releasing material is disposed in the vicinity of the outlet of one or both of the refrigerator compartment duct and the vegetable compartment cooling duct.
A refrigerator as described. 4. The refrigerator according to claim 1, wherein the negative ion releasing material comprises a sheet coated with a composite material, and the sheet is mounted in the refrigerator. 5. The refrigerator according to claim 4, wherein an adhesive is applied to the back surface of the sheet to which the composite material is applied, and the adhesive side of the sheet is adhered to the refrigerator. 6. The refrigerator according to claim 1, wherein a composite material is directly applied instead of the negative ion releasing material.