KR20110057773A - Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator.

The present invention is provided with a main body having a storage space partitioned into a freezer compartment and a refrigerating compartment, an ozone detection sensor provided at one side of the storage space and detecting an ozone (O₃) concentration in the storage space, and having a different wavelength from the storage space. An ozone control device for selectively irradiating ultraviolet (UV) is included, wherein the ozone control device emits ultraviolet light of the first wavelength when the ozone concentration of the storage space detected by the ozone detection sensor is less than the environmental standard value, the ozone When the ozone concentration of the storage space sensed by the sensor is above the environmental standard value, ultraviolet rays of the second wavelength are emitted. This has the advantage that the storage of food contained in the storage space is improved.

Refrigerator, vegetable case, vegetable drawer, ozone controller, ozone sensor

Description

Refrigerator {A refrigerator}

The present invention relates to a refrigerator.

Generally, a refrigerator is a home appliance that stores food at a low temperature in an interior storage space shielded by a door, and is stored by cooling the inside of the storage space using cold air generated through heat exchange with a refrigerant circulating in a refrigeration cycle. It is configured to keep foods in optimal condition.

Such refrigerators are becoming larger and more versatile as the dietary changes and user's preferences are diversified.

Various foods for refrigeration or freezing storage are suitably stored in shelves, drawers, and baskets provided in the refrigerator's interior, and the drawers, shelves, and baskets divide the interior of the refrigerator and store food having various sizes and storage conditions at low temperature. Make it possible.

On the other hand, the refrigerator having a variety of storage spaces as described above has a problem that if the food being stored is stored for a long time, decay and odor caused by the growth of microorganisms.

In order to solve the above problems, a technique for sterilizing and disinfecting a storage space using ozone (O 3) has been published.

As an example, Korean Patent Laid-Open Publication No. 2003-0015336 discloses a kitchen refrigerator with a built-in kitchen worktop which allows sterilization and disinfection while spraying ozone water by various water purification means and ozone water generator to prevent drying of vegetables.

However, since ozone (O₃) has a strong sterilization power, it may adversely affect the human body according to its concentration. Therefore, when sterilization and disinfection using ozone (O₃) is performed in a refrigerator, it is necessary to control the concentration of ozone (O₃). Skill is required.

An object of the present invention is to provide a refrigerator equipped with an ozone control device for controlling the concentration of ozone (O 3) in the storage space using the UV LED.

Another object of the present invention to provide a refrigerator in which the ozone (O₃) concentration in the storage space is controlled by selectively irradiating UV of the wavelength for the generation of ozone (O₃) and UV of the wavelength for the removal of ozone in the ozone control device. It is.

The present invention is provided with a main body having a storage space partitioned into a freezer compartment and a refrigerating compartment, an ozone detection sensor provided at one side of the storage space and detecting an ozone (O₃) concentration in the storage space, and having a different wavelength from the storage space. An ozone control device for selectively irradiating ultraviolet (UV) is included, wherein the ozone control device emits ultraviolet light of the first wavelength when the ozone concentration of the storage space detected by the ozone detection sensor is less than the environmental standard value, the ozone When the ozone concentration of the storage space detected by the sensor is greater than the environmental reference value, the ultraviolet light of the second wavelength is characterized in that it is emitted.

In another aspect, the present invention is provided with a main body provided with a storage space divided into a freezer compartment and a refrigerating compartment, an ozone detection sensor provided at one side of the storage space, and an ozone detection sensor for detecting an ozone (O₃) concentration in the storage space, and at one side of the storage space. An ozone control device for selectively irradiating ultraviolet (UV) having a different wavelength is included, The ozone control device is provided with a polarizing plate for blocking some of the ultraviolet rays emitted into the storage space, the polarizing plate is the ozone sensing When the ozone concentration of the storage space detected by the sensor is less than the environmental standard value, and moves to shield some of the ultraviolet rays (UV) emitted into the storage space, and when the ozone concentration detected by the ozone detection sensor is above the environmental standard value. It is characterized in that for moving all the ultraviolet light to be discharged into the storage space.

The refrigerator according to the present invention has an advantage of sterilizing food and storage space by generating ozone in the storage space by an ozone generator that emits ultraviolet rays of wavelength for generation of ozone.

In addition, the ozone generating device emits ultraviolet rays of a wavelength for removing ozone generated in the storage space when the concentration of ozone sensed by the ozone detection sensor provided in the storage space is greater than the environmental standard value within the storage space. By reducing the ozone concentration, it is possible to prevent the user from being harmed by ozone.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments within the scope of the same idea.

1 is a view showing a view showing the appearance of a refrigerator according to the present invention, Figure 2 is a view showing a state in which the door of the refrigerator according to the present invention is opened.

Referring to these drawings, the refrigerator 1 according to the present invention has a substantially rectangular parallelepiped shape, and a door 40 for selectively shielding the main body 10 having a storage space therein and the opened front surface of the main body 10. The outer shape is formed by).

The interior of the main body 10 is partitioned from side to side by the barrier 11 to form the freezing chamber 20 and the refrigerating chamber 30, respectively. The door 40 includes a refrigerator compartment door 50 that shields the refrigerator compartment 30 and a freezer compartment door 60 that shields the freezer compartment 20. The door 40 is configured to be opened and closed by rotating to both left and right sides, respectively.

In addition, the refrigerating compartment door 50 may be provided with a home bar 52 for taking out or inserting frequently accessed food items without opening and closing the refrigerating compartment door 50 from the outside, and the freezing compartment door 60 may be ice-making. A dispenser 62 may be provided to withdraw ice or purified water from the device 22.

On the other hand, the dispenser 62 is provided with a display 64 showing the operating state of the refrigerator 1 and an operation button 66 for controlling the operation of the refrigerator 1, and the display 64 The ozone concentration inside the storage space sensed by the ozone detection sensor 600 (see FIG. 3) to be described below is displayed, and the operation button 66 can adjust the ozone concentration inside the storage space.

In the refrigerating chamber 30 and the freezing chamber 20, a plurality of shelves 14, a drawer 16, and the like for storing food are provided as well as an ice maker 22. These shelves 14 and a drawer are provided. By 16, the internal space of the refrigerating compartment and the freezing compartment is partitioned so that foods of various sizes and types can be stored separately. In addition, a plurality of baskets 18 are also mounted on the rear surface of the door 40 to accommodate food.

In particular, one side of the refrigerating chamber 30 is provided with a vegetable chamber 200 to form an independent space suitable for storage of vegetables or fruits. The vegetable chamber 200 is configured in a drawer type to provide a storage space, and forms a storage space independent of other storage spaces in the refrigerating chamber 30.

Figure 3 is an exploded view showing a detailed configuration of the vegetable compartment of the main component of the refrigerator according to an embodiment of the present invention.

Referring to the drawing, the vegetable compartment 200 includes a vegetable compartment case 210 which provides a space opened forward, a vegetable compartment drawer 220 which is provided to be pulled in / out of the vegetable compartment case 210, and It comprises an ozone detection sensor 600 for detecting the ozone concentration in the vegetable chamber 200 and the ozone control device 400 for adjusting the ozone concentration in the vegetable chamber 200.

In detail, the vegetable compartment case 210 is mounted inside the refrigerating compartment 30 to form an outer shape of the vegetable compartment 200, and is formed in a rectangular parallelepiped shape having an approximately front surface opening. The vegetable compartment case 210 is configured to be in contact with the drawer 16 below the vegetable compartment 200 and the shelf 14 above the vegetable compartment 200, and to contact the left and right wall surfaces of the refrigerating compartment 30.

An inner and outer sides of the vegetable chamber case 210 are formed with a draw-out guide 212 for guiding the withdrawal of the vegetable chamber drawer 220, the upper surface of the vegetable chamber case 210 in the ozone control device 400 A light hole 214 is formed to be punctured so that the emitted ultraviolet rays can be irradiated therein. In addition, one side of the inside of the vegetable compartment case 210 is further provided with an ozone detection sensor 600 to be described below.

The vegetable compartment drawer 220 is formed in the same shape as a general drawer, and at least the rear and left and right sides thereof are formed of a transparent or translucent material so that the light irradiated from the visible light irradiation device 230 is irradiated to the storage space. It is formed to be. Of course, when the entire vegetable compartment drawer 220 is formed of an opaque material, the vegetable chamber drawer 220 may be opened in a shape corresponding to the transmission part 214 so that visible light may be irradiated into the storage space.

In addition, the left and right sides of the vegetable compartment drawer 220 is provided with a guide rail 222 corresponding to the draw-out guide 212. The guide rail 222 may protrude outward and move forward and backward from the inside of the draw in and out guides 212, and the vegetable chamber may be located at one side of the draw in and out guides 212 and / or the guide rails 222. A roller 224 may be further provided to facilitate the sliding of the drawer 220.

In addition, the front of the vegetable compartment drawer 220 is further provided with a vegetable compartment display 226 for showing the ozone concentration inside the vegetable compartment case 210 similar to the display 64 provided in the body 10 described above. The operation button 228 for inputting a control command to the ozone control device 400 to be described in detail below may be further provided to one side of the vegetable compartment display 226.

Meanwhile, the ozone control device 400 surrounds a UV LED 420 that emits ultraviolet rays toward the light hole 214, an LED PC 410 for controlling the light, and the light hole 214. It is provided is provided with an LED housing 440 for receiving the UV LED 420. The LED housing 440 may further include a polarizing plate 460 that selectively shields the UV light emitted from the LED 420 from passing through the light hole 214 while being selectively drawn out / received. 214, the scattering plate 480 may be included to allow the UV to be evenly radiated from the LED 420.

In detail, the UV LED 420 generates UV-C having a wavelength in a range of 100 nm to 280 nm, thereby emitting UV-C into the inside of the vegetable chamber case 210. To adjust the ozone concentration.

In addition, the LED PC 410 is configured to receive and process a control signal for the on / off operation of the LED 420.

The LED housing 440 has an internal space formed so that the polarizing plate 460 can be accommodated therein, and one side is opened so that the polarizing plate 460 can slide out / receive through the opened side.

In addition, the LED housing 440 has an upper surface opened to provide a space in which the UV LED 420 mounted to the LED PC 410 may be accommodated.

Meanwhile, as described above, the UV LED 420 accommodated in the LED housing 440 is configured to simultaneously emit two ultraviolet rays having different lengths.

That is, the UV LED 420 is configured to simultaneously emit a first ultraviolet ray of 100 nm to 200 nm and a second ultraviolet ray of 200 nm or more and less than 280 nm when power is supplied.

The first UV light emitted from the UV LED 420 generates ozone while generating ozone while being irradiated into the vegetable chamber case 210, and is preferably configured to emit ultraviolet light of 185 nm.

The UV light emitted from the LED 420 absorbs ozone generated while being irradiated into the vegetable chamber case 210 to reduce the ozone concentration in the vegetable chamber case 210.

In detail, when the second ultraviolet light is emitted, ozone and photon, which is ultraviolet energy, are reacted by the photooxidation method in the vegetable compartment case 210 to generate hydrogen peroxide, and the generated hydrogen peroxide is an initiator for decomposing ozone (Initiator). ) To act.

Therefore, ozone is decomposed into water and oxygen by the hydrogen peroxide, so that the ozone concentration inside the vegetable chamber case 210 can be reduced.

In addition, since the second ultraviolet light having the above function exhibits the highest absorption rate at 254 nm, the UV LED 420 may emit the above-described first ultraviolet ray at 185 nm and the second ultraviolet ray at 254 nm. In the UV LED 420, the irradiation rate of the first ultraviolet ray and the second ultraviolet ray may be adjusted in consideration of the ozone absorption rate of the second ultraviolet ray.

In a preferred embodiment of the present invention, the irradiation rate of the first ultraviolet ray of 185 nm and the second ultraviolet ray of 254 nm is formed 9 to 1.

On the other hand, the ultraviolet rays having the length of the different wavelengths as described above is configured to selectively block a portion as the polarizing plate 460 is drawn out / incoming into the LED housing 440.

In detail, the polarizing plate 460 is formed to have a size capable of shielding all the light holes 214 and is configured to block second ultraviolet rays having a relatively long length.

In addition, a rack gear part 462 is formed on one side of the polarizing plate 460 for sliding movement, and the pinion gear 470 of the tooth shape corresponding to the rack gear part 462 is formed in the LED housing 440. And a drive motor 490 for rotating it is provided.

Therefore, the pinion gear 470 rotates in accordance with the rotational direction of the driving motor 490 to move the rack gear part 462, thereby allowing the polarizer 460 to slide out / take in.

On the other hand, the driving motor 490 is rotated in accordance with the operation signal via the operation button 66 provided in the main body 10 or the operation button 228 provided in the vegetable compartment drawer 220, the polarizing plate ( Withdrawal or withdrawal of 460 may be made.

FIG. 4 is a view illustrating a concentration control operation of ozone through the ozone regulating device shown in FIG. 3, and FIG. 5 is a flowchart illustrating a control process of the ozone adjusting device shown in FIG. 3.

Referring to these drawings, the refrigerator 1 according to the present invention can check the ozone concentration inside the vegetable chamber 200 through the display 64 even when the door 40 is shielded. That is, the detection result of the ozone detection sensor 600 provided in the vegetable compartment case 210 is shown through the display 64 so that the user can easily check it.

On the other hand, when the concentration of ozone sensed through the display 64 is less than the environmental standard value (household environmental standard value is 0.05ppm), the user turns on the ozone control device 400 by using the operation button 66 ( On).

As described above, when the ozone control device 400 is turned on, the UV LEDs 420 generate the first ultraviolet rays and the second ultraviolet rays, and the polarizer 480 shields the light holes 214. To shield the second ultraviolet light.

Therefore, in the above state, ozone is generated by the first ultraviolet rays, and the inside of the vegetable compartment case 210 is sterilized, thereby increasing the ozone concentration.

On the other hand, if the concentration of ozone continues to rise as described above, the user checks this and moves to the position where the polarizer 460 does not shield the light hole 214 by using the operation button 66.

In this state, as the second ultraviolet light is irradiated into the light hole 214 together with the first ultraviolet light, the concentration of the ozone is decomposed by the second ultraviolet light.

Meanwhile, FIG. 6 is an exploded view showing the detailed configuration of the vegetable compartment, which is a main component of the refrigerator according to another embodiment of the present invention, and FIG. 7 is a view for showing a concentration control operation of ozone through the ozone control device shown in FIG. 6. 8 is a flowchart illustrating a control process of the ozone regulating device illustrated in FIG. 6.

Prior to the description, the same configuration as the above-described embodiment will be omitted, and the same reference numerals and names will be used.

Referring to these drawings, in another embodiment according to the present invention, the first ultraviolet light and the second ultraviolet light described in the above-described embodiments are configured to be irradiated separately.

In detail, in another embodiment of the present invention, the first light hole 215 and the second light hole 216 are formed on the upper surface of the vegetable compartment case 210 so as to be spaced a predetermined distance apart.

In addition, the ozone generating means 430 for emitting the first ultraviolet light described in the above-described embodiment is provided above the first light hole 215, and in the above-described embodiment above the second light hole 216. The ozone removal means 450 for emitting the second ultraviolet rays described above is provided to constitute the temperature control device 400.

In addition, the scattering plate 480 may be further provided below the first light hole 215 and the second light hole 216 as in the above-described embodiment.

Meanwhile, the ozone generating means 430 has a first LED housing for receiving a first LED 422 for generating a first ultraviolet ray, a first LED PC 412 for controlling it, and the first LED 422. 442 is included.

In addition, a first LED accommodating portion 441 is formed on the upper surface of the first LED housing 442 to accommodate the first LED 422.

The ozone removal means 450 has a second LED housing (2) for receiving the second LED 424 for generating the second ultraviolet light, the second LED PCB 414 and the second LED 424 for the control thereof. 444).

In addition, a second LED accommodating portion 443 is formed on the upper surface of the second LED housing 442 to accommodate the second LED 424.

On the other hand, in another embodiment of the present invention having the configuration as described above it is possible to check the ozone concentration inside the vegetable chamber 200 through the display 64 even when the door 40 is shielded. That is, the detection result of the ozone detection sensor 600 provided in the vegetable compartment case 210 is shown through the display 64 so that the user can easily check it.

When the concentration of ozone sensed through the display 64 is less than the environmental standard value (the home environmental standard value is 0.05 ppm), the user turns on the ozone control device 400 by using the operation button 66. You can.

As described above, when the ozone control device 400 is turned on, the first LED 422 or the second LED 424 is controlled to maintain an operating standby state or to turn on one of them.

On the other hand, when the concentration of ozone sensed through the display 64 is less than the environmental standard value, the ozone generating means 430 may be operated to generate ozone through the operation button 66.

When the ozone generating means 430 is operated, ozone is generated inside the vegetable chamber case 210 while irradiating first ultraviolet rays of 100 nm or more and less than 200 nm through the first LED 422. Therefore, the vegetable chamber 200 can be sterilized by ozone to keep a fresh state of the food stored in the vegetable chamber 200.

On the other hand, when the operation of the ozone generating means 430 is continued so that the ozone concentration detected by the ozone detecting sensor 600 exceeds the environmental standard value, the ozone removing means 450 may be operated.

The operation of the ozone removing means 450 may be automatically performed by the second LED PC 414 that receives the detected concentration of the ozone detecting sensor 600, or the operation button 66 or the vegetable compartment drawer 220. It can be performed through the operation button 228 provided in.

When the ozone removing means 450 is operated, ozone generated inside the vegetable chamber case 210 is irradiated with the second ultraviolet rays of 200 nm or more and less than 280 nm through the second LED 424. Photolysis generates water and oxygen, which reduces the concentration of ozone.

Through the above process, the user can check the ozone concentration inside the vegetable compartment case 210, or automatically detect the ozone concentration to adjust the ozone concentration of the vegetable compartment case 210 by operating the temperature control device 400. Will be.

1 is a view showing the appearance of a refrigerator according to the present invention;

2 is a view showing an open state of the door of the refrigerator according to the present invention;

Figure 3 is an exploded view showing the detailed configuration of the vegetable compartment of the main component of the refrigerator according to the embodiment of the present invention.

4 is a view for showing the operation of adjusting the concentration of ozone through the ozone adjusting device shown in FIG.

5 is a flow chart showing a control process of the ozone control device shown in FIG.

Figure 6 is an exploded view showing the detailed configuration of the vegetable compartment as the main component of the refrigerator according to another embodiment of the present invention.

7 is a view for showing the operation of adjusting the concentration of ozone through the ozone adjusting device shown in FIG.

8 is a flow chart showing a control process of the ozone control device shown in FIG.

Explanation of symbols on the main parts of the drawings

200 ..... Vegetable Room 210 ..... Vegetable Room Case

220 ..... Vegetable Drawer 400 ..... Ozone Control

600 ..... ozone sensor

Claims (12)

A main body provided with a storage space partitioned into a freezer compartment and a refrigerating compartment; An ozone detection sensor provided at one side of the storage space to detect an ozone (O₃) concentration in the storage space; And An ozone control device provided at one side of the storage space to selectively irradiate ultraviolet (UV) having a different wavelength; In the ozone control device, When the ozone concentration of the storage space detected by the ozone detection sensor is less than the environmental standard value, the ultraviolet ray of the first wavelength is emitted, The refrigerator of the second wavelength is emitted when the ozone concentration of the storage space detected by the ozone sensor is greater than the environmental reference value. According to claim 1, wherein the ozone control device, A first UV LED for emitting ultraviolet light of a first wavelength and And a second UV LED for emitting ultraviolet light having a second wavelength longer than the first UV LED. The method of claim 1, The main body of the refrigerator is provided with a display showing the ozone concentration in the storage space detected by the ozone sensor. The method of claim 1, The main body is provided with a control button for inputting a control command to the ozone control device. The method of claim 1, The ozone detection sensor and the ozone control device is provided in the vegetable compartment provided inside the refrigerating compartment, The vegetable chamber is provided with a display of the vegetable chamber provided with an indication of the ozone concentration detected by the ozone detection sensor and an operation button for inputting a control command to the ozone control device. A main body provided with a storage space partitioned into a freezer compartment and a refrigerating compartment; An ozone detection sensor provided at one side of the storage space to detect an ozone (O₃) concentration in the storage space; And An ozone control device provided at one side of the storage space to selectively irradiate ultraviolet (UV) having a different wavelength; The ozone regulator, A polarizing plate is provided to block some of the ultraviolet rays emitted into the storage space, and the polarizing plate is ultraviolet (UV) emitted into the storage space when the ozone concentration of the storage space detected by the ozone sensor is less than an environmental standard value. The refrigerator moves to shield some of the), so that when the ozone concentration detected by the ozone detection sensor is above the environmental standard value, all the ultraviolet rays can be emitted into the storage space. The method of claim 6, The ozone control device is provided with a UV LED (UV) for emitting ultraviolet light, the UV LED (LED) is a refrigerator that emits two ultraviolet rays having different wavelengths and emission ratios. The method of claim 6, The polarizer is a refrigerator for blocking ultraviolet rays of a relatively long wavelength. The method of claim 6, wherein the main body, And a display that displays the ozone concentration inside the storage space detected by the ozone detection sensor. The method of claim 9, The display further includes a control button or an operation button for inputting a control command to the ozone control device. The method of claim 6, In the vegetable compartment provided in the refrigerator compartment, And a vegetable room display displaying ozone concentrations within the storage space detected by the ozone detection sensor. The method of claim 11, The vegetable room display further comprises an operation button for inputting a control command to the ozone control device.

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