KR200490974Y1 - low temperature plasma sterilizer - Google Patents

Abstract

A low temperature plasma sterilization apparatus is disclosed.
A low temperature plasma sterilization apparatus according to an embodiment includes an air circulation passage guiding a flow of air circulating through a storage space in which agricultural products are stored; A blowing unit providing a blowing force of air circulating through the air circulation passage; A low temperature plasma generator installed in the air circulation path halfway to generate a low temperature plasma and ionize air circulating along the air circulation path; And an injection pipe for injecting air guided into the storage space through the air circulation passage into the storage space, wherein the injection pipe sprays the air into the storage space at least on both sides of the storage space. It may be disposed along the longitudinal direction of the storage space.

Description

Low temperature plasma sterilizer

The present invention relates to a low-temperature plasma sterilization apparatus for sterilizing agricultural product storage space by utilizing low-temperature plasma to effectively prevent damages such as degradation of agricultural products due to microbial growth or increase in the wear rate of agricultural products.

In order to maintain the freshness of agricultural products for a long time, it is important not only to keep the temperature and humidity constant, but also to protect the agricultural products from organic gases such as microorganisms produced in the crops and ethylene gas which is involved in the aging of the agricultural products.

To this end, we can think of applying the low temperature plasma sterilization method, one of the dry non-heat sterilization methods of food, to the agricultural product storage space.

However, until now, a conventional apparatus for effectively sterilizing a storage space in which agricultural products are stored using low temperature plasma sterilization has not been properly developed.

It is an object of the present invention to provide a low temperature plasma sterilization apparatus that can effectively maintain freshness of agricultural products stored in storage space for a long time.

In addition, to provide a low-temperature plasma sterilization apparatus that can sterilize agricultural products stored in the storage space evenly regardless of the storage form.

According to one embodiment, a low temperature plasma sterilization apparatus includes an air circulation passage guiding a flow of air circulating through a storage space in which agricultural products are stored; A blowing unit providing a blowing force of air circulating through the air circulation passage; A low temperature plasma generator installed in the air circulation path halfway to generate a low temperature plasma to ionize air circulating along the air circulation path; And an injection pipe for injecting air guided into the storage space through the air circulation passage into the storage space, wherein the injection pipe sprays air into the storage space at least on both sides of the storage space. It is disposed along the longitudinal direction of the storage space.

The injection pipe has a length corresponding to the height of the storage space is provided in a plurality of erected on both sides of the storage space, between the plurality of injection pipes provided on one side and the other side of the storage space in the longitudinal direction of the storage space It can be spaced apart from each other at regular intervals.

The injection pipe may be provided to spirally surround the circumference of the storage space along the longitudinal direction of the storage space to inject air into the storage space from the circumference of the storage space.

The low temperature plasma sterilization apparatus includes an ozone sensor for measuring the concentration of ozone in the storage space; A valve for regulating the flow of air supplied to the storage space through a plurality of injection pipes; When the user's entrance and exit of the storage space is detected and the ozone concentration of the storage space measured by the ozone sensor is higher than a reference value harmful to the user, the ozone concentration of the storage space is lower than the reference value. The control unit may control the operation of the valve so that the flow of air injected into the storage space is blocked or the injection amount of air is reduced.

The low temperature plasma sterilization apparatus further includes an ozone reduction unit for reducing the concentration of ozone in the storage space, wherein the control unit detects the user's entrance and exit of the storage space, and the ozone in the storage space measured by the ozone sensor. When the concentration is higher than the reference value that is harmful to the user, the operation of the ozone reduction unit can be controlled to drive the ozone reduction unit until the ozone concentration of the storage space is less than the reference value.

The low temperature plasma sterilization apparatus according to an embodiment performs sterilization of agricultural products while the air circulating along the air circulation flow path is activated through the low temperature plasma generator and continuously passes through the storage space, thereby preventing the agricultural products stored in the storage space. Freshness can be effectively maintained for a long time.

In addition, the low temperature plasma sterilizer is disposed along the longitudinal direction of the storage space such that an injection pipe for injecting air guided into the storage space through the air circulation passage injects air into the storage space at least from both sides of the storage space. Since the activated air to maintain the freshness of the produce can be evenly sprayed along the longitudinal direction and the height direction of the storage space, the agricultural products stored in the storage space can be sterilized evenly regardless of the storage form.

1 is a schematic diagram of a low-temperature plasma sterilization apparatus according to an embodiment of the present invention.
2 is a control block diagram of a low temperature plasma sterilization apparatus according to an embodiment of the present invention.
Figure 3 is a perspective view of the storage tank shown in Figure 1, showing the installation structure of the injection pipe.
Figure 4 is a perspective view showing a modification of the injection pipe in the low temperature plasma sterilization apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as an example to sufficiently convey the spirit of the present invention to those skilled in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. Parts unrelated to the description are omitted in the drawings in order to clearly describe the present invention, in the drawings, the width, length, thickness, etc. of the components may be exaggerated for convenience. Like numbers refer to like elements throughout the specification.

As shown in Figures 1 to 3, the low temperature plasma sterilization apparatus according to an embodiment for sterilizing the agricultural products stored in the storage space (1) for maintaining the freshness of the agricultural products, the storage space (1) Air circulation passage 10 for guiding the flow of air circulating through the), a blowing unit 20 for providing a blowing force of the air circulating through the air circulation passage 10, and generates a low temperature plasma air circulation In order to activate the air circulating along the flow path 10 is provided with a low temperature plasma generator 30 is installed in the middle of the air circulation flow path (10).

The storage space 1 may be formed through the storage tank 2. The storage tank 2 may be provided with an air inlet 3 and an air outlet 4 for allowing air to enter and exit the storage space 1, and an entrance 5 for accessing workers and agricultural products.

The air circulation passage 10 may be configured as a duct connecting between the air inlet 3 and the air outlet 4 of the storage space (1).

The blowing unit 20 may include a diaphragm pump 21 and a blowing fan 22 installed in the air circulation path 10. The blowing fan 22 blows air on the air circulation passage 10 to the storage space 1, and the diaphragm pump 21 allows air inside the storage space 1 to be recovered to the air circulation passage 10 again. The action can be performed. For reference, reference numeral 40 denotes a filter device installed on the air circulation passage 10 to filter foreign matter in the air.

The low temperature plasma generator 30 generates a low temperature plasma by applying power to the discharge electrode, thereby ionizing air passing through the low temperature plasma generator 30. That is, some of the air is dissociated into active oxygen, and the dissociated active oxygen combines with oxygen molecules to generate ozone.

The air activated through the low temperature plasma generator 30 may sterilize bacteria in the process of passing through the storage space 1 and suppress the deterioration of agricultural products by inhibiting the activation of mold. In addition, the activated air is formed through the agricultural products can reduce the organic gas components such as ethylene involved in the ripening of the agricultural products can prevent the aging of agricultural products.

According to the low temperature plasma sterilization apparatus configured as described above, air circulating along the air circulation passage 10 in an activated state through the low temperature plasma generator 30 continuously passes through the storage space 1 to sterilize the agricultural products. Since it is performed, the freshness of the agricultural products stored in the storage space 1 can be effectively maintained for a long time.

The low temperature plasma generator 30 may employ a dielectric barrier discharge method. Dielectric barrier discharge method, which is a kind of atmospheric plasma, can realize the concentration of reactive active species (ozone, hydrogen peroxide, nitrogen monoxide, nitrogen dioxide, etc.) 100 ~ 100 times higher than vacuum plasma, which is advantageous for enhancing the sterilization effect of agricultural products. Has

In addition, the low temperature plasma sterilizer includes an injection pipe 50 for injecting air guided into the storage space 1 through the air circulation passage 10 into the storage space 1, and the injection pipe 50 is stored at least. It is disposed along the longitudinal direction of the storage space 1 to inject air into the storage space 1 from both sides of the space (1).

According to the injection pipe 50, it is possible to evenly spray the activated air in the longitudinal direction and the height direction of the storage space (1) to maintain the freshness of the agricultural products stored in the storage space (1) Sterilization is possible evenly regardless of form.

To this end, the injection pipe 50 has a length corresponding to the height of the storage space 1 and consists of a plurality of stands on both sides of the storage space 1, and a plurality of injections provided on one side and the other side of the storage space 1 Between the pipes 50 may be provided to be spaced apart from each other at regular intervals along the longitudinal direction of the storage space (1).

Each of the injection pipes 50 may include a plurality of injection holes 51 along the longitudinal direction, and may be installed to be embedded in the inner wall of the storage tank 2 so that the injection holes 51 are exposed to the storage space 1.

The air circulation passage 10 includes a main passage 11 and a plurality of branch passages 12 branched from the main passage 11, and the plurality of branch passages 12 are individually provided to the respective injection pipes 50. Can be connected.

As shown in FIG. 4, which shows a modification of the injection pipe 50 according to the present embodiment, the injection pipe 50 ′ is configured to inject air into the storage space 1 around the storage space 1. (1) It may be provided to surround the circumference of the storage space (1) in a spiral along the longitudinal direction.

The injection pipe 50 ′ allows the activated air to be uniformly delivered to the storage space 1 along the longitudinal direction and the height direction, and can be implemented as a single tube to simplify the overall flow path configuration of the low temperature plasma sterilizer. You can.

In addition, the low-temperature plasma sterilizer is provided with a configuration for preventing the user who enters or leaves the storage space 1 for the import or export of agricultural products from being damaged by ozone sterilizing the agricultural products.

That is, the low-temperature plasma sterilizer is a valve for controlling the flow of air supplied to the storage space 1 through the ozone sensor 61 for measuring the concentration of ozone in the storage space 1 and the plurality of injection pipes 50. 70, an ozone reduction unit 80 for reducing the concentration of ozone in the storage space 1, and a controller 90 for controlling the operation of the valve 70 and the ozone reduction unit 80. .

The ozone sensor 61 is installed in the sensor housing 60, and the sensor housing 60 may communicate with the storage space 1 through the communication passage 69. Therefore, the ozone sensor 61 can measure the concentration of ozone in the storage space 1 in real time.

The valve 70 opens and closes the air flow, and may be installed in the plurality of branch passages 12 to adjust the flow of air.

The ozone reduction unit 80 may include an ultraviolet lamp 81 that emits 240-250 nm ultraviolet rays known to reduce the concentration of ozone.

The ultraviolet lamp 81 is composed of a plurality of, the one side and the other side of the injection pipe 50 of the storage space 1 is arranged to face each other, each UV lamp 81 is a pair of injection pipe 50 facing each other It may be provided long in the direction connecting the injection pipe 50 to the upper portion. Accordingly, the ultraviolet rays of the ultraviolet lamp 81 may be evenly emitted into the air injected into the storage space 1 through the injection pipe 50.

The ozone reduction unit 80 may be variously modified within a range capable of reducing the amount of ozone in the air contained in the storage space 1.

The ozone concentration measured by the ozone sensor 61 is transmitted to the control unit 90 through the communication unit 91, the control unit 90 is detected that the user enters the storage space, the storage measured by the ozone sensor 61 When the ozone concentration of the space 1 is higher than the reference value that is harmful to the user, the operation of the valve 70 and the ozone reduction unit 80 may be controlled until the ozone concentration of the storage space 1 becomes less than the reference value. Can be. The concentration of ozone that is the reference value may be 0.05 ppm or less.

The communication unit 91 may acquire the ozone concentration in a wireless manner and transmit the ozone concentration to the control unit 90.

The low temperature plasma sterilization apparatus may further include an entrance detection sensor 100 so that the controller 90 may detect the entrance and exit of the storage space of the user.

The entrance sensor 100 is a movement detection sensor installed outside the doorway 5 of the storage space 1 so as to detect a user's movement toward the doorway 5 and the user's doorway 5 opening operation. It may be provided in various forms within the range to detect the will of the operator who wants to enter and exit the storage space 1, such as a touch sensor installed in the handle (5a) of the door (5) to detect. The user's entrance determination signal measured by the entrance detection sensor 100 may be wirelessly transmitted to the communication unit 91 and transmitted to the control unit 90.

When the entrance and exit of the storage space of the user is sensed through the entrance and exit sensor 100, and the ozone concentration of the storage space 1 measured by the ozone sensor 61 is higher than the reference value that is harmful to the user, the controller 90 The valve driving unit 92 drives the valve driving unit 92 so that the flow of air injected into the storage space 1 by the valve 70 is blocked or the injection amount of air is reduced, and at the same time, the ultraviolet lamp 81 operates. ) Can be driven.

The amount of ozone introduced into the storage space 1 by the valve 70 decreases, and as the ozone remaining in the storage space 1 is diluted by ultraviolet rays, the concentration of ozone in the storage space 1 may be lowered.

The controller 90 maintains the above-described operation of the valve 70 and the ultraviolet lamp 81 until the concentration of ozone in the storage space 1 measured by the ozone sensor 61 is equal to or less than the reference value. It is possible to ensure the safety of the user entering and leaving the storage space (1).

The ozone in the storage space 1 may be changed only through the operation of the valve 70 to reduce the amount of ozone flowing into the storage space 1 and the operation of the ozone concentration detecting unit 80 to dilute the ozone in the storage space 1. Since the concentration can be reduced, any one of the valve 70 and the ozone reduction unit 80 can be deleted if necessary.

In addition, the sensor housing 60 may be further provided with a temperature sensor 62, humidity sensor 63, wind speed sensor 64, the control unit 90 is stored to be detected through these sensors (62, 63, 64) By controlling the valve 70 so that the amount of air flowing into the storage space 1 is controlled according to the temperature, humidity, and wind speed of the space 1, the pollution degree of agricultural products that vary depending on the temperature, humidity, and wind speed of the storage space 1 is controlled. In consideration of the sterilization of agricultural products can be adjusted.

1: storage space 10: air circulation passage
20: blower unit 30: low temperature plasma generator
50: injection pipe 61: ozone sensor
70: valve 80: ozone reduction unit
81: UV lamp 90: control unit
100: entrance detection sensor

Claims (5)

An air circulation passage guiding a flow of air circulating through a storage space in which agricultural products are stored;
A blowing unit providing a blowing force of air circulating through the air circulation passage;
A low temperature plasma generator installed in the air circulation path halfway to generate a low temperature plasma and ionize air circulating along the air circulation path; And
And an injection pipe for injecting air guided into the storage space through the air circulation passage into the storage space.
The injection pipe is disposed along the longitudinal direction of the storage space to inject air into the storage space at least on both sides of the storage space,
The injection pipe is a low temperature plasma sterilization apparatus for wrapping the circumference of the storage space along the longitudinal direction of the storage space to inject air into the storage space from the circumference of the storage space. delete delete The method of claim 1,
An ozone sensor for measuring the concentration of ozone in the storage space;
A valve for regulating the flow of air supplied to the storage space through a plurality of injection pipes;
When the user's entrance and exit of the storage space is detected and the ozone concentration of the storage space measured by the ozone sensor is higher than a reference value harmful to the user, the ozone concentration of the storage space is lower than the reference value. And a control unit for controlling the operation of the valve to block the flow of air injected into the storage space or reduce the injection amount of air. The method of claim 4, wherein
It further comprises an ozone reduction unit for reducing the concentration of ozone in the storage space,
The controller may detect that the user enters and exits the storage space, and when the ozone concentration of the storage space measured by the ozone sensor is higher than a reference value harmful to the user, the ozone concentration of the storage space may be less than or equal to the reference value. Low temperature plasma sterilization apparatus for controlling the operation of the ozone reduction unit until the ozone reduction unit is driven.

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