KR20220039391A - Sterilizing Performance Evaluation System for UV Lamp - Google Patents

Abstract

The present invention relates to a system for evaluating the sterilizing performance of a UV lamp. The present invention is to evaluate the sterilizing performance of a UV lamp (100) to be evaluated. The system includes: a computer (10) provided with an image processing algorithm; a general strain evaluation unit (A) imaging a laboratory dish where a cultured strain is placed to evaluate the sterilizing performance with respect to the cultured strain; an air strain evaluation unit (B) evaluating the sterilizing performance with respect to a strain contained in the air; and a stage (30) lifted and lowered by a Z-axis drive unit (35) so that the sterilizing performance of the UV lamp (100) depending on the distance can be evaluated. According to the present invention, the sterilizing performance of the UV lamp performing sterilization by UV irradiation is evaluated, and the sterilizing performance can be evaluated as to both a cultured strain on a laboratory dish and airborne bacteria.

Description

Sterilizing Performance Evaluation System for UV Lamp

The present invention relates to a system for evaluating the sterilization of an ultraviolet lamp, and more specifically, to evaluate the sterilization of an ultraviolet lamp that sterilizes by irradiating ultraviolet rays. It is related to the sterilization evaluation system of the ultraviolet lamp that made it possible.

Ultraviolet (UV) light has a shorter wavelength than visible light and is invisible light, which burns or sterilizes human skin. These ultraviolet rays are classified into UV-A (320-400 nm), UV-B, and UV-C (100-280 nm) depending on the wavelength. is not reaching

And, ultraviolet rays are often used for sterilization, and an ultraviolet lamp is used to artificially generate such ultraviolet rays. To evaluate the performance of UV lamps, durability and safety are basically evaluated, but sterilization, which is an essential function of UV lamps, is not evaluated. In other words, a system for objectively evaluating the sterilization property of an ultraviolet lamp has not been established.

On the other hand, as a result of examining the prior art related to the present invention, no prior patent documents in the same or similar fields were found, and the following patent documents were searched as technologies in the related technical field.

Patent Document 1 describes the steps of inoculating bacteria in a predetermined concentration into distilled water of a predetermined volume, providing distilled water inoculated with bacteria to an ultraviolet sterilization ice maker, and providing an ultraviolet sterilization ice maker in a state in which the ultraviolet sterilization function of the ultraviolet sterilization ice maker is in operation. Making ice using distilled water inoculated with bacteria, sampling the ice removed from the mold of the UV sterilization ice machine after ice making is completed, collecting a sample using the sampled ice and preparing a sample solution, the prepared sample solution Disclosed is a method for evaluating the sterility of an ultraviolet sterilization ice machine performed in a test chamber, comprising the steps of measuring the number of bacteria from the sterilization and evaluating the sterility of the UV sterilization ice machine using the measured number of bacteria.

KR 10-2018-0130923 A

The purpose of the present invention is to provide a sterilization evaluation system of an ultraviolet lamp that can objectively evaluate the sterilization properties of an ultraviolet lamp used for sterilization, as well as evaluate both the sterilization properties for cultured strains and the sterilization properties for airborne bacteria. there is.

The present invention for achieving the above object, a computer equipped with an image processing algorithm to evaluate the sterilization of the UV lamp to be evaluated; a general strain evaluation unit to evaluate the sterilization properties of the cultured strains by photographing the petri dish in which the cultured strains are placed; Air strain evaluation unit to evaluate the bactericidal properties of the strains contained in the air; and a stage lifted by the Z-axis driving unit to evaluate the sterilization property of the UV lamp according to the distance.

In the sterilization evaluation system of the ultraviolet lamp of the present invention, the general strain evaluation unit photographing a chalet in which cultured strains are placed and detachably seated on the stage, and a camera that transmits the photographed image to a computer, and the UV intensity of the UV lamp It is characterized in that it includes a UV intensity meter installed in the lower part of the main chamber to measure.

In the sterilization evaluation system of the ultraviolet lamp of the present invention, the air strain evaluation unit includes an air pump that generates an air flow for air strain evaluation, an air sampler for counting the number of bacteria for sterilization evaluation of the UV lamp, and a flow rate of air It is characterized in that it includes a flow meter for evaluating.

In the sterilization evaluation system of the ultraviolet lamp of the present invention, the air containing bacteria is generated so that the air flow by the air pump is generated on one side of the main chamber having the UV sterilization zone where the UV lamp is installed on the upper part to perform the UV sterilization. A bacteria chamber to be stored; is installed, and the bacteria chamber is characterized in that it ascends and descends together with the air strain evaluation unit and the stage.

In the system for evaluating sterilization of an ultraviolet lamp according to a preferred embodiment of the present invention, the UV sterilization zone is arranged in the center so that the UV lamp to be evaluated is installed on the upper part, and air is stored so that the sterilization effect on bacteria in the air can be evaluated. a main chamber disposed on the side; an air strain evaluation unit disposed in the main chamber to evaluate the sterilization property of the UV lamp while flowing air in the bacteria chamber for air strain evaluation; a transparent glass substrate that is detachably installed on the upper part of the stage provided in the main chamber for air strain evaluation; a petri dish having a plurality of UV measurement holes for measuring UV intensity on the bottom side and in which cultured strains are placed and detachably seated on a stage; and a camera positioned above the main chamber to take pictures of the chalet, and a signal from a UV measuring device that measures the UV intensity on the floor using optical fibers, and has an image processing algorithm to evaluate the sterility of the UV lamp to be evaluated Computer; characterized in that it includes.

In the sterilization evaluation system of the ultraviolet lamp of the present invention, the stage is installed to be liftable in the main chamber for sterilization evaluation according to distance, and a Z-axis driving unit for lifting the stage is provided, and the stage includes a bacterial chamber and an air strain. It is characterized in that it is raised and lowered together with the evaluation unit.

In the sterilization evaluation system of the ultraviolet lamp of the present invention, the air strain evaluation unit includes an air pump for generating a flow of air in the bacterial chamber for air strain evaluation, and counting the number of bacteria for sterilization evaluation of the UV lamp It is characterized in that it includes an air sampler and a flow meter for evaluating the flow rate of air.

In the UV lamp sterilization evaluation system of the present invention, the UV lamp is characterized in that the power is controlled by a power supply.

In addition, according to the sterilization evaluation system of the ultraviolet lamp of the present invention, the computer evaluates the sterilization property of the cultured general strain according to the image of the petri dish taken by the camera and the UV intensity measured by the UV meter, and from the air sampler It is characterized in that the sterilization against the air strain is evaluated according to the transmitted signal.

The sterilization evaluation system of the UV lamp of the present invention evaluates the sterilization property of the UV lamp for common strains by irradiating the UV lamp's UV light with respect to the petri dish in which the cultured common strain is placed, then photographing the petri dish with a camera and analyzing it. By counting the bacteria in the air after irradiating the ultraviolet rays of the UV lamp to the air in the middle, it is possible to evaluate the sterilization property of the UV lamp against the air strain, thereby making it possible to objectively evaluate the sterilization property of the UV lamp.

In addition, according to the sterilization evaluation system of the UV lamp of the present invention, since the glass substrate guiding the air flow or the chalet in which the culture is placed or the air flow is raised and lowered by the stage, data according to the distance from the UV lamp can be collected and evaluated. It works.

In addition, according to the sterilization evaluation system of the UV lamp of the present invention, there is an effect that it is possible to accurately evaluate the sterilization property of the UV lamp against the air strain by generating an air flow using the air stored in the bacteria chamber.

In addition, according to the sterilization evaluation system of the ultraviolet lamp of the present invention, there is an effect that it is possible to check the output of the UV lamp that can obtain the optimal sterilization effect by adjusting the power of the UV lamp using the power supply.

In addition, according to the sterilization evaluation system of the ultraviolet lamp of the present invention, it is possible to evaluate the sterilization according to the ultraviolet wavelength of the ultraviolet lamp, the type of bacteria, the ultraviolet intensity, the ultraviolet irradiation distance, and the ultraviolet exposure time, and the sterilization evaluation for any bacteria This has the effect of being able to derive the optimal sterilization effect.

1 is a block diagram schematically showing a system for evaluating sterilization of an ultraviolet lamp according to the present invention.
Figure 2 is a block diagram showing the sterilization evaluation system of the ultraviolet lamp according to the present invention.
Figure 3 is a reference diagram showing the state of evaluating the sterilization of the air strain using the sterilization evaluation system of the ultraviolet lamp of the present invention.
Figure 4 is a reference diagram showing the state of evaluating the sterilization of the general strain using the sterilization evaluation system of the ultraviolet lamp of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments of the present invention allow the disclosure of the present invention to be complete, and are commonly used in the art to which the present invention pertains. It is provided to fully inform those with knowledge of the scope of the invention, and the present invention is only defined by the scope of the claims.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless clearly defined in particular.

Hereinafter, the sterilization evaluation system of the ultraviolet lamp according to the present invention will be described in detail.

The sterilization evaluation system of the ultraviolet lamp according to the present invention, as shown in Figure 1, the computer 10 equipped with an image processing algorithm to evaluate the sterilization of the UV lamp 100 to be evaluated; a general strain evaluation unit (A) for evaluating the bactericidal properties of the cultured strains by photographing the petri dish in which the cultured strains are placed; Air strain evaluation unit (B) to evaluate the bactericidal properties of the strains contained in the air; and a stage 30 that is lifted by the Z-axis driving unit 35 to evaluate the sterilization property of the UV lamp 100 according to the distance.

Therefore, the computer 10 evaluates the sterility of the UV lamp 100 for the cultured common strains through the general strain evaluation unit (A), and the air strain evaluation unit (B) for bacteria contained in the air. It becomes possible to evaluate the sterilization property of the UV lamp 100 .

Here, the general strain evaluation unit (A) is a camera 11 and a UV lamp (100) that transmits the photographed image to the computer (10) by photographing a petri dish in which cultured strains are placed and detachably seated on the stage (30). ) includes a UV intensity meter 12 to measure the UV intensity of the. Accordingly, the computer 10 analyzes the image taken by the camera 11 through an image processing algorithm, thereby making it possible to evaluate the bactericidal property of the UV lamp 100 for cultured general strains.

In addition, the air strain evaluation unit (B) includes an air pump 23 that generates an air flow for air strain evaluation, and an air sampler 24 for counting the number of bacteria for sterilization evaluation of the UV lamp 100 and and a flow meter 25 for evaluating the flow rate of air. Accordingly, according to the number of bacteria counted through the air sampler 24 , the computer 100 can evaluate the sterilization property of the UV lamp 100 against bacteria contained in the air.

At this time, a bacteria chamber 22 in which air containing bacteria is stored is installed on one side of the main chamber 20 to generate an air flow by the air pump, and the bacteria chamber 22 includes an air strain evaluation unit B and It is preferable to be configured to ascend and descend together with the stage 30 . Accordingly, it is possible to collect and evaluate data according to the distance from the UV lamp 100, as well as to accurately evaluate the sterilization property of the UV lamp 100 against the air strain.

In a preferred embodiment of the present invention, in the sterilization evaluation system of the ultraviolet lamp according to the present invention, as shown in FIG. 2, the UV sterilization zone 21 is located in the center so that the evaluation target UV lamp 100 is installed on the upper part. a main chamber 20 disposed on the side and having a bacteria chamber 22 in which air is stored so as to evaluate the sterilization effect on bacteria in the air; an air strain evaluation unit disposed in the main chamber 20 to evaluate the sterilization property of the UV lamp 100 while flowing air in the bacteria chamber 22 for air strain evaluation; a stage 30 disposed in the main chamber 20 to be lifted by the Z-axis driving unit 35 and raised and lowered together with the bacteria chamber 22 and the air evaluation unit; A glass substrate 40 of a transparent material that is detachably installed on the upper portion of the stage 30 for air strain evaluation; a petri dish (50) having a plurality of UV measuring holes (55) for measuring UV intensity on the bottom side, in which cultured strains are placed, and detachably seated on the stage (30); and a camera 11 positioned above the main chamber 20 to photograph the chalet 50, a UV meter 12 for measuring the UV intensity of the floor using an optical fiber 13, and an image processing algorithm and a computer 10 for evaluating the sterilization property of the UV lamp 100 to be evaluated.

Here, the computer 10 evaluates the sterility of the cultured general strain according to the image of the petri dish 50 taken by the camera 11 and the UV intensity measured by the UV meter 12, and the air sampler ( 24) is configured to evaluate the sterilization property against the air strain according to the signal transmitted from it. Therefore, it is possible to evaluate the sterilization properties for general strains and air strains while adjusting the interval with the UV lamp 100 using the stage 30 .

Meanwhile, the air strain evaluation unit includes an air pump 23 for generating a flow of air in the bacterial chamber 22 for air strain evaluation, and an air for counting the number of bacteria for sterilization evaluation of the UV lamp 100 . It includes a sampler 24 and a flow meter 25 for evaluating the flow rate of air. Therefore, after allowing bacteria to be removed by the UV lamp 100 while flowing the air in the bacteria chamber 22, the sterilization property of the UV lamp 100 can be evaluated by counting the number of bacteria in the air through the air sampler 24. be able to

In this case, it is preferable that the UV lamp 100 is controlled in power by the power supply 110 . Therefore, it is possible to set the output so that the UV lamp 100 exhibits an optimal effect by evaluating sterilization while controlling the output of the UV lamp 100 using the power supply 110 .

The operation process and function of the sterilization evaluation system of the ultraviolet lamp of the present invention configured as described above will be described.

In the air strain process for evaluating the sterilization properties for bacteria in the air, as shown in FIG. 3 , the evaluation is performed in a state where the glass substrate 40 is positioned on the upper side of the stage 30 .

First, by adjusting the power of the UV lamp 100 using the power supply 110 , the wavelength or intensity of ultraviolet rays irradiated from the UV lamp 100 is set, and the UV intensity is measured using the UV meter 12 . and transmitted to the computer 10 . Then, by using the air pump 23, the air in the bacterial chamber 22 flows along the upper surface of the transparent organic substrate 40, and at the same time, the UV lamp 100 is operated so that the air in the flow is transferred to the UV lamp 100. of UV rays to be irradiated. Thereafter, the number of bacteria contained in the air is counted using the air sampler 24 and transmitted to the computer 10 so that the computer 10 can evaluate the sterilization of the UV lamp 100 . At this time, it is natural to compare the number of bacteria before and after UV irradiation by counting the number of bacteria in the air collected from the bacteria chamber 22 in advance. ) to control. Accordingly, it is possible to perform a sterilization evaluation of bacteria contained in the air, that is, the air strain.

In addition, in the general strain processor for evaluating the bactericidal properties of the cultured strain, as shown in FIG. 4 , the evaluation is performed in a state in which the petri dish 50 in which the cultured bacteria are placed is seated on the upper side of the stage 30 .

First, by adjusting the power of the UV lamp 100 using the power supply 110 , the wavelength or intensity of UV light irradiated from the UV lamp 100 is set, and the UV intensity is measured using the UV measuring device 12 . and transmitted to the computer 10 . Next, the number of cultured strains in the petri dish 50 is counted before UV irradiation by photographing the petri dish 50 in which the culture is placed with the camera 11 and transmitting the image to the computer 10 . Then, the UV lamp 100 is operated to irradiate the chalet 50 with ultraviolet rays, and when the ultraviolet ray irradiation is completed, the chalet 50 is photographed again with a camera and the image is transmitted to the computer 10 . The computer 10 automatically counts and compares the number of strains by applying an image processing algorithm to the images before and after UV irradiation. Therefore, it becomes possible to evaluate the bactericidal properties of the cultured general strain.

In the above, evaluation has been described in a state where the stage is fixed, but by moving the stage 30 up and down using the Z-axis driving unit 35, evaluation according to the distance between the strain and the UV lamp 100 may be performed. , it is also possible to measure the change in the number of strains according to the UV intensity by location through image evaluation of a specific point of the petri dish 50 . Therefore, it is possible to secure objective data for the evaluation of the sterilization property of the UV lamp 100 against a virus or a specific strain, and it is possible to develop a more effective UV lamp 100 .

Although described and illustrated in relation to several embodiments for illustrating the technical spirit of the present invention, the present invention is not limited to the configuration and operation as described above, and the technical spirit described in the description of the present invention It will be apparent to those skilled in the art that many changes and modifications can be made to the present invention without departing from the scope thereof. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as being within the scope of the present invention.

10...computer
11....Camera
12...UV meter
13...fiber
20...Main chamber
21...Sterilization zone
22...Bacteria chamber
23...air pump
24...air sampler
25...Flowmeter
30...stage
35...Z-axis drive unit
40...Glass substrate
50...chalet
55...UV measuring hole
100...UV LEDs
110...power supply

Claims (9)

a computer 10 having an image processing algorithm to evaluate the sterilization property of the UV lamp 100 to be evaluated;
A general strain evaluation unit (A) for evaluating the sterilization of the cultured strains by photographing the petri dish in which the cultured strains are placed;
Air strain evaluation unit (B) to evaluate the bactericidal properties of the strains contained in the air; and
A stage 30 that is lifted by the Z-axis driving unit 35 so as to evaluate the sterilization property of the UV lamp 100 according to the distance; According to claim 1,
The general strain evaluation unit (A) measures the ultraviolet intensity of a camera 11 and a UV lamp 100 that transmits the photographed image to a computer by photographing a petri dish in which cultured strains are placed and detachably seated on the stage. The sterilization evaluation system of the ultraviolet lamp, characterized in that it comprises a UV intensity meter (12). According to claim 1,
The air strain evaluation unit (B) includes an air pump 23 that generates an air flow for air strain evaluation, an air sampler 24 that counts the number of bacteria for sterilization evaluation of the UV lamp 100 and air The sterilization evaluation system of the ultraviolet lamp, characterized in that it comprises a flow meter (25) for evaluating the flow rate. 4. The method according to any one of claims 1 to 3,
At one side of the main chamber having a UV sterilization zone where UV lamp 100 is installed and UV sterilization is performed, bacteria chamber 22 in which air containing bacteria is stored to generate air flow by air pump 23 ) is installed,
The bactericidal chamber 22 is an ultraviolet lamp sterilization evaluation system, characterized in that the ascending and descending together with the air strain evaluation unit (B) and the stage (30). The main chamber ( 20);
an air strain evaluation unit disposed in the main chamber 20 to evaluate the sterilization property of the UV lamp 100 while flowing air in the bacteria chamber 22 for air strain evaluation;
a transparent glass substrate 40 that is detachably installed on the upper part of the stage 30 provided in the main chamber 20 for air strain evaluation;
a petri dish 50 having a plurality of UV measuring holes 55 for measuring UV intensity on the bottom side, in which cultured strains are placed, and detachably seated on the stage 30; and
Receives a signal from the UV meter 12 that measures the UV intensity of the floor using the optical fiber 13 and the camera 11 located above the main chamber 20 to photograph the chalet 50, and image processing A computer 10 for evaluating the sterilization property of the UV lamp 100 to be evaluated by having an algorithm; including, a sterilization evaluation system of the UV lamp. 6. The method of claim 5,
The stage 30 is installed so as to be liftable in the main chamber 20 for sterilization evaluation according to distance, and a Z-axis driving unit 35 for lifting and lowering the stage 30 is provided,
The stage (30) is a sterilization evaluation system of an ultraviolet lamp, characterized in that it is raised and lowered together with the bacteria chamber (22) and the air strain evaluation unit. 6. The method of claim 5,
The air strain evaluation unit includes an air pump 23 for generating a flow of air in the bacterial chamber 22 for air strain evaluation, and an air sampler for counting the number of bacteria for sterilization evaluation of the UV lamp 100 ( 24), and a flow meter (25) for evaluating the flow rate of air. 6. The method of claim 5,
The UV lamp 100 is a sterilization evaluation system of the UV lamp, characterized in that the power is controlled by the power supply (110). 9. The method according to any one of claims 5 to 8,
The computer 10 evaluates the sterility of the cultured general strain according to the image of the petri dish 50 taken by the camera 11 and the UV intensity measured by the UV meter 12, and the air sampler 24 The sterilization evaluation system of an ultraviolet lamp, characterized in that it evaluates the sterilization of the air strain according to the signal transmitted from the.

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