KR100929370B1 - Large capacity ultraviolet irradiation device - Google Patents

Abstract

The present invention relates to a large-capacity ultraviolet irradiation device for the study of the reaction, toxicity and repair mechanisms for causing DNA damage to an experimental sample (microorganism or cell line) for biological and microbiological research, the technical configuration And an ultraviolet light portion including a plurality of ultra violet lamps and a plurality of ultra violet light switches for turning on / off the ultraviolet lamps on an upper portion of the outer housing. It consists of three parts: an ultraviolet dose control unit provided below the light portion by a predetermined height, and an ultraviolet irradiation platform for irradiating ultraviolet rays to the test sample. The ultraviolet dose adjusting unit includes a first sliding door type UV dose adjusting device, a second sliding door type UV dose adjusting device provided below the first sliding door type UV dose adjusting device by a predetermined height, and a sliding door type UV blocking film. It consists of. The first and second sliding door UV control device may selectively use a single plate-shaped mash or a double mash consisting of two meshes in a plate shape. It is provided on the lower side by a predetermined height from the second sliding door type ultraviolet irradiation amount adjusting device. And UV irradiation platform (UV irradiation platform) is provided on the lower side by a certain height from the sliding door type UV shielding film, and attached to the transparent acrylic door that can be opened and closed on the front, it is easy to put the experimental sample into the UV irradiation table and the experimenter during the experiment process. It characterized in that to protect from ultraviolet exposure. The present invention is effective for the study of the resistance and sensitivity to the ultraviolet light (Ultra Violet light) of a specific microorganism or a genetic variation or a gene recovery ability, mutation rate and toxicity caused by a specific gene mutation.

Ultra Violet Light, Gene, Microbe, Large Capacity, Ultraviolet Radiation

Description

High-capacity ultraviolet irradiation device {HIHG VOLUME ULTRAVIOLET LIGHT IRRADIATION APPARATUS}

The present invention relates to a large-capacity UV irradiation apparatus, and more particularly, the gene repair ability and the mutation rate caused by the resistance and sensitivity to the ultraviolet light (Ultra Violet Light) of a specific microorganism or a genetic variation or a mutation of a specific gene, and It relates to a large-capacity ultraviolet irradiation device used for research on toxicity.

In general, ultraviolet irradiation devices are widely used in many industries. For example, in the case of a semiconductor or a display device, the yield is greatly influenced by the processing ability of the organic material generated in the line and the process treatment. For this reason, the organic material treatment is performed through ultraviolet irradiation.

In addition, more precise patterning of printed wiring boards is required in production lines such as semiconductors, LCD displays, optical components, and optical components. That is, since precise bonding means are required for the precise soldering of printed wiring boards of various semiconductor devices and other electronic devices, more precise work is required when bonding these semiconductor devices or other electronic devices or coating various films. Light exposure equipment is provided to perform.

Such light exposure equipment is a device for irradiating UV (ultraviolet) light to the surface to be irradiated, and is used for adhesion of the front display LCD, laptop, LCD monitor adhesion, PDP adhesion, semiconductor wafer adhesion, etc. Equipment to do this.

Therefore, the ultraviolet light irradiation apparatus using ultraviolet rays is also applied to the light exposure equipment.

In addition, it is used for high-purity water treatment during the processing of water, food, soft drink supply water, aquaculture, pharmaceuticals and electronic parts before the final discharge from the existing sewage purification treatment in domestic sewage, industrial wastewater, agricultural and livestock wastewater causing water pollution. E. coli, virus, bacteria, erythromycin, TIV, cholera, Mycobacterium tuberculosis, Pseudomonas aeruginosa, and tetanus bacteria are used to sterilize and disinfect them.

On the other hand, for biological and microbiological research, in order to study the response (toxicity and repair mechanisms, such as DNA damage to the test sample (microorganism or cell line), to study it, the ultraviolet irradiation device is used for the test sample). .

However, in the above case, in order to study various reactions of the test sample, it is required to control the minute amount of ultraviolet light from the low illumination to the high illumination of the ultraviolet (UV) irradiated from the ultraviolet irradiation device.

The present invention has been made to solve the above problems, it is possible to adjust the amount of ultraviolet light irradiated to the subject from the light source, to irradiate a large amount of the same amount of ultraviolet light at a time to minimize the time required for the experiment, per single hour In addition to increasing the amount of ultraviolet radiation, it is possible to individually adjust the UV lamps applied as a light source on / off to adjust the intensity of ultraviolet light to a desired amount per unit time. In addition, by using a single or double mash and a plurality of ultraviolet lamps, the ultraviolet illuminance of the entire surface on which the subject is placed can be constantly adjusted and maintained, so that the amount of ultraviolet radiation irradiated according to the change of the ultraviolet irradiation time can be easily An object of the present invention is to provide a large-capacity ultraviolet irradiator that can be widely varied.

Large capacity ultraviolet irradiator according to the present invention for achieving the above object,

An ultraviolet light unit including a plurality of ultra violet lamps and a plurality of ultra violet lamp switches for turning on / off the ultraviolet lamps, respectively, in an upper portion of the outer housing;

First and second sliding door type UV irradiation dose adjusting devices provided below the UV light part by a predetermined height and configured to selectively use a plate-shaped single mash or a double mash;

A sliding door type UV blocking film provided below the second sliding door type UV irradiation amount adjusting device by a predetermined height and formed in a plate shape; And

It is provided on the lower side by a predetermined height from the sliding door type UV blocking film, and includes a transparent acrylic door that is attached to the front and is openable and made of an ultraviolet irradiation table on which the subject is placed.

The uppermost end of the housing is composed of an opening and closing part that can be opened and closed to replace the ultraviolet lamp from the ultraviolet light part.

The single mesh is made in the form of a plate-shaped mesh woven from steel wire, in particular the steel wire is characterized in that the diameter of 0.2 to 0.5mm.

The double mesh is characterized in that the overlap is made in the form of two plate-shaped mesh woven from steel wire (steel wire).

The first sliding door type UV irradiation dose adjusting device, the second sliding door type UV irradiation dose adjusting device, and the sliding portion protruding on each side and the other side of the sliding door type UV blocking film, the sliding formed on both sides of the inside of the housing It is coupled to the groove is made to be slidable.

The ultraviolet lamp and the ultraviolet lamp switch are each provided in the same number to have a one-to-one correspondence.

A cooling fan for preventing overheating of the ultraviolet lamp is further provided at a predetermined position inside the ultraviolet light unit.

The UV lamp switch is a lamp type so that the operator can easily identify the on / off state.

In addition to the first sliding door type ultraviolet irradiation amount adjusting device or the second sliding door type UV irradiation amount adjusting device so that a large amount of ultraviolet rays are irradiated from the ultraviolet light part, a through-shaped no mash for passing all the ultraviolet rays irradiated. A sliding door type ultraviolet radiation dose adjusting device is provided.

The single, double mesh and no-mesh sliding door type UV dose adjusting device used in the first sliding door type UV dose adjusting device and the second sliding door type UV dose adjusting device, and the sliding door type UV blocking film are It is coupled to be detachable from the housing, it characterized in that it is possible to widely control the amount of ultraviolet light by using the above three meshes in various combinations.

Accordingly, the present invention provides a plurality of ultraviolet lamps and a first and second sliding door type ultraviolet light to irradiate the amount of ultraviolet light per unit area to study the various reactions by causing DNA damage of the experimental sample for biological and microbiological research Proper combination of single mesh, double mesh and no-mesh sliding door type UV dose control device used in the dose control device, and UV irradiation time can be easily changed according to the change of UV irradiation time by adjusting the opening / closing time of sliding door type UV screen. It can be applied in a wide range of changes, so that the amount of ultraviolet rays irradiated to the subject can be adjusted from a very small amount to infinity, and the application of free ultraviolet irradiation amount is possible, so that the resistance and sensitivity of the specific microorganisms or microorganisms with genetic variation to ultraviolet rays or Gene repair ability caused by mutation of specific gene And mutation rates can be used in a comprehensive way.

Hereinafter, an embodiment of the large-capacity ultraviolet irradiator of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a large capacity ultraviolet irradiator according to the present invention, FIG. 2 is a perspective view schematically showing a large capacity ultraviolet irradiator according to the present invention, and FIG. 3 is a first and second sliding door of FIGS. 1 and 2. 4 is a perspective view schematically showing a single mesh device used in the UV dose control device, and FIG. 4 schematically shows a double mesh device used in the first and second sliding door type UV dose control devices of FIGS. 1 and 2. 5 is a perspective view schematically illustrating a modified example of the first sliding door type UV irradiation dose adjusting device and the second sliding door type UV irradiation dose adjusting device of FIGS. 3 and 4, and FIG. 6 is a perspective view of FIGS. 1 and 2. A perspective view schematically showing a sliding door type UV blocking film.

As shown in Figure 1 and 2, the large-capacity ultraviolet irradiator 1 according to the present invention,

On top of the outer housing 10, a plurality of ultra violet lamps (23) are provided, and a plurality of ultra violet lamp switches (21) for turning on / off the ultraviolet lamps (23) Ultraviolet light unit 20 including a).

A first mesh provided below the ultraviolet light unit 20 by a predetermined height and using a single mesh 33 having a plate shape or a double mash composed of two meshes. A sliding door-type ultraviolet radiation dose adjusting device 30 (see FIG. 3) is included.

The second sliding door type UV irradiation amount provided below the first sliding door type UV irradiation amount adjusting device 30 by a predetermined height and including a single mesh or a double mash 43 in a plate shape. Control device 40 (see FIG. 4).

And, provided from the second sliding door type UV irradiation amount adjusting device 40 to a lower side by a predetermined height, and comprises a sliding door type UV blocking film 50 (see Fig. 6) having a plate shape.

And, the front and rear of the UV irradiation platform (UV irradiation platform) provided on the lower side by a predetermined height from the sliding door type UV blocking film 50 is provided with an openable closing part 60 including an openable closing door 63. .

At this time, the top end of the housing 10 is composed of an opening and closing portion 11 that can be opened and closed to replace the ultraviolet lamp 23 from the ultraviolet light unit 20, which is the life of the plurality of ultraviolet lamps 23 It can be easily replaced when its function is lost due to failure or damage or failure.

In addition, the single mesh 33, which is selectively provided in the first and second sliding door type UV dose adjusting devices 30 and 40, may be formed in a plate-shaped net mesh woven from a plurality of steel wires. In accordance with the operation of the ultraviolet lamp switch 21 is made to scatter the ultraviolet rays irradiated from the ultraviolet lamp 23 at a predetermined ratio to maintain a constant amount of ultraviolet radiation of the subject.

In addition, the double mesh 43 provided in the first and second sliding door type UV irradiation dose control device (30, 40) has a double plate-like mesh woven from a plurality of steel wire (steel wire) Overlapping, scattering the ultraviolet rays irradiated from the ultraviolet lamp 23 at a predetermined rate in accordance with the operation of the ultraviolet lamp switch 21 to block a larger amount of ultraviolet rays than a single mesh.

In addition, the steel wires of the single mesh 33 and the double mesh 43 are preferably 0.2 to 0.5 mm in diameter.

On the other hand, the first sliding door type UV irradiation dose adjusting device 30, the second sliding door type UV irradiation dose adjusting device 40, and the sliding door type UV blocking film 50, each sliding protruding on one side and the other side The portion 30a (see FIG. 2) is coupled to sliding grooves (not designated) formed on both side surfaces of the housing 10 so as to be slidable.

Therefore, according to various research conditions, the operator applies a single mesh and a double mesh or a mesh without a barrier to the first sliding door type UV dose adjusting device 30 and the second sliding door type UV dose adjusting device 40. By attaching in an optional combination, the amount of ultraviolet light per unit time irradiated to the subject can be adjusted appropriately, and can be easily exchanged using the respective handles 31 and 41, and the sliding door type UV blocking film 50 is handled ( 31, 41, and 51 can be opened and closed to adjust the amount of UV radiation irradiated on the subject.

In addition, the UV lamp 23 and the UV lamp switch 21 are each provided in the same number so as to have a one-to-one correspondence. Therefore, when a plurality of UV lamps 23 are provided, the UV lamp switch 21 is also the same number. It is provided with.

In addition, the ultraviolet lamp switch 21 is provided with a lamp intrinsic (lamp type) switch that can be confirmed as the light on / off state of the switch according to the on / off state of the ultraviolet lamp 23, the operator is ultraviolet light By identifying the operating state of the lamp 23, by including a number on the front of the ultraviolet lamp switch 21, the operator can determine the amount of ultraviolet radiation according to the on / off state of the ultraviolet lamp switch 21. In addition, the amount of ultraviolet irradiation can be finely adjusted through the on / off operation of the ultraviolet lamp switch 21 as needed.

In addition, a cooling fan (not shown) for preventing overheating of the ultraviolet lamp 23 may be further provided at a predetermined position inside the ultraviolet light unit 20.

Therefore, in the case of the large-capacity ultraviolet irradiator 1 according to the present invention, the amount of ultraviolet irradiation can be adjusted primarily according to the on / off operation of the ultraviolet lamp switch 21, and secondly, the light source, that is, the ultraviolet lamp ( The first sliding door-type UV dose adjusting device 30 and the second sliding door-type UV dose adjusting device 40 are provided in a space between the insides of the open / close blocking unit 60 on which the subject is placed. By doing so, the amount of ultraviolet irradiation can be further finely blocked and adjusted.

In addition, the open / close block 60 serves as a chamber for irradiating ultraviolet rays from the ultraviolet lamp 23 to an experimental plate containing an experimental sample such as a microorganism, which is a subject for research. The front open / close screen 63 is made of a plastic material for UV blocking in order to prevent the UV light from being irradiated to the worker during the UV irradiation process when the test plate is placed in the open / close block 60 and irradiated with UV rays. It is preferable to make.

And, as shown in Figure 5, when the large amount of ultraviolet light is to be irradiated from the ultraviolet lamp 23, the first sliding door type UV irradiation dose adjusting device 30 or the second sliding door type UV irradiation amount control A through-shaped no-mash sliding door type UV dose adjusting device 70 through which all the ultraviolet rays irradiated to the device 40 is installed to be installed, which is inserted into and removed from the housing 10 by the operator at the front side. The handle 71 is made to work.

This is to allow a large amount of ultraviolet light to be directly irradiated from the ultraviolet lamp 23 to the test sample placed on the open / close block 60, and the no-mesh sliding door-type UV irradiation dose control device 70 is more diverse. Depending on the condition may be provided in place of the first sliding door type UV irradiation dose control device 30, it may also be provided in place of the second sliding door type UV irradiation dose control device (40).

In addition, instead of the first sliding door type UV irradiation amount adjusting device 30 and the second sliding door type UV irradiation amount adjusting device 40 in order to maximize the UV irradiation amount, the no-mesh sliding door type UV irradiation amount adjusting device 70 Each may be provided.

The first sliding door type UV dose adjusting device 30, the second sliding door type UV irradiation adjusting device 40, and the sliding door type UV blocking film 50 may be coupled to be detachable from the housing. It features.

Hereinafter, the operation and effects of the large-capacity ultraviolet irradiator according to the present invention configured as described above will be described in detail.

First, when the ultraviolet lamp switch 21 of the ultraviolet light unit 20 on the uppermost side of the large-capacity ultraviolet irradiator 1 according to the present invention is turned on by the required number in accordance with the required amount of ultraviolet radiation according to the study conditions, The identification lamp (not shown) inside the ultraviolet lamp switch 21 is turned on, and the preheating of the ultraviolet lamp starts. (Note: The ultraviolet lamp is preheated for a predetermined time in order to stably maintain ultraviolet rays of a constant wavelength. Should). At this time, the sliding door type UV blocking film 50 is opened to prevent overheating, and reconfirms the amount of ultraviolet rays irradiated per unit time using a UV radiometer and adjusts the on / off state of the UV lamps. To adjust the amount of UV light.

When the preheating is completed, the sliding door type UV blocking film 50 is slidably coupled to the inside of the housing 10 to make the test sample completely blocked from being irradiated with UV light.

Then, after opening and closing the shut-off blocking membrane 63 of the bottom-closing shut-off block 60 using the handle 61, the test sample, such as microorganisms as the subject is put inside, and closed.

After the sample is mounted, the sliding door type UV blocking film 50 is quickly opened to irradiate the subject with ultraviolet rays. At this time, the ultraviolet irradiation time is adjusted according to the amount of ultraviolet rays to be irradiated and the amount of ultraviolet rays irradiated at the unit time. That is, if the amount of ultraviolet rays to be irradiated to the sample is 10 J / M ² / sec and the amount of ultraviolet rays irradiated per unit time is 1 J / M ² / sec, the sliding door type UV blocking film 50 is opened and closed for 10 seconds.

At this time, not only the malfunction state of the ultraviolet lamp switch 21 can be identified according to the state of the identification lamp, but also the malfunction state of the ultraviolet lamp 23 can be identified, so that the opening and closing part 11 at the top of the malfunction lamp can be identified. The parts can be easily replaced by opening the.

The first sliding door type UV dose adjusting device 30 and the second sliding door type UV dose adjusting device 40 between the test sample and the ultraviolet lamp 23 are disposed on the housing 10 by the handle 31,. When the sliding coupling by the sliding unit (30a, 40a) using 41) by the single or double mesh (33,43) can be adjusted by scattering and blocking the UV irradiation amount from the ultraviolet lamp 23 by a certain amount to adjust the UV irradiation amount. have.

In addition, according to the required amount of ultraviolet radiation, the first sliding door type ultraviolet irradiation dose adjusting device 30 and the second sliding door type UV irradiation dose adjusting device 40, a single mesh 33, double mesh 43, or By using the no-mesh 70 blocking film in a selective combination, the amount of ultraviolet rays irradiated to the subject and the ultraviolet exposure time required for the experiment can be finely controlled. That is, when the double mesh 43 is used for each of the first and second sliding door type UV dose adjusting devices, the minimum amount of UV irradiation is reduced by scattering and blocking the UV dose emitted from the UV lamp 23 by a larger amount. You can irradiate the subject.

In addition, when a larger amount of ultraviolet irradiation is required, as described above, the first sliding door type ultraviolet irradiation adjusting device 30 or the second sliding door so that a large amount of ultraviolet rays are irradiated from the ultraviolet lamp 23. What is necessary is just to slide-fit the through-shaped no-mash sliding door type ultraviolet irradiation amount adjusting device 70 of the penetrating shape which passes all the ultraviolet rays irradiated to the type ultraviolet irradiation amount adjusting device 40.

Accordingly, by combining the single mesh ultraviolet radiation dose adjusting device, the double mesh ultraviolet radiation dose adjusting device, and the no-mesh sliding door type ultraviolet radiation dose adjusting device in a suitable combination according to the required amount of ultraviolet radiation, by sliding coupling inside the housing 10, It can easily adjust from the minute ultraviolet irradiation amount to a large amount of ultraviolet irradiation amount.

In this case, 30 to 40 UV lamps 23 are preferable, and the UV lamp switch 21 is preferably provided to correspond thereto.

In addition, by using the single mesh 33 and the double mesh 43 and the plurality of ultraviolet lamps 23, the ultraviolet illuminance of the entire surface on which the test sample as a subject is placed is kept constant.

Therefore, according to the opening and closing of the sliding door type UV blocking film 50 during the experiment, it is possible to easily and widely change the amount of ultraviolet irradiation irradiated by changing only the ultraviolet irradiation time.

As described above, the large-capacity ultraviolet irradiator according to the present invention has a distance from the ultraviolet lamp, which is the light source, to the test sample, which is the subject, is fixed according to the size of the housing, and the mesh is formed in various combinations between the light source and the sliding door light blocking film. By selectively sliding coupling, a plurality of UV lamps used as a light source can be combined on / off to adjust the intensity of UV light to a desired amount per unit time.

While the invention has been shown and described with respect to particular embodiments, those skilled in the art will recognize that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the appended claims. Anyone can easily know.

1 is a perspective view schematically showing a large capacity ultraviolet irradiator according to the present invention,

2 is a perspective view schematically showing a large capacity ultraviolet irradiator according to the present invention,

3 is a perspective view schematically illustrating a single mesh mounted to the first and second sliding door type UV dose adjusting devices of FIGS. 1 and 2;

4 is a perspective view schematically illustrating a double mesh mounted to the first and second sliding door type UV dose adjusting devices of FIGS. 1 and 2;

FIG. 5 is a perspective view schematically illustrating a furnace mesh (through type) mounted to the first and second sliding door type UV dose adjusting devices of FIGS. 1 and 2;

6 is a perspective view schematically showing the sliding door type UV blocking film of FIGS. 1 and 2.

<Explanation of symbols for the main parts of the drawings>

1: large-capacity ultraviolet irradiator 10: housing

11: opening and closing part 20: ultraviolet lamp switch part

21: UV lamp switch 23: UV lamp

30: first sliding door type ultraviolet radiation dose control device

30a: sliding part 31: handle

33: single mash

40: second sliding door type ultraviolet radiation dose control device

41: handle 43: double mash

50: sliding door type sunscreen

51: handle 60: retractable breaker

61: handle 63: retractable barrier

70: UV light amount adjusting device for sliding door type

71: handle

Claims (12)

An ultraviolet light unit including a plurality of ultra violet lamp switches on the upper side of the outer housing, the plurality of ultra violet lamps being provided to turn on / off the ultra violet lamps; A first sliding door type UV irradiation dose adjusting device provided below the UV light part by a predetermined height and equipped with a plate-shaped single mash, double mash or no-mesh; A second sliding door-type UV irradiation dose control provided at a lower side by a predetermined height from the first UV irradiation dose adjusting device and equipped with a plate-shaped single mash, double mash or no mash in a plate shape Device; A sliding door type UV blocking film provided below the second sliding door type UV irradiation amount adjusting device by a predetermined height and formed in a plate shape; And An opening / closing blocking unit provided below the sliding door type UV blocking film by a predetermined height and attached to a front surface of the ultraviolet irradiation table on which the subject is placed and having an opening / closing blocking film that can be opened and closed; Large capacity ultraviolet irradiator comprising a. The method according to claim 1, The uppermost end of the housing is a large-capacity ultraviolet irradiator, characterized in that the opening and closing portion that can be opened and closed to replace the ultraviolet lamp from the ultraviolet light portion. The method according to claim 1, The single mesh is a large-capacity ultraviolet irradiator, characterized in that made of a plate-shaped mesh woven from steel wire (steel wire). The method according to claim 3, The steel wire is a large-capacity ultraviolet irradiator, characterized in that the diameter of 0.2 to 0.5mm. The method according to claim 1, The double mesh is a large-capacity ultraviolet irradiator, characterized in that overlapping in the form of two plate-shaped mesh woven from steel wire (steel wire). The method according to claim 1, A through-shaped no mash sliding door through which all the ultraviolet rays irradiated to the first sliding door type UV irradiation dose adjusting device or the second sliding door type UV irradiation dose adjusting device are irradiated so that a large amount of ultraviolet rays are radiated from the ultraviolet lamp. Large-capacity UV irradiator, characterized in that the UV irradiation dose control device may be provided. The method according to claim 1 or 6, A sliding part protruding on one side and the other side of each of the first sliding door type UV irradiation dose adjusting device and the second sliding door type UV irradiation dose adjusting device is slidably coupled to the sliding grooves formed on both inner surfaces of the housing. Large capacity ultraviolet irradiator. The method according to claim 7, The first sliding door type UV irradiation dose adjusting device, the second sliding door type UV irradiation dose adjusting device, the no mesh sliding door type UV irradiation dose adjusting device, and the sliding door type UV blocking film are detachable from the housing. Large capacity ultraviolet irradiator, characterized in that coupled. The method according to claim 1, The ultraviolet lamp and the ultraviolet lamp switch is a large-capacity UV irradiator, characterized in that provided with the same number to each one to one correspondence. The method according to claim 1, And a cooling fan for preventing overheating of the ultraviolet lamp at a predetermined position inside the ultraviolet light unit. The method according to claim 9 or 10, The ultraviolet lamp switch is a large-capacity UV irradiator, characterized in that the operator is provided with an identification lamp to immediately identify the on / off state of each ultraviolet lamp from the outside. The method according to claim 1, The open-type barrier film is a large-capacity UV irradiator, characterized in that made of a plastic material for UV blocking.

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