KR102150117B1 - Apparatus for testing weather resistance of greenhouse material - Google Patents

Abstract

A greenhouse member weatherability test apparatus capable of effectively testing the weather resistance of a greenhouse member is disclosed. The greenhouse member weatherability test apparatus includes an apparatus housing, a light source module, a panel fixing module, a specimen fixing module, an air conditioning module, and a connector module. The device housing includes a light source arrangement housing portion, a specimen arrangement housing portion, and an air conditioning housing portion. The light source module is disposed in the light source arrangement space and irradiates light into the specimen arrangement space. The panel fixing module fixes the panel corresponding to the greenhouse exterior material to separate the light source arrangement space and the specimen arrangement space. The specimen fixing module fixes the specimen corresponding to the interior material of the greenhouse to be placed in the specimen placement space. The air conditioning module generates air conditioning air for the specimen to be provided to the specimen placement space. The connector module connects the air conditioning housing unit and the specimen placement housing unit to transmit the sample air conditioning air to the specimen placement space. Accordingly, it is possible to easily create an environment in which sunlight is actually irradiated to the panel and the specimen.

Description

Greenhouse member weather resistance test apparatus {APPARATUS FOR TESTING WEATHER RESISTANCE OF GREENHOUSE MATERIAL}

The present invention relates to a greenhouse member weatherability test apparatus, and more particularly, to a greenhouse member weather resistance test apparatus capable of testing the weather resistance of the greenhouse member.

In general, a greenhouse is a facility made to control the appropriate temperature and humidity for growing plants. Such a greenhouse may be made of transparent glass or vinyl that allows sunlight to pass but blocks air movement. As a result, the greenhouse can obtain a heating effect by allowing sunlight to pass through while blocking cold winds in winter.

On the other hand, the greenhouse can be made of a variety of interior materials as well as transparent glass or vinyl. Since these interior materials are generally made of polymers and chemical materials, they may have weak properties due to sunlight, heat, and moisture. In particular, since the interior material used inside the greenhouse is exposed to a high temperature and high humidity environment irradiated with sunlight for a long period of time, the material may be changed depending on the period of use. Therefore, it is necessary to test whether the interior material used inside the greenhouse can withstand the high temperature and high humidity environment irradiated with sunlight. As the test method used at this time, the weather resistance test method is representative.

As a conventional weathering test method, Korean Patent Laid-Open Publication No. 10-2015-0092563 (published on August 13, 2015) discloses a'weathering test apparatus and method, and an arrangement method of the apparatus.' Specifically, by placing the sample in a position directly facing the sunlight, it is possible to receive the effect of direct exposure of sunlight, and by using a square trumpet-type concentrator with the corners removed, even diffused or scattered light incident from various angles on a cloudy day is efficient. A weatherability test apparatus and method capable of condensing light into light are disclosed.

However, the conventional weathering test apparatus and method as described above is to test the weather resistance of general polymers and chemical materials, and therefore, it cannot be realized as it is, so it can be said that it is not suitable for the weather resistance test of interior materials used inside the greenhouse. .

Accordingly, the present invention has been derived to solve such a problem, and an object to be solved by the present invention is to provide a greenhouse member weatherability test apparatus capable of effectively testing the weather resistance of a greenhouse member.

A greenhouse member weatherability test apparatus according to an exemplary embodiment of the present invention for solving these problems includes a device housing, a light source module, a panel fixing module, a specimen fixing module, an air conditioning module, and a connector module.

The device housing includes a light source arrangement housing portion having a light source arrangement space therein, a specimen arrangement housing portion formed below the light source arrangement housing portion and having a specimen arrangement space connected to the light source arrangement space therein, and a lower portion of the specimen arrangement housing portion. It includes an air conditioning housing portion formed in. The light source module is disposed in the light source arrangement space and irradiates light to the specimen arrangement space. The panel fixing module fixes the panel corresponding to the greenhouse exterior material to separate the light source arrangement space and the specimen arrangement space. The specimen fixing module fixes the specimen corresponding to the greenhouse interior material to be disposed in the specimen arrangement space. The air conditioning module is disposed in the air conditioning housing part and generates specimen air conditioning air to be provided to the specimen arrangement space. The connector module connects between the air conditioning housing part and the specimen arrangement housing part, and transmits the air conditioning air for the specimen to the specimen arrangement space.

The air conditioning module further generates light source air conditioning air to be provided in the light source arrangement space, and the connector module further connects the air conditioning housing part and the light source arrangement housing part to transfer the light source air conditioning air to the light source arrangement space. Can be transmitted.

The air conditioning housing portion may include a specimen air conditioning housing portion formed under the specimen arrangement housing portion and having a specimen air conditioning space therein, and a light source air conditioning housing portion formed under the specimen air conditioning housing portion and having a light source air conditioning space therein. . In addition, the air conditioning module may include a specimen air conditioning module disposed in the specimen air conditioning space to generate the specimen air conditioning air, and a light source air conditioning module arranged in the light source air conditioning space to generate the light source air conditioning air. In addition, the connection pipe module is a specimen air conditioning connector connecting the specimen air conditioning housing portion and the specimen arrangement housing portion to transmit the specimen air conditioning air present in the specimen air conditioning space to the specimen arrangement space, and the light source air conditioning It may include a light source air conditioning connector connecting the housing portion and the light source arrangement housing portion to transmit the light source air conditioning air existing in the light source air conditioning space to the light source arrangement space.

The specimen placement space may be divided into a space above the specimen formed above the specimen and a space below the specimen formed below the specimen. In addition, the specimen air conditioning space may be divided into an upper air conditioning space formed on the upper side of the separation plate and a lower air conditioning space formed on the lower side of the separation plate. In addition, the specimen air conditioning module is disposed in the upper air conditioning space to generate air conditioning air under the specimen to be provided to the lower air conditioning air of the specimen, and the air conditioning air of the specimen is disposed in the lower air conditioning space. It may include a lower air conditioning unit generating air conditioning air above the specimen to be provided to the space above the specimen. In addition, the specimen air conditioning connection pipe connects between the upper air conditioning space and the specimen lower space to transmit the air conditioning air under the specimen present in the upper air conditioning space to the lower space of the specimen, and the lower It may include a specimen upper air conditioning connector connecting the air conditioning space and the upper space of the specimen to transmit the air conditioning air above the specimen present in the lower air conditioning space to the upper space of the specimen.

On one side of the light source arrangement housing part, a light source side suction hole is formed which is connected to the light source air conditioning connection pipe and allows the light source air conditioning air transmitted through the light source air conditioning connection pipe to pass and suck into the light source arrangement space, A light source side discharge hole through which the light source air conditioning air existing in the light source arrangement space is passed and discharged to the outside may be formed on the other side of the light source arrangement housing part. In addition, on one side of the upper portion of the specimen fixing module of the specimen arrangement housing part, the specimen upper air conditioning air connected to the specimen upper air conditioning connector and transmitted through the specimen upper air conditioning connector passes through the specimen upper space. An upper suction hole on the specimen side capable of being sucked is formed, and on the other side of the upper portion of the specimen fixing module among the specimen placement housing portions, the air-conditioning air above the specimen in the upper space of the specimen is passed and discharged to the outside. An upper discharge hole on the specimen side may be formed. In addition, on one side of the lower side of the specimen fixing module of the specimen arrangement housing part, the air conditioning air under the specimen connected to the air conditioning connection pipe below the specimen and transmitted through the air conditioning connection pipe below the specimen passes through the space below the specimen. A lower suction hole on the specimen side capable of being sucked is formed, and on the other lower side of the specimen fixing module of the specimen placement housing portion, the air-conditioning air under the specimen in the lower space of the specimen is passed and discharged to the outside. A lower discharge hole on the specimen side may be formed. In addition, an upper air conditioning suction hole through which external air can be passed through the upper air conditioning space to be sucked into the upper air conditioning space is formed on one side of the upper part of the separation plate among the specimen air conditioning housing parts, and the upper part of the separation plate among the specimen air conditioning housing parts On the other side, an upper air conditioning discharge hole may be formed that is connected to the lower air conditioning connection pipe of the specimen and allows the air conditioning air under the specimen to pass through and discharge it to the air conditioning connection pipe under the specimen. In addition, a lower air-conditioning suction hole through which external air can be passed through the lower air-conditioning space of the specimen air conditioning housing part is formed, and the lower part of the separator of the specimen air-conditioning housing part On the other side, a lower air conditioning discharge hole may be formed which is connected to the upper air conditioning connection pipe of the specimen and allows the air conditioning air above the specimen to pass through and discharge the air conditioning air above the specimen to the air conditioning connection pipe above the specimen. In addition, on one side of the light source air conditioning housing part, a light source air conditioning suction hole through which external air can be passed and sucked into the light source air conditioning space is formed, and on the other side of the light source air conditioning housing part, it is connected to the light source air conditioning connector. A light source air conditioning discharge hole capable of passing the light source air conditioning air existing in the light source air conditioning space to be discharged to the light source air conditioning connection pipe may be formed.

The greenhouse member weatherability test apparatus includes a fan module on the light source side capable of inhaling the light source air-conditioning air into the light source arrangement space or discharged from the light source arrangement space, and inhaling the air-conditioning air above the specimen into the upper space of the specimen or the specimen An upper fan module on the specimen side capable of being discharged from the upper space, a lower fan module on the specimen side capable of inhaling the air-conditioning air under the specimen into the space under the specimen or discharging it from the space under the specimen, and external air to the upper air conditioning space. An upper air conditioning fan module for inhaling or discharging the air conditioning air below the specimen to the air conditioning connection pipe below the specimen, and a lower portion for inhaling external air into the lower air conditioning space or discharging the air conditioning air above the specimen to the air conditioning connection pipe above the specimen An air conditioning fan module, and a light source air conditioning fan module for inhaling external air into the light source air conditioning space or discharging the light source air conditioning air to the light source air conditioning connection pipe may be further included.

The light source side fan module is disposed in the light source side suction hole and is disposed in the light source side suction fan to suck the light source air-conditioning air transmitted through the light source air conditioning connector into the light source arrangement space, and the light source side discharge hole. It may include a light source side exhaust fan for discharging the light source air conditioning air existing in the light source arrangement space to the outside.

The specimen-side upper fan module is disposed in the specimen-side upper suction hole to suck the specimen upper air-conditioning air transmitted through the specimen upper air conditioning pipe into the specimen upper space, and the specimen-side upper It may include a specimen-side upper discharge fan disposed in the discharge hole to discharge the air-conditioning air above the specimen present in the upper space of the specimen to the outside.

The specimen-side lower fan module is disposed in the specimen-side lower suction hole, and the specimen-side lower suction fan sucks the air-conditioned air under the specimen transmitted through the specimen lower air conditioning connection pipe into the space under the specimen, and the specimen side It may include a lower discharge fan on the specimen side disposed in the lower discharge hole to discharge the air-conditioning air under the specimen existing in the lower space of the specimen to the outside.

The upper air conditioning fan module is disposed in the upper air conditioning suction hole, an upper air conditioning suction fan that sucks external air into the upper air conditioning space, and the specimen lower air conditioning which is disposed in the upper air conditioning discharge hole and exists in the upper air conditioning space. It may include an upper air conditioning discharge fan for discharging air to the lower air conditioning connection pipe of the specimen.

The lower air conditioning fan module is disposed in the lower air conditioning suction hole to suck external air into the lower air conditioning space, and the upper air conditioning air of the specimen is disposed in the lower air conditioning discharge hole and exists in the lower air conditioning space. It may include a lower air conditioning discharge fan for discharging the specimen to the upper air conditioning connection pipe.

The light source air conditioning fan module is disposed in the light source air conditioning suction hole to intake external air into the light source air conditioning space, and the light source air conditioning air present in the light source air conditioning space is disposed in the light source air conditioning discharge hole. It may include a light source air conditioning discharge fan discharged to the light source air conditioning connection pipe.

The upper air conditioning unit is disposed in the upper air conditioning space to control the temperature of the air-conditioned air under the specimen, and the upper air conditioning humidity controller is arranged in the upper air conditioning space to control the humidity of the air-conditioned air under the specimen It may include.

The lower air conditioning unit is disposed in the lower air conditioning space to control the temperature of the air conditioning air above the specimen, and a lower air conditioning humidity controller arranged in the lower air conditioning space to adjust the humidity of the air conditioning air above the specimen It may include.

The light source air conditioning module is a light source air conditioning temperature controller that is disposed in the light source air conditioning space to adjust the temperature of the air conditioning air of the light source, and a light source air conditioning humidity controller that is arranged in the light source air conditioning space to control the humidity of the air conditioning air of the light source. Can include.

The greenhouse member weatherability test apparatus includes a panel detection module disposed adjacent to the panel to detect a change in characteristics of the panel, and a specimen detection module disposed adjacent to the specimen to detect a change in characteristics of the test piece. It may contain more.

The panel detection module is disposed adjacent to an upper portion of the panel to detect a change in characteristics of the upper panel, and the panel detection module is disposed adjacent to a lower portion of the panel to detect a change in characteristics of the lower part of the panel. It may include a lower panel detection unit.

The specimen detection module is disposed adjacent to an upper portion of the specimen to detect a change in characteristics of the upper portion of the specimen, and an upper specimen detection unit disposed adjacent to a lower portion of the specimen to detect a change in characteristics of the lower portion of the specimen. It may include a lower specimen detection unit.

The light source module includes a light source unit disposed in the light source arrangement space to generate light directed to the panel, a light source movement rail disposed in the light source arrangement space and mounted on the light source arrangement housing part, and the light source movement rail And a movement adjusting unit mounted on the light source unit and moving the light source unit along the light source moving rail.

The light source unit includes a light source unit that generates light, a reflective shade that is disposed to surround the light source unit and reflects light generated from the light source unit and outputs the light through the reflector open unit, and the light that is disposed at the reflector open unit and is output through the reflective shade open unit. It may include a light source filter for changing characteristics.

The light source moving rail may have a shape curved upward.

The greenhouse member weatherability test apparatus includes the panel detection module, the specimen detection module, the upper air conditioning unit, the lower air conditioning unit, the light source air conditioning module, the light source side fan module, the specimen side upper fan module, and the specimen side lower fan A module, the upper air conditioning fan module, the lower air conditioning fan module, and a control module electrically connected to each of the light source air conditioning fan module may be further included.

The control module receives and monitors information on the characteristic change of the panel from the panel detection module, receives and monitors information on the characteristic change of the specimen from the specimen detection module, and controls the lower air conditioning unit to control the specimen Adjusts the state of the air conditioning air in the upper part, controls the air conditioning unit in the upper part to adjust the air conditioning air under the specimen, controls the air conditioning module of the light source to adjust the air conditioning air state of the light source, and controls the fan module on the light source side. The air conditioning air above the specimen to the space above the specimen is controlled by controlling the amount of air-conditioning air of the light source into the space where the light source is disposed or the amount of air conditioning air of the light source from the space where the light source is disposed. The inhalation amount of the specimen or the amount of air conditioning air discharged above the specimen from the space above the specimen is controlled, and the air conditioning air under the specimen is sucked into the space below the specimen by controlling the lower fan module on the specimen side or the specimen from the space below the specimen. Controls the discharge amount of lower air conditioning air, controls the upper air conditioning fan module to control the amount of external air intake to the upper air conditioning space or the discharge amount of air conditioning air under the specimen from the upper air conditioning space, and the lower air conditioning fan module By controlling the amount of external air intake into the lower air conditioning space or the discharge amount of air conditioning air above the specimen from the lower air conditioning space, and controlling the light source air conditioning fan module to control the external air intake amount or the light source air conditioning into the light source air conditioning space Adjusting the amount of discharge of the light source air-conditioning air from the space, controlling the light source unit to adjust the intensity of light generated from the light source unit, and controlling the movement control unit to move the light source unit along the light source moving rail. I can.

The panel fixing module is disposed on one side between the light source arrangement housing part and the specimen arrangement housing part, and is coupled to and fixed to the one side of the panel, and the light source arrangement housing part and the specimen arrangement housing part It is disposed on the other side between the panel may include a fixing portion of the other side to be fixed by coupling with the other side of the panel.

The specimen fixing module is disposed on one side of the specimen placement housing unit and fixed by coupling to and fixing the specimen on one side of the specimen, and the specimen fixing module on the other side of the specimen placement housing unit, and coupled to the other side of the specimen. It may include a fixing part of the other side of the specimen.

The light source module includes a light source unit disposed in the light source arrangement space to generate light directed to the panel, a light source movement rail disposed in the light source arrangement space and mounted on the light source arrangement housing part, and the light source movement rail And a movement adjusting unit mounted on the light source unit and moving the light source unit along the light source moving rail.

As described above, according to the greenhouse member weatherability test apparatus according to the present invention, the panel corresponding to the greenhouse exterior material is disposed on the top of the specimen corresponding to the greenhouse interior material, and the light source module is disposed on the top of the panel to generate flat light similar to sunlight. By irradiating at various angles, it is possible to easily create an environment in which sunlight is actually irradiated to the panel and the specimen.

In addition, after forming a light source arrangement space in the upper part based on the panel and forming a specimen arrangement space in the lower part, the light source air conditioning air corresponding to the outside air of the greenhouse is provided to the light source arrangement space, and the greenhouse By providing the specimen air conditioning air corresponding to the internal air, it is possible to easily create an environment according to the difference between the air inside and outside the greenhouse.

In addition, after forming an upper space of the specimen in the upper portion of the specimen and forming a lower space of the specimen in the lower portion, air conditioning air above the specimen is provided to the space above the specimen, and air conditioning air under the specimen is provided to the space below the specimen. Accordingly, it is possible to easily create an environment according to the difference between the air above and below the interior of the greenhouse.

1 is a conceptual diagram showing a greenhouse member weather resistance test apparatus according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram illustrating in detail a light source module and a panel fixing module among the apparatus for testing weather resistance of a greenhouse member of FIG. 1.
3 is a conceptual diagram showing in detail a specimen fixing module in the weather resistance test apparatus for a greenhouse member of FIG. 1.
4 is a conceptual diagram showing in detail the air conditioning module of the weather resistance test apparatus of the greenhouse member of FIG.
FIG. 5 is a block diagram illustrating a control module of the apparatus for testing weather resistance of a greenhouse member of FIG. 1.

In the present invention, various modifications may be made and various forms may be applied, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals are used for similar components. In the accompanying drawings, dimensions of structures may be exaggerated than actual for clarity of the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are only used for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may be referred to as a first component.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other features or It is to be understood that the presence or addition of numbers, steps, actions, components, parts, or combinations thereof does not preclude the possibility of preliminary exclusion. In addition, A and B are'connected' and'coupled' means that A and B are directly connected or combined, and other components C are included between A and B, so that A and B are connected or combined. To include that.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not. Further, in the claims for the method invention, the order of each step may be interchanged with each other, as long as each step is not clearly bound to the order.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a conceptual diagram showing a greenhouse member weather resistance test apparatus according to an embodiment of the present invention, FIG. 2 is a conceptual diagram showing in detail a light source module and a panel fixing module among the greenhouse member weather resistance test apparatus of FIG. 1, and FIG. 3 Is a conceptual diagram showing in detail the specimen fixing module of the greenhouse member weather resistance test apparatus of FIG. 1, and FIG. 4 is a conceptual diagram showing in detail the air conditioning module of the greenhouse member weather resistance test apparatus of FIG. 1.

1 to 4, the greenhouse member weatherability test apparatus according to this embodiment performs a test on a panel 10 corresponding to a greenhouse exterior material and a specimen 20 corresponding to a greenhouse interior material in an environment similar to an actual greenhouse. Devices that can be used include a device housing 100, a light source module 200, a panel fixing module 300, a specimen fixing module 400, an air conditioning module 500, and a connector module 600.

The device housing 100 is for mounting or installing the light source module 200, the panel fixing module 300, the specimen fixing module 400, the air conditioning module 500, and the connector module 600 As a base body, it includes a light source arrangement housing unit 110, a specimen arrangement housing unit 120, and air conditioning housing units 130 and 140.

In the present embodiment, the light source arrangement housing unit 110 may have a light source arrangement space therein. The specimen arrangement housing unit 120 may be formed under the light source arrangement housing unit 110 and may have a specimen arrangement space connected to the light source arrangement space therein. The air conditioning housing parts 130 and 140 may be formed under the specimen placement housing part.

The light source module 200 may be disposed in the light source arrangement space to irradiate light into the specimen arrangement space. For example, the light source module 200 may include a light source unit 210, a light source moving rail 220, and a moving control unit 230.

The light source unit 210 may be disposed in the light source arrangement space to generate light toward the panel 10. For example, the light source unit 210 is arranged to surround the light source unit 212 and the light source unit 212 that generate light, and reflects the light generated from the light source unit 212 and outputs it through the reflector open unit. 214), and a light source filter 216 disposed on the reflector open part to change characteristics of light output through the reflector open part. In this case, the light source unit 210 may change the light generated by the light source unit 212 into a planar light shape and output the light generated by the reflective shade 214. In addition, since the light source unit 210 further includes the light source filter 216, it may emit light similar to actual sunlight. Meanwhile, the light source filter 216 may be changed to another light source filter in consideration of seasonal factors, geographic factors, and the like.

The light source moving rail 220 may be disposed in the light source arrangement space and mounted on the light source arrangement housing unit 110. In this case, the light source moving rail 220 may have a shape curved upward.

The movement control unit 230 may mount the light source unit 210 on the light source movement rail 220 and move the light source unit 210 along the light source movement rail 220. For example, the movement control unit 230 provides a roller unit that mounts the light source unit 210 on the light source movement rail 220, and a rotation power to the roller unit, thereby controlling the light source unit 210 It may include a motor that can be moved along the light source moving rail 220.

In this embodiment, as the light source unit 210 moves along the light source moving rail 220 having a shape curved upward, the sun may perform a function of irradiating sunlight while moving from west to east. have.

The panel fixing module 300 may fix the panel 10 to separate between the light source arrangement space and the specimen arrangement space. For example, the panel fixing module 300 may include one panel fixing part 310 and the other panel fixing part 320. The one side panel fixing part 310 is disposed on one side between the light source arrangement housing part 110 and the specimen arrangement housing part 120, and may be fixed by being coupled to one side of the panel 10. The other side panel fixing part 320 is disposed on the other side between the light source arrangement housing part 110 and the specimen arrangement housing part 120, and may be fixed by being coupled to the other side of the panel 10.

Meanwhile, the panel 10 may perform a role of separating between the light source arrangement space and the specimen arrangement space while transmitting light. Here, the panel 10 may be an exterior material of a greenhouse, for example, a transparent glass plate.

The specimen fixing module 400 may fix the specimen 20 to be disposed in the specimen arrangement space. For example, the specimen fixing module 400 may include a specimen fixing portion 410 on one side and a specimen fixing portion 420 on the other side. The one side specimen fixing portion 410 may be disposed on one side of the specimen placement housing portion 120, and may be fixed by being coupled with one side portion of the specimen 20. The other side specimen fixing portion 420 may be disposed on the other side of the specimen placement housing portion 120, and may be coupled to and fixed to the other side portion of the specimen 20.

The air conditioning module 500 may be disposed in the air conditioning housing parts 130 and 140 and may generate air conditioning air for a specimen to be provided to the specimen arrangement space and air conditioning air for a light source to be provided to the light source arrangement space.

The connector module 600 connects between the air conditioning housing units 130 and 140 and the specimen arrangement housing unit 120 to transmit the air conditioning air for the specimen to the specimen arrangement space, and the air conditioning housing unit 130 , 140) and the light source arrangement housing unit 110 may be further connected to transmit the light source air conditioning air to the light source arrangement space.

In this embodiment, the air conditioning housing unit 130 and 140 may include a specimen air conditioning housing unit 130 and a light source air conditioning housing unit 140. The specimen air conditioning housing unit 130 may be formed under the specimen arrangement housing unit 120 and may have a specimen air conditioning space therein. The light source air conditioning housing unit 140 may be formed under the specimen air conditioning housing unit 130 and have a light source air conditioning space therein.

In addition, the air conditioning module 500 may include specimen air conditioning modules 510 and 520 and a light source air conditioning module 530. The specimen air conditioning modules 510 and 520 may be disposed in the specimen air conditioning space to generate the specimen air conditioning air. The light source air conditioning module 530 may be disposed in the light source air conditioning space to generate the light source air conditioning air.

In addition, the connection pipe module 600 may include specimen air conditioning connection pipes 610 and 620 and a light source air conditioning connection pipe 630. The specimen air conditioning connection pipes 610 and 620 connect between the specimen air conditioning housing unit 130 and the specimen arrangement housing unit 120 to transfer the specimen air conditioning air present in the specimen air conditioning space to the specimen arrangement space. It can provide a path for transmission. The light source air conditioning connector 630 connects the light source air conditioning housing unit 140 and the light source arrangement housing unit 110 to transmit the light source air conditioning air existing in the light source air conditioning space to the light source arrangement space. Can provide a passage.

In this embodiment, the specimen arrangement space formed inside the specimen arrangement housing part 120 may be separated into a specimen upper space formed at an upper portion with respect to the specimen and a specimen lower space formed at the lower portion with respect to the specimen. I can.

In addition, the specimen air conditioning space formed inside the specimen air conditioning housing unit 130 may be divided into an upper air conditioning space formed at an upper portion of the separation plate 130a and a lower air conditioning space formed at the lower portion of the separating plate. have.

In addition, the specimen air conditioning modules 510 and 520 may include an upper air conditioning unit 510 and a lower air conditioning unit 520. The upper air conditioning unit 510 may be disposed in the upper air conditioning space to generate air conditioning air under the specimen to be provided to the space under the specimen among air conditioning air in the specimen. The lower air conditioning unit 520 may be disposed in the lower air conditioning space to generate air conditioning air above the specimen to be provided to the space above the specimen air conditioning air.

In addition, the specimen air conditioning connection pipes 610 and 620 may include an air conditioning connection pipe 610 below the specimen and an air conditioning connection pipe 620 above the specimen. The specimen lower air conditioning connection pipe 610 may connect between the upper air conditioning space and the specimen lower space to provide a passage for transmitting the air conditioning air under the specimen present in the upper air conditioning space to the lower space of the specimen. . The upper air conditioning connection pipe 620 of the specimen may connect between the lower air conditioning space and the upper space of the specimen to provide a passage for transmitting the air conditioning air above the specimen in the lower air conditioning space to the upper space of the specimen. .

In this embodiment, at one side of the light source arrangement housing unit 110, the light source air conditioning air is connected to the light source air conditioning connector 630 and transmitted through the light source air conditioning connector 630 to pass through A light source side suction hole 112 that can be sucked into the light source arrangement space may be formed. A light source side discharge hole 114 through which the light source air-conditioning air existing in the light source arrangement space is passed and discharged to the outside may be formed on the other side of the light source arrangement housing unit 110.

In addition, on one side of the upper portion of the specimen fixing module 400 of the specimen placement housing unit 120, it is connected to the specimen upper air conditioning connector 620, and transmitted through the specimen upper air conditioning connector 620. An upper suction hole 122 on the specimen side capable of being sucked into the space above the specimen by passing air conditioning air above the specimen may be formed. On the other side of the upper portion of the specimen fixing module 400 of the specimen placement housing unit 120, the specimen-side upper discharge hole 124 through which the air-conditioning air above the specimen is passed through and discharged to the outside. ) Can be formed.

In addition, on one side of the lower side of the specimen fixing module 400 of the specimen placement housing unit 120, the specimen is connected to the lower air conditioning connection pipe 610 and transmitted through the air conditioning connection pipe 610 under the specimen. A specimen-side lower suction hole 126 through which air-conditioning air under the specimen can be passed and sucked into the space under the specimen may be formed. On the other lower side of the specimen fixing module 400 of the specimen placement housing unit 120, a lower discharge hole 128 on the specimen side capable of passing the air-conditioning air under the specimen present in the lower space of the specimen to be discharged to the outside. ) Can be formed.

In addition, an upper air conditioning suction hole 132 through which external air is passed and sucked into the upper air conditioning space may be formed on one side of the upper side of the separation plate 130a of the specimen air conditioning housing 130. The other side of the upper side of the separating plate 130a of the specimen air conditioning housing unit 130 is connected to the specimen lower air conditioning connection pipe 610 and passes the air conditioning air under the specimen present in the upper air conditioning space. An upper air conditioning discharge hole 134 capable of being discharged to the air conditioning connection pipe 610 below the specimen may be formed.

In addition, a lower air conditioning suction hole 136 through which external air can be passed through and sucked into the lower air conditioning space may be formed on one side of the lower side of the separating plate 130a of the specimen air conditioning housing 130. The other side of the lower side of the separating plate 130a of the specimen air conditioning housing unit 130 is connected to the specimen upper air conditioning connector 620, and passes the air conditioning air above the specimen in the lower air conditioning space. A lower air conditioning discharge hole 138 capable of being discharged to the air conditioning connection pipe 620 above the specimen may be formed.

In addition, a light source air conditioning suction hole 142 through which external air is passed and sucked into the light source air conditioning space may be formed on one side of the light source air conditioning housing unit 140. The other side of the light source air conditioning housing unit 140 is connected to the light source air conditioning connection pipe 630 and passes the light source air conditioning air present in the light source air conditioning space to be discharged to the light source air conditioning connection pipe 630. A light source air conditioning discharge hole 144 may be formed.

In this embodiment, the upper air conditioning unit 510 may include an upper air conditioning temperature controller 512 and an upper air conditioning humidity controller 514. The upper air conditioning temperature controller 512 is a device that is disposed in the upper air conditioning space to adjust the temperature of the air conditioning air under the specimen, and may include, for example, a cooler and a heater. The upper air conditioning humidity controller 514 is a device that is disposed in the upper air conditioning space to adjust the humidity of the air conditioning air under the specimen, and may include, for example, a humidifier.

The lower air conditioning unit 520 may include a lower air conditioning temperature controller 522 and a lower air conditioning humidity controller 524. The lower air conditioning temperature controller 522 is a device that is disposed in the lower air conditioning space to adjust the temperature of the air conditioning air above the specimen, and may include, for example, a cooler and a heater. The lower air conditioning humidity controller 524 is a device disposed in the lower air conditioning space to adjust the humidity of the air conditioning air above the specimen, and may include, for example, a humidifier.

The light source air conditioning module 530 may include a light source air conditioning temperature controller 532 and a light source air conditioning humidity controller 534. The light source air conditioning temperature controller 532 is a device that is disposed in the light source air conditioning space to control the temperature of the air conditioning air of the light source, and may include, for example, a cooler and a heater. The light source air conditioning humidity controller 534 is a device that is disposed in the light source air conditioning space to adjust the humidity of the air conditioning air of the light source, and may include, for example, a humidifier.

In this embodiment, the greenhouse member weatherability test apparatus may further include a light source side fan module, a test piece side upper fan module, a test piece side lower fan module, an upper air conditioning fan module, a lower air conditioning fan module, and a light source air conditioning fan module.

The light source side fan module may suck the light source air conditioning air into the light source arrangement space or discharge it from the light source arrangement space. For example, the light source side fan module may include a light source side suction fan 240 and a light source side discharge fan 250. The light source side suction fan 240 may be disposed in the light source side suction hole 112 to suck the light source air conditioning air transmitted through the light source air conditioning connector 630 into the light source arrangement space. The light source side exhaust fan 250 is disposed in the light source side discharge hole 114 to discharge the light source air conditioning air existing in the light source arrangement space to the outside.

The upper fan module on the specimen side may suck the air-conditioning air above the specimen into the space above the specimen or discharge it from the space above the specimen. For example, the specimen-side upper fan module may include a specimen-side upper suction fan 430 and a specimen-side upper discharge fan 440. The specimen-side upper suction fan 430 is disposed in the specimen-side upper suction hole 122 to suck the specimen upper air conditioning air transmitted through the specimen upper air conditioning connection pipe 620 into the upper space of the specimen. have. The specimen-side upper discharge fan 440 may be disposed in the specimen-side upper discharge hole 124 to discharge the air-conditioning air above the specimen present in the space above the specimen to the outside.

The lower fan module on the specimen side may suck the air-conditioning air under the specimen into the space below the specimen or discharge it from the space below the specimen. For example, the specimen-side lower fan module may include a specimen-side lower suction fan 450 and a specimen-side lower discharge fan 460. The specimen-side lower suction fan 450 is disposed in the specimen-side lower suction hole 126 to suck the air-conditioning air under the specimen transmitted through the air conditioning connection pipe 610 below the specimen into the space under the specimen. have. The specimen-side lower discharge fan 460 may be disposed in the specimen-side lower discharge hole 128 to discharge the air-conditioning air under the specimen in the space under the specimen to the outside.

The upper air conditioning fan module may suck external air into the upper air conditioning space or discharge the air conditioning air under the specimen to the air conditioning connection pipe 610 under the specimen. For example, the upper air conditioning fan module may include an upper air conditioning suction fan 516 and an upper air conditioning discharge fan (not shown). The upper air conditioning suction fan 516 is disposed in the upper air conditioning suction hole 132 to suck external air into the upper air conditioning space. The upper air conditioning discharge fan may be disposed in the upper air conditioning discharge hole 134 to discharge the air conditioning air under the specimen present in the upper air conditioning space to the air conditioning connection pipe 610 below the specimen. Here, the upper air conditioning discharge fan may be omitted.

The lower air conditioning fan module may suck external air into the lower air conditioning space or discharge the air conditioning air above the specimen to the air conditioning connection pipe 620 above the specimen. For example, the lower air conditioning fan module may include a lower air conditioning suction fan 526 and a lower air conditioning discharge fan (not shown). The lower air conditioning suction fan 526 is disposed in the lower air conditioning suction hole 136 to suck external air into the lower air conditioning space. The lower air conditioning discharge fan may be disposed in the lower air conditioning discharge hole 138 to discharge the air conditioning air above the specimen in the lower air conditioning space to the air conditioning connection pipe 620 above the specimen. Here, the lower air conditioning discharge fan may be omitted.

The light source air conditioning fan module may suck outside air into the light source air conditioning space or discharge the light source air conditioning air to the light source air conditioning connector 630. For example, the light source air conditioning fan module may include a light source air conditioning suction fan 536 and a light source air conditioning discharge fan (not shown). The light source air conditioning suction fan 536 is disposed in the light source air conditioning suction hole 142 to suck external air into the light source air conditioning space. The light source air conditioning discharge fan may be disposed in the light source air conditioning discharge hole 144 to discharge the light source air conditioning air existing in the light source air conditioning space to the light source air conditioning connector 630. Here, the light source air conditioning discharge fan may be omitted.

In this embodiment, the greenhouse member weatherability test apparatus may further include a panel detection module and a specimen detection module.

The panel detection module is disposed adjacent to the panel 10 to detect a change in characteristics of the panel, for example, a change in a surface. For example, the panel detection module is disposed adjacent to an upper portion of the panel 10 to detect a change in characteristics of the upper panel, and the upper panel detecting unit 330 is disposed adjacent to the lower portion of the panel. It may include a lower panel detector 340 capable of detecting a change in characteristics under the panel. In this case, each of the upper panel sensing unit 330 and the lower panel sensing unit 340 may include a camera capable of photographing a surface.

The specimen detection module may be disposed adjacent to the specimen 20 to detect a change in characteristics of the specimen, for example, a change in a surface. For example, the specimen detection module is disposed adjacent to the upper portion of the specimen 20 to detect a change in the characteristics of the upper specimen detection unit 470, and is arranged adjacent to the lower portion of the specimen. It may include a lower specimen detection unit 480 capable of detecting a change in characteristics of the lower portion of the specimen. In this case, each of the upper specimen detection unit 470 and the lower specimen detection unit 480 may include a camera capable of photographing a surface.

FIG. 5 is a block diagram illustrating a control module of the apparatus for testing weather resistance of a greenhouse member of FIG. 1.

1 to 5, the greenhouse member weatherability test apparatus includes the panel detection module, the specimen detection module, the upper air conditioning unit 510, the lower air conditioning unit 520, the light source air conditioning module 530, The light source side fan module, the specimen side upper fan module, the specimen side lower fan module, the upper air conditioning fan module, the lower air conditioning fan module, further comprising a control module 700 electrically connected to each of the light source air conditioning fan module can do. For example, the control module 700 may be a computer system or a mobile terminal.

The control module 700 receives and monitors information on a characteristic change of the panel 10 from the panel detection module, and receives and monitors information on a characteristic change of the specimen 20 from the specimen detection module. I can. As a result, the manager can accurately check the change in the characteristics of the panel 10 and the change in the characteristics of the specimen 20 through the control module 700.

In addition, the control module 700 controls the lower air conditioning unit 520 to adjust the state of the air conditioning air above the specimen, and controls the upper air conditioning unit 510 to control the air conditioning air under the specimen. have. As a result, the manager can easily change the ambient air condition of the specimen 20 through the control module 700.

In addition, the control module 700 may control the light source air conditioning module 530 to adjust the state of the air conditioning air of the light source. As a result, the administrator can easily change the upper air condition of the panel 10 through the control module 700.

In addition, the control module 700 may control the fan module on the light source side to adjust the amount of intake of the light source air conditioning air into the light source arrangement space or the discharge amount of the light source air conditioning air from the light source arrangement space. As a result, the manager can easily change the amount of air above the panel 10 through the control module 700.

In addition, the control module 700 controls the upper fan module on the specimen side to control the intake amount of the air conditioning air above the specimen into the space above the specimen or the air conditioning air discharge amount above the specimen from the space above the specimen. By controlling the side lower fan module, the amount of air-conditioning air under the specimen may be inhaled into the space under the specimen or the discharge amount of air conditioning air under the specimen from the space under the specimen may be adjusted. As a result, the manager can easily change the amount of air surrounding the specimen 20 through the control module 700.

In addition, the control module 700 controls the upper air conditioning fan module to control the amount of external air intake to the upper air conditioning space or the discharge amount of air conditioning air under the specimen from the upper air conditioning space, and the lower air conditioning fan module By controlling, the amount of external air intake into the lower air conditioning space or the discharge amount of air conditioning air above the specimen from the lower air conditioning space may be adjusted. As a result, the manager can easily change the amount of air conditioning air below the specimen in the upper air conditioning space and the air conditioning air above the specimen in the lower air conditioning space through the control module 700.

In addition, the control module 700 may control the light source air conditioning fan module to adjust the amount of external air intake into the light source air conditioning space or the amount of discharge of the light source air conditioning air from the light source air conditioning space. As a result, the manager can easily change the amount of the light source air-conditioning air in the light source air-conditioning space through the control module 700.

In addition, the control module 700 may control the light source 212 of the light source unit 210 to adjust the intensity of light generated from the light source 212. As a result, the manager can easily change the intensity of light irradiated to the panel 10 and the specimen 20 through the control module 700.

In addition, the control module 700 may control the movement control unit 230 to move the light source unit 210 along the light source movement rail 220. As a result, the manager can easily change the angle of light irradiated to the panel 10 and the specimen 20 through the control module 700.

As described above, according to the present embodiments, the panel 10 corresponding to the greenhouse exterior material is disposed above the specimen 20 corresponding to the greenhouse interior material, and the light source module 200 is the upper part of the panel 10. As it is disposed in and irradiates planar light similar to sunlight at various angles, it is possible to easily create an environment in which sunlight is actually irradiated to the panel 10 and the specimen 20.

In addition, after forming the light source arrangement space at an upper portion of the panel 10 and forming the specimen arrangement space at the lower portion, the light source air conditioning air corresponding to the outside air of the greenhouse is provided to the light source arrangement space, By providing the specimen air conditioning air corresponding to the air inside the greenhouse to the specimen arrangement space, an environment according to the difference between the air inside and outside the greenhouse can be easily created.

In addition, after forming an upper space of the specimen at an upper portion of the specimen 20 and forming a lower space of the specimen at the lower portion, air conditioning air above the specimen is provided to the upper space of the specimen, and By providing the air-conditioning air under the specimen, it is possible to easily create an environment according to the difference between the air above and below the interior of the greenhouse.

In the detailed description of the present invention described above, it has been described with reference to preferred embodiments of the present invention, but those skilled in the art or those of ordinary skill in the art will have the spirit of the present invention described in the claims to be described later. And it will be understood that various modifications and changes can be made to the present invention within a range not departing from the technical space.

100: device housing 110: light source arrangement housing unit
120: specimen arrangement housing portion 130: specimen air conditioning housing portion
140: light source air conditioning housing part 200: light source module
210: light source unit 212: light source unit
214: reflective shade 216: light source filter
220: light source moving rail 230: moving control unit
240: light source side suction fan 250: light source side discharge fan
300: panel fixing module 310: one side panel fixing part
320: other panel fixing unit 330: upper panel detection unit
340: lower panel detection unit 400: specimen fixing module
410: one side specimen fixing portion 420: the other side specimen fixing portion
430: upper suction fan on the specimen side 440: upper discharge fan on the specimen side
450: lower suction fan on the specimen side 460: lower discharge fan on the specimen side
470: upper specimen sensing unit 480: lower specimen sensing unit
500: air conditioning module 510: upper air conditioning unit
512: upper air conditioning temperature controller 514: upper air conditioning humidity controller
516: upper air conditioning suction fan 520: lower air conditioning unit
522: lower air conditioning temperature controller 524: lower air conditioning humidity controller
526: lower air conditioning suction fan 530: light source air conditioning module
532: light source air conditioning temperature controller 534: light source air conditioning humidity controller
536: light source air conditioning suction fan 600: connector module
610: air conditioning connection pipe under the specimen 620: air conditioning connection pipe over the specimen
630: light source air conditioning connector 700: control module
10: panel 20: specimen

Claims (25)

A light source arrangement housing portion having a light source arrangement space therein, a specimen arrangement housing portion formed under the light source arrangement housing portion and having a specimen arrangement space connected to the light source arrangement space therein, and an air conditioning housing formed under the specimen arrangement housing portion A device housing including a portion;
A light source module disposed in the light source arrangement space to irradiate light into the specimen arrangement space;
A panel fixing module for fixing a panel corresponding to the greenhouse exterior material to separate between the light source arrangement space and the specimen arrangement space;
A specimen fixing module for fixing a specimen corresponding to the greenhouse interior material to be disposed in the specimen arrangement space;
An air conditioning module disposed in the air conditioning housing unit and configured to generate air conditioning air for a specimen to be provided to the specimen arrangement space and air conditioning air for a light source to be provided to the light source arrangement space; And
By connecting between the air conditioning housing unit and the specimen arrangement housing unit, the specimen air conditioning air is transmitted to the specimen arrangement space,
A connector module further connecting the air conditioning housing unit and the light source arrangement housing unit to transmit the air conditioning air of the light source to the light source arrangement space,
The air conditioning housing part
A specimen air conditioning housing portion formed below the specimen arrangement housing portion and having a specimen air conditioning space therein; And
It is formed under the specimen air conditioning housing portion, and includes a light source air conditioning housing portion having a light source air conditioning space therein,
The air conditioning module
A specimen air conditioning module disposed in the specimen air conditioning space to generate the specimen air conditioning air; And
And a light source air conditioning module disposed in the light source air conditioning space to generate the air conditioning air of the light source,
The connector module
A specimen air conditioning connector connecting the specimen air conditioning housing portion and the specimen arrangement housing portion to transmit the specimen air conditioning air present in the specimen air conditioning space to the specimen arrangement space; And
A greenhouse member weatherability testing apparatus comprising a light source air conditioning connector connecting the light source air conditioning housing part and the light source arrangement housing part to transmit the light source air conditioning air present in the light source air conditioning space to the light source arrangement space. delete delete The method of claim 1,
The specimen placement space is
It is divided into a space above the specimen formed on the upper side of the specimen and a space below the specimen formed below the specimen,
The specimen air conditioning space
It is divided into an upper air conditioning space formed on the upper side of the separation plate and a lower air conditioning space formed on the lower side of the separation plate,
The specimen air conditioning module
An upper air conditioning unit disposed in the upper air conditioning space to generate air conditioning air under the specimen to be provided to the lower space of the specimen among air conditioning air of the specimen; And
And a lower air conditioning unit disposed in the lower air conditioning space to generate air conditioning air above the specimen to be provided to the upper space of the specimen among air conditioning air of the specimen,
The specimen air conditioning connector is
A specimen lower air conditioning connector connecting the upper air conditioning space and the specimen lower space to transmit the air conditioning air under the specimen present in the upper air conditioning space to the lower specimen space; And
A weather resistance test for a greenhouse member comprising: a specimen upper air conditioning connector connecting the lower air conditioning space and the upper space of the specimen to transmit the air conditioning air above the specimen present in the lower air conditioning space to the upper space of the specimen. Device. The method of claim 4,
On one side of the light source arrangement housing part
A light source side suction hole is formed which is connected to the light source air conditioning connection pipe and through which the light source air conditioning air transmitted through the light source air conditioning connection pipe is passed and sucked into the light source arrangement space,
On the other side of the light source arrangement housing part
A light source side discharge hole through which the light source air-conditioning air existing in the light source arrangement space is passed and discharged to the outside is formed,
On one side of the upper portion of the specimen fixing module of the specimen placement housing part,
An upper suction hole on the specimen side is formed which is connected to the air conditioning connection pipe above the specimen and allows the air conditioning air above the specimen transmitted through the air conditioning connection pipe above the specimen to pass and suck into the space above the specimen,
On the other upper side of the specimen fixing module of the specimen placement housing part
An upper discharge hole on the specimen side capable of passing the air conditioning air above the specimen in the space above the specimen to be discharged to the outside is formed,
On the lower one side of the specimen fixing module of the specimen placement housing part,
A lower suction hole on the specimen side is formed which is connected to the air conditioning connection pipe under the specimen and through which the air conditioning air under the specimen is transmitted through the air conditioning connection pipe under the specimen to be sucked into the space under the specimen,
The other side of the lower portion of the specimen fixing module of the specimen placement housing part
A lower discharge hole at the side of the specimen through which the air-conditioning air under the specimen can be passed through and discharged to the outside is formed in the space under the specimen,
On one side of the upper portion of the separation plate of the specimen air conditioning housing part
An upper air conditioning suction hole capable of passing external air and sucking into the upper air conditioning space is formed,
On the other side of the upper side of the separation plate of the specimen air conditioning housing part
An upper air conditioning discharge hole is formed which is connected to the lower air conditioning connection pipe of the specimen and is capable of passing the air conditioning air under the specimen existing in the upper air conditioning space to be discharged to the air conditioning connection pipe under the specimen,
One side of the lower portion of the separation plate of the specimen air conditioning housing part
A lower air conditioning suction hole capable of passing external air and sucking into the lower air conditioning space is formed,
On the other side of the lower part of the separation plate of the specimen air conditioning housing part
A lower air conditioning discharge hole is formed which is connected to the upper air conditioning connection pipe of the specimen and allows the air conditioning air above the specimen to pass through and discharge it to the air conditioning connection pipe above the specimen,
On one side of the light source air conditioning housing part
A light source air conditioning suction hole capable of passing external air and sucking into the light source air conditioning space is formed,
On the other side of the light source air conditioning housing part
The greenhouse member weather resistance test apparatus, characterized in that a light source air conditioning discharge hole connected to the light source air conditioning connection pipe and capable of passing the light source air conditioning air existing in the light source air conditioning space to be discharged to the light source air conditioning connection pipe is formed. The method of claim 5,
A light source side fan module capable of inhaling the light source air conditioning air into the light source arrangement space or exhausting the light source arrangement space;
An upper fan module on the specimen side capable of inhaling the air-conditioning air above the specimen into the space above the specimen or exhausting from the space above the specimen;
A lower fan module on the specimen side capable of inhaling the air-conditioning air under the specimen into the space under the specimen or discharging it from the space under the specimen;
An upper air conditioning fan module for inhaling external air into the upper air conditioning space or discharging the air conditioning air under the specimen to the air conditioning connection pipe under the specimen;
A lower air conditioning fan module for inhaling external air into the lower air conditioning space or discharging the air conditioning air above the specimen to the air conditioning connection pipe above the specimen; And
And a light source air conditioning fan module for inhaling external air into the light source air conditioning space or discharging the light source air conditioning air to the light source air conditioning connection pipe. The method of claim 6,
The light source side fan module
A light source side suction fan disposed in the light source side suction hole to suck the light source air-conditioning air transmitted through the light source air conditioning connection pipe into the light source arrangement space; And
And a light source side exhaust fan disposed in the light source side discharge hole to discharge the light source air-conditioning air existing in the light source arrangement space to the outside. The method of claim 6,
The upper fan module on the specimen side
A specimen-side upper suction fan disposed in the upper suction hole on the specimen side and configured to suck the air-conditioning air above the specimen transmitted through the air conditioning connection pipe above the specimen into the space above the specimen; And
And a specimen-side upper discharge fan disposed in the upper discharge hole on the specimen side to discharge the air-conditioning air above the specimen in the space above the specimen to the outside. The method of claim 6,
The lower fan module on the specimen side
A lower sample side suction fan disposed in the lower suction hole of the specimen side and configured to suck the air-conditioning air under the specimen transmitted through the air conditioning connection pipe under the specimen into the space below the specimen; And
And a lower discharge fan on the specimen side disposed in the lower discharge hole on the specimen side to discharge the air-conditioning air under the specimen to the outside. The method of claim 6,
The upper air conditioning fan module
An upper air conditioning suction fan disposed in the upper air conditioning suction hole to suck external air into the upper air conditioning space; And
And an upper air conditioning discharge fan disposed in the upper air conditioning discharge hole to discharge the air conditioning air under the specimen present in the upper air conditioning space to the air conditioning connection pipe below the specimen. The method of claim 6,
The lower air conditioning fan module
A lower air conditioning suction fan disposed in the lower air conditioning suction hole to suck external air into the lower air conditioning space; And
And a lower air conditioning discharge fan disposed in the lower air conditioning discharge hole and discharging the air conditioning air above the specimen present in the lower air conditioning space to the air conditioning connection pipe above the specimen. The method of claim 6,
The light source air conditioning fan module
A light source air conditioning suction fan disposed in the light source air conditioning suction hole to suck external air into the light source air conditioning space; And
And a light source air conditioning exhaust fan disposed in the light source air conditioning discharge hole and discharging the light source air conditioning air existing in the light source air conditioning space to the light source air conditioning connection pipe. The method of claim 6,
The upper air conditioning unit
An upper air conditioning temperature controller disposed in the upper air conditioning space to adjust a temperature of air conditioning air under the specimen; And
And an upper air conditioning humidity controller disposed in the upper air conditioning space to adjust the humidity of the air conditioning air under the specimen. The method of claim 6,
The lower air conditioning unit
A lower air conditioning temperature controller disposed in the lower air conditioning space to adjust a temperature of the air conditioning air above the specimen; And
And a lower air conditioning humidity controller disposed in the lower air conditioning space to adjust the humidity of air conditioning air above the specimen. The method of claim 6,
The light source air conditioning module
A light source air conditioning temperature controller disposed in the light source air conditioning space and capable of controlling a temperature of the air conditioning air of the light source; And
And a light source air conditioning humidity controller that is disposed in the light source air conditioning space and capable of adjusting the humidity of the air conditioning air of the light source. The method of claim 6,
A panel detection module disposed adjacent to the panel and capable of detecting a change in characteristics of the panel; And
It is disposed adjacent to the specimen and further comprises a specimen detection module capable of detecting a characteristic change of the specimen. The method of claim 16,
The panel detection module
An upper panel detector disposed adjacent to an upper portion of the panel to detect a change in characteristics of the upper panel; And
And a lower panel detector disposed adjacent to the lower part of the panel to detect a change in characteristics of the lower part of the panel. The method of claim 16,
The specimen detection module
An upper specimen detection unit disposed adjacent to an upper portion of the specimen to detect a change in characteristics of the upper portion of the specimen; And
And a lower specimen detector disposed adjacent to a lower portion of the specimen to detect a change in characteristics of the lower portion of the specimen. The method of claim 16,
The light source module
A light source unit disposed in the light source arrangement space to generate light directed toward the panel;
A light source moving rail disposed in the light source arrangement space and mounted on the light source arrangement housing part; And
And a movement control unit configured to mount the light source unit on the light source movement rail and move the light source unit along the light source movement rail. The method of claim 19,
The light source unit
A light source unit for generating light;
A reflector disposed so as to surround the light source unit, reflecting light generated from the light source unit, and outputting the reflective shade open unit; And
And a light source filter disposed on the reflective shade open portion to change characteristics of light output through the reflective shade open portion. The method of claim 19,
The light source moving rail
Greenhouse member weather resistance test apparatus, characterized in that it has a shape curved upward. The method of claim 19,
The panel detection module, the specimen detection module, the upper air conditioning unit, the lower air conditioning unit, the light source air conditioning module, the light source side fan module, the specimen side upper fan module, the specimen side lower fan module, the upper air conditioning fan module , Further comprising a control module electrically connected to each of the lower air conditioning fan module and the light source air conditioning fan module,
The control module
Receiving and monitoring information on the characteristic change of the panel from the panel detection module, receiving and monitoring information on the characteristic change of the specimen from the specimen detection module,
The lower air conditioning unit is controlled to adjust the state of the air conditioning air above the specimen, the upper air conditioning unit is controlled to control the air conditioning air under the specimen, and the light source air conditioning module is controlled to adjust the air conditioning air state of the light source. ,
Controlling the light source side fan module to adjust the intake amount of the light source air conditioning air into the light source arrangement space or the discharge amount of the light source air conditioning air from the light source arrangement space,
By controlling the upper fan module on the specimen side, the air conditioning air above the specimen is sucked into the space above the specimen or the air conditioning air discharged from the specimen upper space is controlled, and the lower fan module on the specimen is controlled to control the specimen. Adjusting the suction amount of the air conditioning air under the specimen into the lower space or the discharge amount of air conditioning air under the specimen from the space under the specimen,
By controlling the upper air conditioning fan module, the amount of external air intake to the upper air conditioning space or the discharge amount of air conditioning air under the specimen from the upper air conditioning space is controlled, and the lower air conditioning fan module is controlled to external to the lower air conditioning space. Adjusting the air intake amount or the discharge amount of the air conditioning air above the specimen from the lower air conditioning space,
Controlling the light source air conditioning fan module to adjust the amount of external air intake into the light source air conditioning space or the discharge amount of the light source air conditioning air from the light source air conditioning space,
Controlling the light source unit to adjust the intensity of light generated from the light source unit, and controlling the movement control unit to move the light source unit along the light source moving rail. The method of claim 1,
The panel fixing module
A side panel fixing part disposed on one side between the light source disposing housing part and the specimen disposing housing part, and fixing by coupling with the one side part of the panel; And
And a second panel fixing unit disposed on the other side between the light source disposing housing unit and the specimen disposing housing unit, and being coupled to and fixed to the other side of the panel. The method of claim 1,
The specimen fixing module is
One side specimen fixing portion disposed on one side of the specimen placement housing portion, and coupled to and fixed to the one side portion of the specimen; And
And a second specimen fixing portion disposed on the other side of the specimen placement housing portion and fixed by coupling with the other side portion of the specimen. The method of claim 1,
The light source module
A light source unit disposed in the light source arrangement space to generate light directed toward the panel;
A light source moving rail disposed in the light source arrangement space and mounted on the light source arrangement housing part; And
And a movement control unit configured to mount the light source unit on the light source movement rail and move the light source unit along the light source movement rail.

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