KR20120046941A - Window structure for removably attachable of solar cell module of artificial intelligence system - Google Patents

Abstract

PURPOSE: A window structure having a detachable solar cell module integrated with an artificial intelligence system is provided to enable the easy repair and replacement of a solar cell module using a detachable fixed window unit. CONSTITUTION: A window structure having a detachable solar cell module integrated with an artificial intelligence system comprises a window frame(100), a middle frame, a fixed window unit(300), a ventilation window unit, a solar cell module(600), and a control unit(700). The window frame is coupled to the inner surface of a wall in which a window is installed. The middle frame is coupled to the inner center of the window frame and divides the inside the window frame into two parts. The fixed window unit is fixed to one side of the window frame, and the ventilation window unit is fixed to the other side thereof. The solar cell module is installed on the fixed window unit and converts collected sunlight into electric energy. The control unit controls the electric energy supplied from the solar cell module.

Description

Window structure for removably attachable of solar cell module of artificial intelligence system

The present invention relates to a window structure, and more particularly, to install a solar cell module in a fixed window of the integrated window structure having a ventilation window and a fixed window on the wall, so that the fixed window is removable in the room By converting the solar light collected from the solar cell module by the sunlight into electrical energy to solve the necessary power by itself, such as opening and closing the ventilation window and control unit, various sensors or blinds, the solar cell module of the fixed window unit The present invention relates to a window structure in which a solar cell module incorporating an artificial intelligence system, which is easy and easy to repair and replace in a room, improves workability and convenience of repair.

In general, windows and doors refer to various windows or doors installed in openings such as windows or entrances to block the interior and exterior of a building.

The above windows have functions such as blocking weather changes from the outside, outside noises, internal lights, sounds, etc., and ventilating, ventilating, or mining. Among these windows, the ventilation function is important for purifying indoor air. Play a role.

Nowadays, modern buildings are being built in the form of high-rise buildings.In the high-rise part of the high-rise building, it is difficult to open and close windows due to wind pressure, which makes natural ventilation difficult, and it is difficult to open or close windows even in bad weather. It is almost impossible to do.

Therefore, the air in the high-rise building naturally becomes cloudy after a long time, and since the clouded air contains various pollutants harmful to the body, in-room living indoors inhales the cloudy air containing various pollutants. Due to the various diseases or pains, such as feeling of discomfort adversely affects health.

Therefore, in order to improve the quality of the indoor air, a mechanical forced ventilation system for forcibly circulating air is applied to the ultra high-rise building to purify the indoor air, but the mechanical forced ventilation system smoothly circulates the air. If it does not, or if the system breaks down, the room air does not circulate at all.

Then, the indoor air is not purified, and contaminated air is sucked through the respirator of the inpatient living in the room while the air contains various pollutants. It causes an unpleasant feeling such as sick building syndrom), pain, and various diseases, and thus adversely affects the health of the occupants.

In addition, a window system using electricity produced by installing a solar cell module on a window of a window utilizing natural energy, that is, a glass of the window and collecting current from the solar cell module by sunlight, is being developed. The electricity produced is used as electric power used to transmit electricity to KEPCO, or as a light or an outlet of a building, and is not used as electric power to ventilate indoor air. There was an inconvenience to close.

In addition, when the window is not a large window that secures a large amount of view through the window of the window, the window system using natural energy does not have a sufficient view right by the solar cell module, which is why most people do not have a window. Do not install solar modules.

In addition, since the life of the solar cell module is not permanent, it must be replaced after a predetermined time elapses. The solar cell module is installed outside the glass, that is, the outdoor side, and the glass window of the window is fixed to the window part of the wall. In order to repair or replace a solar module that has reached the end of its lifespan or has failed due to its combined state, a worker must work outside the building or work outside the building. There were also problems that followed the difficulties and risks.

The present invention has been proposed in order to solve the problems in the prior art as described above, and installed in the window part of the wall separated by the fixed window and the ventilation window, and the solar cell module is installed on the glass window of the fixed window and the fixed window portion Removably coupled to convert the solar light collected in the solar cell module by the sunlight into electrical energy to operate the opening and closing of the ventilation window and control unit, various sensors or blinds for the ventilation of the room using the electrical energy. The purpose of the present invention is not only to solve the power required by itself, but also to improve the ease of construction and repair, such as easy and easy repair and replacement of the solar cell module indoors by the detachable fixed window part.

The present invention for achieving the above object, the window frame coupled to the inner surface of the window portion formed in the wall; An intermediate frame fixedly coupled to an inner central portion of the window frame to divide the inside of the window frame; A fixed window unit comprising a fixed glass window to be detachably coupled to one side of the window frame and a fixed frame supporting and fixing the fixed glass window; A ventilation window unit comprising a ventilation glass window pivotally coupled to the other side in the window frame and a movable frame supporting and fixing the ventilation glass window; A plurality of solar cell modules coupled to one surface of the fixed glass window of the fixed window to convert sunlight into electrical energy; The control unit for supplying the electrical energy converted from the solar cell module and the control the supplied electrical energy; is provided with a window structure detachable solar cell module grafted artificial intelligence system, characterized in that consisting of.

In another aspect, the present invention, the window frame is an outer leg formed on the outer lower portion, the inner leg is located on the opposite side of the outer leg having a length shorter than the length of the outer leg, and the start seal bar is provided with a plurality of holder fixing guide ; A middle having a plurality of hooks detachably coupled to the inside of the start seal bar and fixed to each holder fixing guide of the start seal bar, and a detachable hold fixing guide formed to detach the fixed window and door from the fixing frame. It is provided with a window structure that is detachable solar cell module grafted artificial intelligence system, characterized in that consisting of a seal.

In another aspect, the present invention, the fixing frame of the fixed window portion, the removable hook is fixed to the hook fixed to the removable holding guide of the middle seal bar to be detachably coupled to the middle seal bar of the window frame, the holder fixing guide fixed to the hook And a finish seal bar having a plurality of screw holes into which screws are inserted and fastened, and a handle frame formed on one side thereof. The bead is provided with a hook fixed to the holder fixed guide of the finish seal bar to be fixed to the glass window as well as fixed to the finish seal bar, and a holder fixing guide formed on one side; Provided is a window structure in which the solar cell module combined with the system is detachable.

In addition, the present invention, in the state in contact with the handle frame formed in the finish seal bar of the fixed window and the door frame and the fixed window and door portion in order to detach the fixed window portion in the window frame, the upper portion is coupled to the hook formed in the bead of the fixed window portion The holder fixing guide and the lower part of the window structure that can be detached solar cell module grafting the artificial intelligence system, characterized in that the removable frame is provided with a holder fixing guide is fitted into the holder fixing guide formed on the start seal bar of the window frame Is provided.

In another aspect, the present invention, the start seal bar, middle seal bar and the finish seal bar is formed with an insulating space for blocking heat between the interior and the outside, each of the insulating space is grafted artificial intelligence system, characterized in that the insulating member is installed respectively A window structure in which a solar cell module is detachable is provided.

In another aspect, the present invention, the start seal bar, the middle seal bar and the finish seal bar is formed with a distribution hole through which the electric wire passes, respectively, characterized in that the rubber bushing having a groove on the outer circumferential surface is coupled to each distribution hole to prevent damage to the electric wire There is provided a window structure that can be detached solar cell module grafted with an artificial intelligence system.

In another aspect, the present invention, the control unit is installed in the lower portion of the fixed window and the connection distribution box connected to the solar cell module and the electric wire, and installed on the wall and the DC current which is electrical energy converted and collected by the solar cell module to the AC current A control that is connected to the inverter to convert, the wires drawn out of the connection distribution box and the wires drawn out from the inverter, and the window frame is displayed to visually check the operation of the various devices and the status of the various devices Provided is a window structure in which the solar cell module grafted with an artificial intelligence system, which is provided as a part, is detachable.

In addition, the present invention, the window frame is installed with a carbon dioxide / temperature, humidity detection sensor for detecting carbon dioxide and temperature, humidity to open and close the ventilation window and doors according to the carbon dioxide and temperature, humidity in the room, the outdoor side of the window frame frame According to the amount of rain and rain, according to the state of the window and the snow / rain water detection sensor for detecting the snow or rain water to open and close the window is provided a window structure detachable solar cell module grafted with an artificial intelligence system.

According to the present invention made as described above, by installing the window frame on the window portion of the wall, and separately installed in the window frame to the fixed window portion and the ventilation window portion, install the solar cell module on the fixed glass window of the fixed window portion By detachably fixing the fixed window unit, the solar cell module can be installed only in the fixed window unit to secure a view through the ventilation window unit, so that the user can enjoy a sufficient view right, and the solar light collected in the solar cell module by sunlight By converting the electrical energy has the effect of solving the power required in the window structure by the electrical energy by itself.

That is, the ventilation windows and doors are automatically opened and closed by the artificial intelligence sensor using the electrical energy obtained by the solar cell module, as well as producing the necessary power for operating devices such as a controller, various sensors, blinds, and an inverter. The use of self-produced power also saves money by lowering electricity bills.

In addition, as the ventilation window is opened and closed by using the above-mentioned electrical energy, the indoor air is ventilated by the ventilation window to be opened and closed to maintain a clean state. It is also effective in preventing discomfort or pain, such as sick building syndrome (sick building syndrom) caused by inhalation of various diseases in advance.

In addition, since the fixed window unit is detachably coupled to the window frame in a state of being fitted by the detachable frame, the detachable operation of the fixed window unit in the window frame by the separation and coupling of the detachable frame is made smoothly indoors. In addition, the repair and repair of the solar cell module installed in the fixed window and the replacement of the new solar cell module is made more easily and easily, such as to improve the ease of construction and repair.

In addition, the fixed glass window of the fixed window portion is composed of a plurality of glass, that is, a multi-layer type consisting of a triple glass, and by installing a heat insulating member inside the frame of the fixed window portion and the frame of the window frame, respectively, the interior of the building By blocking the air and sound coming and going between the outdoor and the outdoor, it has the effect of increasing the insulation effect and protecting the privacy.

On the other hand, by installing a detection sensor for detecting the carbon dioxide (CO ₂ ) and temperature, humidity conditions on the indoor side of the window frame, and by installing a detection sensor for detecting snow or rain water on the outdoor side of the window frame, respectively, According to the signal detected by the sensor automatically opening and closing the ventilation windows, that is, the ventilation windows are opened to ventilate the room, or the ventilation windows are closed to prevent the entrance of snow or rainwater into the room.

In addition, the wiring distribution box connected to the solar cell module and various wiring-related components provided in the inverter, that is, wires, connectors, etc. are located inside the window frame and the frame of the fixed window, as well as wiring-related components indoors. Not only repair and replacement are possible, but also the effect of making the aesthetics of the window structure equipped with the solar cell module very beautiful as the wires, connectors, etc. are not seen from the outside by the interior installed to be detachable from the outer surface of the window frame. have.

1 is a front view of a window showing a state in which the windows and doors detachable solar cells module grafted to the present invention artificial intelligence system viewed from the room.
Figure 2 is a rear view of the window showing a state in which the solar cell module grafted with the present invention artificial intelligence system detachable window view from the outside.
Figure 3 is a cross-sectional view showing a detachable window in a cross-sectional view of the solar cell module grafted artificial intelligence system of the present invention.
Figure 4 is a cross-sectional view showing a state in which the ventilation windows and doors coupled to the window frame in a window structure that is removable solar cell module grafted artificial intelligence system of the present invention.
Figure 5 is a cross-sectional view showing a state in which the fixed windows and doors coupled to the window frame in a window structure structure detachable solar cell module grafted artificial intelligence system of the present invention.
6 is a cross-sectional view taken along line II of FIG. 1.
Figure 7 is a perspective view showing the lower side of the fixed window portion in the window structure detachable solar cell module grafted artificial intelligence system of the present invention.
Figure 8 is an enlarged perspective view showing an enlarged lower side of the fixed glass window portion of the fixed window and the window structure in which the solar cell module to which the present invention artificial intelligence system is removable.
Figures 9a to 9c is an operational state diagram showing the state in which the fixed window unit is detached from the window frame in the window structure in which the solar cell module to which the artificial intelligence system of the present invention is detachable.
Figure 10 is a perspective view showing the start seal bar structure of the window frame of the present invention.
11 is a perspective view showing the middle seal bar structure of the window frame of the present invention.
12 is a perspective view showing the finish seal bar structure of the fixed window portion of the present invention.
Figure 13 is a perspective view showing the bead structure of the present invention fixed window.
14 is a perspective view showing a removable frame structure of the present invention.
Figure 15 is a perspective view showing the rubber bushing of the configuration in the window structure detachable solar cell module grafted artificial intelligence system of the present invention.

Hereinafter, an embodiment of a window structure in which the solar cell module to which the artificial intelligence system is attached according to the present invention is detachable will be described in more detail with reference to FIGS. 1 to 15.

The window structure of the present invention, as shown in Figures 1 and 2 coupled to the window frame 100 and the intermediate frame 200 and the fixed window portion 300, the ventilation window portion 500, and the fixed window portion 300 It is largely composed of a solar cell module 600.

That is, the window frame 100 is fixedly coupled to the inner surface of the window portion of the wall (H), the middle frame 200 for dividing the window frame 100 to the left and right in the inner central portion of the window frame 100 The longitudinal direction is fixedly coupled.

In addition, the fixed window unit 300 is coupled to one side of the window frame 100 in a fixed state on the basis of the intermediate frame 200, and the ventilation window unit is connected to the other side of the window frame 100. As the 500 is rotated, the ventilation windows and the door part 500 for ventilating the room while opening and closing the room, the inside and the outside are rotatably coupled.

In addition, the fixed window unit 300 is provided with a solar cell module 600 for collecting solar light to convert the collected solar light into electrical energy to operate various devices using the converted electrical energy. have.

The window frame 100 is provided with a variety of sensors, that is, the indoor side of the window frame 100, as shown in Figure 1 to detect the carbon dioxide (CO ₂ ) and temperature, humidity in the room ventilation window according to the detected signal The carbon dioxide (CO ₂ ) and the carbon dioxide / temperature, humidity detection sensor 105 for detecting the temperature, humidity is installed to open and close the unit 500, the outdoor side of the window frame 100 as shown in Figure 2 The snow / rain water detection sensor 106 is installed to detect the amount of snow or rain water and to detect the snow or rain water so as to open and close the ventilation window 500 according to the detected signal.

In the opening and closing of the ventilation window 500, the snow / rain water sensor 106 is preferentially applied to the carbon dioxide / temperature and humidity sensor 105.

In addition, as shown in Figure 1, the indoor side of the window frame 100 is provided with a blind 104 to block the light coming through the fixed window portion 300 and the ventilation window portion 500, that is, shade. The blind 104 may be automatically operated or manually operated using the electric energy converted by the solar cell module 600.

Meanwhile, FIG. 3 illustrates a state in which the fixed window part 300 and the ventilation window part 500 are installed in the window frame 100 in plan view, and the fixed window part 300 and the ventilation window part 500 are In addition to being installed in the window frame 100, it is installed so as to be located on both sides by the intermediate frame 200, respectively.

On the other hand, Figure 4 is a cross-sectional view showing a cross-sectional view of the ventilation window 500 in the side, the ventilation window 500 as shown in Figures 3 and 4, the passage of light as well as ventilation for ensuring visibility The window 510 is installed to support and fix the ventilation glass window 510 while covering the outer edge of the ventilation glass window 510, as well as the ventilation window 500 is rotated inside the window frame 100. It consists of a moving frame 520 is rotatably coupled to open and close.

The ventilation window 500 has a structure that can be opened or closed automatically or manually in accordance with the detection signal of the sensor 105, 106 for detecting the indoor and outdoor conditions using the electrical energy generated by the solar cell module 600, That is, the ventilation window 500 may apply any one of automatic and manual methods, or both.

In addition, the moving frame 520 of the ventilation window 500 that is opened and closed by a window is provided with a rotation shaft 530, which is a rotation shaft of the ventilation window 500, and the moving frame 520 is provided with a ventilation window 500. The handle 540 is held by the hand when opening and closing, and in the handle 540, a driving unit generates power to transmit and close the ventilation window 500 and transmits the generated power to the rotation shaft 530. (Not shown) is provided.

Here, the structure of coupling the window frame 100 to the window portion of the wall (H), as shown in Figure 5, the anchor (H) 101 is fastened to the wall (H), which will be described later with the anchor 101 Between the start seal bar 110 of the window frame 100 is provided with a plate 102 to connect and support the window frame 100 to the wall (H), the plate 102 is a wall (H) It is formed in a "T" shape to ensure a predetermined space between the window frame 100.

One surface of the plate 102 is coupled to the head of the anchor 101 by welding or the like, and the other surface of the plate 102 is fastened to the start seal bar 110 to be described later with a screw b.

On the other hand, the window frame 100, as shown in Figure 5, the start seal bar (start sill bar) 110 is in contact with the window portion of the wall (H) and coupled to the start seal bar 110 It consists of a middle sill bar 120.

As shown in FIGS. 5 to 7 and 10, the start seal bar 110 has an outer leg 111 contacted with a wall H to be fixed to silicon s at an outer lower portion of the start seal bar 110. The inner leg 112 of the start seal bar 110 opposite to the outer leg 111 is formed in contact with the interior 103, which will be described later, and is fixed by silicon s.

The length of the inner leg 112 is formed to be shorter than the length of the outer leg 111, which ensures a lower space of the start seal bar 110 as well as the wall of the start seal bar 110. And to facilitate coupling to the interior 103.

The interior 103 is installed in the indoor side so that the connection distribution box 710 and wires drawn from the inverter 720 to be described later are not seen from the outside.

In addition, the start seal bar 110 is provided with a plurality of holder fixing guides, as shown in Figures 5 to 7 and 10, that is, the holder fixing guide is the start seal bar 110 and the middle seal bar ( The first holder fixing guide 113 and the second holder fixing guide 114 for fixing the 120 to each other are formed, as well as the third holder fixing guide 115 for fixing to the detachable frame 800 to be described later. Formed.

5 to 7 and 11, the first holder fixing guide 113 of the start seal bar 110 is attached to the middle seal bar 120 detachably coupled to the start seal bar 110. The first hook 121 and the second holder fixing guide 114 are inserted and fixed to the second hook 122 is formed, the finish seal bar 410 of the window frame 100 and fixed to be described later A detachable hold fixing guide 123 is formed to which the fixing hook 400 of the window 300 is connected to and detached from the finish seal bar 410 so that the fixing frame 400 of the window unit 300 can be connected and separated from each other. The fastening protrusion 417 of the bar 410 is inserted, that is, the fastening groove 127 is inserted and removed is formed.

On the other hand, the fixed window unit 300, as shown in Figures 3 and 5, the fixed window unit 300 is fixed to the window frame 100, as well as the fixed window unit 300 in the window frame 100 The fixed frame 400 is formed to be detachable, and the fixed glass window 310 is fixedly coupled to the fixed frame 400.

As shown in FIG. 8, the fixed glass window 310 of the fixed window part 300 is provided in a multilayer type composed of several sheets of glass, that is, triple glass, and the glass and the inner side of the solar cell module 600 are coupled thereto. In the lower part between the glasses, spacers 107 are provided to secure a space and form an air layer.

In addition, one surface of the fixed glass window 310, that is, any one of the glass of the fixed glass window 310, the solar cell module 600 for collecting solar light is installed, the lower portion of the fixed glass window 310 In the solar cell module 600, a connection distribution box 710 is installed to convert solar light collected in the solar cell into electrical energy, as well as to transmit the converted electrical energy to the outside.

In order to allow the fixed window unit 300 to be detachable from the window frame 100 in a room, the fixed frame 400 of the fixed window unit 300 is located at a lower side as shown in FIGS. 5 to 7. A seal sill bar 410 and a bead 420 positioned inside the finish seal bar 410 to support and fix the fixed glass window 310 are provided.

5 and 7 and 12, the finish seal fixing guide of the middle seal bar 120 is detachably coupled to the middle seal bar 120 of the window frame 100 in the finish seal bar 410. A detachable hook 411 which is hooked and fixed to 123 and a fourth holder fixing guide 412 to which a third hook 421 of the bead 420 to be described below is hooked and fixed are formed.

In addition, the finishing seal bar 410 is a fastening protrusion which is inserted into and removed from the fastening groove 127 of the middle seal bar 120 to connect the finish seal bar 410 and the middle seal bar 120 to each other. 417 is formed, one side of the fixed frame 400 is in close contact with one surface of the detachable frame 800 to be described later, as well as holding by hand when removing the fixed window unit 300 from the window frame 100 The handle frame 413 to be pulled is formed.

In addition, as shown in FIGS. 5 to 7 and 13, the bead 420 has a fourth holder fixing guide of the finish seal bar 410 to connect and couple the finish seal bar 410 and the bead 420 to each other. A third hook 421 is formed on the side of the bead 420, and the sixth side of the detachable frame 800 is fixed to one side of the bead 420 to fix the detachable frame 800 to bead 420. A fifth holder fixing guide 422 is formed to be fixed to the holder fixing guide 810.

As shown in FIG. 5, the fixed glass window 310 is supported and fixed to the fixed frame 400 of the fixed window part 300, that is, formed between the finish seal bar 410 and the bead 420 of the fixed frame 400. The outer edge of the fixed glass window 310 is inserted into the space portion and the silicon glass (s) is treated on the outer surface of the edge of the fixed glass window 310 so that the fixed glass window 310 is firmly supported and fixed without flowing.

In addition, the handle of the finish seal bar 410 on the inner side of the window frame 100 and the fixed window portion 300 to detach the fixed window portion 300 from the window frame 100, as shown in FIG. The detachable frame 800 in close contact with the frame 413 is detachably coupled.

5 to 7 and 14, the detachable frame 800, the sixth holder fixed to be fixed to the fifth holder fixing guide 422 of the bead 420 to the upper portion of the detachable frame 800 A guide 810 is formed, and a seventh holder fixing guide 820 which is fitted and fixed to the third holder fixing guide 115 of the start seal bar 110 is formed below the detachable frame 800. .

The solar cell module 600 is provided with a plurality of the fixed glass window 310 of the fixed window portion 300 as shown in Figure 2 and 5, each of the solar cell module 600 is connected to the distribution box ( 710 is connected.

On the other hand, the control unit 700 for supplying the electrical energy collected and converted from the solar cell module 600 and controls the supplied electrical energy is provided.

As shown in FIG. 5, the control unit 700 has a connection distribution box 710 connected to the solar cell module 600 connected to the lower portion of the fixed window unit 300, and the solar cell module 600. Inverter 720 is installed on the wall (H), and converts a direct current (current), which is electrical energy converted and collected at the wall (H), the wire 750 and the inverter 720 drawn from the connection distribution box 710 A connector 730 is connected to each other to draw the wires 750 drawn from each other, and the fixed frame 400 of the fixed window unit 300 is connected to the connection distribution box 710 and the inverter 720, respectively. Of course, the control unit 740 is displayed to manipulate the state of the various devices and the opening and closing of the ventilation window 500, and to check the operation state from the outside.

The operation of the control unit 740 is automatically operated by the detection signals of the respective sensors 105 and 106, as well as directly by hand and by a remote controller.

The fixed glass window 310 of the fixed window portion 300 and the ventilation glass window 510 of the ventilation window portion 500 may be formed into various types of glass according to the purpose or effect of use, such as transparent, translucent or opaque, and the requirements of the buyer. Can be installed.

Meanwhile, as illustrated in FIGS. 5 and 10 to 12, insulating space parts 116, 124, and 415 are formed at predetermined positions of the central seal bars 110, the middle seal bar 120, and the finish seal bar 410, respectively. Each of the thermal insulation spaces 116, 124, and 415 has a polyurethane insulation member 130 inserted therein to block heat exchange between the interior and the exterior to prevent thermal condensation and to prevent condensation.

In addition, a distribution hole 117, 125, and 414 through which the wire 750 drawn from the connection distribution box 710 and the inverter 720 passes through the start seal bar 110, the middle seal bar 120, and the finish seal bar 410, respectively. ) Are formed respectively.

Each of the distribution holes 117, 125, and 414 has rubber bushings 140 coupled to each of the rubber bushings 140 so as to prevent a risk such as electric leakage caused by peeling of the wire 750 as shown in FIG. On the outer circumferential surface of the) is formed a groove portion 141 having a concave shape inwardly so as to easily couple the rubber bushing 140 to the power distribution holes 117, 125, 414 of each bar (110, 120, 410).

In addition, a plurality of screw holes 118 are formed in the lower portion of the start seal bar 110 in which the screw b is inserted and fastened to fix the plate 102 and the start seal bar 110 to each other.

A plurality of screw holes are inserted into and fastened to the middle seal bar 120 and the finish seal bar 410 so that the middle seal bar 120 and the finish seal bar 410 are detachably fixed to each other. 126 and 416 are formed, respectively, and the screw holes 126 and 416 are formed at positions corresponding to each other.

In the start seal bar 110, the middle seal bar 120, the finish seal bar 410, and the bead 420, the coupling work between the bars and the connection connection work between the wire 750 and the connector 730 may be performed. A certain space is formed to make it easy.

As described above, the present invention is configured in the window frame 100 which is installed in the window portion of the wall (H) is fixed to the intermediate window 200, the fixed window portion 300 and the ventilation window portion 500 are each divided The solar cell module 600 is coupled to the fixed glass window 310 of the fixed window portion 300 as well as the combination in the form.

Then, the solar cell module 600 coupled to the fixed glass window 310 not only collects solar light but also transmits the collected electrical energy to the connection wiring box 710 and is converted by the inverter 720. Energy is vented according to the operation of the control unit 700, that is, the inverter 720 or the control unit 740 and the blind 104, and the signals sent from the respective sensors 105 and 106 as well as operating the respective sensors 105 and 106. It is used to rotate the window 500, the window is opened and closed by the ventilation window 500 is rotated to ventilate the room and block the indoor and outdoor.

In this case, when the life of the solar cell module 600 that collects solar light or a problem that requires repair and replacement occurs, the fixed window unit in the window frame 100 to replace the solar module 600 300) should be removed.

First, as shown in FIG. 9a, the detachable frame 800 coupled to the start seal bar 110 of the window frame 100 and the bead 420 of the fixed window part 300 must first be separated, that is, the detachable frame 800. The sixth holder fixing guide 810 of the frame 800 is separated from the fifth holder fixing guide 422 formed on the bead 420 of the fixed window part 300, and the seventh of the detachable frame 800. The holder fixing guide 820 is separated into a third holder fixing guide 115 formed on the start seal bar 110 of the window frame 100.

Then, the screw hole 416 formed in the finish seal bar 410 and the screw hole 126 formed in the middle seal bar 120 of the fixed frame 400 of the fixed window portion 300 as shown in FIG. 9B. Loosen the screw (b) inserted into

Then, when the fixed window unit 300 is pulled to the indoor side while the handle frame 413 formed on the finish seal bar 410 is pulled out, it is formed on the finish seal bar 410 of the fixed window unit 300. The fastening protrusion 417 is separated from the fastening groove 127 of the middle seal bar 120 and at the same time the detachable hook 411 of the finish seal bar 410 is detachable and hold fixing guide 123 of the middle seal bar 120. Separated from.

Then, the fixed window unit 300 is separated from the window frame 100, as shown in Figure 9c, the wire 750 and the inverter drawn from the connection distribution box 710 in the state in which the fixed window unit 300 is separated The wires 750 drawn out at 720 are manipulated to connect the connectors 730 to each other to separate each wire 750.

As described above, the fixed window unit 300 is completely separated from the window frame 100 as the fixed window unit 300 is separated from the window frame 100 and each wire 750 is separated.

In this state, repair and replace the solar cell module 600 coupled to the fixed glass window 310 of the fixed window portion 300 in the room, and repair and replacement of the solar cell module 600 is completed The fixed window unit 300 is coupled to the window frame 100 in the reverse order as described above.

That is, when the wires 750 of the connection distribution box 710 and the wires 750 of the inverter 720 are connected to the connector 730, and then the fixed window unit 300 is pushed toward the window frame frame 100, the The fastening protrusion 417 of the finish seal bar 410 is inserted into the fastening groove 127 of the middle seal bar 120, and the detachable hook 411 of the finish seal bar 410 is of the middle seal bar 120. The fixed window part 300 is coupled to the window frame 100 by fitting to the detachable hold fixing guide 123.

Then, when the screw hole 126 of the middle seal bar 120 and the screw hole 416 of the finish seal 410 coincide with each other, the screw b is inserted into the matched screw holes 126 and 416 to be fastened. The fixed window unit 300 is fixed to the window frame 100 in a rigid state.

Then, a fifth frame formed on the bead 420 of the fixed frame 400 after placing the removable frame 800 on the inner surface of the fixed frame 400 and the inner surface of the window frame 100 of the fixed window (300). The sixth holder fixing guide 810 of the detachable frame 800 is fitted into the holder fixing guide 422 and the detachable frame 800 of the detachable frame 800 is attached to the third holder fixing guide 115 of the start seal bar 410. Fit the seventh holder fixing guide 820.

Then, the detachable frame 800 is connected to the window frame 100 and the fixed window unit 300, as well as the wires installed therein by the detachable frame 800 is not visible from the outside.

As described above, when the fixed window unit 300 is coupled to the window frame 100, the solar cell module 600 coupled to the fixed glass window 310 of the fixed window unit 300 collects sunlight and converts it. By generating the electrical energy, and using the generated electrical energy to ventilate the room according to the external environmental conditions or to open or close the ventilation window 500 to prevent snow or rain water from entering the room.

In addition, the electrical energy is used to open and close the ventilation window 500, the operation of the various sensors 105 and 106, the operation of the blind 104, and the operation of the inverter 720, the control unit 740, and the like. The battery module 600 produces its own required power.

As described above, the window structure detachable to the solar cell module to which the artificial intelligence system according to the present invention is detachable has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings described herein. Various modifications may be made by those skilled in the art within the technical scope of the present invention, and thus should not be individually understood from the technical spirit or the prospect of the present invention.

100: window frame 101: anchor
102: plate 103: interior
104: blind 105: carbon dioxide / temperature, humidity sensor
106: snow / rain sensor 110: start seal bar
111: outer leg 112: inner leg
113, 114, 115: 1, 2, 3 holder fixing guides 116, 124, 415: insulation space
117,125,414: plumber 118,126,416: screw hole
120: middle seal bar 121, 122: first and second hook
123: detachable hold fixing guide 127: fastening groove
130: heat insulating member 140: rubber bushing
141: groove 200: intermediate frame
300: fixed window part 310: fixed glass window
400: fixed frame 410: finish seal bar
411: detachable hook 412: 4th holder fixing guide
413: handle frame 417: fastening protrusion
420: Bead 421: Third Hook
422: Fifth holder fixing guide 423: Insertion portion
500: ventilation window 510: ventilation glass window
520: moving frame 540: handle
600: solar cell module 700: control unit
710: connection distribution box 720: inverter
730: connector 740: control unit
750: wire 800: detachable frame
810: 6th holder fixing guide 820: 7th holder fixing guide

Claims (8)

Window frame frame coupled to the inner surface of the window portion formed in the wall;
An intermediate frame fixedly coupled to an inner central portion of the window frame to divide the inside of the window frame;
A fixed window unit comprising a fixed glass window to be detachably coupled to one side of the window frame and a fixed frame supporting and fixing the fixed glass window;
A ventilation window unit comprising a ventilation glass window pivotally coupled to the other side in the window frame and a movable frame supporting and fixing the ventilation glass window;
A plurality of solar cell modules coupled to one surface of the fixed glass window of the fixed window to convert sunlight into electrical energy;
And a control unit for supplying the converted electrical energy from the solar cell module and controlling the supplied electrical energy. The window structure of the solar cell module to which the artificial intelligence system is detachable. The method of claim 1,
Window frame,
A start seal bar having an outer leg formed on an outer lower portion, an inner leg positioned on an opposite side of the outer leg, the inner leg having a length shorter than the length of the outer leg, and a plurality of holder fixing guides;
A middle having a plurality of hooks detachably coupled to the inside of the start seal bar and fixed to each holder fixing guide of the start seal bar, and a detachable hold fixing guide formed to detach the fixed window and door from the fixing frame. Removable windows and doors structure, the solar cell module grafted to the artificial intelligence system, characterized in that consisting of a seal. The method of claim 1,
The fixed frame of the fixed window part,
A detachable hook fixed to the detachable hold fixing guide of the middle seal bar so as to be detachably coupled to the middle seal bar of the window frame, a holder fixing guide to which the hook is fixed, and a plurality of screw holes into which the screw is inserted and fastened; Finish finish bar is provided with a handle frame formed on one side;
The bead is provided with a hook fixed to the holder fixed guide of the finish seal bar to be fixed to the glass window as well as fixed to the finish seal bar, and a holder fixing guide formed on one side; Removable window structure with solar cell module incorporating system. The method according to claim 2 or 3,
A holder fixing guide coupled to a hook formed on a bead of the fixed window and the upper part of the window frame and the fixed window, in contact with a handle frame formed on the finish seal bar of the window and the window, to remove the fixed window. The lower part is a window structure detachable solar cell module grafted artificial intelligence system, characterized in that the removable frame is provided with a holder fixing guide is fitted to the holder fixing guide formed in the start seal bar of the window frame. The method according to claim 2 or 3,
Insulation space is formed in the start seal bar, middle seal bar and finish seal bar to block heat between the interior and the outside, and each insulation space is provided with a solar cell module incorporating an artificial intelligence system. Removable window structure. The method according to claim 2 or 3,
The start seal bar, middle seal bar and finish seal bar are each formed with a distribution hole through which wires pass, and each distribution hole has an artificial intelligence system comprising a rubber bushing having a groove on its outer circumference to prevent damage to the wire. Window structure with detachable solar cell module. The method of claim 1,
The control unit,
A connection distribution box installed at a lower part of the fixed window and connected to the solar cell module and an electric wire;
An inverter installed on a wall and converting a DC current, which is electrical energy converted by being collected by the solar cell module, into an AC current;
A connector for connecting the wires drawn out from the connection distribution box and the wires drawn out from the inverter;
A solar panel module detachably mounted to an artificial intelligence system, characterized in that the control unit is installed on the window frame frame and is displayed to visually check the operation of the various devices and the state of the various devices. The method of claim 1,
The window frame is equipped with a carbon dioxide / temperature, humidity detection sensor for detecting the carbon dioxide and temperature, humidity to open and close the ventilation window according to the carbon dioxide and temperature, humidity in the room, and the amount of snow or rain water outdoors on the outdoor side of the window frame Removable windows and doors structure of the solar cell module grafted artificial intelligence system, characterized in that the snow / rain water detection sensor is installed to detect the snow or rain water to open and close the ventilation windows and doors according to the state.

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