KR101909449B1 - Insulation Vinyl plastic house by energy-saving composite - Google Patents

Abstract

The present invention relates to an energy saving composite insulation greenhouse which safely protects crops from cold air concentrated near the outside and concentrates on the bottom, and minimizes the loss of insulation and adjusts heating distance and lighting according to the characteristics of the crop to realize the best growth condition , And more specifically to an apparatus for continuously connecting and disposing a plurality of bases to be buried at equal intervals on a mounting surface, an inserting portion inside the upper surface of the base, and an access portion, a central portion and a finishing portion which are respectively formed as main frames on the outside, The main body is provided with a heat insulating door at the center of the heat insulating part provided inside the first fixed vinyl covered on the main frame, and the central part is connected to the main frame on which the external vinyl is covered so that the height of the light heat part can be controlled by the rotational driving force, A plurality of movable frames for controlling the movable frame, And composed of a heat insulation, which is installed in the inner side of the second fixed plastic which cover the frame; It is possible to prevent the frost damage and side cold damage of the crops in the cold region by installing the heat insulating material on each side of the four sides.

Description

{Insulation Vinyl plastic house by energy-saving composite}

The present invention relates to a vinyl house, and more particularly, to an energy-saving composite insulation vinyl which can prevent frost damage and breakage of crops in a cold zone of the subzero zone by shutting out cold air on a mounting surface or a lower side and can easily control heating distance, House.

Generally, a greenhouse such as a vinyl house means a building that is capable of artificially controlling the light, temperature, and humidity, which is the main growth environment of the plant, and it is possible to cultivate and inhibit the growth of crops, It is possible to cultivate and produce special crops that can not be cultivated in the field, so that it can make high profit at a certain area and it is widely used for cross breeding by freely controlling the growth stages of various crops.

In addition, the relationship between environment and crop growth can be studied by controlling the temperature, humidity, light rays, and reaction of crops, and it can be used as educational facility by protecting and nurturing tropical and subtropical plants.

Such a vinyl house requires a frame system to which a vinyl (covering material) is attached, that is, a frame member that forms a frame commonly used as a pipe.

In the conventional vinyl house, a round pipe was used to cross the skeletal pipe and the crossbar pipe, and the pipe was fixed with a clamp. In other words, they were assembled by clamping each other at regular intervals and crossing between pipe and pipe.

In addition, the vinyl house is used in the winter, and the room temperature in the plastic house should be maintained at a proper temperature. However, there is a lot of maintenance cost. The fundamental problem is that the room temperature is adjusted to the thermal equilibrium state The temperature in the room is inevitably lowered, and the colder the weather, the more the maintenance cost for the heating becomes.

Particularly, in the case of a cold region where the vinyl house is installed, the ground is frozen and piling for the base of the vinyl house is difficult, so that the foundation is very inconvenient and the support can not be smoothly performed. There is a problem that a large amount of heat loss occurs.

In addition, most of the heaters are installed with a hot air heater or a stove for heating, which is not smooth due to the heat convection, which limits the heating area and can not be controlled according to the characteristics of the crop.

Thus, it is possible to provide a foundation and a support function, a rail function, and to easily install a heat insulating material. In addition, it is possible to control the growth of crops through adjustment of the height of the heating device, An improved vinyl house is required to prevent the occurrence of blind spots in the glass.

1. Registration No. 20-0236967 (double-structure, prefabricated vinyl house) 2. Publication No. 20-2014-0005083 (vinyl house double grid) 3. Registration No. 10-1518277 (Double Coated Greenhouse 4. Open No. 10-2015-0044026 (Concrete pile foundation vinyl house 5. Publication No. 10-2010-0095085 (vinyl house frame system

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide an energy-saving, composite heat insulating plastic greenhouse capable of preventing cold weather on a side surface of a crop.

Another object of the present invention is to enable the height of the light heat portion to be controlled according to the temperature of the crop and prevent the fall of the crop.

In addition, another object of the present invention is to maximize the heat insulation of the side surface and to form the upper portion only in a double vinyl shape so that the open area can be adjusted for opening and keeping warm.

Another object of the present invention is to provide a simple structure of a heat insulating part and a main frame by using a support, and to prevent breakage of the heat insulating part by using a panel.

According to an aspect of the present invention, there is provided a greenhouse comprising: a plurality of bases embedded at equal intervals on a mounting surface; Wherein the base comprises a mold embedded in an installation surface, a first anchor to which the heat insulating portion is fixed to the anchor plate formed on the upper surface of the buried end embedded in the mold, and a second anchor to which the main frame is fixed; A heat insulating material is formed inside the upper surface of the foundation, and an entrance portion, a central portion, and a finishing portion, which are respectively formed as a main frame on the outer side,
Wherein the insulating portion comprises: A 'H' shaped post which is provided at the first anchor of each foundation and forms an adiabatic groove at both ends, a heat insulating panel which is inserted into the adiabatic groove in which the column and the column support each other, and a window formed on the heat insulating panel And a stopper is formed on a lower portion of the rail of the strut to prevent a downward movement of the movable frame and a falling of the movable frame, The insulating panel forms a reflection plate reflecting the sun light reflection angle based on the rotation axis installed on the inner surface, The access portion forms a heat insulating door at the center of the heat insulating portion installed inside the first fixed vinyl covered on the main frame, and the central portion is connected to the main frame disposed outside the heat insulating portion installed on the inner side where the external vinyl is covered A plurality of movable frames for adjusting the height of the light heat part and adjusting the opening area of the inner vinyl are formed by the rotational driving force, the main frame and the movable frame are connected by a safety line so that the movable frame is not dropped even when the winding line is cut, Wherein the finishing portion is composed of a heat insulating portion provided inside the second fixing vinyl covered on the main frame.

As described above, according to the present invention, it is possible to prevent frost damage and side cold damage of crops in a cold region by installing a heat insulating material on all sides, thereby ensuring safety in growing.

In addition, the characteristics of the crop can control the height of the light heat part according to the temperature, so that the growth rate can be controlled and the heating efficiency can be increased, and the fall prevention can be prevented by using the safety cord or the stopper.

In addition, it is possible to maximize the heat insulation of the side surface and to form the upper portion only in a double vinyl form, thereby reducing the initial material cost due to the adjustment of the open area and the installation for the opening and warming.

In addition, it is possible to easily install the heat insulating portion and the main frame by using the support, and to prevent the breakage by using the panel in the heat insulating portion, thereby improving the replacement of the vinyl.

1 is a perspective view showing a part of an energy saving type heat insulating greenhouse according to the present invention,
FIG. 2 is an exploded perspective view showing the basis of an energy-saving composite heat insulating greenhouse according to the present invention,
3 is a perspective view of a main frame of an energy saving composite heat insulating greenhouse according to the present invention,
FIG. 4 is an exploded perspective view and an assembled perspective view showing a heat insulating portion of an entrance portion and a finishing portion of an energy saving composite heat insulating greenhouse according to the present invention;
Fig. 5 is a perspective view of the inserting portion and the frame of the finishing portion before and after forming the heat insulating door,
6 is a side view and operation diagram of a reflector operated on the heat insulating portion,
Figs. 7 and 8 are front views of the access portion and the finishing portion,
9 is an exploded perspective view and an installation perspective view of a heat insulating portion and a frame in a central portion,
10 is an exploded perspective view and an assembled perspective view showing a heat insulating portion in a central portion of an energy saving composite heat insulating greenhouse according to the present invention,
11 is a perspective view showing a central portion of a part of an energy saving type heat insulating greenhouse according to the present invention,
12 is a cross-sectional view of an example of the light heating part,
Fig. 13 is an exploded perspective view in which the integral heat insulating material is joined to a clearance between the entrance and the support at the center and between the center and the support at the finish,
FIG. 14 is a layout diagram of a foundation for the construction of the energy-saving composite heat insulating greenhouse according to the present invention,
15 and 16 are a front view and a rear view projected from the entrance portion and the finishing portion of the energy saving composite heat insulating greenhouse according to the present invention,
17 and 18 are an operation front view and a rear view for adjusting the open area of the outer vinyl at the central portion in the entrance portion and the finishing portion of the energy saving composite heat insulating greenhouse according to the present invention,
FIG. 19 is an operation diagram showing the operation for adjusting the open area of the inner vinyl and the lowering operation of the light heat part in the central part of the energy saving composite heat insulating greenhouse according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in FIG. 1, the energy-saving composite heat insulating greenhouse of the present invention includes a plurality of bases 10 embedded at equal intervals on the installation surface, a heat insulating portion 20 on the inside of the upper surface of the base 10, The central portion 50 and the finishing portion 60 are continuously connected to each other by the main frame 30 to constitute the greenhouse 100.

2 to 13, the bases 10 forming the entrance portion 40, the central portion 50, and the finishing portion 60 of the vinyl house 100 are integrally formed with a mold (not shown) 11, the size of the mold 11 is preferably made different from that of the concrete depending on the characteristics of the mounting surface.

The first anchor 14 is fixed to the anchor plate 13 formed on the upper surface of the embedding stage 12 to be embedded in the mold 11 and the first anchor 14 to which the main frame 30 is fixed. And two anchors (15).

That is, the buried end 12 is formed as a single body when the buried end 12 of the mold 11 is buried in the form of a tongue when projected from one side and the firing of the mold 11 is completed, The first anchor 14 and the second anchor 15 are formed in the form of four anchor bolts in the present invention.

The heat insulating portion 20 is formed of a columnar H-shaped column 22 which is provided on the first anchor 14 of each foundation 10 and forms the heat insulating grooves 21 at both ends thereof. The first anchor 14 and the second anchor 15 are fixed to the lower end of the main frame 30. The second anchor 15 is fixed to both ends of the main frame 30, And the frame fixing end 31 is fixed.

At this time, the column 22 and the column 22 face each other in the heat insulating groove 21, and the column 22 and the column 22 are inserted into the heat insulating grooves 21 facing each other. The heat insulating panel 23 is inserted and disposed between the first panel 23a disposed inside the greenhouse 100 and the second panel 23b disposed outside the greenhouse 100 .

The window 24 may be formed by partially removing the heat insulating panel 23.

The first panel 23a of the heat insulating panel 23 is provided with a reflector 25 for reflecting and adjusting the angle of reflection of sunlight with reference to a rotation axis 25a provided on the inner surface as shown in FIG. The rotary shaft 25a may be coupled to a bearing bracket 25b coupled to the first panel 23a so as to be rotatable.

At this time, the reflection plate 25 irradiates sunlight that can not be transmitted by the heat insulating material 23c to the crop by adjusting the angle in the vertical direction with reference to the rotary shaft 25a using the attraction force or the rotation torque of a separate motor So as to reflect the sunlight transmitted through the outer vinyl 51.

In addition, a rail 22a is formed on one side surface of the strut 22 to support both ends of the movable frame 54 at the center portion 50 in the longitudinal direction.

A stopper 22b may be provided below the rail 22a of the column 22 to prevent the movable frame 54 from descending and to prevent falling of the movable frame 54. The stopper 22b may be movable And is configured to be used as a safety device when a movement distance is limited and an abnormal falling phenomenon occurs when the frame 54 descends.

The struts 22 may be formed in the shape of a profile, or may be formed by cutting H beams manufactured and sold as prototypes into an appropriate size according to the design.

The rail 22a may be formed in the manufacturing process when the support 22 is formed in a profile form. Alternatively, when the H beam is manufactured and sold as a prototype product, a separate circular pipe, a triangular-shaped angle, Pipe or the like may be combined by a welding method.

The access door 40 of the greenhouse 100 is provided with a heat insulating door 42 at the center of the heat insulating part 20 installed inside the first fixing vinyl 41 covering the main frame 30 .

In the lower part of the main frame 30 formed at the entrance part 40, stress is dispersed and both ends of the reinforcing bar 32 for strengthening the strength are coupled to the main frame 30 and the heat- A pair of vertical reinforcement rods 32 are installed on the top of the foundation 10.

The central portion 50 of the greenhouse 100 is connected to the main frame 30 disposed on the outside of the heat insulating portion 20 installed on the inner side of the outer vinyl 51, 52) and the opening area of the inner vinyl 53, as shown in FIG.

12, the light heat part 52 includes a case having a front surface opened, a reflection plate fixed to the front surface of the case so as to be able to reflect heat toward the front side, A plurality of heater rods disposed at both ends and fixed at both ends so as to be able to radiate heat corresponding to the application of power, and a plurality of heater rods through holes for inserting the plurality of heater rods respectively into the rear surface, A heat dissipating part formed in a wavy shape so as to be able to dissipate heat to a long distance and to be able to radiate heat to a long distance, , And a protection net, which is provided so that one end and the other end of the case are inserted and fixed to both ends of the case, One end of the case is connected to a terminal block connected to one side of the case through a plurality of heater rods and a connection power source line so that the power can be controlled by comparing with a set temperature inputted corresponding to a room temperature sensed by a temperature sensor installed in the case And a control unit provided to the control unit.

It is preferable that the external vinyl 51 is configured to cover the first fixing vinyl 41 of the access portion 40 or the second fixing vinyl 61 of the finishing portion 60.

In addition, the central portion 50 is configured such that both ends of the outer vinyl 51 are fixed to the first shaft 51b of the first motor 51a and are wound or unfolded by rotation to adjust the opening area.

The first motor 51a includes a guide bar 51d coupled to a rotation bracket 51c which is rotatably installed on a support 22 located at both ends of the door 40 and the finishing portion 60, So as to compensate for the movement locus of the first shaft 51b and the first motor 51a moving while winding or unwinding the outer vinyl 51 along the curvature of the non-circular vinyl housing 100. [

The center portion 50 forms a winding line 55 to be unwound and wound on the second shaft 55b of the second motor 55a installed in the main frame 30. The center portion 50 is formed in the center portion 50 The main frame 30 is fixed to the main frame 30 at both ends thereof by distributing stress and reinforcing the reinforcement 32.

That is, the bracket 55c is formed on the upper portion of the reinforcing bar 32 so that the second shaft 55b is rotatably connected by driving the second motor 55a. The second motor 55a is disposed at the first and last positions It is preferable to fix it on the reinforcing table 32.

A light heat transfer part 52 is connected to the lower part of the movable frame 54 connected to the winding wire 55 and a roller (54a).

In detail, it is preferable that the reinforcing transverse frame 54b supporting the lower surface of the movable frame 54 is connected to the winding wire 55, and the light heating part 52 is connected to the reinforcing crossing frame 54b using wires something to do.

The movable frame 54 is formed in an arch shape so as to disperse and support the weight of the light heating part 52 and has rollers 54a at both ends thereof. And the stopper 22b of the stopper 22b.

The other end of the inner vinyl 53 on which the movable frame 54 is fixed at one end to the apex portion is fixed to the third shaft 53b of the third motor 53a and is wound or unfolded by rotation And the open area is adjusted.

At this time, the third motor 53a is configured to move along the first and last movable frame 54, and a roller bracket 53c for supporting the movable frame 54 up and down is installed on the lower surface And is configured to move along the movable frame 54 without rotating together when the third shaft 53b is rotated by the driving force of the third motor 53a.

The main frame 30 and the movable frame 54 are connected to each other by a safety cord 56 so that the movable frame 54 does not fall down even if the winding wire 55 is cut. In the present invention, the safety wire 56 is preferably made of a metal wire. When the movable frame 54 rises to the highest point, the safety wire 56 ) Is configured to be in a loose state.

The finishing portion 60 of the greenhouse 100 is composed of a heat insulating portion 20 installed inside the second fixing vinyl 61 covering the main frame 30.

At the lower portion of the main frame 30 formed at the finishing portion 60, stress is dispersed and both ends of the reinforcing bar 32 for reinforcing the strength are coupled to the main frame 30, A pair of vertical reinforcement rods 32 are installed on the top of the foundation 10.

As shown in FIG. 13, an integrated body (not shown) is provided between the support 22 and the support 22 provided on the corner side where the access portion 40, the central portion 50, the central portion 50 and the finishing portion 60 are in contact with each other. And a heat insulating material 70 is inserted.

That is, the pillars 22 formed in the central portion 50 are provided to face each other along the longitudinal direction of the greenhouse 100 and are connected to the front and rear of the central portion 50 The insulator 40 and the struts 22 of the finishing portion 60 are formed by inserting the integral heat insulating material 70 into the gap 71 generated when the heat insulating groove 21 is installed so as to face the inside of the plastic house 100 .

The operation and effect of the present invention constructed as described above will be described below.

As shown in FIGS. 1 to 19, in order to manufacture the plastic greenhouses 100, the bases 10 corresponding to the characteristics of the installation surface are pre-fabricated by embedding the embedding stage 12 in the mold 11 and firing it .

Subsequently, the bases 10 on which the center portion 50 is to be formed are buried in a two-row arrangement on the installation surface so that the first anchors 14 face each other at equal intervals.

Next, the first anchor 14 of each foundation 10 to form the central portion 50 is coupled to the support fixing end 22c of the support 22 and then fastened with a nut. Then, the inner side of the vinyl house 100 The heat insulating panel 23 is inserted into the heat insulating grooves 21 of the column 22 and the column 22 in the order of facing the heat insulating part 20 and the heat insulating part 20 in this order.

A bearing bracket 25b connecting a rotary shaft 25a to the first panel 23a of the heat insulating panel 23 is installed and then a reflecting plate 25 is coupled to the rotary shaft 25a, The sunlight flowing through the upper side of the heat insulating portion 20 is reflected on the crop to prevent the occurrence of a dead zone due to the irradiation of the sunlight.

Next, the second anchor 15 of each base 10 to form the central portion 50 is coupled to the frame fixing end 31 of the main frame 30 provided with the reinforcing base 32, and then the nut is fastened .

A second shaft 55b is installed on a bracket 55c provided on the upper part of the reinforcing bar 32 of the main frame 30 and the second shaft 55b is installed on a part of the reinforcing bar 32 And one end of the winding wire 55 is fixed to the second shaft 55b and then the other end of the winding wire 55 is connected to the reinforcing transverse member 54b of the movable frame 54 ).

The roller 54a of the movable frame 54 is arranged to move along the rail 22a of the column 22 and both ends of the main frame 30 and the movable frame 54 are connected to the safety rods 56, And then the light heat part 52 is connected to the reinforcing transverse frame 54b of the movable frame 54 by using a wire, for example.

The other end of the inner frame 53 is fixed to the third shaft 53b of the third motor 53a so as to be fixed to the center portion 50 is completed by installing the outer vinyl 51, the first motor 51a and the first shaft 51b to the outside of the main frame 30 after the installation of the access portion 40 and the finishing portion 60 is completed do.

On the other hand, the entrance portion 40 and the closing portion 60 are arranged at equal intervals in the direction of the base 10 installed at the central portion 50, It is installed in an array.

The struts 22 forming the central part 50 are provided so as to face the heat insulating grooves 21 along the longitudinal direction of the greenhouse 100 and are connected to the front and rear of the central part 50 The insulator 40 and the pillars 22 of the finishing portion 60 are formed by inserting the integral heat insulating material 70 into the gap 71 generated when the heat insulating groove 21 faces the inside of the plastic house 100 It has a feature of increasing the heat insulation.

Next, the first anchor 14 of each base 10 on which the access portion 40 and the finishing portion 60 are to be formed is coupled to the support fixing end 22c of the support 22, The heat insulating panel 23 is inserted into the column 22 and the heat insulating grooves 21 of the column 22 in order toward the inside of the vinyl house 100 to install the heat insulating portion 20. [

Next, the second anchor 15 of the foundation 10 located at both ends of the entrance 40 and the finish 60 is fixed to the frame fixing end of the main frame 30, And a vertical reinforcing bar 32 coupled to the second anchor 15 of the remaining two bases 10 at right angles with the reinforcing bar 32 is fastened to the center of the second anchor 15.

At this time, the heat insulating panel 23 located between the vertical reinforcing bars 32 is changed from the structure of the column 22 to the heat insulating door 42 so as to be opened / closed in the form of a hinged door Install it.

The main frame 30 and the heat insulating portion 20 of the access portion 40 and the finishing portion 60 are wrapped with the first fixing vinyl 41 and the second fixing vinyl 61, Is fixed to the main frame (30) of the central portion (50). At this time, the access portion 40 is formed by cutting the upper portion of the heat insulating door 42 into a dipole shape, winding it in a roll form, opening it, and opening and closing the vinyl roll 43.

When the installation of the access part 40 and the finishing part 60 is completed, the main frames 30, the access parts 40 and the first and second fixing vinyls (not shown) of the finishing part 60 of the central part 50 The outer vinyl 51 is covered with the outer vinyl 51 and the outer ends of the outer vinyl 51 are connected to the pair of first shafts 51b and the first motor 51a is guided to the guide bar 51d Install and complete all installations.

When the first motor 51a is driven, the first shaft 51b is pulled at the same time as the outer vinyl 51 is wound around the outer vinyl 51, The first motor 51a moves along the shape of the main frame 30 and is supported by the guide bar 51d so that the outer vinyl 51 can be opened without rotating.

When the second shaft 55b is rotated by the second motor 55a and the winding wire 55 is loosened, the operation for lowering the light heat part 52 among functions of the greenhouse 100 is performed The movable frame 54 descends and the roller 54a of the movable frame 54 is supported along the rails of the support column 22 and can move without shaking.

At this time, when the movable frame 54 descends, the safety rope 56 is gradually tensed in a loose state. When the maximum falling distance is reached, the movable frame 54 stops its descent by the safety rope 56, The drive shaft 55a stops driving and prevents the light heat part 52 and the movable frame 54 from falling due to disconnection of the take-up wire 55 and failure of the second motor 55a.

Even if the safety wire 56 is broken by the stopper 22b of the rail 22a installed at the position where the maximum falling distance of the movable frame 54 is calculated, the light heat part 52 and the movable frame 54 There is a feature to prevent the fall in the second degree.

When the third motor 53a is driven, the third shaft 53b is pulled at the same time as the inner vinyl 53 is wound around the inner vinyl 53, And the roller bracket 53c of the third motor 53a is moved and supported along the shape of the movable frame 54 so that the inner vinyl 53 can be opened without rotating.

The operation of the first motor 51a, the second motor 55a and the third motor 53a of the greenhouse 100 and the temperature control of the light heating unit 52 of the greenhouse 100 are controlled by an automatic control And it can be controlled remotely using a control unit and an application linked to a personal portable terminal using the Internet or a smart phone.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various changes and modifications may be made by those skilled in the art.

10: Foundation 11: Mold
12: buried end 13: anchor plate
14: first anchor 15: second anchor
20: heat insulating portion 21:
22: support 22a: rail
22b: Stopper 22c:
23: Heat insulation panel 23a: First panel
23b: second panel 23c: insulation
24: Window 25: Reflector
25a: rotating shaft 25b: bearing bracket
30: main frame 31: frame fixing end
32: Reinforcing bar 40:
41: first fixing vinyl 42: heat-insulating door
43: Vinyl roll 50:
51: outer vinyl 51a: first motor
51b: first axis 51c: rotation bracket
51d: guide bar 52: light heat part
53: inner vinyl 53a: third motor
53b: third axis 54: movable frame
54a: roller 55: winding line
56: safety line 55a: second motor
55b: second shaft 55c: bracket
60: Finishing portion 61: Second Fixed Vinyl
70: Integral insulation 71: Clearance
100: Greenhouse

Claims (10)

In the vinyl house,
Forming a plurality of bases (10) that are buried at equal intervals on a mounting surface;
The foundation 10 includes a mold 11 to be embedded in an installation surface and a first fixing member 20 fixed to the anchor plate 13 formed on the upper surface of the embedding stage 12 to be embedded in the mold 11, The anchor 14 and the second anchor 15 to which the main frame 30 is fixed;
An entrance portion 40, a central portion 50 and a finishing portion 60 which are respectively formed by a heat insulating portion 20 and a main frame 30 on the inside of the upper surface of the base 10 are continuously connected,
The heat insulating portion (20) comprises:
An H-shaped strut 22 installed at the first anchor 14 of each foundation 10 and forming an adiabatic groove 21 at both ends of the strut 22 and the strut 22, A heat insulating panel 23 inserted into the heat insulating groove 21 and a window 24 formed in the heat insulating panel 23,
A rail 22a is formed on one side surface of the column 22 to support both ends of the movable frame 54 in the central portion 50 in the longitudinal direction and is lowered below the rail 22a of the column 22 The stopper 22b is formed to prevent the movable frame 54 from moving and to prevent falling of the movable frame 54,
The heat insulating panel (23) is provided with a reflecting plate (25) which reflects and adjusts the angle of reflection of sunlight with reference to a rotating shaft (25a) provided on the inner surface thereof;
The inserting portion 40 forms a heat insulating door 42 at the center of the heat insulating portion 20 installed inside the first fixing vinyl 41 covering the main frame 30,
The central portion 50 is connected to the main frame 30 disposed outside the heat insulating portion 20 installed on the inner side where the outer vinyl 51 is put on and controls the height of the light heating portion 52 by the rotational driving force, A plurality of movable frames 54 for adjusting the opening area of the movable frame 53 are formed,
The main frame 30 and the movable frame 54 are connected to each other by a safety cord 56 so that the movable frame 54 is not dropped even when the winding wire 55 is cut,
Wherein the finishing part (60) comprises a heat insulating part (20) installed inside the second fixing vinyl (61) that is put on the main frame (30). delete delete delete delete delete delete delete delete delete

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