KR830001719B1 - Solar energy collecting roof - Google Patents

Abstract

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Description

Solar energy collection roof

1 is a perspective view of a metal roof with a collector of the present invention.

2 is a perspective view of a collector broken in part.

3 is a cross-sectional view taken along line IV-IV of FIG.

4 is a perspective view of a connecting member used for the outermost shaft end of the collector.

5 is a cross-sectional view taken along line 2 of FIG.

6 is a perspective view of a cover glass frame.

7 is a perspective view of a longitudinal rail.

8 is a perspective view of the upper rail.

9 is a perspective view of the lower rail.

10 is a perspective view showing a method of fixing the cover glass frame to the connecting member.

11 is a perspective view of a fixture.

12 is a perspective view showing the structure of a connection portion of the cover glass frame.

13 is a perspective view of the adjustment mechanism.

14 is a perspective view of the jig.

The present invention relates to a novel solar energy collecting roof (hereinafter referred to as a collector).

The present applicant has filed a patent application on a metal roofing material having heat insulating material and a connection member for joining the roofing material to an associated structure in the past, and after that, the cover member is improved to cover the upper portion between adjacent connection members. A patent application has been filed for a collector that provides a box-shaped space by subtracting a frame to install a pipe for collecting solar heat therein.

The present invention further improves such a collector to compensate for the defects caused by the thermal expansion of the long aluminum material used in the roof structure, so that rain and moisture condensed therein will flow out through the use formed therein. It is easy to assemble, such as only glass can be easily replaced when the cover glass is broken, and the assembly cost is reduced, as well as to provide a solar collection roof with excellent appearance.

Accordingly, an object of the present invention is to provide an upper rail having a flange provided with a dripping protrusion on the upper surface and an upward dripping protrusion on the outer bottom, a lower rail having an upper flange provided with a downward protrusion, and water on the upper side. It consists of a vertical rail having a shedding protrusion, a lower rail angle and an outer crust at the bottom, a cover glass frame composed of glass at the center, and a connecting member having support grooves and support portions on the support grooves at both sides thereof. In a solar energy collecting roof which is formed by mounting an outer perception on a supporting portion on a supporting groove and fixing the upper end of a longitudinal rail to a connecting member, the cover glass frame is sequentially subtracted from the eaves side of the connecting member toward the ridge surface. The gap between the upper and lower cover glass frames, and the gap is defined by the adjusting metal member mounted on the vertical rail of the lower cover glass frame. And to provide a solar energy collecting roof, it characterized in that the slide can be combined, while the upper and lower frames of the cover glass by a jig attached to the vertical rails of the upper cover glass frame steady up, down, left, and right.

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

1 is a perspective view of a metal roof with a collector according to the present invention, where 1 is a metal roof mounted on a lower part of the collector, and is constructed long from the ridge toward the eave and is connected and fixed by the connecting member 2. 3 is a collector mounted on the metal roofing material 1 connected by the connecting member 2 using the upper portion of the connecting member 2.

2 shows the collector 3 mounted in detail using the connecting members 2 and 2a. That is, the cover glass frame 27 is mounted on the upper part between the connecting members 2, (2) or (2) (2a), and the collector pipe 28 for collecting heat is connected to the lower part of the connecting member 2, respectively. ) And (2a), pipes are also mounted. 29 is a cap fixed to the lower end (eave end side) of the connecting member 2, and 30 is a ridged member.

In Fig. 3, the main body 15 of the connecting member 2 is shaped into a substantially groove in cross section, and is configured to mount the cover glass frame 27 of the collector 3 as described later.

16 is a support groove in the lower portion of the vertical rail 31 constituting the cover glass frame 27 formed to protrude at right angles to the side from the middle of the main body portion 15, 17 is integral to the upper portion of the support groove 16 It is the support part of the outer perception 39 'of the vertical rail 31 formed.

18 is a protrusion which each piece 25 of the cover 24 formed in the inner upper part of the main-body part 15 engages. 19 is a side droop covering the vertical risers 9 and 9 'of the electrometallic roofing material 1, and is formed in the lower portion of the support groove 16, and the lower end of the roofing material 1 when installed on the roof. It touches the upper surface lightly.

20 is a pipe receiving agent attachment groove of the collector 3 formed on the outer side of the lateral subsurface 19.

21 is a bottom part of the main body part 15, and the perceptions 22 and 23 parallel to the lower part are integrally formed. The crust 22 has a lower end thereof longer than the outer lower end 23 of the main body 15, and when the roof members 1 and 1 are connected, the connection extensions 11 and 11 'of the roof member 1 Even if the roofing material which is interpolated between them and exposed to high temperature expands, no excessive force is applied to the connecting portion.

As the cover of the connection member 2, 24 has each piece 25 engaging with the protrusion 18 formed in the upper part of the main-body part 15 of the connection member 2. As shown in FIG. 26 is a drooping piece formed on both sides of the cover 24.

4 shows the connecting member 2a mounted on the outermost side of the collector. The structure of one side board is the same as that of the connection member 2 of an electrical intermediate part, but since the cover glass frame 27 is not attached to the other side, only the side drooping piece 19a is formed.

As shown in FIG. 5, the collector cover glass frame 27 is combined so that a some space | interval may be hold | maintained at the upper and lower ends between the floor part (right side of drawing) and the eaves.

6 shows details of the cover glass frame 27 assembled in the connecting members 2 and 2a, which are vertical rails 31, 31, upper rail 32, and lower rail 33 on both sides. And the glass 34 in the middle portion.

The longitudinal rail 31 (FIG. 7) has the longitudinal groove 36 inserted into the side edge of the glass 34 through the packing 35 inside.

On the upper surface, a dripping protrusion 37 for supporting the end of the cover 24 is provided, and at the bottom, on the water-receiving angle 38 which is placed on the support groove 16 of the connecting member 2, and on the support 17 of the connecting member. It has the flange 39 which has an outer periphery 39 'on which it mounts. 40 is a vertical groove formed in the outer center part, and the fixing screw 41 (FIG. 6) is inserted in this groove, and the vertical rail 31, the upper rail 32, or the lower rail 33 couple | bonds. 40a and 40b are upper grooves and lower grooves formed in the vertical rail 31.

The upper rail 32 (FIG. 8) has the horizontal groove 42 which inserts the upper edge part of the glass 34 inside through a packing.

The upper surface is formed with a watering protrusion 43 and a flange 46 having a watering protrusion 45 in the longitudinal direction and a lower portion 44 of the side portion is integrally formed on the outside (ridge side).

The lower rail 33 (FIG. 9) is formed with a horizontal groove 47 for inserting the lower edge of the glass 34 through the packing therein, and on the upper surface, the downward protrusion 48 in the longitudinal direction and the granularity of the side part. It has the flange 50 which has the part 49.

51 is a water draining hole of the hollow body portion, so that even if rainwater enters the glass insertion portion, it can flow out onto the flange 46 of the upper rail 32 through it.

The upper rail 32, the lower rail 33, and the longitudinal rail 31 having the above holes are assembled as shown in FIG. 6 to sequentially face the ridge between the connecting members 2 and 2 from the eaves. Plural pieces are assembled. In other words, it is possible to simply attach the lower leg angle 38 of the vertical rail 31 to the support groove 10 by inserting the outer perception 39 'onto the support 17. The fixing with the connecting member 2 is hooked at the lower part to the supporting part 17 of the outer perception of the connecting member 2 at the upper part of the longitudinal rail 31 of each cover glass frame by the locking mechanism 53 shown in FIG. After swelling, fix and fix.

55 is a long hole formed in the flange 39 of the vertical rail 31, it is fixed after the position adjustment (Fig. 12) through the locking portion (53).

Referring to FIG. 12, the coupling part structure of the upper and lower cover glass frames 27 and 27 is shown. When fixing the vertical rail 31 and the upper rail 32 of the cover glass frame coming to the lower side, the mounting bolt 57 is passed through the mounting portion 58 of the adjusting jig 56 as shown in FIG. Fix it. The adjusting jig 56 has an upper end 59 formed in an L-shape, and the upper and lower ends 59 of the adjusting jig 56 come into contact with the surface of the lower rail 33 of the cover glass frame 27 connected to the upper side to regulate the upper and lower intervals. It is supposed to be. The mounting portion 58 of the adjusting jig 56 is inserted into the lower groove 40b of the vertical rail 31.

On the other hand, when fixing the vertical rail 31 and the lower rail 33 of the upper cover glass frame 27, the mounting bolt 63 is mounted portion 61 of the jig 60 as shown in FIG. It is fixed by penetrating. The jig 60 is subtracted into the upper groove 40a of the vertical rail 31, and the lower end 62 is inserted into the upper groove 40a of the vertical rail 31 of the lower cover glass frame 27. The lower portion of the upper cover glass frame 27 is connected to the connecting member 2 because the fixing member 53 is fixed to the connecting member 2 in the long hole 55 of the vertical rail of the cover glass frame 27. Even if it is not fixed, the upper, lower, left and right of the upper cover glass frame 27 can be prevented from loosening.

As described above, a plurality of cover glass frames 27 are mounted toward the ridge at the end of the eaves with respect to the vertical rail 31, and the mounting dimensions set in advance by the presence of the adjusting jig 56 for the lower cover glass frame. Can be assembled squarely at intervals.

In addition, the cover glass frame is mounted in a state in which only two upper portions are fixed to the connecting member by the locking member 53 so as to be movable in the longitudinal direction, but the lower part is assembled to the lower cover glass frame by the jig 60. It is not relaxed by wind pressure.

The cover glass frame 27 is assembled in a box shape by the vertical rails 31 and the upper and lower rails 32 and 33 as shown in FIG. 6, and the vertical rails 31 are provided with a dripping protrusion 37, Since the upper rail 32 is formed with a dripping protrusion 43, by forming a waterproof wall by these, it is perfect to prevent the intrusion of rain water. However, even if wet, the upper rail and the vertical rail is formed in a hollow, so it acts as a drip tray and is discharged to the lower part properly. In addition, even if water leaks in the lower rail, the water draining hole 51 is formed, so that it falls on the flange 46 of the upper rail 32 positioned thereunder, and flows downward through the groove in the connecting member. Water treatment is perfect without the use of a sealing material between the and the connecting member.

As described above, since the configuration is extremely simplified, the mounting is simple, and the rainwater treatment is perfect, and the slideable mounting is adopted, so that the structure is also free from thermal expansion. That is, according to the present invention, it can be used in the roof structure to compensate for the defect caused by the thermal expansion of the long aluminum material, the rain and moisture condensed therein can flow through the passage formed therein, the cover glass breakage It is easy to assemble such that only broken glass can be easily replaced, thereby reducing the assembly cost and providing a solar collector roof with excellent appearance. Therefore, it can be said that it is an ideal structure as a collector exposed to weather and high temperature.

Claims (1)

It has an upper rail having a flange on which a watering protrusion is provided on the upper surface and an upward watering protrusion on the outer bottom, a lower rail having an upper flange on which a downward protrusion is installed, and a watering protrusion on the upper portion, It consists of a vertical rail having a base angle and an outer perception, a cover glass frame composed of glass in the center, and a connecting member having support grooves and support portions on the support grooves on both sides thereof, and supporting the outer perception angle on the support grooves. In the solar energy collecting roof which is formed by mounting on the surface and fixing the upper end of the longitudinal rail to the connecting member, the cover glass frame is combined by sequential interpolation from the eaves side of the connecting member toward the ridge side, and the upper and lower sides are combined. At the connection part of the cover glass frame, the gap is regulated by an adjustment metal member mounted on the vertical rail of the lower cover glass frame, and the upper cover glass frame Solar collection roof, characterized in that the upper and lower cover glass frame is slidable by the jig attached to the new rail of the jig and slidably up, down, left and right.

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