WO2021177515A1 - Easy-to-assemble roof ridge structure - Google Patents

Abstract

The present invention relates to a roof ridge structure. The roof ridge structure is characterized by comprising a roof ridge frame and a roof ridge cover. The roof ridge frame includes: a lower inclined plate having a top surface which has a predetermined downward tilt angle and on which a main frame rests; an upper inclined plate having a top surface which has the same downward tilt angle as the lower inclined plate, and on which a glass plate (700) rests; and an installation guide which is located on the top surface of the upper inclined plate, includes a heat insulating material for blocking the movement of heat between the roof ridge frame and the roof ridge cover, and can be slide-fitted and thereby coupled to a coupling portion of the roof ridge cover. The roof ridge cover includes: the coupling portion slide-fitted and coupled to the installation guide; and a cover portion that at least partially covers the glass plate resting on the upper inclined plate. According to the present invention, the construction method for the roof ridge frame and the glass plate, which constitute a roof surface of a sun room or a glass greenhouse, is simple, the glass plate stacked using the construction method is securely fixed, the roof ridge cover and a roof ridge water pipe can be coupled with ease, and glass plates of various thicknesses can be used.

Description

Easy-to-assemble ridge structure

The present invention relates to a ridge structure, and more particularly, to a structure of a ridge part that can be used in a sunroom or glass greenhouse, which is a building that is installed in an outdoor space and used for sunbathing or plant cultivation. In particular, the present invention is configured so that the ridge cover and the ridge water pipe can be sequentially coupled to the ridge frame, and the ridge cover is coupled to the ridge cover installation part including the heat insulating material, thereby providing a thermal insulation effect and conveniently combining the ridge cover. Rather, it is possible to construct glass plates of various thicknesses, and the construction method of the ridge frame, main frame and glass plate constituting the roof surface of a sunroom or glass greenhouse is simple, and the ridge that the accumulated glass plates can be stably fixed through this construction method It's about structure.

In general, a sunroom or glass greenhouse is a structure that is installed on an outdoor space such as a veranda, a terrace, a yard, or the roof of a building and is used for sunbathing or plant cultivation. It is equipped and designed so that natural light of the sun can be introduced into the interior through the installation of glass.

Such a sunroom or glass greenhouse includes a roof, and the ridge is the main floor at the center of the roof and is the supporting part of the rafters. In structures such as sunrooms and glass greenhouses, metal pipes such as stainless steel or aluminum are mainly used as ridge materials.

Conventionally, when a roof including a glass plate and a frame is installed and a roof having an inclination angle is installed, the ridge and rafters are assembled and constructed by welding to the frame or combining them using a fastening member. However, at this time, there was a problem that the overall installation work is cumbersome, and the construction time is long or the appearance is not neat. For example, the shape of the ridge member and the frame coupled thereto does not match, so cutting or supplementing it is required in the field.

In addition, when the glass plate is fixed only by sealing, it is difficult to stably fix the accumulated glass plate, and there is a risk of the glass plate falling off after using it for a certain period of time. In addition, the conventional ridge structure has a disadvantage in that the thickness of a glass plate that can be installed is fixed, and a glass plate having a thickness other than a certain thickness cannot be used.

The present invention is devised to solve the above-mentioned conventional problems, and when constructing a roof required for a structure such as a sunroom or a glass greenhouse, it facilitates the installation of a ridge frame and a glass plate on a roof with an inclination angle, and the installation work It is to provide a specific ridge structure that can improve the fixing force and stability of the fastened glass plate according to the present invention.

In addition, the present invention can combine the ridge frame, the ridge cover, and the ridge water pipe through simple fastening, and use a heat insulator in each coupling part to improve the thermal insulation effect of a sunroom or glass greenhouse, while applying glass of various thicknesses It aims to provide a ridge structure that makes

In order to achieve the above technical object, in the ridge structure including the ridge frames 100 and 200 and the ridge covers 300 and 400 according to an embodiment of the present invention, the ridge frames 100 and 200 have a predetermined upper surface. Lower swash plates 120 and 220 having a downward inclination angle, on which the main frames 510 and 520 are seated; an upper swash plate (110, 210) whose upper surface has the same downward inclination angle as the downward inclination angle of the lower swash plate (120, 220), and the glass plate 700 is seated on the upper surface; and heat insulators 140 and 240 located on the upper surfaces of the upper swash plates 110 and 210 and blocking the movement of heat between the ridge frames 100 and 200 and the ridge covers 300 and 400, and the ridge cover 300 , 400) and the installation guides 130 and 230 that can be fitted in a sliding manner with the coupling portions 310 and 410, and the ridge covers 300 and 400 slide with the installation guides 130 and 230. coupling parts 310 and 410 that are fitted in a manner; And it relates to a ridge structure comprising a cover portion (320, 420) that at least partially covers the glass plate (700) seated on the upper swash plate (110, 210).

According to an embodiment of the present invention, the ridge frames 100 and 200 may be completed by assembling two or more parts.

According to an embodiment of the present invention, the upper and lower parts of the ridge frames 100 and 200 may be coupled to each other in the concave- convex structure 150 , 250 .

According to an embodiment of the present invention, the coupling portions of the concave- convex structures 150 and 250 may be combined by assembling the pieces 10 .

According to an embodiment of the present invention, the upper swash plate 110 and the lower swash plate 120 are provided only on one surface of the ridge frame 100 , and are disposed between the upper swash plate 110 and the lower swash plate 120 . It may further include a fastening groove 160 provided with a piece line through which the piece 10 can be fastened so that the ridge frame 100 is fixed to the wall 1 of another building.

According to an embodiment of the present invention, the upper swash plate 210 and the lower swash plate 220 may be provided on both sides of the ridge frame 200 .

According to an embodiment of the present invention, the side surfaces of the installation guides 130 and 230 may be formed to form a right angle with the upper surfaces of the upper swash plates 120 and 220 .

According to an embodiment of the present invention, the ridge frames 100 and 200 may be installed as a central beam mounted on a central pillar 810 .

According to an embodiment of the present invention, the ridge frames 100 and 200 have a shorter length than the central beam 820 and may be coupled to the central beam 820 at regular intervals.

According to an embodiment of the present invention, a ridge water pipe 900 including a water pipe part 910 having a plurality of drain ports 930 through which water is discharged to the outside, and a coupling part 920 for fixing the water pipe part 910 . ) may be further included.

According to an embodiment of the present invention, the ridge covers 300 and 400 further include water pipe installation parts 330 and 430 , and the water pipe installation parts 330 and 430 are formed of the cover parts 320 and 420 . It is located on the upper surface, and can be fitted with the coupling part 920 of the ridge water pipe 900 in a sliding manner.

According to an embodiment of the present invention, the ridge covers 300 and 400 further include water pipe installation parts 330 and 430 , and the water pipe installation parts 330 and 430 are formed of the cover parts 320 and 420 . It is located on the upper surface, and may be coupled using the coupling part 920 and the piece 10 of the ridge water pipe 900 .

According to an embodiment of the present invention, the ridge covers 300 and 400 further include water pipe installation parts 330 and 430, and the coupling part 920 of the ridge water pipe 900 has a 'T' shape. It has an end, and the water pipe installation parts 330 and 430 are located on the upper surfaces of the cover parts 320 and 420 , and the 'T'-shaped end of the coupling part 920 may be fitted and coupled.

According to an embodiment of the present invention, the coupling part 920 of the ridge water pipe 900 may be directly fixed to the wall 1 of another building.

According to an embodiment of the present invention, the coupling part 920 of the ridge water pipe 900 may be fixed to the side surfaces of the ridge frames 100 and 200 , the central pillar 810 , or the central beam 820 .

According to an embodiment of the present invention, the coupling part 920 of the ridge water pipe 900 may include a water pipe holder 950 in which the water pipe part 910 can be seated.

According to an embodiment of the present invention, the ridge water pipe 900 may include a plurality of water pipe parts 910 .

According to an embodiment of the present invention, the drain port 930 may be provided with a drain nozzle 940 .

In the ridge structure including the ridge frames 100 and 200, the ridge covers 300 and 400, and the ridge water pipe 900 according to an embodiment of the present invention, the ridge frames 100 and 200 have the upper surfaces of the ridge frames 100 and 200 facing downward. Lower swash plates 120 and 220 having an inclination angle, on which the main frames 510 and 520 are seated; an upper swash plate (110, 210) whose upper surface has the same downward inclination angle as the downward inclination angle of the lower swash plate (120, 220), and the glass plate 700 is seated on the upper surface; and heat insulators 140 and 240 located on the upper surfaces of the upper swash plates 110 and 210 and blocking the movement of heat between the ridge frames 100 and 200 and the ridge covers 300 and 400, and the ridge cover 300 , 400) includes installation guides 130 and 230 that can be coupled to the coupling portions 310 and 410, and the ridge covers 300 and 400 are coupled to the installation guides 130 and 230. parts 310 and 410; Cover portions 320 and 420 for at least partially covering the glass plate 700 seated on the upper inclined plates 110 and 210; and water pipe installation parts 330 and 430 that can be coupled to the coupling part 920 of the ridge water pipe 900, wherein the ridge water pipe 900 includes a plurality of drain holes 930 through which water is discharged to the outside. to the water pipe portion 910; And it relates to a ridge structure comprising a coupling part 920 for fixing the water pipe part 910 .

According to an embodiment of the present invention, the installation guides 130 and 230 of the ridge frames 100 and 200 may be integrally formed with the coupling portions 310 and 410 of the ridge covers 300 and 400 .

A structure including a ridge structure according to an embodiment of the present invention, comprising: a main frame (510, 520) seated on the upper surface of the lower swash plate (120, 220) of the ridge frame (100, 200); and main frame covers 610 and 620, and the main frames 510 and 520 further include installation guides 511 and 521 that can be fitted with the main frame covers 610 and 620 in a sliding manner. Including, depending on the thickness of the glass plate 700, the coupling interval between the installation guides 511 and 521 of the main frames 510 and 520 and the main frame covers 610 and 620 can be changed by sliding It relates to a structure characterized by the

A structure including a ridge structure according to an embodiment of the present invention, further comprising a main frame (510, 520) and an outer beam (822), wherein the main frame is the lower swash plate of the ridge frame (100, 200). It is seated on the upper surface of (120, 220) and the upper surface of the outer beam 822, and the upper surface of the outer beam has a downward inclination angle equal to the downward inclination angle of the lower inclined plate (120, 220) In a structure, characterized in that it's about

A structure including a ridge structure according to an embodiment of the present invention, the main frame (510, 520) seated on the upper surface of the lower swash plate (120, 220) of the ridge frame (100, 200); and glass plate installation guides 630 and 640 capable of installing the glass plate 700 on the upper surface thereof, wherein the main frames 510 and 520 are fitted with the glass plate installation guides 630 and 640 in a sliding manner. It includes installation guides 511 and 521 that can be installed, and the glass plate 700 is seated on the upper surface of the main frame 510 and 520 , and the glass plate installation guides 630 and 640 on the installation guides 511 and 521 . ) after installation, relates to a structure characterized in that for installing another glass plate 700 on the upper surface of the glass plate installation guides (630, 640).

The ridge frame structure of a sunroom or glass greenhouse according to the present invention has a simple fastening method when combining the ridge cover, can apply glass plates of various thicknesses, and can obtain an insulating effect of a sunroom or glass greenhouse.

In addition, when constructing a roof with an inclination angle, the glass plate is slide-adhered and seated on each ridge frame, and then is installed in a manner that is fixed by silicone sealing.

In addition, by combining a water pipe to the ridge, water flowing down from the water pipe to the ceiling of a sunroom or glass greenhouse can be used to achieve cooling and heating, foreign matter removal and ornamental effects.

1 illustrates an embodiment of a ridge structure including a ridge frame and a ridge cover according to the present invention.

FIG. 2 shows an example of a coupling structure between the installation guides 130 and 230 of the ridge frames 100 and 200 and the coupling portions 310 and 410 of the ridge covers 300 and 400 according to the present invention.

3 shows an embodiment of a ridge structure for a sunroom fixed to a wall of another building according to the present invention.

Figure 4 shows an embodiment of the independently installed ridge structure for a glass greenhouse according to the present invention.

Figure 5 shows an embodiment of the coupling relationship of the main frame and the main frame cover according to the present invention.

Figure 6 shows an embodiment of installing a glass plate on the main frame and the upper surface according to the present invention.

7 shows an embodiment of installing a fitting-type insulation plate or a water splash prevention plate to the main frame according to the present invention.

8 shows an embodiment of the structure in which the ridge frame according to the present invention is installed as a central beam.

9 shows an embodiment of a ridge structure in which the ridge frame according to the present invention is installed in a separate central beam at regular intervals.

10 is a cross-sectional view showing an exemplary ridge structure in which a ridge frame is installed at regular intervals on a separate central beam according to an embodiment of the present invention.

11 illustrates an embodiment in which the main frame is installed in an outer beam having the same downward inclination angle as the downward inclination angle of the lower surface of the ridge plate of the ridge frame.

12 shows an embodiment of a method for fixing a pillar to the floor for installation of a sunroom or glass greenhouse according to the present invention.

13 shows an embodiment of a method of combining a column and a beam for installation of a sunroom or glass greenhouse according to the present invention.

14 shows an embodiment of a method of arranging columns and beams for installation of a sunroom or glass greenhouse according to the present invention.

15 illustrates an embodiment of a ridge structure including a ridge frame, a ridge cover, and a ridge water pipe according to the present invention.

16 shows an embodiment of a ridge structure for a sunroom in which a ridge water pipe is coupled to a wall according to the present invention.

17 shows an embodiment of a ridge structure for a glass greenhouse to which a ridge water pipe is coupled, which is independently installed according to the present invention.

18 shows an embodiment of a method of combining a ridge frame, a main frame, an installation frame, a ridge cover, and a ridge water pipe according to the present invention.

19 to 30 show embodiments of the ridge water pipe according to the present invention.

31 illustrates a ridge structure in which the ridge frame and the ridge cover are integrated according to an embodiment of the present invention.

32 illustrates a ridge structure including a plurality of water pipe parts according to an embodiment of the present invention.

Figure 33 shows an embodiment of the coupling relationship of the main frame that can install a double glass plate according to the present invention.

The present invention relates to a ridge structure that is installed in an outdoor space and can be conveniently constructed when installing buildings or structures for various purposes such as sunrooms or glass greenhouses for sunbathing or plant cultivation, and provides stability, insulation effect and neat appearance. As such, it will be described as follows in accordance with the accompanying Figures 1 to 33.

1 shows an example of a ridge structure according to the present invention. Here, Fig. 1 (a) shows an example of a ridge structure for a sunroom, and Fig. 1 (b) shows an example of a ridge structure for a glass greenhouse.

The ridge structure for a sunroom according to the present invention, illustrated in FIG. 1A , is composed of a ridge frame 100 for a sunroom and a ridge cover 300 for a sunroom. The sunroom ridge frame 100 includes an upper inclined plate 110 , a lower inclined plate 120 , an installation guide 130 , a heat insulating material 140 , and a fastening groove 160 . The ridge cover 300 for the sunroom includes a coupling part 310 and a cover part 320 .

Since the ridge frame 100 for a sunroom is installed on the wall 1 of another building, the upper swash plate 110 and the lower swash plate 120 are provided only on one surface of the ridge frame 100 . The lower inclined plate 120 extends from the center of the ridge to one surface so that the main frames 510 and 520 in the form of a square pipe can be seated on the upper surface thereof, and the upper surface thereof has a predetermined downward inclination angle. And the upper swash plate 110 extends from the center of the ridge to one surface so that the glass plate 700 can be seated on its upper surface and the upper surfaces of the main frames 510 and 520, and the upper surface of the lower swash plate 120 has a downward inclination angle and have the same downward inclination angle. Since the downward inclination angles of the upper swash plate 110 and the lower swash plate 120 are the same, the upper surfaces of the main frames 510 and 520 seated on the upper surface of the lower swash plate 120 and the inclination angles of the upper swash plate 110 are also the same, and the The glass plate 700 may be stably seated on the upper surface. In addition, installation guides 130 , 511 , 521 having a predetermined height are provided on the upper surfaces of the upper inclined plate 110 and the main frames 510 and 520 , and the glass plate 700 is separated when the glass plate 700 is seated. This prevents it from being fixed so that it can be fixed more stably. In addition, between the lower swash plate 120 and the upper swash plate 110, the sunroom ridge frame 100 is fixed to the wall using a piece (meaning a screw or various coupling members that can replace it, 10). The fastening groove 160 provided with the piece line is formed to be more concave than the periphery, and when the main frames 510 and 520 are coupled to the upper surface of the lower swash plate 120, the main frames 510 and 520 by the piece 10. do not interfere with its seating.

According to an embodiment of the present invention, the installation guide 130 of the ridge frame 100 for a sunroom includes an insulating material 140 that blocks the movement of heat between the ridge frame 100 and the ridge cover 300 , and the ridge It may be formed in a structure that can be fitted with the coupling portion 310 of the cover 300 in a sliding manner.

According to an embodiment of the present invention, the installation guide 130 of the ridge frame 100 for a sunroom prevents the movement of heat under the part that can be fitted with the coupling part 310 of the ridge cover 300 in a sliding manner. A heat insulating material 140 to block may be provided.

According to an embodiment of the present invention, the installation guide 130 of the ridge frame 100 for a sunroom is provided with a heat insulator 140 in a portion that can be fitted with the coupling part 310 of the ridge cover 300 in a sliding manner. can be provided According to an embodiment of the present invention, the heat insulating material 140 is cured after installation and is applied to the fitting portion, and then can be combined with the coupling part 310 of the ridge cover 300, and the heat insulating material ( By curing 140), the installation guide 130 of the ridge frame 100 and the coupling part 310 of the ridge cover 300 have an effect of being firmly coupled. According to another embodiment of the present invention, the heat insulating material 140 is an already hardened material, which is installed in a fitting portion and may be combined with the coupling portion of the ridge cover 300 . In this case, since the insulating material 140 is a flexible material compared to the metal material, it fills the empty space when the installation guide 130 of the ridge frame 100 and the coupling part 310 of the ridge cover 300 are fitted. , which has the effect of more tightly bonding.

According to an embodiment of the present invention, the installation guide 130 of the ridge frame 100 for a sunroom does not include the heat insulating material 140 , and the coupling part 310 of the ridge cover 300 is connected to the ridge frame 100 and the ridge frame 100 . An insulating material for blocking the movement of heat between the ridge covers 300 may be provided. In addition, according to an embodiment of the present invention, the installation guide 130 of the ridge frame 100 for a sunroom may include a heat insulating material 140 , and the coupling part 310 of the ridge cover 300 may also include a separate heat insulating material. can

According to an embodiment of the present invention, since the sunroom ridge cover 300 is coupled to the installation guide 110 provided with the insulating material 140, the sunroom ridge frame 100 can be insulated from the outside, and the upper swash plate ( 110) and the sunroom ridge cover 300 may serve to stably mount the glass plate 700. The cover part 320 of the ridge cover 300 for a sunroom is for fixing the glass plate 700 while at least partially covering the upper surface of the glass plate 700, and the coupling part 310 is a part of the ridge frame 100 for the sunroom. It may have a structure that can be fitted with the installation guide 130 in a sliding manner.

Here, the coupling part 310 of the ridge cover 300 for the sunroom is coupled to the installation guide 130 of the ridge frame 100 for the sunroom in a sliding manner. and can be changed.

According to an embodiment of the present invention, the ridge frame 100 for a sunroom may be formed integrally or may be completed by assembling two or more parts. For example, as shown in FIG. 1( a ), the upper part and the lower part may be coupled by a concave-convex structure 150 therebetween. In addition, the coupling portion of the concave-convex structure 150 may be more firmly coupled by assembling the piece 10 as necessary. According to another embodiment, the ridge frame 100 for a sunroom may be formed by combining parts of various numbers and/or shapes.

According to an embodiment of the present invention, the heat insulating material 340 may be attached to the lower surface of the cover part 320 of the ridge cover 300 for the sunroom. In addition, according to another embodiment of the present invention, the heat generating material 350 may be attached to the upper surface of the cover part 320 of the ridge cover 300 for the sunroom.

The ridge structure for a glass greenhouse according to the present invention illustrated in FIG. 1(b) is composed of a ridge frame 200 for a glass greenhouse and a ridge cover 400 for a glass greenhouse. The ridge frame 200 for a glass greenhouse includes an upper swash plate 210 , a lower swash plate 220 , an installation guide 230 , and a heat insulator 240 . The ridge cover 400 for a glass greenhouse includes a coupling part 410 and a cover part 420 .

Since the ridge frame 200 for a glass greenhouse is independently installed, the upper swash plate 210 and the lower swash plate 220 are provided on both sides of the ridge frame 200 . The lower inclined plate 220 extends from the center of the ridge to both sides so that the main frames 510 and 520 in the form of a square pipe can be seated on the upper surface thereof, and the upper surface thereof has a predetermined downward inclination angle. And the upper swash plate 210 extends on both sides from the center of the ridge so that the glass plate 700 can be seated on its upper surface and the upper surfaces of the main frames 510 and 520, and the upper surface of the lower swash plate 220 is downward. It has the same downward inclination angle as the inclination angle. Since the downward inclination angles of the upper swash plate 210 and the lower swash plate 220 are the same, the upper surfaces of the main frames 510 and 520 seated on the upper surface of the lower swash plate 220 and the inclination angles of the upper swash plate 210 are also the same, and the The glass plate 700 may be stably seated on the upper surface. In addition, installation guides 230, 511, 521 having a predetermined height are provided on the upper surfaces of the upper inclined plate 210 and the main frames 510 and 520 to prevent the separation of the glass plate 700 when the glass plate 700 is seated. to prevent it, so that it can be fixed more stably.

According to an embodiment of the present invention, the installation guide 230 of the ridge frame 200 for a glass greenhouse includes an insulating material 240 that blocks the movement of heat between the ridge frame 200 and the ridge cover 400 , and the ridge It may be formed in a structure that can be fitted and coupled with the coupling portion 410 of the cover 400 in a sliding manner.

According to an embodiment of the present invention, the installation guide 230 of the ridge frame 200 for a glass greenhouse prevents the movement of heat under the coupling part 410 of the ridge cover 400 and the part that can be fitted in a sliding manner. A heat insulating material 240 to block may be provided.

According to an embodiment of the present invention, the installation guide 230 of the ridge frame 200 for a glass greenhouse includes the insulating material 240 on the part that can be fitted with the coupling part 410 of the ridge cover 400 in a sliding manner. can be provided According to an embodiment of the present invention, the insulator 240 may be applied to a part that can be fitted in a form that is hardened after installation, and then may be combined with the coupling part 410 of the ridge cover 400, and the insulating material ( 240), the installation guide 230 of the ridge frame 200 and the coupling part 410 of the ridge cover 400 have an effect of being firmly coupled. According to another embodiment of the present invention, the heat insulating material 240 is an already hardened material, which is installed in a fitting portion and can be combined with the coupling portion 410 of the ridge cover 400 . In this case, since the insulating material 240 is a flexible material compared to the metal material, the empty space is filled when the installation guide 230 of the ridge frame 200 and the coupling part 410 of the ridge cover 400 are fitted. , which has the effect of more tightly bonding.

According to an embodiment of the present invention, the installation guide 230 of the ridge frame 200 for a glass greenhouse does not include the heat insulating material 240 , and the coupling part 410 of the ridge cover 400 is connected to the ridge frame 200 and the ridge frame 200 . An insulating material for blocking the movement of heat between the ridge covers 400 may be provided. In addition, according to an embodiment of the present invention, the installation guide 230 of the ridge frame 200 for a glass greenhouse is provided with an insulating material 240 , and the coupling part 410 of the ridge cover 400 is also provided with a separate insulating material. can

According to an embodiment of the present invention, since the ridge cover 400 for a glass greenhouse is coupled to the installation guide 210 provided with an insulating material, the ridge frame 200 for a glass greenhouse can be insulated from the outside, and the upper swash plate 210 and It can serve to stably mount the glass plate 700 between the ridge covers 400 for glass greenhouses. The cover part 420 of the ridge cover 400 for a glass greenhouse is for fixing the glass plate 700 while at least partially covering the upper surface of the glass plate 700, and the coupling part 410 is the ridge frame 200 for the sunroom. It may have a structure that can be fitted with the installation guide 230 in a sliding manner.

Here, since the coupling part 410 of the ridge cover 400 for a glass greenhouse is fitted with the installation guide 230 of the ridge frame 200 for a glass greenhouse in a sliding manner, the coupling interval varies depending on the thickness of the glass plate 700 . It can be changed by sliding.

According to an embodiment of the present invention, the ridge frame 200 for a glass greenhouse may be formed integrally or may be completed by assembling two or more parts. For example, as shown in FIG. 1(b) , the upper part and the lower part may be coupled by the concave-convex structure 250 therebetween. In addition, the coupling portion of the concave-convex structure 250 may be more tightly coupled by assembling the piece 10 as necessary. According to another embodiment, the ridge frame 200 for a glass greenhouse may be formed by combining parts of various numbers and/or shapes.

According to an embodiment of the present invention, a heat insulating material 440 may be attached to the lower surface of the cover part 420 of the ridge cover 400 for a glass greenhouse. In addition, according to another embodiment of the present invention, a heat generating material 450 may be attached to the upper surface of the cover part 420 of the ridge cover 400 for a glass greenhouse.

FIG. 2 shows an example of a coupling structure between the installation guides 130 and 230 of the ridge frames 100 and 200 and the coupling portions 310 and 410 of the ridge covers 300 and 400 according to the present invention.

According to an embodiment of the present invention shown in Fig. 2(a), the installation guides 130 and 230 have a single plate shape, and the coupling parts 310 and 410 are composed of two plates with a narrow interval. to form a slit therebetween, the plates of the installation guides 130 and 230 may be fitted to the slits in a sliding manner.

According to an embodiment of the present invention shown in Figure 2 (b), the installation guide (130, 230) is composed of two plates with a narrow interval to form a slit therebetween, the coupling portion (310, 410) may be fitted between the slits in a single plate shape.

According to an embodiment of the present invention shown in Figure 2 (c) or Figure 2 (d), the installation guide (130, 230) and the coupling portion (310, 410) are all a plurality of plates are arranged at narrow intervals, They can be cross-fitted to each other.

2 is merely an example of embodiments according to the present invention, and the coupling part 310 of the installation guides 130 and 230 of the ridge frames 100 and 200 according to the present invention and the ridge covers 300 and 400 according to the present invention. The coupling structure of the , 410 is not limited thereto, and may be implemented in any form as long as the installation guides 130 and 230 and the coupling portions 310 and 410 are fitted with each other, and the installation guides 130, 230, ) and the specific shape of the coupling portions 310 and 410 and the number of parts constituting the shape is not limited. In addition, the fitting structure according to the present invention does not exclude that other coupling structures are used at the same time, including fixing using a fixing part such as the piece 10 after being fitted.

3 is a structure in which the main frames 510 and 520, the glass plate 700 and the main frame covers 610 and 620 are coupled to the ridge structure 100 and 300 for the sunroom of the present invention illustrated in FIG. 1(a). it is foreshadowed

First, the ridge frame 100 for the sunroom is fixed to the wall by inserting the piece 10 into the piece line provided in the fastening groove 160 . Next, the main frames 510 and 520 are seated on the lower swash plate 120 of the ridge frame 100 for a sunroom, and the glass plate 700 is placed on the upper surface of the upper swash plate 110 and the upper surface of the main frame 510 , 520 . be seated After that, the main frame cover (610, 620) is fitted to the installation guide (511, 521) of the upper surface of the main frame (510, 520) in a sliding manner. Finally, the sunroom ridge cover 300 is fitted to the installation guide 130 of the sunroom ridge frame 100 in a sliding manner.

According to an embodiment of the present invention, the side surface of the upper swash plate 110 of the ridge frame 100 for a sunroom is inclined by the same angle as the downward inclination angle of the lower swash plate 120 from the vertical, so that the side surface of the upper swash plate 110 and The lower swash plate 120 may form a right angle. Since the ends of the main frames 510 and 520 in the shape of a square pipe are also at right angles, the ends of the main frames 510 and 520 are accurately seated between the side surface of the upper swash plate 110 and the lower swash plate 120 without undergoing additional processing. can be Therefore, in the case of installing a sunroom using the ridge structure according to the present invention, since separate processing of the main frames 510 and 520 is not required in the field, the installation work can be performed efficiently, and as a result, the installation cost is reduced. do.

According to an embodiment of the present invention, the side surface of the installation guide 130 of the ridge frame 100 for a sunroom is inclined by the same angle as the downward inclination angle of the upper swash plate 110 from the vertical, so that the side surface of the installation guide 130 and The upper swash plate 110 may form a right angle. Since the end of the glass plate 700, which is a rectangular parallelepiped in the form of a plate, is also at a right angle, the end of the glass plate 700 can be accurately seated between the side surface of the installation guide 130 and the upper swash plate 110 without going through a separate processing. Therefore, in the case of installing a sunroom using the ridge structure according to the present invention, separate processing of the glass plate 700 is not required in the field, and installation costs can be reduced along with efficient installation work.

Here, since the main frame covers 610 and 620 and the sunroom ridge cover 300 are fitted in a sliding manner, they can be coupled by varying the coupling interval according to the thickness of the glass plate 700 . In addition, the ridge cover 300 for the sunroom is configured so that a part thereof can be deformed so that it can be combined well at the point where it intersects with the main frame covers 610 and 620 .

4 is a structure in which the main frames 510 and 520, the glass plate 700 and the main frame covers 610 and 620 are coupled to the ridge structures 200 and 400 for the glass greenhouse of the present invention illustrated in FIG. 1(b). it will be shown

First, the main frames 510 and 520 are seated on the lower swash plate 220 of the ridge frame 200 for glass greenhouses, and the glass plate 700 is placed on the upper surface of the upper swash plate 210 and the upper surface of the main frames 510 and 520 . settle down After that, the main frame cover (610, 620) is fitted to the installation guide (511, 521) of the upper surface of the main frame (510, 520) in a sliding manner. Finally, the ridge cover 400 for a glass greenhouse is fitted to the installation guide 230 of the ridge frame 200 for a glass greenhouse in a sliding manner.

According to an embodiment of the present invention, the side of the upper swash plate 210 of the ridge frame 200 for a glass greenhouse is inclined by the same angle as the downward inclination angle of the lower swash plate 220 from the vertical, and the side of the upper swash plate 210 and The lower swash plate 220 may form a right angle. Since the ends of the main frames 510 and 520 in the shape of a square pipe are also at right angles, the ends of the main frames 510 and 520 are accurately seated between the side surface of the upper swash plate 210 and the lower swash plate 220 without undergoing additional processing. can be Therefore, in the case of installing a glass greenhouse using the ridge structure according to the present invention, since separate processing of the main frames 510 and 520 is not required in the field, the installation work can be performed efficiently, and as a result, the installation cost is reduced. savings are made

According to an embodiment of the present invention, the side surface of the installation guide 230 of the ridge frame 200 for a glass greenhouse is inclined by the same angle as the downward inclination angle of the upper swash plate 210 from the vertical, and the side surface of the installation guide 230 and The upper swash plate 210 may form a right angle. Since the end of the glass plate 700, which is a rectangular parallelepiped in the form of a plate, is also at right angles, the end of the glass plate 700 can be accurately seated between the side surface of the installation guide 230 and the upper swash plate 210 without additional processing. Therefore, in the case of installing a glass greenhouse using the ridge structure according to the present invention, separate processing of the glass plate 700 is not required in the field, and installation costs can be reduced along with efficient installation work.

Here, since the main frame covers 610 and 620 and the ridge cover 400 for a glass greenhouse are coupled in a sliding manner, the coupling interval may be varied according to the thickness of the glass plate 700 . In addition, the ridge cover 400 for a glass greenhouse is configured so that a part thereof can be deformed so that it can be well combined with the main frame covers 610 and 620 at the intersection point.

5 illustrates a structure in which the main frame covers 610 and 620 are coupled to the installation guides 511 and 521 of the main frames 510 and 520 in a sliding manner. As described above, after the glass plate 700 is seated on the upper surfaces of the upper swash plates 110 and 210 and the main frames 510 and 520, the coupling interval is varied according to the thickness of the glass plate 700 to cover the main frame ( 610 and 620 are fitted to the installation guides 511 and 521 in a sliding manner.

6 shows the structure of the main frame 520 according to an embodiment of the present invention. As shown in FIG. 6B , the main frame 520 may have a glass plate 700 mounted on the upper surface of the frame. In this case, after the double-sided tape 30 is first installed on the main frame 520 , the glass plate 700 may be seated. According to an embodiment of the present invention, the double-sided tape 30 may serve as a heat insulator. According to another embodiment of the present invention, as shown in Figure 6 (a), the main frame 520 using a separate support for installing the glass plate 700, the glass plate 700 on the upper surface of the can be anchored. Also in this case, the glass plate 700 may be seated using the double-sided tape 30 .

7 shows the structure of the main frame 510 according to an embodiment of the present invention. In addition to or instead of the main frame cover 610, the installation guide 511 of the main frame 510 according to an embodiment of the present invention is fitted with a fitting-type insulation plate 513 or a water splash prevention plate 514. can Here, the fitting-type insulation plate 513 may be fitted to the installation guide 511 of the main frame 510 to provide an insulation function to the side surface of the main frame. In addition, the water splash prevention plate 514 may be fitted to the installation guide 511 of the main frame 510 to provide a function of preventing water from splashing from the roof of the sunroom or glass greenhouse to the ground. According to an embodiment of the present invention, the main frame cover part 612 may be coupled to the installation guide 511 of the main frame 510 together with the fitting-type insulation plate 513 or the water splash prevention plate 514 at the same time. have.

8 shows an embodiment in which the ridge frames 100 and 200 according to the present invention are installed as a central beam on the central pillars 810 . In this case, the ridge frames 100 and 200 have a length corresponding to the installation interval of the central pillars 810, and function as a central beam itself.

9 shows an embodiment in which the ridge frames 100 and 200 according to the present invention are installed on a separate central beam 820 at regular intervals. In this case, the ridge frames 100 and 200 have a length capable of installing the main frames 510 and 520, and are spaced at regular intervals on a separate central beam 820 at each location where the main frames 510 and 520 are installed. are combined 9 shows the ridge frame 100 for a sunroom as an example, but the ridge frame 200 for a glass greenhouse is shown in FIGS. have the same configuration.

10 is a cross-sectional view of the ridge frames 100 and 200 illustrated in FIG. 9 , in which coupling supports 170 and 270 for coupling to the central beam 820 are further added to the ridge frames 100 and 200 illustrated in FIG. 1 . will include

The ridge frame 100 for a sunroom shown in FIG. 10( a ) further includes a coupling support 170 that can be fixed to one surface of the central beam 820 , for example, using the piece 10 . It is possible to combine the central beam 820 and the coupling support 170 .

The ridge frame 200 for a glass greenhouse shown in FIG. 10( b ) further includes a coupling support 270 that can be fixed to both sides of the central beam 820 , for example, using the piece 10 . It is possible to combine the central beam 820 and the coupling support 270 .

According to the embodiment of the present invention shown in FIG. 10 , the lower end of the ridge frame is stably seated on the central beam 820 through the coupling supports 170 and 270 , and then fastened through coupling using the piece 10 . Therefore, fixing and supporting the ridge frame is simple and accurate, and the working time can be shortened.

11 illustrates a process in which the main frames 510 and 520 are installed on the outer beam 821 according to an embodiment of the present invention. Since the main frames 510 and 520 are installed on the lower surface swash plates 120 and 220 of the ridge frames 100 and 200 having a downward inclination angle, they are inclined by an angle corresponding to the downward inclination angle to contact the outer beam 821. do. According to an embodiment of the present invention, the upper surface of the outer beam 821 may have the same downward inclination angle as the lower surface swash plates 120 and 220 of the ridge frames 100 and 200 . In this case, the main frames 510 and 520 may be accurately seated on the upper surface of the outer beam 821 without additional processing. 11 shows that the entire upper surface of the outer beam 821 has a downward inclination angle, but as shown in part of FIG. can be In this case, the swash plate 824 can be fastened through coupling using the piece 10 after the lower end of the swash plate 824 is stably seated on the outer beam 821 .

Figure 12 shows a method of installing the pillars (810, 811) on the ground in order to install a glass greenhouse or a sunroom according to an embodiment of the present invention. First, the fixing pedestal 815 on the ground is attached to the piece 10 or anchor: a screw anchor, a roll plug, a wall plug, a knife block, a knife block, a knife block, or a knife After fixing with a plug (commonly referred to as a block) or the like, the posts 810 and 811 are installed on the fixing pedestal 815 . The fixing pedestal 815 has the same cross-section as the pillars 810 and 811 , but has a small size, so that the pillars 810 and 811 can be coupled to the fixing pedestal 815 . Alternatively, since the cross-sectional size of the fixing pedestal 815 is larger than that of the pillars 810 and 811, they may be coupled by inserting them in the opposite direction. And, after fitting, it is possible to firmly fix the fixing pedestal 815 and the pillars 810 and 811 with the piece 10 from the outside.

13 illustrates a method for installing beams 820, 821, and 822 to pillars 810 and 811 in order to install a glass greenhouse or a sunroom according to an embodiment of the present invention. First, after fixing the fixing pedestal 825 to the pillar with a piece 10 or the like, the beams 820 , 821 , 822 are installed on the fixing pedestal 825 . The fixed pedestal 825 has the same cross-section as the beams 820 , 821 , and 822 , but has a small size, so that the beams 820 , 821 , 822 can be coupled to the fixed pedestal 825 . Alternatively, the cross-sectional size of the fixing pedestal 825 is larger than that of the beams 820 , 821 , and 822 , and may be coupled by inserting the opposite side. And, after fitting, it is possible to firmly fix the fixing pedestal 825 and the beams 820, 821, and 822 with the piece 10 from the outside.

14 illustrates a load-bearing structure of a glass greenhouse or sunroom according to an embodiment of the present invention. 14 illustrates a sunroom as an example, in the case of a glass greenhouse, the same structure may be applied by extending the structure shown in FIG. 14 to both sides.

Figure 14 (a) shows a structure for supporting the load by the glass plate 700 by installing the intermediate beam 822 between the two pillars 810 and 811 according to an embodiment of the present invention. Figure 14 (b) shows a structure for supporting the load of the glass plate 700 by installing an oblique support 830 between the two pillars 810 and 811 according to another embodiment of the present invention. In this case, the diagonal support 830 may be vertically fixed to the main frames 510 and 520 to support the load of the glass plate 700 . Figure 14 (c) shows a structure for supporting the load of the glass plate 700 using the integrated support plate 831 according to another embodiment of the present invention.

The installation process of the ridge structure as shown in FIGS. 3 to 14 is as described below.

First, as shown in FIG. 8 , the ridge frames 100 and 200 are installed on the central pillars 810 and 811 , or as shown in FIG. 9 , the ridge frames 100 and 200 are attached to the coupling supports 170 and 270 . It is coupled to a separate central beam 820 by using. In addition, in the case of the ridge frame 100 for the sunroom, it is additionally fixed to the wall 1 using the fastening groove 160 .

Next, as shown in FIGS. 3, 4, 8, and 9, the square pipe-shaped main frames 510 and 520 are vertically opposed at regular intervals on the upper surfaces of the lower inclined plates 120 and 220 of the ridge frames 100 and 200. and fixed. In this case, the main frames 510 and 520 may be fixed by fastening the piece 10 through the piece line on the upper surface of the lower inclined plates 120 and 220 .

Subsequently, silicone is applied to the ridge frames 100 and 200 and the installation guides 130, 230, 511, and 521 of the main frame, and the glass plate 700 is slide-adhered to the installation guides 130, 230, 511, and 521. The glass plate 700 is fixed to the top of the space of the rectangular structure formed by the ridge frames 100 and 200 and the main frames 510 and 520 .

Then, as shown in FIGS. 3 to 4 , the ridge covers 300 and 400 are slid on the installation guides 130 and 230 of the ridge frame, and the installation formed at the upper end of the main frames 510 and 520 in a similar manner. The guides 511 and 521 are also fitted with the main frame covers 610 and 620 by sliding them.

Finally, silicone is applied to the other side surfaces of the glass for final sealing.

15 shows an example of a ridge structure including a ridge water pipe according to the present invention. Here, Fig. 15 (a) shows an example of a ridge structure for a sunroom, and Fig. 15 (b) shows an example of a ridge structure for a glass greenhouse.

According to an embodiment of the present invention shown in FIG. 15 , the ridge covers 300 and 400 are to be fitted on the upper surfaces of the cover parts 320 and 420 in a sliding manner with the coupling part 920 of the ridge water pipe 900 . It may further include a water pipe installation part (330, 430) that can be.

According to an embodiment of the present invention shown in FIG. 15A , the water pipe installation part 330 of the sunroom ridge cover 300 may be installed at the end of the cover part 320 . According to another embodiment of the present invention, the water pipe installation part 330 may be installed in the center of the cover part 320 of the ridge cover 300 . In addition, the water pipe installation part 330 may be installed at any position on the upper surface of the cover part 320 as necessary.

According to an embodiment of the present invention shown in FIG. 15( b ), the water pipe installation part 430 of the ridge cover 400 for a glass greenhouse may be installed in the center of the cover part 420 . According to another embodiment of the present invention, the water pipe installation part 430 may be installed to be biased to one side from the center of the cover part 420 of the ridge cover 400 . In addition, the water pipe installation part 430 may be installed at any position on the upper surface of the cover part 420 as necessary.

According to an embodiment of the present invention, the ridge water pipe 900 includes a coupling part 920 that can be slidably fitted to the water pipe installation parts 330 and 430 of the ridge cover 300 and 400, and water is discharged to the outside. It may include a water pipe portion 910 including a plurality of outlets 930 to be formed. Accordingly, when water is supplied to the Yongmaru water pipe 900 , the water flows down to the ceiling of the sunroom or glass greenhouse through the plurality of drain holes 930 .

In addition, the water pipe installation parts 330 and 430 of the ridge cover 300 and 400 and the coupling part 920 of the ridge water pipe 900 may use a variety of fitting and coupling structures, including those shown in FIG. 2 . can

According to an embodiment of the present invention, when the water pipe installation parts 330 and 430 are provided on the ridge covers 300 and 400 , the heat generating materials 330 and 430 are outside the water pipe installation parts 330 and 430 . It can be attached by extending it to the side.

16 is a ridge water pipe 900, main frames 510 and 520, a glass plate 700 and main frame covers 610 and 620 in the ridge structure 100 and 300 for a sunroom according to the present invention illustrated in FIG. 15(a). ) shows the combined structure.

The method in which the main frames 510 and 520, the glass plate 700, the main frame covers 610 and 620, and the ridge cover 300 are coupled to the ridge frame 100 for a sunroom is the same as the description of FIG. 3, and the last As a result, the water pipe 900 is coupled to the water pipe installation part 330 of the ridge cover 300 using the water pipe coupling part 920 .

In addition, according to an embodiment of the present invention, when the Yongmaru water pipe 900 is installed, the main frame covers 610 and 620 so that the water supplied to the Yongmaru water pipe 900 can flow smoothly from the ceiling of the sunroom. may not be installed.

When water is supplied to the water pipe 900 coupled to the ridge frame 100 for the sunroom, the water flows down to the ceiling of the sunroom through the plurality of drain holes 930 . In summer, cold water is supplied to the water pipe 900 to lower the temperature of the sunroom, and in winter, hot water is supplied to the water pipe 900 to raise the temperature of the sunroom or melt accumulated snow or ice. have. In addition, the water supplied to the water pipe 900 and flowing down to the ceiling of the sunroom can also obtain an effect of removing foreign substances such as dust and leaves from the ceiling of the sunroom. Moreover, the water flowing down to the ceiling of the sunroom is used for ornamental purposes, so that it is possible to obtain the effect of creating an aesthetic feeling for those who look at it from the inside or outside of the sunroom.

17 is a ridge water pipe 900, main frames 510 and 520, a glass plate 700 and main frame covers 610 and 620 in the ridge structures 200 and 400 for glass greenhouses of the present invention illustrated in FIG. 15(b). ) shows the combined structure.

The method in which the main frames 510 and 520, the glass plate 700, the main frame covers 610 and 620, and the ridge cover 400 are coupled to the ridge frame 200 for a glass greenhouse is the same as the description of FIG. 4, and the last As a result, the water pipe 900 is coupled to the water pipe installation part 430 of the ridge cover 400 using the water pipe coupling part 920 .

In addition, according to an embodiment of the present invention, when the Yongmaru water pipe 900 is installed, the main frame covers 610 and 620 so that the water supplied to the Yongmaru water pipe 900 can smoothly flow down from the ceiling of the glass greenhouse. ) may not be installed.

When water is supplied to the water pipe 900 coupled to the ridge frame 200 for a glass greenhouse, water flows down to the ceiling of the glass greenhouse through a plurality of drain holes 930 provided on both sides of the water pipe. In summer, cold water is supplied to the water pipe 900 to lower the temperature of the glass greenhouse, and in winter, hot water is supplied to the water pipe 900 to raise the temperature of the glass greenhouse or melt the accumulated snow or ice. can be obtained In addition, the water supplied to the water pipe 900 and flowing down to the ceiling of the glass greenhouse can also obtain an effect of removing foreign substances such as dust and leaves on the ceiling of the glass greenhouse. Moreover, the water flowing down to the ceiling of the glass greenhouse is used for ornamental purposes, so that it is possible to obtain the effect of causing an aesthetic feeling to the person looking from the inside or outside of the glass greenhouse.

18 shows an embodiment of a method of combining a ridge frame, a main frame, an installation frame, a ridge cover, and a ridge water pipe according to the present invention.

According to an embodiment of the present invention, the ridge frame, the main frame, the installation frame, the ridge cover, and the ridge water pipe according to the present invention may be combined in the order shown in FIG. 18 .

1, 10, and 15, when the ridge frames 100 and 200 are divided into upper parts and lower parts, ① first fix the lower parts of the ridge frames 100 and 200, and ② 100, 200) The main frame (510, 520) is seated and fixed at regular intervals on the upper surface of the lower inclined plate (120, 220) of the lower part, ③ the installation frame (530, 540) is seated and fixed, ④ the ridge frame ( The upper parts of 100 and 200) are fixed to install the glass plate 700, ⑤ the ridge cover 400 is coupled, and ⑥ the ridge water pipe 900 can be coupled.

According to another embodiment of the present invention, ① first, the lower parts and upper parts of the ridge frames 100 and 200 are combined and fixed, and ② the upper surfaces of the lower swash plates 120 and 220 of the lower parts of the ridge frames 100 and 200 are fixed. The main frame (510, 520) is seated and fixed at regular intervals on the ) can be combined.

19 illustrates embodiments of the ridge water pipe 900 coupled to the ridge covers 300 and 400 .

According to an embodiment of the present invention shown in FIG. 19( a ), the ridge water pipe 900 includes the water pipe part 910 and the coupling part 920 integrally, so that the ridge covers 300 and 400 are installed. It is coupled to the parts 330 and 430 , and if necessary, the coupling part may be further fixed using the piece 10 .

According to an embodiment of the present invention shown in FIG. 19( b ), the ridge water pipe 900 is configured in which the water pipe part 910 and the coupling part 920 are separately separated, and the upper surface of the coupling part 920 is male. It has a 'U' shape so as to stably support the pipe part 910 , and the water pipe part 910 may be installed thereon. According to an embodiment of the present invention, the water pipe part 910 may be installed by simply placing it on the upper surface of the coupling part 920 . According to another embodiment of the present invention, the water pipe part 910 may be fitted to the upper surface of the coupling part 920 . According to another embodiment of the present invention, the water pipe part 910 may be installed by being adhered to the upper surface of the coupling part 920 by an adhesive material such as silicone.

19 (b) shows a 'U'-shaped shape for stably supporting the water pipe part 910 on the upper surface of the coupling part 920 as an embodiment of the present invention, but the present invention is not limited thereto, It includes all of the coupling parts 920 having any shape that can be stably supported by coupling the water pipe part 910 . In addition, the water pipe part 910 may also include an additional shape for coupling with the coupling part 920 . For example, the water pipe part 910 may include locking protrusions on both sides thereof to be stably mounted on the coupling part 920 .

According to an embodiment of the present invention, the water pipe part 910 may have a plurality of drain holes 930 on both sides thereof. The drain port 930 may simply form a hole in the water pipe, as shown in FIG. 19(b), and as shown in FIG. 940) may be combined. The shape and arrangement of the drain port 930 that can be employed for the present invention is not limited to the above embodiments, and may include any shape and arrangement capable of effectively discharging water flowing along the water pipe part 910 . have.

20 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to an embodiment of the present invention shown in FIG. 20 , the water pipe coupling part 920 is integrally formed with the ridge cover 400 , and the water pipe coupling part 920 is a circular shape capable of mounting the water pipe part 910 . Alternatively, it may include a water pipe holder 950 in the form of an arc that is a part of a circle, and the water pipe unit 910 may be mounted on the upper surface of the ridge by being inserted into the water pipe holder 950 .

21 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to the embodiment of the present invention shown in FIG. 21 , the coupling part 910 of the ridge water pipe 900 has a 'T' shape at its end, and is attached to the water pipe coupling part 430 of the ridge cover 400 . The T'-shaped end may be fitted in the longitudinal direction (horizontal) of the ridge. In addition, the water pipe coupling part 920 includes a water pipe holding part 950 in the form of a circle or an arc that is a part of a circle on which the water pipe part 910 can be mounted, so that the water pipe part 910 can be easily mounted thereon. It is configured to open and close using a hinge 951 installed on one surface, and includes a coupling part 952 that can be fixed in a closed state of the water pipe holder 950 . According to an embodiment of the present invention, the water pipe part 910 is mounted in a state in which the water pipe holder 950 is opened, and then the piece 10 is attached to the coupling part 952 after the water pipe holder 950 is closed. can be used to fix the water pipe holder 950 in a closed state.

22 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to the embodiment of the present invention shown in FIG. 22 , the coupling part 910 of the ridge water pipe 900 has a 'T' shape at the end bent at a right angle, and the water pipe coupling part 430 of the ridge cover 400 . The 'T'-shaped end can be horizontally fitted in the longitudinal direction (horizontal) of the ridge.

23 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to an embodiment of the present invention shown in FIG. 23 , the coupling part 910 of the ridge water pipe 900 has an asymmetric 'T' shape with an end bent at a right angle (one side of the head is long), and FIG. 23 As shown in (a), the asymmetric 'T'-shaped end is inserted obliquely into the water pipe coupling part 430 of the ridge cover 400, and then it can be fixed by hanging vertically as shown in FIG. 23(b). have.

24 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to the embodiment of the present invention shown in FIG. 24 , the coupling part 910 of the ridge water pipe 900 is bent at a right angle, and has a piece hole through which the piece 10 can be installed at the horizontal end, and the ridge ridge The water pipe coupling portion 430 of the cover 400 is also provided with a piece hole, so that the ridge water pipe 900 can be coupled to the ridge cover 400 by combining the pieces 10 in a state where both piece holes are overlapped.

25 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to the embodiment of the present invention shown in FIG. 25 , the coupling part 910 of the ridge water pipe 900 is fitted with the water pipe coupling part 430 of the ridge cover 400 in a sliding manner, and after being bent at a right angle A water pipe holder 950 in the form of a circle or an arc that is a part of a circle on which the water pipe part 910 can be mounted is located. As a result, according to the embodiment of the present invention shown in FIG. 25 , the ridge water pipe 900 is positioned on one side of the ridge cover 400 .

26 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to the embodiment of the present invention shown in FIG. 26 , the coupling part 910 of the ridge water pipe 900 is fitted with the water pipe coupling part 430 of the ridge cover 400 in a sliding manner, and the water pipe part 910 . ) may be provided with a water pipe holder 950 in the form of a circular or circular arc that is part of a circle that can be opened and closed.

27 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to an embodiment of the present invention shown in FIG. 27, the water pipe coupling part 430 of the ridge cover 400 is a single plate, and the coupling part 910 of the ridge water pipe 900 is also in the shape of a single plate. After overlapping the two parts, they can be fixed by combining them using a piece 10 or the like.

28 shows another embodiment of a ridge structure for a sunroom including a ridge water pipe according to the present invention. Since the ridge structure for the sunroom is installed on the wall 1 of another building, the ridge water pipe 900 located on the upper surface may also be installed directly on the wall 1 . In this case, the ridge water pipe 900 may be coupled to the wall 1 and the piece 10 . According to this installation method, the ridge structure for the sunroom has an advantage that it does not need to include a separate configuration for installing the ridge water pipe 900 .

29 shows another embodiment of a ridge structure for a glass greenhouse including a ridge water pipe according to the present invention. 30 illustrates a case in which the water pipe holder 950 is closed in FIG. 29 . According to the embodiment of the present invention shown in FIGS. 29 and 30 , the coupling portion 920 of the ridge water pipe 900 is not the ridge covers 300 and 400, but the ridge frames 100 and 200 and the central beam 820. Alternatively, it may include a water pipe holder 950 coupled to the side of the central pillar 810 and connected to a long pillar to install the water pipe unit 910 at a higher position than the ridge covers 300 and 400 . In this case, since the ridge structure for the glass greenhouse does not need to include a separate configuration for installing the ridge water pipe 900 , there is an advantage that the ridge water pipe 900 can be separately installed later if necessary.

31 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to an embodiment of the present invention shown in FIG. 30 , the ridge covers 300 and 400 are integrally formed with the ridge frames 100 and 200 , and the upper swash plates 110 and 210 of the ridge frames 100 and 200 . A fixed distance is maintained between the cover parts 320 and 420 of the ridge cover 300 and 400 . The glass plate 700 is coupled by pushing between the upper inclined plates 110 and 210 of the ridge frames 100 and 200 and the cover parts 320 and 420 of the ridge covers 300 and 400, and for the coupling, the glass plate 700 Double-sided tape 30 and silicone to be attached to the lower surface of the can be used.

32 shows another embodiment of the ridge structure including the ridge water pipe according to the present invention. According to an embodiment of the present invention, the ridge water pipe 900 may include a plurality of water pipe parts 910 . In this case, the coupling part 920 of the ridge water pipe 900 may be coupled to the ridge cover parts 300 and 400 and include a structure for mounting the plurality of water pipe parts 910 . 32 shows a ridge structure for a glass greenhouse including two water pipe parts 910, the coupling part 920 of the ridge water pipe 900 is fixed to the ridge cover part 400, and the water pipe part ( 910) is provided with a water pipe holder 950 that can be installed. In this case, in each water pipe part 910 , the drain port 930 is formed only in one direction, respectively, and water flowing through the water pipe part 910 through the drain hole 930 may be supplied to the ceiling of the glass greenhouse. .

33 shows an embodiment of a glass greenhouse or sunroom using a ridge structure according to the present invention. According to an embodiment of the present invention, instead of the main frame covers 610 and 620, the installation guides 511 and 521 of the main frames 510 and 520 have glass plate installation guides 630 that can additionally install a glass plate. , 640) may be combined. The glass plate installation guides 630 and 640 are coupled with the installation guides 511 and 521 of the main frame, and have a pedestal capable of holding the glass plate 700, so that the glass plate 700 can be additionally installed on the upper surface thereof. have. Using this, as shown in FIG. 33 , a glass greenhouse or sunroom including a double glass plate 700 can be installed, and the water 20 supplied from the Yongmaru water pipe 900 is double installed on the glass plates 700 . ) can flow through the In this case, when the temperature is high, evaporation of the water flowing through the ceiling can be suppressed, and when the temperature is low, the temperature of the water flowing through the ceiling is prevented from falling, thereby suppressing the freezing of water on the ceiling. In this case, the main frame cover parts 610 and 620 may be coupled to the glass plate installation guides 630 and 640 .

The ridge structure of the present invention constructed according to the bonding relationship and installation process made as described above can easily form a roof angle in the structure where the ridge is installed, and easily bond glass to the roof while stably fixing it. . In addition, the ridge covers 300 and 400 are coupled through the installation guides 130 and 230 including the heat insulators 140 and 240 to not only expect an insulating effect, but also combine due to the coupling of the ridge covers through the sliding method. There is an advantage that glass of various thicknesses can be applied because the distance between the ridged ridge cover and the upper part of the ridge frame can be varied. In addition, by combining the ridge water pipe, there is an advantage in that water flowing down from the water pipe can be used to obtain cooling and heating, foreign matter removal and ornamental effects.

Although the ridge structure of the present invention and the process of installing the structure have been described as described above according to the drawings of the present application, the present invention is not limited to the structures and processes shown and described herein. It can be used for the construction of various building structures other than those disclosed herein, and the scope of the rights is not limited to the configurations and processes disclosed herein. Those skilled in the art will understand that various changes and modifications can be made within the scope of the object and effect pursued by the present invention.

Claims (24)

1. As a ridge structure including a ridge frame (100, 200) and a ridge cover (300, 400),

   The ridge frame (100, 200) is

   The upper surface has a predetermined downward inclination angle, the main frame (510, 520) is seated on the upper surface of the lower swash plate (120, 220);

   an upper swash plate (110, 210) whose upper surface has the same downward inclination angle as the downward inclination angle of the lower swash plate (120, 220), and the glass plate 700 is seated on the upper surface; and

   It is located on the upper surface of the upper swash plate 110, 210, and includes heat insulators 140 and 240 that block the movement of heat between the ridge frames 100 and 200 and the ridge covers 300 and 400, and the ridge cover 300, Includes installation guides 130 and 230 that can be fitted in a sliding manner with the coupling portions 310 and 410 of the 400),

   The ridge cover (300, 400) is

   The installation guides (130, 230) and the coupling portion (310, 410) fitted in a sliding manner; and

   and a cover portion (320, 420) at least partially covering the glass plate (700) seated on the upper swash plate (110, 210).
2. According to claim 1,

   The ridge frame (100, 200) is a ridge structure, characterized in that it is completed by assembling two or more parts.
3. 3. The method of claim 2,

   The ridge frame (100, 200) is a ridge structure, characterized in that the upper part and the lower part are coupled to the concave-convex structure (150, 250).
4. 4. The method of claim 3,

   A ridge structure, characterized in that the coupling portion of the concave-convex structure (150, 250) is assembled by a piece (10).
5. According to claim 1,

   The upper swash plate 110 and the lower swash plate 120 are provided only on one surface of the ridge frame 100,

   A fastening groove positioned between the upper inclined plate 110 and the lower inclined plate 120 and provided with a piece line through which the piece 10 can be fastened so that the ridge frame 100 is fixed to the wall 1 of another building. (160) Ridge structure, characterized in that it further comprises.
6. According to claim 1,

   The upper swash plate (210) and the lower swash plate (220) are provided on both sides of the ridge frame (200).
7. According to claim 1,

   The ridge structure, characterized in that the side surfaces of the upper swash plate (110, 210) form a right angle with the upper surface of the lower swash plate (120, 220).
8. According to claim 1,

   The ridge structure, characterized in that the side surfaces of the installation guides (130, 230) form a right angle with the upper surfaces of the upper inclined plates (120, 220).
9. According to claim 1,

   The ridge frame (100, 200) is a ridge structure, characterized in that it is installed as a central beam mounted on a central pillar (810).
10. According to claim 1,

    The ridge frame (100, 200) has a shorter length than the central beam (820), and is coupled to the central beam (820) at regular intervals.
11. 11. The method according to any one of claims 1 to 10,

    A water pipe part 910 having a plurality of drain holes 930 through which water is discharged to the outside, and a ridge water pipe 900 including a coupling part 920 for fixing the water pipe part 910, characterized in that it further comprises ridge structure.
12. 12. The method of claim 11,

    The ridge cover (300, 400) further includes a water pipe installation part (330, 430),

    The water pipe installation part (330, 430) is located on the upper surface of the cover part (320, 420), and can be fitted with the coupling part (920) of the ridge water pipe (900) in a sliding manner. structure.
13. 12. The method of claim 11,

    The ridge cover (300, 400) further includes a water pipe installation part (330, 430),

    The water pipe installation parts 330 and 430 are located on the upper surfaces of the cover parts 320 and 420, and can be coupled to the coupling part 920 of the ridge water pipe 900 using the piece 10. ridge structure with
14. 12. The method of claim 11,

    The ridge cover (300, 400) further includes a water pipe installation part (330, 430),

    The coupling part 920 of the ridge water pipe 900 has a 'T'-shaped end,

    The water pipe installation part (330, 430) is located on the upper surface of the cover part (320, 420), the ridge structure, characterized in that the 'T'-shaped end of the coupling part 920 can be fitted.
15. 12. The method of claim 11,

    The ridge structure, characterized in that the coupling part (920) of the ridge water pipe (900) can be directly fixed to the wall (1) of another building.
16. 12. The method of claim 11,

    The ridge structure, characterized in that the coupling part (920) of the ridge water pipe (900) is fixed to the side of the ridge frame (100, 200), the central pillar (810), or the central beam (820).
17. 12. The method of claim 11,

    The ridge structure, characterized in that the coupling part (920) of the ridge water pipe (900) includes a water pipe holder (950) on which the water pipe part (910) can be seated.
18. 12. The method of claim 11,

    The ridge water pipe (900) includes a plurality of water pipe parts (910).
19. 12. The method of claim 11,

    The ridge structure, characterized in that the drain hole (930) is provided with a drain nozzle (940).
20. A ridge structure including a ridge frame (100, 200), a ridge cover (300, 400) and a ridge water pipe (900),

    The ridge frame (100, 200) is

    The upper surface has a predetermined downward inclination angle, the main frame (510, 520) is seated on the upper surface of the lower swash plate (120, 220);

    an upper swash plate (110, 210) whose upper surface has the same downward inclination angle as the downward inclination angle of the lower swash plate (120, 220), and the glass plate 700 is seated on the upper surface; and

    It is located on the upper surface of the upper swash plate 110, 210, and includes heat insulators 140 and 240 that block the movement of heat between the ridge frames 100 and 200 and the ridge covers 300 and 400, and the ridge cover 300, 400) including the installation guides 130 and 230 that can be combined with the coupling portions 310 and 410,

    The ridge cover (300, 400) is

    coupling parts 310 and 410 that can be coupled to the installation guides 130 and 230;

    Cover portions 320 and 420 for at least partially covering the glass plate 700 seated on the upper inclined plates 110 and 210; and

    It includes water pipe installation parts 330 and 430 that can be coupled with the coupling part 920 of the Yongmaru water pipe 900,

    The Yongmaru water pipe 900 is

    a water pipe unit 910 having a plurality of drain ports 930 through which water is discharged to the outside; and

    A ridge structure comprising a coupling part 920 for fixing the water pipe part 910 .
21. 21. The method of claim 20,

    The ridge structure, characterized in that the installation guides (130, 230) of the ridge frame (100, 200) are integrally formed with the coupling parts (310, 410) of the ridge cover (300, 400).
22. In the structure comprising the ridge structure according to any one of claims 1 to 10, 20 and 21,

    main frames (510, 520) seated on the upper surfaces of the lower inclined plates (120, 220) of the ridge frame (100, 200); and

    Further comprising a main frame cover (610, 620),

    The main frames 510 and 520 further include installation guides 511 and 521 that can be fitted in a sliding manner with the main frame covers 610 and 620, and according to the thickness of the glass plate 700, the A structure, characterized in that the coupling distance between the installation guides (511, 521) of the main frame (510, 520) and the main frame cover (610, 620) can be changed by sliding.
23. In the structure comprising the ridge structure according to any one of claims 1 to 10, 20 and 21,

    It further comprises a main frame (510, 520) and an outer beam (822),

    The main frame is seated on the upper surfaces of the lower inclined plates 120 and 220 of the ridge frames 100 and 200 and the upper surface of the outer beam 822, and the upper surface of the outer beam is the lower inclined plate 120, 220 A structure, characterized in that it has a downward inclination angle equal to the downward inclination angle of
24. In the structure comprising the ridge structure according to any one of claims 1 to 10, 20 and 21,

    a main frame (510, 520) seated on the upper surface of the lower inclined plate (120, 220) of the ridge frame (100, 200); and

    It further includes glass plate installation guides 630 and 640 that can install the glass plate 700 on its upper surface,

    The main frame (510, 520) includes installation guides (511, 521) that can be fitted in a sliding manner with the glass plate installation guides (630, 640),

    After the glass plate 700 is seated on the upper surface of the main frame 510 and 520 and the glass plate installation guides 630 and 640 are installed on the installation guides 511 and 521, the glass plate installation guides 630 and 640 ) structure, characterized in that another glass plate 700 is installed on the upper surface.

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