KR101646496B1 - pavilion - Google Patents

Abstract

A sperm structure capable of realizing a sperm having a solid structure and simultaneously maximizing aesthetic effect is disclosed. The embodiment of the present invention can secure the reliability of the column structure by providing the columnar protection layer capable of performing insectproofing, waterproofing and anti-rusting functions between the columnar members of the sperm arranged outdoors and the foundation stones in the seating part having a special structure It can prevent corrosion and damage of various columns such as wood, steel frame, etc., and provides a sperm structure capable of designing a light emitting effect.

Description

Sperm {pavilion}

The present invention relates to a technique which can realize a sperm with a rigid structure while at the same time maximizing aesthetic effect.

In recent years, various types of sperm have been installed for recreation and relaxation in a resort or a park. Conventional seeds have to deal with many kinds of materials at the construction site and have to install them one by one. Therefore, it takes a lot of time and manpower, and the construction cost rises. Therefore, in order to solve such a problem, Korean Patent No. 10-1245229 (Registered on Mar. 23, 2010) has proposed a prefabricated hanok house which can be assembled and disassembled at a factory, and then transported and reassembled to a construction site for easy construction have.

Conventional sperm structures have been focused on techniques that can form fast assembled structures and robust appearance, and they are usually unable to deviate from the uniform sperm shape.

Therefore, there is an increasing demand for a technology capable of realizing durability and quick construction of the existing sperm structure, at the same time improving the durability and aesthetic effect and realizing the sperm structure.

Korean Patent No. 10-1245229 Published Utility Model Publication No. 20-1999-0008437

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pillar protecting layer capable of performing insectproofing, waterproofing and anti-rusting functions between a pillar member and a pillar of a spermatozoa in a specific seating structure And to provide a sperm structure to which reliability of the column structure can be secured and at the same time a light emitting module maximizing aesthetic effect is applied.

As a means for solving the above-mentioned problems, in a preferred embodiment of the present invention, a hub of a metal material has a hub body and a plurality of rafter end fastening portions are radially formed on a side surface of the hub body. A plurality of rafters, one end of which is fastened to the cocarele unit joint and installed so as to extend radially around the roof hub; And an intermediate fastening portion to be fastened while the rafter passes is formed on the fastening body, and a column insertion slot is formed below the fastening body, and on both sides of the fastening body, A rectangular solid of a metal material to be formed; A pair of opposite ends of which are fastened to the wound fastening portions so as to be connected to each other; A plurality of pillars in which upper ends of the rafters are inserted into the column insertion grooves to support the rafters from below; And a pillar protection layer including a sun glaze disposed between the lower end of the pillar and the coupling groove, wherein the pillar protection layer is disposed on the lower surface of the pillar, .

Particularly, in this case, the coupling groove is recessed downward from the upper surface of the foundation and is realized by an area corresponding to a horizontal cross section of the column, and the outer edge partition wall P1 of the coupling groove and the outer edge partition wall (P2) having a first depth inwardly and an inner edge partition (P3) having a first step protruded adjacent to the moisture-preventing groove; And a columnar protection layer seating part (P4) having an inner edge partition wall (P3) on the inner side and a second depth equal to or less than the first depth.

Further, the columnar protection layer is disposed on the moisture-proofing groove P2 and the columnar-layer-seating portion P4, and is made up of a salt component of chalcopyrite as a main component and a subcomponent selected from the group consisting of a dendritic resin, Can be provided.

And a light guiding member having a light emitting module disposed in the body of the column in the longitudinal direction and a surface corresponding to a curvature of the body of the column and guiding the light emitted from the light emitting module to emit light to the front surface Sperm can be provided.

In addition, in the embodiment of the present invention, a moving roll member mounted on an edge portion of the light guide member and a structure that is inserted into a surface of a body of the column, And a rail member for moving the sperm along the surface of the body.

Further, the light emitting module may include a light emitting element on a printed circuit board coupled to a mounting groove portion disposed on a body of the column, A resin member disposed in a structure for embedding the mounting groove and the light emitting device, the resin member being filled at a height equal to or greater than the thickness of the light guide member; And a light reflective member disposed on the resin member.

The light guiding member may further include a light emitting type optical pattern forming member disposed on a surface or inside of the light guiding member or on a surface of a body of the column.

Further, the spermatozoa are arranged between mutually adjacent columns, and have a structure which is rolled in the receiving housing and the receiving housing to be accommodated or discharged, and has a light emitting type wind deflector including at least one light guiding type resin sheet Type windshield module according to the present invention.

Furthermore, it is possible to provide a sperm which is arranged such that the light guide type resin sheet and the light emitting module are placed on substantially the same plane.

Further, the light guide type resin sheet may further include a position fixing member, and the sperm may be provided in which the binding unit corresponding to the position fixing member is further disposed on the body surface of the column.

According to the embodiment of the present invention, a columnar protection layer capable of performing insectproofing, waterproofing and anti-rusting functions between the columnar members and the foundation of the sperm arranged outdoors can be provided in the seating portion having a special structure to secure the reliability of the columnar structure And it is effective to prevent corrosion and damage of various columns such as wood and steel frame.

In particular, according to another embodiment of the present invention, a light emitting module disposed on a column and a light guide member corresponding to the light emitting module are disposed along the surface of the column to realize a glowing light effect on the entire column with a minimum light source, Can be remarkably improved.

Furthermore, the light guiding member disposed on the column can be realized as a movable structure to transmit the light emission effect in various directions, and a practical sperm structure capable of maximizing wind and aesthetic effect by arranging a blind light emitting member between the column and the column .

FIG. 1 is an external perspective view of a spermatozoon according to the present invention, FIG. 2 is an exploded perspective view of FIG. 1, and FIG. 3 is a perspective view of a skeleton structure of FIG.
FIGS. 4 to 9 are conceptual diagrams illustrating the essential parts of a sperm structure including a light emitting module according to an embodiment of the present invention.
10 to 13 are views for explaining another structure according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly explain the present invention in the drawings, parts not related to the description are omitted, and similar parts are denoted by similar reference numerals throughout the specification.

1. First Embodiment

FIG. 1 is an external perspective view of a spermatozoon according to the present invention, FIG. 2 is an exploded perspective view of FIG. 1, and FIG. 3 is a perspective view of a skeleton structure of FIG. 1 to 3, a spermatozoon according to the present invention is installed on a roof hub 10 such that a plurality of rafters 20 are radially extended. The spermatozoon spherical body 30, which supports the rafter 20 in the vicinity of the rim, And the column 50 and the rectangle 40 are connected to each other. A floor 55 is placed below the pillar 50 and a floor 70 is installed slightly above the floor so that it can be raised to the floor 70 through a step 77. At the periphery of the floor (70), a handrail (75) is installed.

FIG. 4 is a conceptual sectional view of a spermatic section showing a coupling portion between a pillar and a base of a spermatozoon according to an embodiment of the present invention described above with reference to FIGS. 1 to 3. FIG.

The spermatozoon according to the embodiment of the present invention is particularly characterized in that the suture is provided with an engaging groove 58 in which a lower end of a plurality of columns 50, into which the upper end of the column 50 is inserted, (55), and a pole protection layer (S) including a solar salt disposed between a lower end of the pole and the coupling groove is disposed.

The coupling groove 58 functions to allow the column 55 to be stably engaged. However, when water or insects penetrate into the minute gap between the column and the coupling groove, the problem of the column being damaged from the lower portion .

4 (a), the columnar protective layer S according to the embodiment of the present invention is a layer made of a material including a silver salt. In the case of a column made of wood, Function is implemented to prevent breakage of the wood, and in the case of a steel (metal) column, the rustproofing function can be performed, thereby maintaining the skeletal structure of the whole sperm more stably and improving the durability.

The columnar protective layer S may be formed of only the salt of the sun, or may be formed of a layer mixed with various subordinate materials which can improve the adhesiveness and waterproofness according to the environment. For example, the material may be selected from the group consisting of dendritic resin, rosin and rosin. Since such a material has adhesiveness, the adhesion between the column and the foundation stone can be further increased, and the function of preventing the outside moisture from entering into the gap can be remarkably prevented. Further, in order to further enhance the waterproof function, a wax material selected from the group consisting of polyethylene wax, paraffin wax, liquid paraffin, carnauba wax and white wax, or a wax material selected from the group consisting of perilla oil, tung oil, terpine oil, Component. ≪ / RTI >

4 (b) is a conceptual view showing another embodiment of the coupling groove having the columnar protective layer of the embodiment of the present invention, and FIG. 4 (c) is a planar conceptual view of FIG. 4 (b).

Referring to FIG. 4B, an engaging groove 58, which is formed in the footstep 55 so that the post 50 can be inserted and fixed, is recessed downward from the upper surface of the footing, (P2) having an outer rim partition wall (P1) of the coupling groove and a first depth inward along the outer rim partition wall, and a first stepped portion protruding adjacent to the moisture prevention groove (P4) having an inner edge partition wall (P3) having an inner edge partition wall (P3) and an inner edge partition wall (P3) having a first depth and a second depth less than the first depth are provided do.

That is, as shown in FIG. 4 (b), the structure of the coupling groove is realized as a two-step structure in which a step is formed, so that the penetration of moisture, contaminants, and insects from the outside can be realized. More specifically, the waterproofing groove P2 having the first depth d1 is formed on the upper surface of the column so as to be adjacent to the outer rim partition P1 and the inner rim partition P3 having the constant step d2 inside, . In the case where fine moisture penetrates, the moisture-proof groove P2 is prevented from moving toward the lower center of the wood by mooring at a groove having a predetermined depth, thereby preventing damage to the wooden column or the steel column due to moisture. Of course, it is of course possible to arrange the material for implementing the above-described columnar protective layer. The columnar protection layer seating portion P4 corresponding to the central portion of the column is provided inside the inner edge partition wall P3 having a step difference and the columnar protection layer seating portion P4 can be formed with the above- . Of course, in this case, the materials to be filled in the moisture-proof groove P2 and the columnar protective layer seating portion P4 may be configured differently to improve the efficiency. For example, the moisture-proof groove P2 may be formed of a wax material selected from the group consisting of polyethylene wax, paraffin wax, liquid paraffin, carnauba wax and white wax to prevent moisture penetration, and the water- It is possible to arrange the main component of the sun salt as a material including a subcomponent selected from the group consisting of a dendritic resin, a rosin and a rosin so as to enhance complementary efficiency such as prevention of penetration of fine moisture.

According to the above-described embodiment, the columnar protection layer capable of performing insectproofing, waterproofing and anti-rusting functions between the columnar members and the foundation of the sperm arranged outdoors can be provided in the seating portion having a special structure, , Wood, steel, etc. can be prevented from being corroded and damaged.

2. Second Embodiment

Hereinafter, another embodiment of the present invention will be described with reference to FIGS. 5 to 9. FIG.

5 and 6, a sperm structure according to an embodiment of the present invention includes a light emitting module 100 arranged in a longitudinal direction of a body of the column 50 and a surface corresponding to a curvature of the body of the column And a light guiding member 210 guiding the light emitted from the light emitting module and emitting light to the front surface.

Through this, a gentle luminous effect is realized on the entire column with a minimum light source, thereby realizing a unique effect of remarkably improving the beauty of spermatozoa.

Specifically, a groove structure (hereinafter referred to as a mounting groove portion X) is formed in the longitudinal direction on the surface of the body of the column 50, and the light emitting module 100 is disposed therein.

The light emitting module 100 may include a light emitting device 120 mounted on a printed circuit board 110 and a resin layer 130 for diffusing and guiding light emitted from the light emitting device 120 . The light emitting device may be a solid light emitting device. For example, the light emitting device may be any one of LED, OLED, laser diode, laser, and VCSEL. In the present invention, the light emitting device to which the LED is applied will be described. In particular, the light emitting device may be a side view type LED that emits light in a lateral direction as shown in FIG. 6, because the direction of the emitted light is not directly straight to the upper side, Emitting diode of the present invention can be used as the light-emitting device of the present invention.

The resin member 130 may be configured to cover the entire surface of the mounting groove X of the column body into which the present light emitting module 100 is inserted. Preferably, as shown in FIG. 6, So that it can be implemented at a higher level. This is because the light emitted from the light emitting device can be guided smoothly to the side surface of the light guide member 210. In addition, the resin member 130 also functions to prevent moisture and foreign matter from being injected into the groove structure in which the light emitting module 100 is seated, in addition to the function of guiding light.

Further, a reflective member 140 may be additionally disposed on the upper surface of the resin member 130. The reflective member 140 reflects the light diffused and scattered by the resin member 130 into the resin member 130 and functions to maximize the light introduced into the side surface of the optical guide member 130. [ . The reflective member may include any one of Al, PC, PP, ABS, and PBT. Alternatively, a reflective material including any one of Al, TiO ₂ , CaCo ₃ , BaSo ₄ , Al ₂ O ₃ , Silicon, and PS may be coated on the inner surface of a general synthetic resin or metal. In addition, a reflective member 150 is further provided between the printed circuit board 110 and the resin member 130 to enhance the reflection efficiency.

The light guiding member 210 has a surface corresponding to the curvature of the body of the column and guiding light emitted from the light emitting module to emit light to the front surface. For this purpose, the light guide member 210 may be formed using transparent synthetic resin having various materials capable of guiding and diffusing light. For example, any one of acrylic resin, polystyrene (PS), polymethyl methacrylate (PMMA), cyclic olefin copoly (COC), polyethylene terephthalate (PET) and polyimide film (PI) can be applied.

Further, in order to increase light diffusivity, the light guiding member 210 may further include a diffusion member having a particle structure. The diffusion member may further include a mixed and diffused bead structure in which a hollow (or a cavity) is formed therein, and the diffusion member plays a role in improving reflection and diffusion characteristics of light. For example, when the light emitted from the light emitting module is incident on the diffusion member inside the light guide member 210, the light is reflected and transmitted by the hollow of the diffusion member, diffused and condensed, and emitted to the upper portion of the light- The diffusion member may be composed of any one selected from the group consisting of sillicon, silica, glass bubble, PMMA, urethane, Zn, Zr, Al2O3 and acryl, May be formed in the range of 1 mu m to 20 mu m.

5 and 7, the light guide member 210 has a surface corresponding to the curvature of the body of the column, and the light guide member 210 has a curved surface, To be mounted on the surface. To this end, a moving roll member 220A can be mounted on an edge portion of the light guide member 210. [ The moving roll member 220A is coupled to a rail member Y disposed at upper and lower portions of the column 50 to allow the light guide member 210 to move along the surface of the column.

The rail member Y may be configured to be inserted into the surface of the body of the column, or may be disposed as a structure protruding from the surface of the column. Accordingly, the light guide member 210 forms a constant spacing space on the surface of the column along the rail member Y, and is capable of reciprocating movement. When the light guide member 210 is mounted on the sperm, the light emitting surface is freely changed The aesthetic effect can be maximized. In particular, the light guide member 210 is provided with an optical fiber or a light emitting type optical pattern forming member 215 having a fluorescence coloring pattern, so that a unique optical image can be realized using the introduced light. The light emitting type optical pattern forming member 215 may be inserted between the processes of curing the liquid resin for realizing the light guide member 210 and curing the same. Alternatively, the light emitting type light pattern forming member 215 may be provided on the surface of the column 50.

A second reflective member 430 may be further disposed between the light guide member 210 and the surface of the column when the pattern unit 215 having an optical fiber or fluorescent coloring pattern is disposed in the light guide member 210 Thereby maximizing extraction efficiency of light. The reflection member 430 may be made of a material having excellent light reflectance, for example, a white resist, and may further comprise a synthetic resin dispersedly containing a white pigment or a synthetic resin dispersed with metal particles having excellent light reflection characteristics . As the white pigment, titanium oxide, aluminum oxide, zinc oxide, lead carbonate, barium sulfate, calcium carbonate and the like may be used, and in the case of including a metal powder, Ag powder excellent in reflectivity may be included. It is also possible that an additional fluorescent whitening agent is further included. The synthetic resin constituting the reflective member 430 may be polyethyleneterephthalate, polyethylene naphthalate, acrylic resin, colicarbonate, polystyrene, polyolefin, cellulosic acid acetate, weather-resistant polyvinyl chloride, or the like.

Further, a reflection pattern 440 for scattering and reflecting incident light may be implemented on the surface of the reflection member 430. The reflective pattern may be formed by printing a reflection ink containing any one of TiO ₂ , CaCo ₃ , BaSo ₄ , Al ₂ O ₃ , Silicon, and Polystyrene on the surface of a synthetic resin to form a reflection pattern.

3. Third Embodiment

In the structure of the sperm according to the embodiment of the present invention, which is an independent structure that is combined with the first and second embodiments described above, it is possible to further comprise a light emitting type windshield module 300 for windshield and light emission landscaping have.

Referring to FIG. 8, the light emitting type windshield module 300 is disposed between adjacent pillars 50. In particular, the light emitting type windshield module 300 includes a receiving housing 310. The receiving housing 310 can be realized by a structure in which the light emitting type windshield member to be described later is rolled and accommodated or discharged.

The receiving housing 310 is disposed between mutually adjacent posts of the sperm shown in FIGS. 1 and 2, and may be disposed in such a manner that the receptive housing 310 is coupled to a structure such as the oblong 40 or fixed to both posts.

Then, the light emitting type windshield member to be inserted into the receiving housing 310 is disposed in a guide line 345 which is connected to the roller provided inside the receiving member and guides the light emitting type windshield member up and down. In particular, the light-emitting windshield member includes at least one light guide type resin sheet 320, 340, and a connection sheet 345 may be disposed between each light guide type resin sheet 320, 340 .

The light guide type resin sheets 320 and 340 are arranged such that the side lines of the light emitting modules of the light emitting module 100 provided on the columns 50 disposed on the right and left sides coincide with each other and extend to the lower end of the column It is desirable to design.

In particular, in this case, the light guide type resin sheets 320 and 340 are made of a synthetic resin material having the same material as the light guide member 210 described above with reference to FIG. 4 on a transparent sheet member.

Therefore, the light guide-type resin sheets 320 and 340 are lowered to adjoin the binding units 160a and 160b of the column and the light guide-type resin sheets 320 and 340, respectively, When the optical guide type resin sheets 320 and 340 are fixed to the fixing members 360a and 360b, the optical guide type resin sheets 320 and 340 are aligned with the light emitting module side. That is, the light guide type resin sheet and the light emitting module can be arranged to be placed on substantially the same plane.

In addition, the position fixing members 360a and 360b which are fastened to the binding unit 160a can be easily fixed using a magnetic member. In addition, in order to withstand strong winds, have.

The light emitted from the light emitting device of the light emitting module is transmitted to the light guide member 210 of FIG. 4 mounted on the surface of the column body, and the light guide type resin sheets 320 and 340, Light is also introduced through the side surfaces of the light guide type resin sheets 320 and 340, thereby enabling a gentle light emission effect to be realized even on the entire surfaces of the light guide type resin sheets 320 and 340.

Of course, even in this case, the light-emitting type optical pattern forming member in which the optical pattern using the optical fiber or the fluorescent material as described above is implemented in the light guide type resin sheets 320 and 340 or on the sheet member is further implemented, It can also be implemented.

Therefore, in the sperm structure according to the present embodiment, it is possible to apply a wind effect and a light emission effect to a sperm that is installed outside through a wind module in addition to a light emitting effect realized in a column.

Fig. 9 shows an example of an emission image of a light guide member according to an embodiment of the present invention disposed on a column. It is a matter of course that a variety of images such as flowers, landscapes, and trees can be realized through optical fibers or fluorescent material pigments, unlike the ones embodying general geometric patterns.

Therefore, in the embodiment of the present invention, the light emitting module disposed on the column and the light guide member corresponding thereto are arranged along the surface of the column, and the light emission effect is glared on the entire column with the minimum light source, . Furthermore, the light guiding member disposed on the column can be realized as a movable structure to transmit the light emission effect in various directions, and a practical sperm structure capable of maximizing wind and aesthetic effect by arranging a blind light emitting member between the column and the column .

4. Fourth Embodiment

Hereinafter, with reference to FIG. 10 to FIG. 13, another detailed configuration of the stationary structure to which the first to third embodiments are applied will be described.

Figs. 10 and 11 are views for explaining the roof hub 10. Fig. 10 and 11, the roof hub 10 is made of a metal material and has a structure in which a plurality of razor blade single pieces 12 are radially formed on the side surface of the hub body 11. The base surface 14 is protruded along the bottom of the hub body 11. The base surface 14 is formed by integrally forming a flat plate larger than the hub body 11 on the bottom of the hub body 11 .

The pair of wrestler hose assemblies 12 are formed by a pair of left and right fastening surfaces 12a and 12b protruding from the side surface of the hub body 11. The left fastening surface 12a and the right fastening surface 12b are integrally joined to the side surface of the hub body 11 and the upper surface of the base surface 14 and have a structural rigidity that is not twisted or tilted.

The rafter 20 has one end engaged with the left fastening surface 12a and the right fastening surface 12b and is inserted through the bolt fastening holes 12c formed in the left fastening surface 12a and the right fastening surface 12b Bolted to the roof hub 10 so as to be radially extended while being struck downward. It is preferable that the rafter 20 is installed such that the bottom of the rafter 20 touches the bottom surface 14 so that the rafter 20 is no longer struck downward. In addition, it is preferable that the bolts are fastened at least at two or more places so that the rafters 20 are not shaken in the up and down directions.

Since the rafters 20 are laid beneath, the left and right fastening surfaces 12a and 12b are separated from each other by the upper edges of the rafters 20 so as not to protrude above the rafters 20, And is inclined downward toward the outside of the hub body 11 as shown in FIG. The hub body 11 has a hollow cylindrical shape and the roof top 60 is inserted into the upper inlet of the hub body 11.

Figs. 12 and 13 are views for explaining the omnidirectional concavity 30. Fig. As shown in FIGS. 12 and 13, the rectangular parallelepiped spherical body 30 has a razor intermediate body portion 32 formed on a fiducial body 31, a column insertion groove 35 is formed below the fiducial body 31, And a new fastening portion 33 is formed on both sides of the fastening body 31. [

The rafter intermediate piece 32 is formed by a pair of a left fastening surface 32a and a right fastening surface 12b protruding above the fining body 31. The rafter 20 is fixed to the left fastening surface 32a and the right fastening surface 32b while being in contact with the upper surface of the crucible main body 31 while passing between the left fastening surface 32a and the right fastening surface 32b And is fixed by bolts fastened through the formed bolt fastening holes 32c so as to be supported by the rectangular solid 30. In order to prevent the rafter 20 from being shaken in the up and down direction, it is preferable that the bolt fastening is performed in at least two or more positions.

Since the rafter 20 extends downwardly, the rafter intermediate piece 32 also has the right side fastening surface 32a and the right side fastening surface 32a, as shown in the case of the rafter single- It is preferable that the upper edge is formed to be inclined in a direction in which the rafter 20 extends so that the surface 32b does not protrude above the rafter 20.

Since the rafter 20 is installed so as to be laid down, the rafter 20 is slid sideways due to a considerable load of its own unless the fastening is achieved at the rafter interwoven fabric unit 12 and the rafter intermediate piece 32 It falls and becomes dangerous. Therefore, the rafter 20 is preferably made of a metal material as well as the roof hub 10 and the omnidirectional cone 30 in order to secure a firm connection. If the rafter (20) is made of wood, exposure to extreme external environment for a considerable period of time may cause the wood to be loose, the bolt tightening loosened, or the wood being broken and the bolt fastening not functioning.

The opening 33 is formed by a set of a left fastening surface 33a, a right fastening surface 33b and a bottom surface 33d protruding from the side surface of the tubular body 31, . The proximal end 40 is bolted to the left fastening surface 33a and the right fastening surface 33b so as to connect between the rectangular fastening spheres 30 in a state of spanning the bottom surface 33d. The column 50 is installed such that its upper end is inserted into the column insertion groove 35 and supports the rafter 20.

It is preferable that the window 40 and the pillar 50 are made of wood in appearance. When the window 40 and the pillar 50 are directly connected to each other as in the conventional art for the connection thereof, the connection is loosened A problem arises. However, as in the case of the present invention, such problems can be solved by joining them through the rectangular solid spheroids 30 made of metal. Since the springs 40 are horizontally laid relative to the rafters 20, they are not supported by the bottom face 33d without slipping due to their own weight, So that the rigid coupling state can be maintained.

2 and 3 in the present invention described above, hooking portions 91 are formed on both side surfaces of the rafters 20, and a roof plate support (not shown) 90 to the rafters 20 and the rafters 20. It is preferable that the hooking part 91 is formed in a cantilevered shape such that the upper surface thereof is opened like the chucking part 33 and the roofing plate support 90 is bolted to the hooking part 91. [ A plurality of roof plates 95 are placed on the roof plate pedestal 90 in a direction perpendicular to the roof plate pedestals 90. It is preferable that the roof plate 95 is laid over at least two roof plate pedestals 90 so that the roof plate 95 does not fall off. The upper and lower protrusions 95a and 95b are formed on the right and left sides of the roof plate 95 so that the upper protrusions 95a are placed on the lower protrusions 95b so as to be adjacent to each other and free from any side clearance. Thus, it is possible to minimize the rain leaking into the gap between the roof plates 95 when the rain comes.

It is preferable that a waterproof member 97 is provided on the roof plate 95 in the form of a waterproof cloth or a waterproof coating. The tile (80) is installed on the waterproof member (97). As described above, according to the present invention, the rafters (20), the rectangles (40), and the pillars (50), which are main skeletons of spermatozoa, are connected to each other by a roof hub (10) The rafter 20 can be easily and firmly assembled with the rafter 20 and the rafter 20 can be assembled firmly through a simple assembling structure when the rafter 20 is made of a metal material like the roof hub 10 and the four- So that it does not slip sideways, so that structural strength is further given.

And since the wood is not connected, it is easy to prepare the assembly parts because the wood is not required to be processed for joining, and it is possible to prevent weakening of the joint part which may occur when the wood pieces are connected to each other.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And such variations and modifications are intended to fall within the scope of the appended claims.

10: roof hub 20: rafter
30: Forward grain spheres 40:
50: Column 55:
60: roof top 70: parquet floor
80: tile 90: roof plate base
100: light emitting module 110: printed circuit board
120: light emitting element 130: resin member
140: reflective member 150: reflective member
210: light guide member 215: light emitting type optical pattern forming member
300: Light emitting type windshield module

Claims (10)

A hub hub having a hub body and a side wall of the hub body, wherein a plurality of rafter end fastening portions are radially formed;
A plurality of rafters, one end of which is fixed to the joint of the pair of rafters so as to extend radially around the roof hub;
And an intermediate fastening portion to be fastened while the rafter passes is formed on the fastening body, and a column insertion slot is formed below the fastening body, and on both sides of the fastening body, A rectangular solid of a metal material to be formed;
A pair of opposite ends of which are fastened to the wound fastening portions so as to be connected to each other; A plurality of pillars in which upper ends of the rafters are inserted into the column insertion grooves to support the rafters from below; And a pillar protection layer including a sunk salt disposed between a lower end of the pillar and the coupling groove, wherein the pillar protection layer is disposed between the lower end of the pillar and the coupling groove,
A light emitting module disposed in the body of the column in the longitudinal direction;
And a light guide member having a surface corresponding to a curvature of the body of the column and guiding light emitted from the light emitting module to emit light to the front surface,
A moving roll member mounted on an edge portion of the light guide member;
A columnar body disposed in a structure to be inserted into a surface of the column body,
A rail member for moving the light guide member along the surface of the body in a state where the moving roll member is engaged;
/ RTI >
The method according to claim 1,
The coupling groove
And is formed in an upper surface of the foundation stone in a downward direction and is formed in an area corresponding to a horizontal cross section of the column,
(P2) having an outer edge partition wall (P1) of the coupling groove and a first depth inward along the outer edge partition wall
An inner rim partition wall P3 having a first step protruded adjacent to the moisture prevention groove; And
A columnar protection layer seating portion (P4) having an inner edge partition wall (P3) on the inner side and a second depth below the first depth;
A sperm with a structure.
The method of claim 2,
Wherein the columnar protective layer
(P2) and the columnar protective layer seating portion (P4)
A sperm containing a subcomponent selected from the group consisting of a dendritic resin, rosin, and rosin, with the main component being sun salt.
delete delete The method according to claim 1,
The light emitting module includes:
A light emitting element on a printed circuit board coupled with a structure to be inserted into a mounting groove portion disposed in the body of the column;
A resin member disposed in a structure for embedding the mounting groove and the light emitting device, the resin member being filled at a height equal to or greater than the thickness of the light guide member; And
A light reflecting member disposed on the resin member;
/ RTI >
The method of claim 6,
The light guide member
An emission type optical pattern forming member disposed on a surface or inside of the light guide member or on a surface of a body of the column;
/ RTI >
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