KR20140120624A - Frame Connection Device - Google Patents

Abstract

The present invention relates to a prefabricated structure and connectors for the frames thereof. According to the present invention, a prefabricated structure comprises: hollow main frames having first guide grooves longitudinally and lengthily formed on four sides thereof; and connection members having connection parts having fixing parts on the top and the bottom thereof, wherein the connection parts are formed to be inserted into the first guide grooves in the coupling directions of the main frames. According to the present invention, the main frames forming the structure can be continuously coupled to each other by the connection members, thereby continuously coupling the main frames on the desired position of a user. In addition, the connection members can be moved along the insides of the first guide grooves left and right or up and down, thereby easily coupling reinforcement frames reinforcing the installation strength of the structure. Furthermore, the main frames have second guide grooves separated from the first guide grooves and having panels coupled to be slid therein, thereby reducing the installation time of the structure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefabricated structure,

The present invention relates to a prefabricated structure and a connecting apparatus for the prefabricated structure frame, and more particularly, to a connecting structure for a prefabricated structure frame, in which a first guide groove is formed in a lengthwise direction on four sides of a main frame, And a connecting member having fixing portions at upper and lower ends of a connecting portion formed to be fitted to the inside of the first guide groove are coupled to each other to allow the main frame, which is a structure, to be continuously connected using the connecting member, Since the connecting member is moved left, right or up and down along the inner side of the first guide groove, it is possible to easily engage the reinforcing frame reinforcing the installation strength of the structure And the main frame forms a second guide groove so as to be spaced apart from the first guide groove And relates to the second guide to be coupled to the sliding panel's home one to reduce the installation time of structures erected structure and a frame structure that prefabricated connection for the device.

Generally, a prefabricated structure is a structure in which a frame made of steel or synthetic resin is continuously connected and a panel is coupled to the frame to house a house, a fence, a vinyl house, a car garage, .

The structure assembled and installed on the ground as described above is composed of a rod-shaped frame and a fastening means capable of continuously and horizontally and vertically joining the frame, as in the previously filed Japanese Patent Application No. 2008-72441

The fastening means is protruded from the side surface of the connection unit so as to be inserted into the frame.

The connection unit in which the insertion port is protruded as described above is coupled to the inside of the frame so that the insertion port is fitted into the frame, so that the neighboring frames are continuously connected to construct a structure desired by the user on the ground.

However, a problem with the conventional connecting device is that since the connecting unit is coupled to the end of the frame so that the inserting means, which is a fastening means, is inserted inside the end of the frame, assembling and mounting of the assembling structure mule is not easy.

The reinforcing frame reinforcing the installation strength of the structure in the middle of the structure continuously joined by the fastening means is formed in the frame, since the connecting unit in which the insertion port is protruded is coupled to the end of the frame, A problem that can not be combined is caused.

In addition, since the frame has no groove to which the panel is coupled, it is difficult to join the panel to the frame.

In order to solve the above problems, according to the present invention, a first guide groove is formed in a lengthwise direction of a frame, and a fixing part is formed on the upper and lower ends of a connecting part By joining the formed connecting members to the main frame, not only can the adjacent main frames be continuously and easily engaged by using the connecting members, but also the connecting members are provided at equal intervals in the first guide grooves formed in the main frame, The reinforcing frame capable of reinforcing the installation strength of the prefabricated structure can be attached to the connecting member, thereby facilitating the installation strength of the prefabricated structure and the installation of the reinforcing frame, Two guide grooves can be further formed and the pannel can be slidably engaged with the second guide groove, And one is for the purpose of providing a prefabricated modular structure and the frame structure for connecting the device to the decomposition can be facilitated.

According to an aspect of the present invention,

Each main frame constituting a skeleton of the structure is formed with a first guide groove having a locking projection on each side,

And a connecting member, which is inserted into the first guide groove and is capable of continuously connecting adjacent main frames, is coupled to the main frame.

According to the present invention, a first guide groove is formed in a lengthwise direction of the frame, and a connecting member, which is formed at the upper and lower ends of the connecting portion, is fastened to the main frame, So that the adjacent main frames can be easily and continuously connected to each other by using the connecting member, and the connecting members are provided at equal intervals in the first guide grooves formed in the main frame, It is possible to facilitate the installation strength of the prefabricated structure and the installation of the reinforcing frame and further to form a second guide groove in the main frame so as to be spaced apart from the first guide groove And the pannel can be slidably engaged with the second guide groove, so that the assembled structure can be easily assembled and disassembled It can be expected that the effect can be achieved.

A drainage frame having drainage grooves having a height higher than that of the front side of the drainage frame is installed on the support member for supporting the shade membrane so that the water flowing down along the shade can be discharged to the outside of the shade membrane, The water flowing down along the shade film can easily discharge the drain water to the outside and the shading device can be easily prevented from being easily damaged by the external environment by supporting the shade skeleton provided on the wall surface The effect can be expected.

In addition, the bent frame bar is coupled to the panel guide portion at regular intervals, and the panel guide portion is slidably fitted to the inside of the first guide groove of the main frame continuously connected by the connecting member to form a greenhouse as a structure , It is possible to expect an effect of facilitating the assembly and disassembly of the vinyl housing.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a structure manufactured by using the prefabricated structure of the present invention and a connecting device for the prefabricated structure frame. FIG.
2 is a perspective view illustrating a state in which a main frame is coupled using the connecting device of the present invention;
FIG. 3 and FIG. 4 are cross-sectional views showing a state in which the connecting device and the main frame of the present invention are combined.
5 is a perspective view showing a state in which a reinforcing frame is coupled to a main frame using the connecting device of the present invention.
6 is a view showing another form of the connecting member of the present invention.
Figs. 7 to 9 are partially enlarged views showing a state of being coupled to a frame by the connecting member of the present invention. Fig.
10 is an exploded perspective view showing a first embodiment of the connecting member of the present invention.
FIG. 11 is a perspective view illustrating a state in which a main frame is coupled according to a first embodiment of the connecting member of the present invention; FIG.
12 is a perspective view showing another embodiment of the connecting member of the present invention;
13 to 17 are views showing another combined state of the first embodiment of the present invention.
18 is a perspective view showing another form of the finishing plate of the present invention.
19 is an exploded perspective view showing a second embodiment of the connecting member of the present invention.
20 is a perspective view showing a coupling member according to a second embodiment of the present invention;
21 is a sectional view showing a second embodiment of the connecting member of the present invention.
22 is a plan view showing a second embodiment of the connecting member of the present invention;
23 is a sectional view showing a second embodiment of the connecting member of the present invention.
24 and 25 are perspective views showing a state in which the base part of the present invention is engaged.
26 is a perspective view showing a sun shade device as a structure of the present invention.
Fig. 27 is a side view of an awning device which is a structure of the present invention; Fig.
28 is a perspective view showing a greenhouse which is a structure of the present invention;
29 is an exploded perspective view showing a state in which a greenhouse which is a structure of the present invention is engaged;
30 and 31 are partially enlarged cross-sectional views showing a state in which a greenhouse which is a structure of the present invention is combined.
32 is an exploded perspective view showing another form of a panel guide part of a vinyl house which is a structure of the present invention of the present invention;
FIG. 33 is an engaging sectional view showing another embodiment of a panel guide portion of a vinyl house which is a structure of the present invention of the present invention. FIG.
34 and 35 show a fixing plate for fixing frame members for a structure, which is coupled to the connecting member of the present invention.
36 is a perspective view showing another form of the connecting member of the present invention;

Hereinafter, a preferred embodiment of the present invention will be described with reference to FIGS. 1 to 36 attached hereto.

According to this figure,

Each main frame 1 constituting a skeleton of the structure is formed with a first guide groove 2 provided with a locking projection 5 on all sides,

And a connecting member (20) fitted to the inside of the first guide groove (2) and capable of continuously connecting adjacent main frames (1) is connected to the main frame (1).

The main frame 1 can be moved and coupled to the main frame 1 by using the connecting member 20 and the main frame 1 can be moved and coupled to the main frame 1 by the connecting member 20, So that the structure can be easily assembled and disassembled.

The connecting member 20 is fixedly coupled by a bolt 90 and a nut 93 that are rotatably coupled to the inside of the first guide groove 2 formed in the four sides of the main frame 1.

The main body 1 may be continuously connected to the main body 1 by using the connecting member 20 to assemble the structure as shown in FIG.

In order to assemble and install the house, a connecting member 20 as shown in Figs. 1 (A) to 1 (D) is used.

1 (A) to 1 (D), the connecting member 20 for continuously connecting the main frame 1 connects the connecting portions to the first to fourth connecting portions 30, 40, 50, 50, and 60, respectively.

The fastening portions respectively coupled to the connecting members 30, 40, 50 and 60 are also provided with first to eighth fixing portions 31, 32, 41, 42, 51, 52, (61).

The connecting member 20 is fixedly coupled to the first guide groove 2 by the bolts 90 and the nuts 93 which are rotatably engaged with the first guide groove 2.

2, the head 91 of the bolt 90 is inserted into and engaged with the first guide groove 2, and a nut 93 is fitted to the screw portion 92 inserted into the first guide groove 2 As shown in FIG. 3, the fixing member of the connecting member 20 is closely attached to the locking protrusion 5 protruding from the inside of the first guide groove 2 as shown in FIG.

At this time, a nut groove 33 is formed in the connection portion so that the nut 93 rotatably coupled to the bolt 90 can be easily coupled.

The connecting member 20 vertically connects the adjacent main frames 1 as shown in FIG. 1 (A), and the connecting member 20 is coupled to the main frame 1 as shown in FIGS. .

A first connection part 30 is formed so as to be fitted in the first guide groove 2 of the adjacent main frame 1 so as to vertically join the main frame 1, The first and second fixing portions 31 and 32 are vertically coupled to the upper and lower ends of the main frame 1 so that the adjacent main frames 1 can be continuously engaged.

The first and second fixing portions 31 and 32 which are respectively coupled to the upper and lower ends of the first connection portion 30 are formed on the inner side of the first guide groove 2 formed on the main frame 1 The bolts 90 and the nuts 93 are rotatably engaged with the first and second fixing portions 31 and 32 so as to be fixedly engaged with each other.

That is, the first and second fixing portions 31 and 32 are coupled to each other so that the head 91 of the bolt 90 is fitted to the inside of the first guide groove 2 formed in the main frame 1, The nut 93 is rotationally engaged with the threaded portion 92 of the bolt 90 while being coupled to the inside of the first guide groove 2 so that the adjacent main frame 1 is vertically coupled.

5, the first and second fixing portions 31 and 32 are vertically disposed on the upper and lower ends of the first connection portion 30, respectively, as shown in FIG. 5, in the first guide groove 2 formed in the main frame 1, It is possible to reinforce the assembling strength of the assembled structure as well as to reinforce the assembling strength of the assembled structure by attaching the reinforcing frame 20 to the main frame 1 The reinforcing frame 20 can be easily installed.

1B is a perspective view of the main frame 1 connected to the main frame 1 in a vertical direction.

A connecting member 20 coupled to the outer surface of the main frame 1 and capable of coupling the adjacent main frame 1 has a third connecting portion 40 on one side of the second connecting portion 40 as shown in FIG. And the fourth fixing portions (41) (42).

At this time, a fixed end 34 is protruded from one surface of the second connection portion 40, and the third and fourth fixing portions 41 and 42 are coupled to the end of the fixed end 34, And the fourth fixing parts 41 and 42 are separated from one surface of the second connection part 40 so as to be separated from each other.

The third and fourth fixing portions 41 and 42 are spaced apart from one surface of the second connecting portion 40 by using the fixed end 34 so that the width of the second connecting portion 40 3 and the fourth fixing portions 41 and 42 can be easily and tightly engaged with the engaging projection 5 protruding from the inside of the first guide groove 2. [

The fixing portions 41 and 42 are vertically coupled to one surface of the second connection portion 40 as described above and the third and fourth fixing portions 41 and 42 are engaged with the fixing portions 41 and 42, It is possible to easily combine the corners of the house, which is a structure, with the first guide groove 2 of the main frame 1 vertically coupled together.

1 (C) of FIG. 1 allows neighboring main frames 1 to be orthogonal to each other.

A fifth connection part 50 is formed so as to be inserted into the first guide groove 2 formed in the main frame 1 so as to be orthogonally coupled to the main frame 1, And the fifth and sixth fixing portions 51 and 52 are formed so as to be perpendicular to each other at the upper and lower ends thereof as shown in FIG. 6 (c).

The fifth and sixth fixing portions 51 and 52 are formed at the upper and lower ends of the third connecting portion 50 so as to be orthogonal to each other and the fifth and sixth fixing portions 51 and 52 are fitted So that the main frame 1 can be coupled orthogonally as shown in FIG.

1 (D) shows a structure in which adjacent main frames 1 are assembled in an upward sloping manner so that roofs of houses can be easily assembled and installed.

A fourth connection part 60 is formed on the inside of the first guide groove 2 formed in the main frame 1 so as to be engaged with the upper and lower ends so that the adjacent main frame 1 can be inclined upward, 4 connecting portion 60 is formed with a downwardly sloping slope 60a.

The seventh fixing portion 61 is coupled to the upper end of the fourth connecting portion 60 having the inclined surface 60a along the inclined surface 60a and the fourth connecting portion 60 is connected to the fourth connecting portion 60 so as to be perpendicular to the seventh fixing portion 61, And the eighth fixing part 62 is fixedly connected to the lower end of the fixing part 60 to form the connecting member 20 as shown in FIG. 6 (d).

By joining the neighboring main frames 1 continuously by using the connecting member 20 formed as described above, it is possible to assemble the house roof as a structure as shown in Fig. 9 (a).

9 (b), an inclined surface having the same angle as that of the main frame 1 is further formed on the upper end of the main frame 1, and the main frame 1 is inclined downwardly so as to be in close contact with the inclined surface. So that the assembly strength of the main frame 1 can be reinforced.

The main frame 1 coupled by the connecting member 20 further includes a second guide groove 3 spaced apart from the first guide groove 2 and the panel 6 So that the joining of the panel 6 can be facilitated.

At this time, the panel 6 can be coupled to the second guide groove 3 formed in the main frame 1.

The main frame 1 is moved in the left, right or up and down directions while the fixing part of the connecting member 20 is engaged with the first guide groove 2 formed in the main frame 1, It is possible to expect an effect that the main frame 1 can be easily assembled.

Further, since the reinforcing frame 10 can be additionally provided in the middle of the main frame 1 by using the connecting member 20, it is possible to reinforce the bonding strength of the assembled structure due to the connecting member 20 You can expect.

10 to 18 illustrate a first embodiment of the connecting member 20 of the present invention. The same reference numerals are used for the same components, and the description of the same reference numerals will be omitted.

 The first embodiment of the present invention is characterized in that the connecting member 20 is coupled to the inside of the main frame 1 as shown in FIG. 10 so that the connecting member 20 continuously connecting the main frame 1 is exposed The connection member 20 can be moved left, right or up and down along the first guide groove 2 formed in the main frame 1, So that the main frame 1 can be continuously connected to a desired position by the user.

The fastener 70 of the connecting member 20 is formed so as to be inserted into the main frame 1 to be engaged with the inside thereof.

The fixture 70 is extruded in a lengthwise direction and is cut by a user to a desired length.

The fixture 70 formed as described above has fitting grooves 74 formed on both sides of the fixed body 71 so as to be spaced apart from the lower end and the first guide groove 2, And an inserting portion 73 which is inserted into the insertion hole 4 formed in the main frame 1 is formed.

That is, the fastener 70 is formed with fitting grooves 74 on both sides of the fixed body 71 so that the engaging protrusions 5 protruding from the inner side surfaces of the first guide grooves 2 are fitted inward.

A fitting groove 74 is formed in the fixture 70 and the fitting portion 72 of the fixing body 71 is inserted into the fitting groove 74 of the first guide groove 2 The fixing member 70 is moved to the left, right or up and down along the direction of the first guide groove 2, and the insertion portion 73 provided in the fixing body 71, The main frame 1 having the insertion hole 4 inserted therein is engaged with the main frame 1 and the main frame 1 can be coupled to a desired position by the user.

At this time, it is revealed that the insertion hole 4 formed at the center of the inner side of the main frame 1 is formed by the first guide groove 2.

12 (a) to 12 (f), the fixture 70 continuously connected to the main frame 1 as described above is formed

The fastener 70 formed as shown in FIGS. 12A and 12B has fitting grooves 74 formed on both sides of the fastening body 71 formed in a long and flat shape.

The fitting portion 72 of the fixing body 71 formed with the fitting groove 74 is engaged with the first guide groove 2 formed in the main frame 1 as shown in FIGS. 13 and 15, The main frame 1 is vertically engaged so that the insertion portion 73 of the body 71 is fitted into the insertion hole 4. [

The fixture 70 formed in a linear shape as described above is inserted inward and the main frame 1 is continuously connected with the guide so that the appearance of the structure continuously connected to the main frame 1 can be made more beautiful.

12 (a), 12 (c), 12 (d) and 12 (e), grooves 76 are formed at the upper end of the fitting portion 72 of the fixture 71, As shown in FIG. 14, the panel 6 can be engaged and assembled.

12 (e) shows the fixture 70 to be extrusion-molded in the shape of an 'a'.

The main frame 1 can be coupled in the resin direction by fitting the 'a' -shaped fixture 70 into the end of the main frame 1 as shown in FIG.

That is, the fitting portion 72 is formed at the lower portion of the fixture 70 so that the fitting portion 72 is fitted into the insertion hole 4 formed in the main frame 1, The main frame 1 can be vertically coupled so that the insertion portion 73 protruding from the upper end of the main frame 1 is inserted inward.

FIG. 12 (f) shows the T-shape of the fixture 70 to be extruded.

As described above, the main frame 1 can be continuously connected in a 'T' shape using the fixture 70 formed in a 'T' shape as shown in FIG.

10, a finishing plate 400 may be further coupled to the end of the main frame 1 continuously connected to the main frame 1 by the fixture 70, The bonding strength can be reinforced.

At this time, the finishing plate 400 is formed as shown in Figs. 18 (a) to 18 (c).

(A) of FIG. 18 shows a state in which the finishing plate 400 is joined to the end of the main frame 1 continuously joined by the flat fixture 70, The coupling strength of the main frame 1 can be reinforced.

18 (b) is a perspective view showing a state in which the finishing plate 400 is joined to the end of the main frame 1 continuously joined by the 'b' -shaped fixture 70, Can be reinforced.

18 (c), the coupling strength can be reinforced by joining the finishing plate 400 to the end of the main frame 1 coupled with the 'T' -shaped fixture 70.

That is, the fixture 70 and the finishing plate 400 formed as shown in FIGS. 18 (a) to 18 (c) are fixedly coupled to the end of the main frame 1 coupled by the fixture 70 using screws, The end plate (400) can increase the coupling force of the main frame (1).

At this time, although it is not shown in the drawings, it is demonstrated that the main frame 1 can be continuously connected using the finishing plate 400.

It is possible to prevent the fixture 70 of the connection member 20 continuously connecting the main frame 1 from being exposed to the outside by continuously engaging the main frame 1 using the fixture 70, It is possible to make the appearance of the structure beautiful.

Further, the finishing plate 400 may be further coupled to the end of the main frame 1 coupled with the fixture 70 to reinforce the assembly strength of the structure.

At this time, the finishing plate 400 is further provided with the panel coupling groove 402, so that the panel 6 coupled to the main frame 1 can be easily coupled.

34 and 35, the fixing plate 500 is further coupled to the front and rear surfaces of the fixture 70, thereby reinforcing the installation strength of the main frame 1 by the fixing plate 500. [

The fixing plate 500 has an L shape and a fixing part 500a is bent at the lower end of the fixing part 500. The locking part 500 formed in the first guide groove 2 is inserted into both sides of the fixing part 500, The fixing plate 500 is moved to the left, right or up and down along the first guide groove 2 so that the main frame 1 continuously joined by the fixing member 70 is fixed to the fixing member 70 It can be fixedly coupled at the same time.

A bolt hole is formed in the fixed end 500a to fix the fixing plate 500, which is fitted in the main frame 1, to the main frame 1.

As described above, by engaging with the inner side of the main frame 1 continuously connected by the fixture 70 using the fixing plate 500 having the bolt holes, the joint strength of the main frame 1 continuously joined and The appearance of the structure can be made beautiful.

35, the fixing plate 500 is fixed to both sides of the body 501 from the upper part of the fixing plate 500 coupled to the main frame 1, and the second guide groove 2 of the main frame 1 is inwardly So that the engagement with the main frame 1 can be facilitated.

19 to 23 illustrate a second embodiment of the connecting member 20 of the present invention. The same reference numerals are used for the same components, and the description of the same reference numerals will be omitted.

The second embodiment of the connecting member 20 is constructed such that connecting brackets 80 serving as connecting members 20 are installed at regular intervals on the side surface of the main frame 1 so that one end of the adjacent main frame 1 is connected So that the main frame 1 adjacent to the main frame 1 can be coupled to the bracket 80 in the vertical direction.

19, the connecting bracket 80 is formed to have the same cross section as the main frame 1 so that one end of the main frame 1 is fitted inward, and a bolt hole is formed in the bottom surface of the connecting bracket 80 And the nut 93 is rotatably engaged with the bolt 90 inserted into the first guide groove 2 formed in the main frame 1 so that the connection bracket 80 can be fixedly engaged.

At this time, bolt holes 82 are formed on the respective side surfaces of the connection bracket 80 and the bolts 90 and the nuts 93 are rotationally coupled to the bolt holes 82, The main frame 1 fitted in the inside of the main frame 1 can be fixedly coupled as shown in Fig.

As shown in FIG. 17, a through hole 81 is further formed on the bottom surface of the connection bracket 80.

A through hole 81 is formed in the connection bracket 80, The connection bracket 80 can be firmly coupled to the side surface of the main frame 1 by fixing the connection bracket 80 to which the one end of the main frame 1 is coupled inward by engaging the fixture 70 In addition, since the fitting portion 74 provided on the fixture 80 is inserted into the insertion hole 4 formed in the main frame 1, the assembly strength of the prefabricated structure can be reinforced.

24 and 25, the base part 300 is coupled to the end of the vertically coupled main frame 1 by the connecting member 20. As shown in FIG.

19, the base 300 includes an insertion plate 311 formed on an upper portion of a base plate 301 having an anchor bolt hole, and a first plate 311 formed on the main plate 1, A coupling groove 312 for coupling the bolt 90 coupled to the inside of the guide groove 2 is formed so as to be fitted in the base portion 300 so that the coupled main frame 1 can be fixedly engaged.

FIGS. 26 and 27 illustrate the shading device 100 and the greenhouse 200, which are the structures of the present invention, and the same reference numerals are used for the same components and the description of the same reference numerals will be omitted.

26 and 27, the shading device 100 is provided with at least two frame bars 110 on one side of which a shading film 112 is fitted, Banding to form a canopy skeleton.

A supporting member 120 which is coupled to the ornamental shell 112 so as to be fitted in the orifice groove 111 provided in the bevel frame and which can support the lower front end of the bevel frame is installed vertically on the ground, (100).

26, the main body 1 is vertically and horizontally connected to the receiving member 120 using the connecting member 20. [

The connecting member 20 is connected to the main frame 1 by continuously connecting the connecting bracket 80 to the main frame 1 so that the upper end of the main frame 1 is inserted inside as shown in FIG. And the bolts 90 and the nuts 93 are fastened to both ends of the bolt 90. [

The main frame 1 is vertically joined to the lower end of the main frame 1, which is formed horizontally and has connection brackets 80 connected to lower portions of both sides thereof, thereby forming a support member 120.

As described above, by using the receiving member 120 to support the ornamental frame coupled with the ornamental film 112 provided on the wall surface, it is possible to prevent the awning apparatus 100 from being damaged by external pressure.

27, the drainage frame 130 is fixedly coupled with the fixture 70 of the connection member 20 between the beveled skeleton and the support member 120 as described above, It is possible to increase the coupling force with the supporting member 120 and to discharge the water flowing through the wing membrane 112 to the outside of the wing membrane 112.

12 (d) is used as the form of the fastener 70 for coupling the support member 120 and the drainage frame 130. As shown in FIG.

A drainage frame 130 coupled with the fixture 70 is provided at a lower portion of the drainage body 131 with a rail groove 75 having a latching end 132a for inserting the inserting portion 73 formed in the fixture 70 (132) is formed long in the longitudinal direction.

At the upper rear end of the drainage body 131, a drainage groove 133 is formed long in the longitudinal direction.

The drainage groove 133 having the height of the rear surface 135 higher than the height of the front surface 134 is formed on the rear surface of the drainage body 131 to allow the drainage groove 133 to ride the orifice 112 And can be discharged naturally to the outside of the falling shade 112.

That is, the adjacent main frames 1 are continuously connected to the connecting member 20,

And the drainage frame 130 is fixedly coupled to the support member 120 using the connection member 20. The drainage groove 133 formed in the drainage frame 130 is connected to the drainage frame 130, The water flowing down the wing membrane 112 is connected to the drainage groove 133 formed with the rear surface 135 formed higher than the front surface 134 by engaging the upper end of the frame bar 110 coupled with the shade film 112 And is naturally discharged to the outside of the shade 112.

Since the awning device 100 constituting the canopy frame is fixedly coupled using the supporting member 120 which is assembled by the connecting member 20, the awning device 100 is easily damaged by external pressure It is possible to expect an effect that can prevent such a problem.

A drainage frame 130 provided with a drainage groove 133 having a height higher than the height of the front surface 134 is coupled to an upper portion of the receiving member 120, It is possible to easily discharge the water flowing down the shade film 112 without the separate drainage device to the outside of the shading film 112 by engaging the frame bar 110 coupled with the shade film 112, It is possible to reduce the assembly time of the apparatus 100 and to improve the productivity.

28 to 33 illustrate a greenhouse 200 as a structure of the present invention, and the same reference numerals are used for the same components, and the description of the same reference numerals will be omitted.

The vinyl house 200 as a structure of the present invention continuously connects the main frame 1 composed of the vertical frame 1a and the horizontal frame 1b by using the connecting member 20 as shown in Fig.

A plurality of frame bars 210 bent as shown in FIG. 28 are inserted into the first guide groove 2 formed in the main frame 1 on the upper surface of the horizontal frame 1b of the continuously coupled main frame 1 And guide grooves 211 are formed on both sides of the frame bar 210 so as to engage with vinyl or the like.

29, the first panel guide part 220 is coupled to the end of the frame bar 210 having the guide groove 211, and the first panel guide part 220 coupled to the frame bar 210 It is possible to reduce the coupling time of the frame bar 210 by slidingly coupling the first frame 220 to the inside of the first guide groove 2 formed in the main frame 1.

At this time, the height adjustment part 230 may be further formed at the lower end of the first panel guide part 220 as shown in FIG. 29, so that the assembly strength of the greenhouse 200 of the prefabricated structure can be reinforced.

In addition, since the bending frame bar 210 is coupled to the inside of the main frame 1 while being coupled to the first panel guide unit 220, the number of the frame bars 210 can be reduced or increased It is possible to expect an effect that it can be facilitated.

30, frame bars 210 bent at the same intervals as shown in FIG. 31 are equally spaced from the upper surface of the first panel guide unit 220 to which the height adjusting unit 30 is coupled, The first panel guide part 220 coupled to the first guide groove 220 is fitted to the inside of the first guide groove 2 formed in the main frame 1 to assemble the greenhouse 200 as a structure.

By joining the frame bar 210 bent in the above manner to the first guide groove 2 formed in the main frame 1 while being coupled to the first panel guide part 220 in advance, It is possible to easily install the frame bar 210 on the main frame 1 as well as to allow the user to easily install the bending frame bar 210 on the main frame 1 as many times as desired.

32 and 33 are views showing another form of the panel guide portion which is slidably engaged with the main frame 1. As shown in FIG.

Another form of the panel guide is a "

It is possible to combine the frame bar 210 bent in the second panel guide part 221 of the first embodiment and the second panel guide part 221 into the main frame 1 by sliding.

Meanwhile, FIG. 36, which is not illustrated, shows another form of the connecting member 20.

1: main frame, 2: first guide groove,
3: second guide groove, 4: insertion hole,
5: a locking device, 6: a panel,
10: reinforcing frame, 20: connecting member,
30: first connection part, 31: first fixing part,
32: second fixing portion, 33: nut groove,
34: fixed end, 35: bolt hole,
40: second connecting portion, 41: third fixing portion,
42: fourth fixing portion, 50: third connecting portion,
51: the fifth fixed government, 51: the sixth fixed government,
60: fourth connecting portion, 60a: inclined surface,
61: 7th Government, 62: 8th Government,
70: fixture, 71: fixed body,
72: fitting portion, 73: insertion portion,
74: fitting groove, 75: boss,
76: groove,
80: connection bracket, 81: through hole,
82: bolt hole, 90: bolt,
91: head,
92: screw portion, 93: nut,
100: shade device, 110: frame bar,
111: a shim fit groove, 112: an ornamental shim,
120: support member, 130: drainage frame,
131: drain body, 132: rail groove,
132a:
133: drain groove, 134: front,
135: rear,
200: vinyl house, 210: frame bar,
211: guide groove, 220: first panel guide part,
221: height adjusting portion, 300: base portion,
310: base plate, 311: fitting plate,
312: fastening groove, 400: finish plate,
401: bolt hole, 402: panel connecting groove,
500: fixing plate, 501: body portion,
502:

Claims (10)

Each main frame 1 constituting a skeleton of the structure is formed with a first guide groove 2 provided with a locking projection 5 on all sides,
Wherein a connecting member (20) fitted to the inside of the first guide groove (2) and capable of continuously connecting adjacent main frames (1) is coupled to the main frame (1).
The connector according to claim 1, wherein the connecting member (20)
A fixing portion formed to be fitted to the inside of a first guide groove 2 formed in the main frame 1 is coupled to upper and lower portions of a connection portion formed at an inclined angle by a predetermined angle,
The fixing part may be vertically coupled with the connection part, may be crossed around the connection part, or may be inclined around the connection part,
The bolts 90 and the nuts 93 are rotatably engaged with the fixing portions so that the fixing portions are brought into close contact with the engagement protrusions 5 provided in the first guide groove 2 so that the neighboring main frames 1 are vertically or orthogonally Wherein the connecting member is slidably engaged with the connecting member.
The connector according to claim 1, wherein the connecting member (20)
The fitting body 72 has a fitting body 74 formed on both sides of the fixing body 71 formed in a hollow shape and fitted to the inside of the first guide groove 2 with the fitting groove 74 as a center, And an insertion portion 73 fitted in the insertion hole 4 formed in the center of the inner side of the frame 1. The main frame 1 adjacent to the main frame 1 is continuously And a connecting member for the frame.
The method according to claim 3,
Wherein the fastener (70) is formed in a shape of either a straight line, a 'B' character or a 'T' character.
The method according to claim 3,
L "-shaped fixing plates 500 which are moved leftward, rightward or up and down along the first guide grooves 2 formed on the main frame 1 are further joined to the front and rear surfaces of the fixture 70, A main frame (1) is fixedly coupled,
Wherein a locking groove (502) is further formed on both sides of the fixing plate (500) so as to be fitted to the locking projection (5) of the main frame (1).
The connector according to claim 1, wherein the connecting member (20)
A connecting bracket 80 having the same cross section as that of the main frame 1 is formed so that one side of the main frame 1 is inserted inside and the connecting bracket 80 is coupled to the side surface of the main frame 1 So that the adjacent main frames (1) can be coupled vertically.
The method of claim 6,
A through hole 81 is further formed in the bottom surface of the connection bracket 80,
The connection bracket 80 is fixed to one surface of the main frame 1 by using a fixing hole 70 which penetrates the through hole 81 and is coupled to the first guide groove 2 of the main frame 1 in a protruding manner, However,
The fixture 70 has a locking protrusion 5 provided in the first guide groove 2 and a fitting groove 74 formed in the center of the side surface of the fixing body 71 formed in a hollow shape and fitted into the through hole 81 Is inserted into an insertion hole (4) formed in the center of the inner side of the main frame (1) and an insertion part (72) formed on both sides of the insertion hole and inserted into the first guide groove (2) (73). ≪ Desc / Clms Page number 20 >
At least two or more of the frame bars 110 are installed on the wall surface, and the frame bar 110 having the flange-like grooves 111 is banded at one side thereof so that the ornamental film 112 is inserted inside,
The shading film 112 is combined with the shading fit groove 111 provided in the beveled skeleton,
A shading device (100) as a structure is constituted by a supporting member (120) capable of supporting a front lower end of an ornamental frame,
The main body 1 having the at least two first guide grooves 2 is connected to the main frame 1 continuously in the vertical and horizontal directions by using the connecting member 20 .
The method of claim 8,
A drainage frame 130 is formed on the upper surface of the support member 120 by using a connecting member 20 elongated in the longitudinal direction and formed in a longitudinal direction and having a rail groove 132 formed at a lower portion thereof,
A drainage groove 133 is formed in the drainage body 131 of the drainage frame 130 between the rear surfaces 135 formed to be higher than the lower front surface 134 so that the drainage groove 133 is formed inwardly Is fitted and coupled with each other.
A hollow main frame 1 in which first guide grooves 2 are formed in four directions;
A connecting member (20) for continuously connecting neighboring main frames (1);
The guide groove 211 is formed by bending a frame bar 210 having a long length in the longitudinal direction and the ends of the frame bar 210 are inserted into the first guide groove 2 formed in the main frame 1 at regular intervals, 200,
The frame bar 200 has a first panel guide part 220 formed to be long in the longitudinal direction so as to be slidably coupled to the inside of the first guide groove 2 formed in the main frame 1, The frame bars 200 are equally spaced on the upper surface,
And a height adjusting unit 230 is formed on the bottom surface of the first panel guide unit 220 so as to be closely attached to the inside of the first guide groove 2 formed in the main frame 1.

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