KR20140028486A

KR20140028486A - Structure of leg cornered a cross pyramid roof-type canopy

Info

Publication number: KR20140028486A
Application number: KR1020120094880A
Authority: KR
Inventors: 김대환
Original assignee: 김대환
Priority date: 2012-08-29
Filing date: 2012-08-29
Publication date: 2014-03-10

Abstract

The present invention relates to a foldable canopy house to simply secure a specific space. The foldable canopy house includes an end block and slide blocks hinged to a frame around a roof into an X to form a first stage using the peak of a rod connection block of the frame around the roof; and the corner of a post at the center having a roof central frame to be shaped into a crossed pyramid to form a second stage using the peak of a dome cap at the center. Therefore, the present invention enables users to easily assemble or disassemble rods through indirect operation without injuring their fingers as a slide rod is applied to the post of the slide block and a post fixing block to be easily joined to a hinge joint groove; and stabilizes and reinforces the post and prevents the canopy house from having rainwater collected on the roof or snow covering the roof as the peaks of the end block, the rod connection block, and the dome cap form a double structure.

Description

Structure of leg cornered a cross pyramid roof-type canopy}

The present invention relates to the structure of a canopy, and more particularly, to the structure of a canopy that can be used in a robust, aesthetically pleasing and versatile way. In general, a canopy or a canopy house, a canopy house, is a frame that is used at campsites, street events, sports events, etc., by setting up a frame at a predetermined height to prevent wind or covering the sun in the field, and covering the roof over the frame. Product.

These canopy houses are built with bridges, using a number of blocks to fold the roof fabric by connecting the roof center frame and roof center frame at the same bar length and the roof frame and roof center frame at the same bar length. It was a structure made up.

However, in order to cover the roof cloth, the roof frame is simply connected to the center of the bar with the same bar length and the roof center frame is composed of the roof bar at the bridge pillar corner and is supported by the dome cap or the same bar length. It is connected to the peak pole and supports it, and the strength of supporting the bridge is weak, so the edge of the simple roof cloth does not live, so when the rain or snow falls, the roof cloth is drooping and it is difficult to drain, and various rods for constructing the canopy house frame Not only does the connection of the assembly and post-maintenance work not easy, the slide block and the column fixed block has a problem that the user is wearing a lot of finger injury.

The present invention is the assembly of the canopy house frame and post-repair work and roof using a block coupling structure using a groove for fixing the rod in the various blocks hinged to the connection of the various rods for constituting the canopy house frame The purpose is to make it extendable and easy to repair.

In addition, an object of the present invention is to protect the safety of the user by applying the slide rod to the leg pillar to the slide block and the leg fixing block to operate indirectly without the user injury.

In addition, the present invention is coupled to the leg of the canopy house slides up and down, while adjusting the length of the rod connected to the end of the slide block and the end block used to fold the canopy house appropriately to adjust the peak of the frame around the roof Bridge pillar cross-pyramid roof type that strengthens the strength of the column pillar, connecting the dome cap of the outer upper center from the hinge of the end block of the bridge column to the dome cap of the outer top, and supporting the roof bar from the hinge of the slide block. The peak is composed of two steps, so that rainwater does not accumulate or accumulates snow, and the purpose of providing a canopy house that gives a sense of stability by strengthening the strength of the bridge pillar.

The present invention is designed to solve the inconvenience of the prior art as described above in the various blocks hinged to the connection portion of the various rods for constituting the canopy house frame, a groove for fixing the pin to fix the rod hinged by fixing bolts It is intended to use the block coupling structure to be used and to facilitate the assembly and post-repair work of the canopy house frame, as well as to extend the roof in multiple stages and to facilitate maintenance.

In addition, another object of the present invention, the user's safety by applying the slide rod acting as a push knob on the slide block and the leg fixing block to the user's legs to operate indirectly without the user's finger injury. The purpose is to protect.

In addition, another object of the present invention, the slide block is used to fold the canopy house while being coupled to the bridge pillar of the canopy house, the slide block used to fold the canopy house and the end block of the end block of the bridge column corner connected to the end block as a roof rod Cross pillar pyramid, which is connected to the dome cap of the upper outer center by a rod and supports the roof bar at the hinge of the slide block of the bridge pillar, forms a cross-shaped pyramid roof shape, and the peak is composed of two stages. Its purpose is to provide a canopy house that is constructed so that it does not accumulate and strengthens the strength of the bridge pillars.

As described above, according to the canopy house of the present invention, using the frame structure of the bridge column cross pyramid roof canopy house having the peak of the connecting block in two stages, the interior space is increased and widened, and the sagging of the roof cloth of the canopy house is prevented. To prevent the accumulation of rain or rainwater and to strengthen the strength of the bridge pillars, to provide stability, and to connect various blocks and multiple bridge pillar cross pyramid roof canopy houses to each other to increase the area, fixing and repairing are convenient for use. It is possible to install by simple assembly between them by selecting the block coupling structure that uses the grooves to fix the pins to fix the rod hinges with set bolts, as well as easy installation and extension connection, and indirectly operated slide rod Applied to slide block and fixed column block It would have the effect of securing the female user.

Figure 1a is a perspective view showing a structure covering the roof cloth of the one-stage bridge column cross-pyramid roof canopy house to which the dome cap is applied according to an embodiment of the present invention.
Figure 1b is a perspective view showing the skeleton structure of the one-stage bridge column cross-pyramid roof canopy house to which the dome cap is applied according to an embodiment of the present invention.
Figure 1c is a perspective view showing the skeleton structure of the two-stage bridge column cross-pyramid roof canopy house to which the dome cap is applied according to an embodiment of the present invention.
Figure 2a is a perspective view showing a structure covering the roof cloth of the one-stage bridge column cross pyramid roof canopy house to which the dome cap and the other "X" shape of the roof periphery frame according to an embodiment of the present invention is applied.
Figure 2b is a perspective view showing the frame structure of a one-stage bridge column cross pyramid roof canopy house to which another "X" form of the dome cap and the roof periphery frame according to an embodiment of the present invention is applied.
Figure 2c is a perspective view showing the frame structure of the two-stage bridge column cross pyramid roof canopy house to which the "X" form of the dome cap and the roof surrounding frame according to an embodiment of the present invention is applied.
3A and 3B are perspective views illustrating an embodiment in which a slide rod is applied to a slide block and a leg pillar fixing block according to an exemplary embodiment of the present invention.
Figure 4a is a frame of another one-stage bar connecting block cross-pyramid roof canopy house by applying three-way bar connecting blocks to the roof peripheral frame of the column pillar cross-pyramid roof canopy house applying the dome cap according to an embodiment of the present invention It is a perspective view which shows a structure.
Figure 4b is a frame of another two-stage bar connecting block cross-pyramid roof canopy house by applying three-way bar connecting blocks to the roof peripheral frame of the column pillar cross-pyramid roof canopy house applying the dome cap according to an embodiment of the present invention It is a perspective view which shows a structure.
Figure 5a is applied to the three-row bar connecting blocks on the roof frame of the bridge pillar cross-pyramid roof canopy house applying the dome cap according to an embodiment of the present invention and the second roof bar to the roof center frame than the first roof bar A perspective view showing the frame structure of a one-stage modified bar connection block cross pyramid roof canopy house applied in a long "X" shape.
Figure 5b is to apply three-way bar connecting blocks to the roof frame of the bridge pillar cross-pyramid roof canopy house applying the dome cap according to an embodiment of the present invention and the second roof bar to the roof center frame than the first roof bar A perspective view showing the frame structure of a two-stage modified bar connection block cross pyramid roof canopy house applied in a long "X" shape.
Figure 5c is applied to the three-row bar connecting blocks on the roof frame of the bridge pillar cross-pyramid roof canopy house applying the dome cap according to an embodiment of the present invention and the second roof bar to the roof center frame than the first roof bar Folded frame of another single-stage bar connection block cross pyramid roof canopy house, which is applied in long "X" shape and constructed the position of the "X" shape of the roof frame and the roof center frame not in the center. It is a perspective view which shows a structure.
Figure 5d is a three-bar rod connecting blocks to the roof frame around the roof of the bridge pillar cross pyramid roof canopy house to which the dome cap is applied according to an embodiment of the present invention and the second roof bar to the roof center frame than the first roof bar Another one-stage modified bar connection block consisting of a long "X" and a non-central position of the "X" shape of the roof frame and the center frame. The three-way bar connection block of the cross pyramid roof canopy house. And a perspective view showing the structure of the first bar connecting block, the second roof bar and the folding bar hinge when the second roof bar is folded and extended.
FIG. 6 is a cross-sectional perspective view illustrating various applications of bar connection such as a column pillar cross pyramid roof canopy house using a dome cap according to an exemplary embodiment of the present invention, and methods of connecting an “X” type of bar.

The structure of the bridge pillar cross pyramid canopy house according to the preferred embodiment of the present invention to achieve the above object is largely the bridge pillar (1), the slide block (2), the end block of the slide block (2 ') of the pillar column corner (3), the end block (3 ') of the pillar column, the first bar (4), the second bar (5), the periphery of the roof frame (6), the roof center frame (7), the first roof bar (8) , Second roof bar (9), roof bar support block (10), first bar connection block (11), second bar connection block (12), roof extension bar (13), roof extension bar block (14), It is composed of a dome cap (15), a column pillar fixing block (16), a roof cloth (17), an extension slide block (18), and an extension end block (19).

1A, 1B, and 1C, reference numerals will be briefly described with reference to structural drawings of a canopy house according to a preferred embodiment of the present invention.
First, the height can be adjusted and at least four leg pillars (1) that are installed to reach the ground is formed on the lower leg pillar fixing portion; A slide block (2) formed to be slidable along the leg pillar (1): an end block (3) fixed to the leg pillar end portion; First rod (4) connected to the end block (3) of the pillar (1): a second rod connected to the slide block (2) of the leg (1) and longer than the first rod (4) (5); A roof periphery frame 6 supporting the roof edges by connecting the first and second rods at the center of the length in the form of "X" and adjusting the rod length to form a first stage; A slide block (2 ') of a corner pillar corner forming a corner of the slide block (2) of the bridge pillar slide portion between the second bar (5) and the second bar (5) of the roof peripheral frame (6); An end block (3 ') of the leg pillar corner forming a corner of the end block (3) of the leg pillar end portion between the first rod (4) and the first rod (4) of the roof frame (6); At least four pairs of roof center frames forming a bridge pillar cross pyramid roof shape by connecting and supporting the center portion of the roof at the end block 3 'and the slide block 2' of the bridge pillar to form the upper upper center portion of the roof ( 7); A first roofing rod (8) hinged to the end block (3 ') of the bridge pillar and connected to an outer end of the roof of the roof center frame (7); The second roof rod is hinged to the slide block (2 ') of the column pillar and connected to the inner end of the roof of the roof center frame (7) to support the first roof rod (8) in a "T" shape upwards. (9); The roof bar support block 10 which is hinged to the end block 3 'of the leg pillar corner and connects the second roof bar 9 to the "T" shape to support the first roof bar 8 upward. ); A first bar connection block (11) connecting the first bar (4) and the first bar (4) rising from the opposite side to form a roof periphery frame (6); A second bar connecting block having a peak having a single stage by connecting the second bar 5 rising from the opposite side to the second bar 5 longer than the first bar 4 to form a roof periphery frame 6 ( 12); It is connected to the first roof bar 8 at the hinge of the end block 3 'of the bridge pillar to form a roof center frame 7 and extends to the first roof bar 8 so that folding is easy or central. Roof extension bar 13 to make it higher; Roof extension bar block 14 connecting the first roof bar 8 and the roof extension bar 13 connected at the hinge of the end block 3 'of the bridge column: End block 3 of the bridge column corner ') Is connected to the first roof bar (8) and the roof extension bar (13) of the roof center frame (7) and the first roof bar (8) at the hinge of the slide block (2') of the pillar column corner ) Dome cap (15) is a connecting block of the upper upper center of the roof to support the second roof bar (9) in the "T" shape and keep the center of the roof securely; Leg pillar fixing block 16 that can adjust the height of the leg pillar; A roof cloth 17 covering the roof periphery frame 6 and the roof center frame 7 to form a sun visor and draining rainwater during rainy weather; An extension slide block 18 which is slidable along the leg pillar 1 and extends in multiple stages; And an extended end block 19 fixed to an end of the leg pillar 1 and extending in multiple stages.
In addition, as shown in Figure 1a, Figure 1b or Figure 1c, when unfolded, the height of the second bar connecting block 12 of the roof frame 6 is higher than the height of the end block (3), the roof The length of the second bar 5 of the peripheral frame 6 is longer than the length of the first bar 4 so that the peak constitutes one stage, and the end block 3 'and the slide block 2' of the pillar column corner. Hinged to the roof center frame (7) and the connecting block in the center to form a bridge pillar cross-pyramid roof type, and raise the position of the dome cap (15), which is the connecting block in the center forming the outer top of the roof To extend the length of the first roof bar (8) and the roof extension bar (13) for smooth folding, adjust the length of the second roof bar (9), and the roof support bar block (10) and the roof extension bar block (14). It can be configured by properly adjusting the position of the end block (3), the second bar connection when unfolded The peak of the lock 12 and the dome cap 15 in the center is composed of two stages, which improves water flow by increasing the inside and height. The connecting block, which is hinged with various rods, is used as a fixing bolt for fixing and easy to use. It is preferable to select a block coupling structure using a groove to fix the pin for hinge fixing.
In addition, as shown in Figure 3a, by inserting a round ring by directly drilling a hole on the outside of the existing slide rod is a round ring handle portion is often opened or injured finger is a feature of the present invention slide rod In detail describing the features of the present invention constituted by a method of indirectly operating the slide rod (2c) by pressing the pressing knob (2b) invisible in the main body (2a), the slide block (2) Is a configuration that is applied to the leg column (1) in the form of a square tube and a circular tube to which the user applies indirectly without injury to the fingers, such as a slide rod (2c), the body cylinder (2a), the pressing handle 2b ), A slide rod 2c, an elastic spring 2d, a main body fixing part 2e, and a main body cover 2f.
That is, the main cylinder 2a is an injection molding block formed in a cylindrical shape on the side of the slide block 2, and is attached to the contact surface among the protrusions on the front surface with the clamp 2c-2, which is machined or made of an injection product. The slide rod 2c, which is composed of a circular pin in which a suitable material such as plastic is inserted into the contact portion 2c-4 of the tip portion 2c-1 so that no scratch occurs, is formed in the cylindrical shape of the main cylinder 2a. Insertion and sliding is possible, and when sliding forward, the tip portion 2c-1 of the slide rod 2c is formed in the through hole 2m of the slide block 2 and the through hole formed in the leg column 1 It is inserted into (2m1) and is fixed, and is configured on the side of the slide block (2) and the main body cover (2f) is inserted into the groove and fixed to the body fixing part (2e) configured to be fixed by a fixing bolt to the pillar pillar Applied to slide block (2) It is possible.
In addition, the elastic spring (2d) is wound around the rear end portion (2c-3) of the slide rod (2c) is pushed in the forward direction, the restoring force acts in the direction to advance the slide rod (2c) .
In addition, the operation method of the pressing knob (2b), by inserting the fixing spring (2b-5) in the lower fixing groove (2b-4) of the support (2b-2) attached to the end of the handle (2b-1) One end is in the form of the main body fixing portion (2e) and the other end is always pushing the support (2b-2) portion, the pressing knob (2b) is ready to be operated by pressing, the support (2b- 2) constitutes a semi-circular groove 2b-3 supporting the lower portion of the tip portion 2c-1 of the slide rod 2c to be caught by the latch 2c-2 of the slide rod 2c. Located at -1), the user pushes the handle 2b-1 of the push knob 2b downward in the forward state of the slide rod 2c to move the slide rod 2c backward and the leg post 1 It is to free it out of). The pressing handle (2b) is attached in the downward direction, but it is possible to conveniently use all four directions depending on the site conditions.
Therefore, when the user wants to lower the slide block 2 hanging on the leg pillar 1 by the slide rod 2c, the handle 2b-1 of the push knob 2b is lowered. When the slide rod 2c is pushed back in the direction, the tip portion 2c-1 of the slide rod 2c is separated from the through hole 2m1 formed in the leg pillar 1 so that the leg pillar 1 And the combination of the slide block 2 is released to free the descending of the slide block (2).
In addition, as shown in Figure 3b, the leg pillar fixing block 16, which is a feature of the present invention, the leg rod (1) of various forms such as a square rod or a circular tube (2c) so that the user does not injure the back of the finger (1) It shows another embodiment that can be applied to the height adjustment of).
In addition, as shown in Figure 4a, using the first bar connecting block (11 ') and the second bar connecting block (12') configured in three directions in the pillar pillar corner cross-pyramid roof type (2 ') 12 ') connects the first roof bar 8 of the roof center frame 7 hinged to the end block 3' of the bridge pillar cross-pyramid roof type bridge pillar and connects the first rod connecting block 11 ') Hinge is connected to the second roof bar (9) hinged to the slide block (2') of the bridge pillar cross corner pyramid roof type bridge to support in the form of "T" to form the center of the roof The rod connecting block cross-pyramid using the dome cap 15, which is the connecting block of the center of the outer upper end of the roof can form a roof type, and raises the position of the dome cap 15, which is the connecting block of the central part forming the outer top of the roof, For the first roof bar (8) To extend the length of the roof extension bar 13 can be configured by adjusting the length of the second roof bar (9) and appropriately adjust the position of the roof support bar block 10 and the roof extension bar block (14), When unfolded, the end block 3, the second rod connecting block 12 'and the peak of the dome cap 15 in the center are composed of two-stage, which makes the interior high and wide, improves the flow of water, and connects various rods and hinges. The block is preferably a block coupling structure using a groove for fixing a pin for hinge fixing the rod with a fixing bolt for easy maintenance and use.
In addition, as shown in Figure 5a, the first bar connecting block (11 ') and the second bar connecting block (12') configured in three directions to form another roof center frame in the pillar pillar corner cross pyramid roof type The second rod connecting block 12 'is connected to the first roof bar 8 of the roof center frame 7 hinged to the end block 3' of the bridge pillar cross corner pyramid roof type bridge. The first rod bar 8 supports the first roof bar 8 which is hinged to the slide block 2 'of the bridge pillar cross-pyramid roof pillar at the hinge of the first rod connecting block 11'. The second roof bar 9 'longer than the length of (8) is connected to the center of the length in the form of "X" to form at least four roof center frames (7) to form the uppermost central connection which forms another outer upper end of the roof. Block using the upper dome cap (15 ') and the existing dome cap (15) Deformed rod connecting block cross pyramid roof shape can be configured, and when unfolded, the peaks of the end block (3), the second bar connecting block (12 ') and the upper dome cap (15') are composed of two stages to make the interior high and wide. It is preferable to select a block coupling structure using a groove for fixing the pin for hinge fixing the rod with a set bolt for fixing and easy to configure and improve the water flow, the rod and the hinge coupled to the various rods.
In addition, When the modified bar connection block cross-pyramid roof is folded, the second bar connection block (12 ') and the upper dome cap (15'), which are the upper part of the end block (3), are protruded out in two stages so that the length of the truck transport or container is In order to eliminate the disadvantages and inconvenience of the high cost, as shown in Figure 5c, the second bar connecting block 12 'and the upper dome cap 15', which is the upper portion of the end block 3 does not protrude out in two stages. In order to be able to fold the second roof bar (9 ') that meets at the first bar connecting block (11') to fold straight to the end of the second roof bar (9 ') side by cutting the hinge function The first bar 4 and the second bar 5 of the roof periphery frame 6 and the second roof bar 8 and the second roof bar 7 of the roof center frame 7 which are further configured and folded in the form of "X". (9 ') by properly calculating the position of the connection point not in the center to find and fold the portion folded smoothly Figure 5 As shown in d, when folding the second roof bar 9 'connected to the first bar connecting block 11', the handle of the push knob 2b to which the slide rod 2c shown in FIG. 3ab is applied. Press (2b-1) to allow the slide rod (2c) to fold out of the outer cylinder hole (20m9 ') of the second roof bar (9') and to be folded.When unfolded, the cut and hinged portions are straight in a straight line. Another modified rod connecting block applying a folding rod hinge 20 in which the slide rod 2c is automatically inserted into and fixed to the outer cylinder hole 20m9 'of the second roof bar 9' by the elastic spring. Cross-pyramid roof shape can be configured, and when the configuration of the second roof bar 9 'is expanded, the end block 3, the second bar connection block 12' and the central dome cap 15 ' The peak consists of two stages, which makes the inside high and wide, improves the flow of water, and various rods and hinges. The connection block is coupled is preferably chosen to block the coupling structure using the groove to fix the hinge pin to secure the bars to repair and easy-to-use set fixing bolts.
Further, as shown in A, B, C-1, C-2, C-3, and C-4 in FIG. 6, the number of "X" connection of the roof periphery frame 6 of the pillar pillar cross-pyramid roof type is shown. 2, 3, 4, etc. can be configured in various ways, and the first bar (4) and the second of the roof frame (6) to lower the height when the cross column pillar cross pyramid roof type and rod connecting block cross pyramid roof type The "X" shaped connection number of the rods of the rod 5 and the length of the first roof rod 8 and the roof extension rod 13 of the roof center frame 7 are appropriately cut based on the number of the rods. It is possible to reduce the height by increasing the number of "X" shaped joints of the frame 6 or the number of rod joints of the roof center frame 7, and also the height of the deformed and another modified rod connecting block cross-pyramid roof type In order to lower the first bar (4) and the second bar (5) and support of the roof frame (6) The roof circumferential frame 6 and the roof center frame 7 are appropriately cut based on the number of "X" shaped connections of the rods of the first roof bar 8 and the second roof bar 9 'of the center frame 7. It can be configured by increasing the number of "X" type of connection, and the same function can be configured by combining the appropriate combination of the bar "X" type h + h ', i + i' and j. In addition, the place consisting of h + h 'can be changed to i + i', provided that h + h 'and i + i' must be applied in pairs and j is combined with h + h 'or i It can be used in combination with + i 'and in pairs or three.
In addition, the connection block hinged to the various rods, it is preferable to use a block coupling structure using a groove for fixing the pin for hinge fixing the rod with a fixing bolt for easy maintenance and use. Depending on the shape of the rod, it is possible to weld and aluminum structures, and the hinge parts of the blocks to which each rod is connected can be configured in multiple directions such as unidirectional, bidirectional or three directions. It is possible to make a shape, and the rod material can be made of metal, non-metal, reinforced plastics and fiberglass with good elasticity to change the connection method, and if necessary, the upper side of the block can be manufactured in an open shape depending on the site conditions. have.
The present invention is not limited to the above-described embodiments, and of course, applicable to those skilled in the art without departing from the spirit of the present invention.
For example, in the exemplary embodiment of the present invention, as shown in FIGS. 1A, 1B, and 1C, the dome cap 15 attached to the end of the roof extension rod 13 connected to the first roof rod 8 and the first roof rod ( 8) is limited to the bridge pillar cross pyramid roof canopy house to which the second roof bar (9) is supported, but the bridge pillar cross pyramid roof and rod connecting block cross pyramid canopy to which the dome cap (15) of the present invention is applied. Not applied only to the house, the first bar 4 and the second bar (5) folded in the "X" form of the periphery of the roof frame 6, the first roof folded in the "X" form of the roof center frame (7) The position of the connection point between the rod 8 and the second roof bar 9 can be applied according to the shape and type of the roof. In particular, the first bar of the roof frame 6 supports the roof in a straight direction. 4) and the second bar (5) of the same length and the second edge of the roof center frame (7) The length of the roof bar 9 'is longer than the length of the first roof bar 8, and consists of a plurality of upper dome caps 15' roofs, the first bar 4 of the roof frame 6 And the length of the second bar (5) is the same, the length of the second roof bar (9 ') is longer than the length of the first roof bar (8) of the roof center frame (7) and composed of an upper dome cap (15') The first roof bar 8 of the roof center frame 7 supporting the roof center part and having a second bar 5 longer than the first bar 4 of the ground film (pyramid) roof type and the roof periphery frame 6. And cross roof type having the same length of the second roof bar (9), the second bar (5) is longer than the first bar (4) of the roof peripheral frame (6) and the second roof bar of the roof center frame (7) (9 ') is longer than the length of the first roof bar (8), the modified bar connecting block cross-pyramid roof structure consisting of the upper dome cap (15') and another modified bar connecting block cross-pyramid roof It is also possible to apply.
Therefore, the scope of the claims in the present invention will be limited not only by the scope of the detailed description, but also by the technical idea thereof, such as the claims described below.

Claims

Height adjustment is possible and at the bottom end is formed at least four leg pillars are fixed to the leg pillars;
Slide block formed to be slid along the leg pillar:
An end block fixed to the leg pillar end;
A first bar connected to the end block of the leg pillar:
A second bar connected to the slide block of the leg and having a length longer than that of the first bar;
A roof periphery frame hinged at the center of the length of the first and second bars in the form of "X" and the length of the rod to adjust the length of the rod to support the edge of the roof;
A slide block of a pillar pillar forming a corner of the slide block of the pillar pillar slide portion between the second rod and the second rod of the frame around the roof;
An end block of a leg pillar corner forming a corner of an end block of a leg pillar end portion between the first rod and the first rod of the frame around the roof;
At least four pairs of roof center frames that connect and support the center portion of the roof at the end block and the slide block of the bridge pillar to form the outer top center portion of the roof to form a cross pillar pyramidal roof shape;
A first roofing rod hinged to an end block of the pillar pillar and connected to an outer end of a roof of the roof center frame;
A second roof rod that is hinged to the slide block of the bridge pillar and is connected to an inner end of the roof of the roof center frame to support the first roof rod in a "T" shape in an upward direction;
A roof bar support block which is hinged to an end block of the bridge pillar and connects the second roof bar in a "T" shape to support the first roof bar upward;
A first bar connecting block forming a roof periphery frame by connecting the first bar coming up from the opposite side to the first bar;
A second bar connection block connecting the second bar coming up from the opposite side of the second bar longer than the first bar to form a frame around the roof and having one peak;
A roof extension rod connected to the first roof rod hinged to the end block of the bridge pillar to form a roof center frame and extended to the first roof rod to facilitate folding or higher center portion;
Roof extension bar block for connecting the first roof bar and the roof extension bar hinged to the end block of the bridge pillar corner:
The second roof bar is “T” shaped as a first roof bar connected to the first roof bar and the roof extension bar of the roof center frame hinged to the end block of the bridge pillar and hinged to the slide block of the bridge pillar. A dome cap, which is a connection block of the upper upper center portion of the roof, which is supported by the roof and keeps the center of the roof securely;
Leg pillar fixing block capable of adjusting the height of the leg pillar;
A roof cloth covering the roof surrounding frame and the roof center frame to form a sun visor and draining rainwater during rainy weather;
An extended slide block which is slidable along the leg pillar and extends in multiple stages; And
Extension end block fixed to the end of the leg pillar and extend in multiple stages;
The connecting block to which the various rods are connected is composed of a groove for fixing a pin for hinge fixing the rod with a set bolt for fixing, as in various application examples of the canopy house, a bridge pillar cross pyramid roof type and a rod connection It can be applied to the block cross pyramid roof shape, and when it is unfolded, the peak of the end block, the second bar connection block, and the dome cap in the center is composed of two stages, which makes the water flow higher by adding a bar and blocks. And canopy house structure characterized in that it comprises a multi-stage canopy that can be installed in two or more stages by extending installation.

The method according to claim 1,
The slide block or leg column fixing block,
Body cylinder which is an injection molded block formed in a cylindrical shape on the side of the slide block or the column pillar fixing block:
The slide is inserted into the tubular body of the main body and can be slid, and when the user slides forward, the tip of the slide rod is inserted into the through hole formed in the leg pillar, and the support at the distal end of the push handle is formed by forming the push handle. The main body that forms a semi-circular groove that supports the lower part of the tip consisting of a circular pin inserted with a different material on the tip, and is positioned at the tip so as to be caught by the latch.The support pulls out the tip and separates it from the leg post when pressing the handle of the push knob. A slide rod configured in an indirect pull manner invisibly in the barrel;
A body fixing part which is formed on the side of the slide block or the leg column fixing block and is fitted with a body cover into a groove and fixed with a fixing bolt;
Located in front of the clasp of the slide rod is a shape that the slide rod is pushed in the forward direction, pressing the handle in the downward direction to move the slide rod back out of the leg pillar to play a role to freely;
An elastic spring in contact with the inner surface of the main body cylinder and positioned at the rear side of the slide rod and having a restoring force in a direction of advancing the slide rod; Lt; / RTI >
As in various application examples of the canopy house, the pillar pillar corner cross pyramid roof type, bar connecting block cross pyramid roof type, modified bar connecting block cross pyramid roof type and another modified bar connecting block cross pyramid roof type and slate (gable) roof type In addition, it can be applied to the ground film (pyramid) roof type, cross roof type and other various cross pyramid roof canopy houses, and includes a multi-stage canopy that can be installed in two or more steps by adding and extending the rods and blocks. The structure of the canopy house, characterized in that made.

The method according to claim 1,
Bridge pillar Corner cross pyramid roof pillars are formed in the second rod connecting block by using a first bar connecting block and a second bar connecting block in three directions to form another roof center frame. The first roof bar of the roof center frame hinged to the end block of the corner is connected, and the first roof bar hinged to the slide block of the bridge column of the cross pillar pyramid roof type is supported on the hinge of the first bar connecting block. The second roof bar longer than the length of the first roof bar is connected to the center of the length in the form of "X" to form at least four roof center frames, and the upper dome cap, which is a connecting block at the top center, forms another outer upper end of the roof. The modified rod connecting block cross pyramid roof type using the existing dome cap below can be constructed. The peak of the connecting block and the upper dome cap is two-stage, which makes the inside high and wide and improves the water flow, and the connecting block which is hinged with various rods can fix the pins to fix the rod hinges with fixing bolts for easy maintenance and use. It is preferable to take a block coupling structure using grooves,

In addition, when the modified bar connecting block cross-pyramid roof type is folded, the second bar connecting block and the upper dome cap, which are the upper part of the end block, protrude out in two stages, so that the second roof bar meets at the first bar connecting block to fold straight. In order to allow folding, the first bar of the roof frame, which is folded in the form of "X", adds another hinge function near the end of the side of the second roof bar where the first bar connecting block and the second roof bar meet. The position of the connection point of the first roof bar and the second roof bar of the second bar and the roof center frame is calculated by calculating appropriately to the position other than the center to find the folded portion and fixed in the form of "X". 1 Press the push knob of the slide rod to the second roof bar connected to the bar connecting block to fold the slide rod out of the outer hole of the second roof bar. Another deformed rod connecting block cross applying a folding rod hinge, in which the slide rod is automatically inserted by the elastic spring when the hinged portion is unfolded in a straight line. Pyramid roof shape can be configured, and when the second roof rod is deformed and expanded, the peaks of the end block, the second bar connecting block, and the upper dome cap of the center of the uppermost end are two-stage, making the inside high and wide and improving the water flow. The connecting block hinged with various rods uses a groove for fixing a pin for hinge fixing the rod with a fixing bolt for easy maintenance and use, and as shown in various examples of the canopy house, Column pillar cross-pyramid roof and bar linkages where the X "type connection method is applied to the center of the rod other than the center Rock cross pyramid roof type, modified bar connecting block cross pyramid roof type and another modified bar connecting block cross pyramid roof type, in which the "X" shape connection method of the bar of the roof circumferential frame and the roof center frame is applied to the non center of the bar. The "X" type connection method of the slate (gable) roof type, the ground film (pyramid) roof type, and the roof frame frame's "X" type connection method is applied to the center of the bar. The canopy house structure can be applied to a cross roof type canopy house that is applied to other places and includes a multi-stage canopy that can be installed in two or more steps by adding and extending rods and connecting blocks.