CN113605744A - Light steel assembled archaizing building - Google Patents

Abstract

The invention discloses a light steel assembly type antique building, and belongs to the technical field of antique building manufacturing. The three-dimensional building block comprises six hexagonally distributed upright columns, wherein the upper ends of the adjacent upright columns are connected with cornice purlin, cornice base plates are arranged at the top ends of the adjacent upright columns and above the cornice purlin, the upright columns and the cornice base plates are connected with a tapering frame, and one end, far away from the upright columns or the cornice base plates, of the tapering frame is detachably connected with a thunder column; the top scraping frame comprises a plurality of upper hanging ridges and a plurality of lower hanging ridges, the upper hanging ridges are located above the lower hanging ridges, the upper hanging ridges and the lower hanging ridges are located on the same vertical surface, a rib adding piece is detachably connected between the upper hanging ridges and the lower hanging ridges, a plurality of transverse purlins are detachably connected between every two adjacent upper hanging ridges, the transverse purlins located at the lowest position are connected with the top side of the eave base plate, and one ends, far away from the thunder column, of the upper hanging ridges and the lower hanging ridges are detachably connected with the stand columns. The pavilion building construction cycle shortening method and system have the effect that the construction cycle of the pavilion building can be effectively shortened.

Description

Light steel assembled archaizing building

Technical Field

The invention relates to the field of ancient building manufacturing, in particular to a light steel assembly type antique building.

Background

The pavilion building is one of ancient building pavilion styles in China, the pavilion comprises a pentagonal pavilion, a hexagonal pavilion, an octagonal pavilion and the like, wherein the hexagonal pavilion building is one of the ancient building pavilion styles in China, and the hexagonal pavilion building is often arranged to serve as decorations and scenic spots during construction of scenic spots or gardens in modern society.

In the related technology, most pavilions are still made of wood materials or concrete materials, and the pavilions made of wood or concrete have the defects of complex process, requirement of construction by professional technicians, easiness in damage and the like, so that the construction time of the whole pavilion building is long, and the efficient installation requirement of the modern society cannot be met.

Based on this, this application provides a light steel assembled archaize building to solve above-mentioned technical problem.

Disclosure of Invention

In order to help improving the efficiency of construction of pavilion building, this application provides a light steel assembled archaize building.

The application provides a light steel assembled archaize building adopts following technical scheme:

a light steel assembly type archaized building comprises six upright columns distributed in a hexagon shape, wherein the upper ends of the adjacent upright columns are connected with an eave purlin, eave backing plates are arranged at the top ends of the adjacent upright columns and above the eave purlin, the upright columns and the eave backing plates are connected with a tapering frame, and one end, far away from the upright columns or the eave backing plates, of the tapering frame is detachably connected with a thunder column; the top scraping frame comprises a plurality of upper hanging ridges and a plurality of lower hanging ridges, the upper hanging ridges are located above the lower hanging ridges, the upper hanging ridges and the lower hanging ridges are located on the same vertical surface, a rib adding piece is detachably connected between the upper hanging ridges and the lower hanging ridges, a plurality of transverse purlins are detachably connected between every two adjacent upper hanging ridges, the transverse purlins located at the lowest position are connected with the top side of the eave base plate, and one ends, far away from the thunder column, of the upper hanging ridges and the lower hanging ridges are detachably connected with the stand columns.

By adopting the technical scheme, the sharpening frame can be hoisted above the stand column after being preassembled on the ground and is connected with the stand column and the sharpening frame, the scheme reduces the operation of the constructor in the air, and can effectively improve the construction efficiency and the construction quality. Meanwhile, the upper hanging ridge, the lower hanging ridge and the rib adding piece determine the connecting positions of all points when prefabricating, common constructors can also quickly assemble the scraping frame and install the scraping frame on the stand column, the construction period of the pavilion building is further shortened, and the construction quality is guaranteed.

Optionally, go up the perpendicular spine and include spine roof beam, son angle beam and old angle beam, the one end and the thunder column of spine roof beam are connected, son angle beam integrated into one piece keeps away from the one end of thunder column at the spine roof beam, old angle beam and son angle beam can be dismantled and be connected, the one end and the stand of the ion angle beam far away from the old angle beam are connected.

Through adopting above-mentioned technical scheme, utilize sub-angle beam to form the outrigger, improved the decoration of pavilion building, sub-angle beam and ridge beam integrated into one piece are favorable to quick installation simultaneously, and old angle beam then plays the effect of further firm sub-angle beam.

Optionally, the both ends of eaves tree are equipped with the eaves tree connecting portion with stand outer wall connection, eaves tree connecting portion extend towards the vertical central line of finishing the sharp frame, the one end of ridge that hangs down is located adjacently between the eaves tree connecting portion, it is adjacent be equipped with eaves tree connecting assembly between the eaves tree connecting portion, eaves tree connecting assembly connects adjacent eaves tree connecting portion and the ridge that hangs down.

Through adopting above-mentioned technical scheme, eaves tree in a tree passes through eaves tree in a tree connecting portion to be fixed on the stand, simultaneously, accessible eaves tree in a tree between the adjacent eaves tree in a tree to do further connection fixed to flagging spine to eaves tree in a tree, simultaneously, accessible eaves tree in a tree, and in a tree, and a tree in an adjacent tree in a tree in an adjacent tree in an.

Optionally, a plurality of dowels are fixed to the top side of the cornice purlin, and a plurality of dowels penetrate through the cornice backing plate.

Through adopting above-mentioned technical scheme, eaves purlin utilizes the dowel to further be connected with the eaves backing plate, has further improved the stability that eaves purlin is connected with the eaves backing plate.

Optionally, the ridge roof beam all adopts C shaped steel with flagging the spine, the opening direction of ridge roof beam and flagging the spine deviates from each other, add the both ends of rib spare and be connected with ridge roof beam and flagging the spine respectively.

Through adopting above-mentioned technical scheme, such setting up makes the fastener can arrange in C shaped steel, reduces the fastener and exposes the phenomenon emergence to follow-up installation of looking into the board.

Optionally, the sub-corner beam and the old corner beam both adopt C-shaped steel, the opening of the sub-corner beam and the opening of the old corner beam deviate from each other, the sub-corner beam and the old corner beam are connected through a fastener, and the sub-corner beam and the old corner beam are in arc extension and the circle centers of the sub-corner beam and the old corner beam are far away from each other.

Through adopting above-mentioned technical scheme, the sight that the pavilion building can be increased to the sub-angle beam, and old angle beam plays the effect of firm sub-angle beam, and the setting of C shaped steel can reduce the exposed phenomenon of fastener simultaneously.

Optionally, both ends of the transverse purlin are fixed with transverse purlin connecting portions, the transverse purlin connecting portions are attached to the side faces of the upper vertical ridges, transverse purlin connecting assemblies are arranged between the upper vertical ridges and the transverse purlin connecting portions, and the transverse purlin connecting portions and the upper vertical ridges on both sides of the upper vertical ridges are connected through the transverse purlin connecting assemblies.

Through adopting above-mentioned technical scheme, utilize horizontal purlin coupling assembling to connect two horizontal purlins and one and go up the crest, and then realize the quick installation of horizontal purlin on last crest, guaranteed the stability of being connected between horizontal purlin and the last crest simultaneously.

Optionally, the stand includes the column casing and wears to locate the post core in the column casing, the column casing is cylindrical setting, the column casing is steel construction column casing, the post core is steel structural framework, the column cap is installed in the top shutoff of column casing.

Through adopting above-mentioned technical scheme, utilize steel structural framework and steel structural column shell as the stand, replaced traditional wood structure, can effectively alleviate its gravity to make it have sufficient structural strength, guarantee to support the frame of scraping the corner effectively. Meanwhile, the upright column made of the steel structure is not easy to corrode and crack, and the service life of the upright column can be effectively prolonged.

Optionally, the top of post crown is fixed with two inserted bars at least, one the inserted bar is vertical to pass the tip of an eaves backing plate, and is adjacent be connected with the locking clamp plate between the inserted bar, the top side at the eaves backing plate of locking clamp plate butt, threaded connection has lock nut on the inserted bar, lock nut and locking clamp plate butt.

Through adopting above-mentioned technical scheme, utilize the inserted bar to fix a position the eaves backing plate, be favorable to installing the eaves backing plate fast, utilize locking clamp plate and lock nut to lock fixedly to adjacent eaves backing plate simultaneously, can effectively improve the stability of eaves backing plate installation to the eaves backing plate can also play the effect of firm adjacent stand, further improves column mouting's stability.

Optionally, a roof boarding is installed on the corner-gathering frame, a whole tile surface is paved on the roof boarding, a roof is installed on the top end of the thunder post, a following beam purlin is connected between the adjacent upright posts and below the eaves purlin, and a hanging part is connected at an angle between the following beam purlin and the upright post.

By adopting the technical scheme, the pavilion building is integrally formed, the tile surface is integrally formed, manpower and materials can be greatly saved, the efficiency of constructors for constructing the pavilion building is improved, the water resistance is high, and the service life of the pavilion building can be effectively prolonged. Meanwhile, vertical level of the pavilion building is richer along with the beam purlin, and hanging down plays a role in stabilizing the beam purlin and improving integral decoration of the pavilion building.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the assembly type connection of the pavilion frames is beneficial to the rapid assembly of the pavilion frames by constructors and the efficiency of the installation of the pavilion frames on the stand columns is improved, and meanwhile, the assembly mode of the pavilion frames reduces the standard of needing professional constructors to lap the pavilion building, so that common constructors can also construct the pavilion building rapidly, and the construction period of the pavilion building is effectively shortened;

2. the lower and upper hanging ridges are connected with the upright post, so that the stability of the scraping frame mounted on the upright post can be effectively improved;

3. the stand column and the pavilion frame made of the steel structure can effectively reduce the whole weight of the pavilion building, ensure the whole stability of the pavilion building, are light in weight, are favorable for installation of constructors, shorten the construction period and reduce the later maintenance work.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a sectional elevation view of the embodiment of the present application, mainly showing a pillar.

Fig. 3 is an explosion diagram mainly showing cornice purlin and cornice pad plates in the embodiment of the present application.

Fig. 4 is an enlarged schematic view of a portion a in fig. 1.

Fig. 5 is a schematic structural diagram of a primary corncolumn connection in an embodiment of the present application.

Description of reference numerals:

1. a hexagonal pavilion base; 2. a column; 21. a column shell; 22. a column core; 23. a crown; 241. inserting a rod; 242. locking the pressing plate; 243. locking the nut; 3. cornice purlin; 31. a dowel pin; 32. a cornice connection; 33. a cornice connecting assembly; 4. an eave backing plate; 5. a sharpening frame; 51. an upper vertical ridge; 511. a ridge beam; 512. a sub-corner beam; 513. old corner beam; 52. a ribbed member; 53. a downward hanging ridge; 54. a fastener; 55. a transverse purlin; 551. a horizontal purlin connecting portion; 552. a horizontal purlin connecting assembly; 6. a Lei Gong post; 7. a treasure top; 8. purlin along the beam; 9. and (5) hanging down.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses light steel assembled archaize building.

Referring to fig. 1, the archaize building includes hexagonal pavilion base 1, and hexagonal pavilion base 1 is last vertically to be fixed with six stand 2 that are the hexagon and distribute, is connected with eaves 3 between the upper end of adjacent stand 2, and eaves backing plate 4 is installed on the top of adjacent stand 2 and the top that is located eaves 3, the tip interconnect of adjacent eaves backing plate 4, and the upper end lateral wall of stand 2 is connected with and collects sharp frame 5, and the one side of collecting sharp frame 5 and keeping away from stand 2 is connected with the thunder post 6 of vertical setting.

Referring to fig. 2, the column 2 includes a column shell 21 and a column core 22 penetrating through the column shell 21, the column shell 21 is in a hollow cylindrical shape, the column shell 21 and the column core 22 are both in a light steel structure, a column crown 23 is installed on the top end of the column shell 21 through a bolt, a part of the column crown 23 penetrates through the column shell 21 and blocks an opening of the column shell 21, the other part of the column crown 23 is flush with the end face of the column shell 21 to block the column shell 21, and the bottom end of the column shell 21 is also provided with the column crown 23 blocking the opening of the column shell 21.

Refer to 2 and fig. 3, the vertical two inserted bars 241 that are fixed with in top side of column crown 23, an inserted bar 241 vertically runs through the tip of an eaves backing plate 4, locking clamp plate 242 is installed to the top side that just is located eaves backing plate 4 between two inserted bars 241, the top threaded connection who lies in locking clamp plate 242 on the inserted bar 241 has lock nut 243, lock nut 243 and the butt of locking clamp plate 242, make a locking clamp plate 242 support the top side of pressing two adjacent eaves backing plates 4, improve the stability of eaves backing plate 4 installation on stand 2, eaves backing plate 4 also plays the effect of strengthening adjacent stand 2 upper end connection stability simultaneously.

Simultaneously, the top side of eaves 3 is equipped with a plurality of dowels 31 along eaves 3's length direction interval, and a plurality of dowels 31 wear to locate in eaves backing plate 4 to further improve the stability that eaves 3 and eaves backing plate 4 are connected.

Referring to fig. 1 and 4, the pavilion frame 5 includes an upper hanging ridge 51, a ribbed member 52 and a lower hanging ridge 53 in sequence from top to bottom, the three are located on the same vertical plane, one end of the upper hanging ridge 51 and one end of the lower hanging ridge 53 are connected with the thunder column 6 through screws, the upper hanging ridge 51 extends in an arc shape, the circle center of the upper hanging ridge 51 deviates from the lower hanging ridge 53, one end of the upper hanging ridge 51 is connected with one side of the column 2 far away from the center of the pavilion, the lower hanging ridge 53 extends in a straight line, one end of the lower hanging ridge 53 is connected with one side of the column 2 close to the center of the pavilion, and two ends of the ribbed member 52 are respectively connected with the upper hanging ridge 51 and the lower hanging ridge 53.

Referring to fig. 1, the upper vertical ridge 51 further includes a ridge beam 511, a sub-corner beam 512 and an old corner beam 513, one end of the ridge beam 511 is connected with the thunder column 6, the sub-corner beam 512 is integrally formed at one end of the ridge beam 511 far away from the thunder column 6, the sub-corner beam 512 extends out of the outer side of the eave padding plate 4 and is upwardly raised, the old corner beam 513 is arranged in an arc shape, the center of the old corner beam is back to the ion corner beam 512, a fastening piece 54 is arranged between the old corner beam 513 and the sub-corner beam 512 and is connected with the old corner beam 512 through the fastening piece 54, and one end of the old corner beam 513 far away from the sub-corner beam 512 is connected with the outer wall of the upright post 2 through the fastening piece 54.

In the embodiment, the sub-angle beam 512 and the old angle beam 513 are made of C-shaped steel, and the opening directions of the sub-angle beam 512 and the old angle beam 513 are deviated from each other. Meanwhile, the old corner beam 513 can be fixed on the outer wall of the upright post 2 by using a bolt, so that the upper vertical ridge 51 is connected with the upright post 2.

Referring to fig. 1 and 4, be connected with a plurality of horizontal purlins 55 between the adjacent ridge 511, the length direction interval distribution of ridge 511 is followed to a plurality of horizontal purlins 55, in this embodiment, horizontal purlin 55 chooses for use the square tube, horizontal purlin 55 is the arc setting, the both ends of horizontal purlin 55 are equipped with horizontal purlin connecting portion 551, horizontal purlin connecting portion 551 and the side laminating of ridge 511, be equipped with horizontal purlin coupling assembling 552 between horizontal purlin connecting portion 551 and the ridge 511, horizontal purlin coupling assembling 552 adopts the screw nut, the screw rod runs through two adjacent horizontal purlin connecting portion 551 and ridge 511, nut and screw rod threaded connection, the head and the nut of screw rod butt respectively the both sides of horizontal purlin connecting portion 551, realize being connected between horizontal purlin 55 and the ridge 511.

In addition, the transverse purlin 55 at the lowest position is abutted against the top side of the eaves cushion plate 4, so that part of the weight of the scraping frame 5 can be supported by the eaves cushion plate 4, and the mounting stability of the scraping frame 5 is further improved.

Referring to fig. 5, cornice 3 adopts C shaped steel, cornice 3's opening is towards the pavilion center, and cornice 3 is fixed with cornice connection portion 32 along length direction's both ends, and cornice connection portion 32 laminates with 2 lateral walls of stand, and cornice connection portion 32 passes through the screw to be connected with 2 lateral walls of stand, and two adjacent cornice connection portions 32 are kept away from towards the direction that deviates from each other after extending one section distance towards the pavilion center. At this time, the drooping ridge 53 is arranged between the two eaves purlin connecting portions 32, the eaves purlin connecting assembly 33 is arranged between the drooping ridge 53 and the two eaves purlin connecting portions 32, the eaves purlin connecting assembly 33 adopts a bolt and a nut, the connection between the drooping ridge 53 and the two eaves purlin connecting portions 32 is achieved through the bolt and the nut, and the mounting stability of the corner frame 5 is further improved.

Referring to fig. 1, after the pavilion frame 5 is installed, a roof boarding (not shown) is installed on the pavilion frame 5, and a whole piece of tile surface (not shown) is laid on the roof boarding, so that the purpose of rain shielding of the pavilion is achieved by using the roof boarding and the whole piece of tile surface. Meanwhile, a jewel top 7 is fixed at the top end of the thunder column 6, a following beam column 8 is connected to the upper end of the adjacent column 2 and is located below the cornice 3, the top side of the following beam column 8 is abutted to the bottom side of the cornice 3, a hanging drop 9 is installed at the corner between the bottom side of the following beam column 8 and the column 2, and the hanging drop 9 plays a role in further stabilizing the following beam column 8 and improving the decoration performance of the pavilion.

The implementation principle of the light steel assembled antique building of the embodiment of the application is as follows: after the hexagonal pavilion base 1 is installed on the ground, the upright post 2 is installed, the upper end of the upright post 2 is sequentially installed with the cornice purlin 3 and the cornice base plate 4, then the sharpening frame 5 is assembled on the ground, then the sharpening frame 5 is hoisted by a crane, constructors connect the sharpening frame 5 and the upright post 2, then components such as a roof panel, a tile surface and a jewel top 7 are installed, and finally the colorful painting is painted, so that the construction of a pavilion building is realized.

This application scheme has reduced the operation that needs constructor to work in the air, can effectively improve the efficiency of construction and improve construction quality, and stand 2 and the frame of scraping the sharp 5 of steel construction making can effectively alleviate the whole weight of pavilion building to guarantee pavilion building's stability, its material is light, is favorable to the constructor to install, shortens construction cycle, and reduces later maintenance work.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a light steel assembled archaize building, is stand (2) that the hexagon distributes including six, and is adjacent the upper end of stand (2) is connected with cornus (3), and is adjacent the top of stand (2) and the top that is located cornus (3) is installed eaves backing plate (4), its characterized in that: a sharpening frame (5) is connected with the upright post (2) and the eave backing plate (4), and one end, far away from the upright post (2) or the eave backing plate (4), of the sharpening frame (5) is detachably connected with a thunder post (6); the scraping frame (5) comprises a plurality of upper hanging ridges (51) and a plurality of lower hanging ridges (53), the upper hanging ridges (51) are located above the lower hanging ridges (53), the upper hanging ridges (51) and the lower hanging ridges (53) are located on the same vertical surface, rib adding pieces (52) are detachably connected between the upper hanging ridges (51) and the lower hanging ridges (53), a plurality of transverse purlins (55) are detachably connected between the adjacent upper hanging ridges (51), the transverse purlins (55) located at the lowermost part are connected with the top side of the eave base plate (4), and one ends, far away from the thunder column (6), of the upper hanging ridges (51) and the lower hanging ridges (53) are detachably connected with the upright columns (2).

2. The light steel fabricated antique building of claim 1, wherein: go up perpendicular spine (51) including spine roof beam (511), sub-angle beam (512) and old angle beam (513), the one end and the thunder column (6) of spine roof beam (511) are connected, sub-angle beam (512) integrated into one piece is kept away from the one end of thunder column (6) at spine roof beam (511), old angle beam (513) can be dismantled with sub-angle beam (512) and be connected, the one end that sub-angle beam (512) was kept away from in old angle beam (513) is connected with stand (2).

3. The light steel fabricated antique building of claim 2, wherein: the both ends of eaves tree (3) are equipped with eaves tree connecting portion (32) with stand (2) outer wall connection, eaves tree connecting portion (32) extend towards the vertical central line of finishing sharp frame (5), the one end of hanging down spine (53) is located adjacently between eaves tree connecting portion (32), adjacent be equipped with eaves tree connecting assembly (33) between eaves tree connecting portion (32), adjacent eaves tree connecting assembly (33) are connected to eaves tree connecting assembly (33) and hang down spine (53).

4. The light steel fabricated antique building of claim 3, wherein: a plurality of dowels (31) are fixed on the top side of the cornice purlin (3), and the dowels (31) penetrate through the cornice backing plate (4).

5. The light steel fabricated antique building of claim 2, wherein: the ridge beam (511) and the downward hanging ridge (53) are both made of C-shaped steel, the opening directions of the ridge beam (511) and the downward hanging ridge (53) are deviated from each other, and two ends of the ribbed piece (52) are respectively connected with the ridge beam (511) and the downward hanging ridge (53).

6. The light steel fabricated antique building of claim 5, wherein: the corner post is characterized in that the corner post (512) and the old corner beam (513) are both made of C-shaped steel, openings of the corner post (512) and the old corner beam (513) deviate from each other, the corner post (512) and the old corner beam (513) are connected through a fastener (54), the corner post (512) and the old corner beam (513) extend in an arc shape, and the circle centers of the corner post (512) and the old corner beam (513) are far away from each other.

7. The light steel fabricated antique building of claim 5, wherein: both ends of horizontal purlin (55) are fixed with horizontal purlin connecting portion (551), horizontal purlin connecting portion (551) and the side laminating of last crest (51), it is equipped with horizontal purlin coupling assembling (552) to go up between crest (51) and horizontal purlin connecting portion (551), horizontal purlin connecting portion (551) and the last crest (51) of crest (51) both sides are connected to horizontal purlin coupling assembling (552).

8. The light steel fabricated antique building of claim 1, wherein: the column (2) comprises a column shell (21) and a column core (22) arranged in the column shell (21) in a penetrating mode, the column shell (21) is cylindrical, the column shell (21) is a steel structure column shell (21), the column core (22) is a steel structure frame, and a column crown (23) is installed on the top end of the column shell (21) in a sealing mode.

9. The light steel fabricated antique building of claim 8, wherein: the top of post crown (23) is fixed with two inserted bars (241) at least, one inserted bar (241) vertically pass the tip of an eaves backing plate (4), and is adjacent be connected with locking clamp plate (242) between inserted bar (241), locking clamp plate (242) butt is at the top side of eaves backing plate (4), threaded connection has lock nut (243) on inserted bar (241), lock nut (243) and locking clamp plate (242) butt.

10. The light steel fabricated antique building of claim 1, wherein: the novel combined type ship wall is characterized in that a roof boarding is installed on the corner-gathering frame (5), a whole tile surface is paved on the roof boarding, a treasure top (7) is installed on the top end of the thunder post (6), a square column (8) is connected between the adjacent upright posts (2) and below the eaves (3), and a hanging drop (9) is connected at an included angle between the square column (8) and the upright posts (2).

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