CN213742524U - Archaizing building - Google Patents

Abstract

The application relates to an antique building, which comprises a foundation, a roof, a vertical supporting structure and a horizontal supporting structure, wherein the vertical supporting structure and the horizontal supporting structure are connected between the foundation and the roof; the vertical columns comprise core columns for bearing, the horizontal supporting structure comprises a beam, a first purline, a second purline and a children column, the beam comprises a first lining pipe for bearing, and the first lining pipe is fixedly connected to the top ends of the two core columns in the group of vertical columns; the first purline comprises a second lining pipe, and the second lining pipe is connected to the first lining pipe of the two adjacent beams; the child column comprises an inner column, and the bottom end of the inner column is connected to the top end of the first lining pipe; the second purline is arranged in parallel with the first purline and comprises third lining pipes connected to two columellas on two adjacent groups of upright columns; the core column, the first lining pipe, the second lining pipe, the third lining pipe and the inner support column are all metal pipes. This application has the effect of being convenient for install.

Description

Archaizing building

Technical Field

The application relates to the field of building construction, in particular to an archaized building.

Background

The archaized building is a building which is specially used for imitating and replacing ancient buildings, traditional religious temples, traditional landscapes, historical buildings and ancient village groups and restoring historical landscape general.

In order to ensure the antique performance of buildings, the buildings are usually processed and manufactured by adopting logs, and the building structures are spliced and assembled on site by adopting a mortise-tenon connection mode.

The inventor thinks that although the bearing structure of log material has better archaize performance, the log is easily influenced by factors such as worm-eaten, shrinkage cracking and the like, so that the structural stability and the safety performance of the building are reduced.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the installation archaize building, this application provides an archaize building.

The application provides a archaize building adopts following technical scheme:

an archaized building comprises a foundation, a roof, a vertical supporting structure and a horizontal supporting structure, wherein the vertical supporting structure and the horizontal supporting structure are connected between the foundation and the roof; the vertical columns comprise core columns for bearing, the horizontal supporting structure comprises a girt, the girt comprises a first lining pipe for bearing, and the first lining pipe is fixedly connected to the top ends of the two core columns in one group of vertical columns; the horizontal support further comprises a first purline, a second purline and a children column, the first purline comprises a second lining pipe, and the second lining pipe is fixedly connected to the first lining pipe of the adjacent two beams; the child column comprises an inner vertically arranged column, and the bottom end of the inner column is fixedly connected to the top end of the first inner lining pipe; the second purline is arranged in parallel with the first purline and comprises third lining pipes fixedly connected to two columella bodies on two adjacent groups of upright columns; the core column, the first lining pipe, the second lining pipe, the third lining pipe and the inner support column are all metal pipes.

Through adopting above-mentioned technical scheme, the room lid transmits dead weight and live load for the first purlin and the second purlin of horizontal support. The third lining pipe of the second purline transmits load to the child column, the inner column of the child column transmits load to the small column, the first lining pipe of the small column transmits load to the core column of the upright column, and the core column transmits load to the foundation. Meanwhile, the second lining pipe of the first purline also transmits load to the first lining pipe of the joist. The core column and the first inner lining pipe, the first inner lining pipe and the second inner lining pipe, the first inner lining pipe and the inner support column, and the inner lining column and the third inner lining pipe are made of metal materials, so that the probability of damage by worms and cracking is reduced, and the bearing structure has better durability compared with a bearing structure made of log materials. Moreover, the connecting structure can be connected in a welding and fixing mode, and has the effect of convenience in installation compared with a mortise-tenon connection structure.

Optionally, the stem, the first inner liner pipe, the second inner liner pipe, and the third inner liner pipe are all sleeved with an outer decorative pipe for decoration, and the outer decorative pipe shields the stem, the first inner liner pipe, the second inner liner pipe, or the third inner liner pipe.

By adopting the technical scheme, the exterior trim pipe shields the column and the first inner lining pipe, the first inner lining pipe and the second inner lining pipe, the first inner lining pipe and the inner column, and the inner lining column and the third inner lining pipe. In rainy days, the probability that rainwater directly contacts with the first lining pipe, the second lining pipe, the first lining pipe, the inner support column and the third lining pipe can be reduced, and the corrosion resistance of the bearing structure is further improved. Meanwhile, the outer decorative pipe with the decorative effect can also improve the antique effect.

Optionally, the top ends of the outer decorative tubes of the girth beam, the first purline and the second purline are respectively provided with an insertion hole vertically penetrating through the tube wall of the outer decorative tube, the insertion holes are arranged in parallel with the length direction of the outer decorative tube, and the width of the insertion holes is smaller than the width of the first inner lining tube, the second inner lining tube or the third inner lining tube.

By adopting the technical scheme, after the first inner lining pipe and the second inner lining pipe are fixedly connected, the insertion hole of the outer decorative pipe of the small beam is positioned below the first inner lining pipe, then the first inner lining pipe vertically passes through the insertion hole from bottom to top and is clamped into the outer decorative pipe of the small beam, or the outer decorative pipe of the second purline is conveniently installed after the third inner lining pipe and the inner pillar are fixedly connected.

Optionally, two child columns are symmetrically arranged in the middle of the child column in the length direction of the pavilion beam, the two child columns are fixedly connected with decorative circular beams which are arranged in parallel to the pavilion beam, each decorative circular beam comprises a middle portion located between the two child column outer decorative tubes and two end decorative portions respectively located on two opposite sides of the two child column outer decorative tubes, and the end decorative portions are arranged corresponding to the middle portions.

Through adopting above-mentioned technical scheme, decorate the round beam structure that the round beam can imitate the bearing in the ancient building, end decorations portion can imitate the tenon fourth of the twelve earthly branches between adopting wooden structure in the ancient building to improve the effect modelled after an antique of decorating the round beam, thereby improve the effect modelled after an antique of the ancient building.

Optionally, the first purline is further fixedly connected with an outer cantilever portion, and the outer cantilever portion corresponds to an outer decorative pipe of the roof beam.

Through adopting above-mentioned technical scheme, the department of choosing outward can imitate the tenon fourth of twelve earthly branches between adopting wooden structure in the ancient building to improve the archaize effect of Xuan liang, thereby improve the archaize effect of archaize building.

Optionally, a plurality of purse-string rafters are further arranged between the horizontal supporting structure and the roof and are distributed at intervals along the length direction of the first purlin, each purse-string rafter comprises a decorative rafter and a bearing rafter which are parallel to the length direction of the first purlin and are sequentially distributed at intervals, each decorative rafter is a hollow outer sleeve in a convex arch shape, a keel for supporting a bearing is further fixedly connected into the bearing rafter, and the keel is fixedly connected with the first purlin and the second purlin.

Through adopting above-mentioned technical scheme, the load rafter in the lotus bale rafter passes through fossil fragments and transmits the load of roof to horizontal bearing structure. The decorative rafters are used for separating gaps between two adjacent bearing rafters and simulating wooden purse-string rafters for bearing with small middle distance size of a historic building.

Optionally, still the butt on the basis is decorated the mound, the stem is vertical to be passed and is decorated mound and basis fixed connection, the exterior trim pipe bottom butt of stand is on decorating the mound.

Through adopting above-mentioned technical scheme, compare in the ancient building be used for bed hedgehopping wooden stand's mound piece with less stand damp, the decoration mound in this application is arranged in imitating the mound piece in the ancient building, improves archaizing effect.

Optionally, a gap exists between the stem and the outer decorative tube of the upright post, and the filling layer is formed by filling.

By adopting the technical scheme, the outer decorative pipe of the upright post is sleeved on the core column conveniently in the gap. The filling layer can reduce the probability that the outer decorative pipe of the stand column shakes after the stand column is installed, and the connection performance between the core column and the outer decorative pipe of the stand column is improved.

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

1. the core column, the first lining pipe, the second lining pipe, the third lining pipe and the inner support column which are made of metal materials can improve the durability of the structure, so that the service life of an antique building is prolonged, the core column, the first lining pipe, the second lining pipe, the third lining pipe and the inner support column can be connected in a welding and fixing mode, and compared with a mortise and tenon structure in the antique building, the mortise and tenon structure has the effect of being convenient to install;

2. the decorative round beam can simulate a bearing round beam structure in an ancient building, and the end decorative part can simulate tenon-and-mortise joints among wood structures adopted in the ancient building, so that the antique effect of the decorative round beam is improved, and the antique effect of the antique building is improved;

3. load rafters in the lotus rafters transmit load of the roof to the horizontal supporting structure through the keels, the decoration rafters are used for separating gaps between two adjacent load rafters, and wooden lotus rafters for bearing with small spacing sizes in the middle of the imitation ancient building are used for bearing.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a schematic view of a connection structure of the stem, the first liner tube, the second liner tube, and the third liner tube according to the present application.

Fig. 3 is a schematic view of the horizontal support structure of the present application.

Fig. 4 is a schematic structural diagram of the connection between the upright post and the foundation of the present application.

Fig. 5 is a schematic structural diagram of a node a in the present application.

Fig. 6 is a schematic view of the structure of the applied roof.

Fig. 7 is a schematic structural diagram of a node B of the present application.

Description of reference numerals: 1. a foundation; 101. a concrete cushion layer; 102. a bonding layer; 103. a floor finish layer; 2. a vertical support structure; 201. a stem; 202. a connecting plate; 203. a bolt member; 3. a horizontal support structure; 301. a first liner tube; 302. a second liner tube; 303. a third liner tube; 304. an inner pillar; 4. an outer decorative tube; 5. decorating the pier; 501. pier blocks; 502. a first slot; 503. a second slot; 6. a filling layer; 7. an outward projecting part; 8. decorating the round beam; 801. an intermediate portion; 802. an end decoration part; 9. an object J; 10. an object K; 11. a connecting member; 12. a first plate; 13. a second plate; 14. a load bearing rafter; 1401. a keel; 15. decorating rafters; 16. an object N; 17. an object M; 18. a fixing member; 19. a roof; 1901. a brick watching plate; 1902. a first waterproof layer; 1903. leveling layer; 1904. a second waterproof layer; 1905. a protective layer; 1906. a brick layer; 20. and (7) inserting holes.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses archaize building. Referring to fig. 1 and 2, the archaized building includes a foundation 1, a vertical support structure 2, a horizontal support structure 3, and a roof 19. The foundation 1 comprises a concrete cushion layer 101, an adhesive layer 102 and a floor decoration layer 103 which are sequentially laid on the ground from bottom to top. The ground is tamped.

Vertical support structure 2 is including a plurality of stand groups of parallel distribution in proper order, and every group stand has two, and the stand includes stem 201, and the bottom fixedly connected with horizontally connecting plate 202 of stem 201, connecting plate 202 butt are worn to be equipped with a plurality of bolt pieces 203 on the connecting plate 202 on the concrete bed course 101, and through bolt piece 203, the ground decoration layer 103 and tie coat 102 fixed connection are passed to stem 201 bottom on concrete bed course 101. Bolt member 203 is an expansion bolt.

Referring to fig. 2 and 3, the horizontal support structure 3 includes a first purlin, a joist, a second purlin, and a newel post. The girt comprises a first lining tube 301, the columna comprise an inner column 304 and the second purlin comprises a third lining tube 303.

The joist comprises a first lining pipe 301, and the bottom surfaces of two ends of the first lining pipe 301 are welded and fixed on the top ends of two core columns 201 of a group of uprights. The two ends of the first inner lining pipe 301 are flush with the two opposite sides of the two core columns 201 in the group of columns respectively.

The first purlin is provided with the twice corresponding to the stand, and first purlin includes the interior bushing pipe of second 302, and the distribution direction of the parallel stand group of length direction of the interior bushing pipe of second 302 sets up. The second inner lining pipe 302 is fixedly connected to the top ends of two adjacent first inner lining pipes 301, and may be fixed by welding.

Two child columns are symmetrically arranged in the middle of the length direction of the girt beam, each child column comprises an inner column 304 which is vertically arranged, the bottom end of each inner column 304 is fixedly connected to the middle of the corresponding first lining pipe 301, and the top end of each inner column is connected with a second purline.

A second purlin is disposed parallel to the first purlin and includes a third inner liner tube 303 fixedly attached to the top end of the inner post 304. The inner support 304 may be fixedly connected to the first and third inner liner tubes 301, 303 by welding.

The stem 201, the first liner pipe 301, the second liner pipe 302, the third liner pipe 303, and the inner stem 304 are all galvanized steel pipes. The core column 201 and the first lining pipe 301 are fixed in a welding mode, the first lining pipe 301 and the second lining pipe 302 are fixed in a welding mode, the first lining pipe 301 and the inner support column 304 are fixed in a welding mode, the inner support column 304 and the third lining pipe 303 are fixed in a welding mode, compared with a mortise and tenon structure, the processing steps of mortise and tenon joint blocks are reduced, and therefore installation is facilitated. And the galvanized steel pipe has better corrosion resistance, reduces the probability that the structure for bearing is damaged by worms and is damped and decayed, and ensures that the archaized building has longer service life.

The cross sections of the core column 201, the first lining pipe 301, the second lining pipe 302, the third lining pipe 303 and the inner support column 304 are rectangular, and the rectangular cross sections can increase the contact area between the core column 201 and the first lining pipe 301, between the first lining pipe 301 and the second lining pipe 302, between the inner support column 304 and the first lining pipe 301, between the third lining pipe 303 and the inner support column 304, so that the connection performance between the first lining pipe 301 and the core column 201, between the second lining pipe 302 and the inner support column 304 and between the third lining pipe 303 and the inner support column 304 are improved.

The stem 201, the first inner liner pipe 301, the second inner liner pipe 302, the third inner liner pipe 303 and the inner stem 304 are all sleeved with an outer decorative pipe 4 for decoration. The outer surface of the outer decorative pipe 4 is coated with a coating (not shown) imitating wood grains in advance.

The cross section of the outer decoration pipe 4 is in a circular ring shape, and the cross section of the outer decoration pipe is used for a column structure, a purlin structure or a beam structure of a circular section of an antique building, so that the antique effect is improved. The pipe walls of the exterior trimming pipes 4 of the first interior lining pipe 301, the second interior lining pipe 302 and the third interior lining pipe 303 are vertically provided with inserting holes 20, the inserting holes 20 are arranged in parallel to the length direction of the exterior trimming pipes 4, the inserting holes 20 penetrate through the pipe walls of the exterior trimming pipes 4, and the width dimension of the inserting holes 20 is smaller than that of the first interior lining pipe 301, the second interior lining pipe 302 or the third interior lining pipe 303. The insertion holes 20 facilitate installation of the exterior pipe 4 of the first inner liner pipe 301 after the stem 201 is fixedly connected to the first inner liner pipe 301, facilitate installation of the exterior pipe 4 of the second inner liner pipe 302 after the first inner liner pipe 301 and the second inner liner pipe 302 are fixedly connected, or facilitate installation of the exterior pipe 4 of the third inner liner pipe 303 after the third inner liner pipe 303 is fixedly connected to the inner stem 304.

Referring to fig. 1 and 4, the decorative pier 5 is sleeved on the core column 201, the decorative pier 5 is fixedly connected to the floor decoration layer 103, the decorative pier 5 comprises two semicircular pier blocks 501, a first slot 502 of a through rectangle is vertically formed in the middle of each pier block 501, and one side of the first slot 502 and one side of the pier block 501 facing to the other pier block 501 are arranged in a parallel and level manner. The top ends of the two pier blocks 501 are also provided with semicircular second slots 503, the second slots 503 surround the top ends of the first slots 502, and one side of the second slots is flush with one side of the pier block 501 facing the other pier block 501. When the two pier blocks 501 are spliced, the two first slots 502 are spliced to form insertion holes which vertically penetrate through the decorative pier 5, and the shapes of the insertion holes are matched with the shapes of the core columns 201. The two second slots 503 are spliced to form a circular insertion groove matched with the shape of the upright post outer decoration tube 4, and the insertion groove is in clearance fit with the upright post outer decoration tube 4.

There is the clearance between stem 201 and the exterior trim pipe 4 of stand to the sand forms filling layer 6 in the packing, and the clearance size between the top height of filling layer 6 and the ground finish 103 is not less than 1.5m, makes the stand lower part receive external force when striking can transmit the effort to stem 201 through filling layer 6, reduces the probability of stand exterior trim pipe 4 deformation.

Referring to fig. 1 and 3, the two ends of the small beam are provided with outer cantilever parts 7, and the outer cantilever parts 7 are coaxially arranged corresponding to the outer decorative pipe 4 of the small beam. The outer cantilever part 7 is an aluminum round tube, one end of the outer cantilever part 7, which is far away from the beam, is sealed, and the outer side surface of the outer cantilever part 7 is coated with a coating with wood grain imitation. One end of the overhanging portion 7 is fixedly connected with one side, away from the other first purline, of the outer decoration tube 4 of the first purline, and a connecting node A is formed at the connecting position of the overhanging portion 7 and the outer decoration tube 4 of the first purline.

The decorative round beam 8 is arranged above the small beam in parallel, and the decorative round beam 8 comprises a middle part 801 and an end decoration part 802. The middle part 801 and the end decoration parts 802 are all aluminum round pipes, two ends of the middle part 801 are fixedly connected between two opposite ends of the child post outer decoration pipe 4, two end decoration parts 802 are respectively and fixedly connected to two opposite sides of the two child posts, one end, far away from the child posts, of the end decoration parts 802 is sealed, and coatings with wood texture are coated on the outer surfaces of the middle part 801 and the end decoration parts 802.

The intermediate portion 801 forms a connection node a with a second purlin or a connection location between the end trim portion 802 and the second purlin.

Referring to fig. 3 and 5, the connection node a includes an object J9, an object K10, and a connection member 11 for connecting the object J9 and the object K10.

The connecting piece 11 is formed by splicing a first plate 12 and a second plate 13, the included angle between the first plate 12 and the second plate 13 is 5-175 degrees, and the connecting piece 11 is positioned at the top end of the object K10. Wherein first plate 12 offsets with object J9, and second plate 13 offsets with object K10, all wears to be equipped with self-tapping screw on first plate 12 and the second plate 13, and self-tapping screw on the first plate 12 passes in first plate 12 stretches into object J9, and self-tapping screw on the second plate 13 passes in second plate 13 stretches into object K10. The object J9 may be the exterior trim tube 4 of the second purlin or the exterior trim tube 4 of the first purlin, and the object K10 may be the middle section 801, the end trim section 802, or the overhang section 7. The connecting piece 11 is arranged at the top end of the object K10, so that the object K10 can shield the connecting piece 11, the probability that the connecting piece 11 is directly seen is reduced, and the antique effect is improved.

Referring to fig. 3 and 6, a plurality of bag rafters are arranged between the roof 19 and the horizontal support structure 3, the bag rafters include decorative rafters 15 and bearing rafters 14, the decorative rafters 15 and the bearing rafters 14 are sequentially distributed at intervals, the decorative rafters 15 and the bearing rafters 14 all include hollow outer sleeves, keels 1401 used for transmitting loads are further arranged in the outer sleeves of the bearing rafters 14, the keels 1401 are galvanized steel pipes, the cross sections of the keels 1401 are rectangular, one side face of each keel 1401 abuts against the roof 19, and the other side face of each keel is welded and fixed with a second lining pipe 302 or a third lining pipe 303. The outer sleeve is an aluminum rectangular tube.

A connection node B is formed between the outer sleeve and the second inner liner 302 or the third inner liner 303.

Referring to fig. 3 and 7, the connection node B includes an object N16, an object M17, and a fastener 18 for connecting the object N16 and the object M17. Object N16 may be the second liner tube 302 or the third liner tube 303 and object M17 may be an outer sleeve.

The fixing member 18 includes two plate members joined together in a V-shape. One of the plates abuts against the object N16 and the other plate abuts against the object M17. And self-tapping screws penetrate through the two plates and extend into the object N16 or the object M17, so that the object N16 and the object M17 are connected. The fixing piece 18 is positioned at the top end of the object N16, so that the probability that the fixing piece 18 is directly seen can be reduced, and the antique effect is improved.

Referring to fig. 5 and 6, roof 19 includes a tile viewing plate 1901 abutting against load-bearing rafter 14, a first waterproof layer 1902 laid on the side of tile viewing plate 1901 away from the purse rafter, a leveling layer 1903 laid on tile viewing plate 1901 and shielding first waterproof layer 1902, a second waterproof layer 1904 adhered on the side of leveling layer 1903 away from tile viewing plate 1901, a protective layer 1905 laid on the side of waterproof coiled material away from leveling layer 1903, and a layer 1906 fixedly connected to tile viewing plate 1906.

The self-tapping screws on the brick viewing plate 1901 penetrate through the brick viewing plate 1901 and extend into the outer sleeve, and the self-tapping screws on part of the brick viewing plate extend into the keel 1401 of the bearing rafters 14.

First waterproof layer 1902 is formed by laying a plurality of waterproof acrylic fabrics. The second waterproof layer 1904 is formed by laying waterproof rolls.

The leveling layer 1903 and the protective layer 1905 are both formed by spreading and hardening cement mortar. A steel wire mesh is laid in the protective layer 1905 to improve the strength of the protective layer 1905.

The tile layer 1906 is formed by sequentially overlapping and paving small green bricks, and cement mortar for bonding is paved between the tile layer and the protective layer 1905.

The implementation principle of this application embodiment archaize building does: keel 1401 of stem column 201, first lining pipe 301, second lining pipe 302, third lining pipe 303, inner support column 304 and bearing rafter 14 as archaize building bearing member all adopts galvanized steel pipe structure can adopt the mode of connection to connect, compares in adopting the log material, thereby reduces bearing member receive worm-eaten, the probability of shrinkage cracking, the rotten probability of weing and protecting archaize building's stable in structure performance and security performance. And compare in adopting tenon fourth of twelve earthly branches structure, it is more convenient to adopt welded fastening, and the installation is more quick, can shorten the time limit for a project.

The exterior trim pipe 4 of the stem 201, the first interior liner pipe 301, the second interior liner pipe 302, the third interior liner pipe 303 and the interior pillar 304 can respectively shield the stem 201, the first interior liner pipe 301, the second interior liner pipe 302, the third interior liner pipe 303 or the interior pillar 304, and the wood-like coating outside the exterior trim pipe 4 can improve the antique effect of the stem 201, the first interior liner pipe 301, the second interior liner pipe 302, the third interior liner pipe 303 or the interior pillar 304, and the aftertaste of the antique building is reserved.

The outer cantilever part 7 can improve the simulation of the tenon-and-mortise structure by the small square beams and the upright columns, and the antique effect is improved.

The filling between the stem 201 and the pillar outer pipe 4 can reduce the probability of deformation of the pillar outer pipe 4 when being impacted by external force, and improve the strength of the pillar outer pipe 4.

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 (8)

1. An archaized building, comprising a foundation (1) and a roof (19), characterized in that: the house roof structure is characterized by further comprising a vertical supporting structure (2) and a horizontal supporting structure (3), wherein the vertical supporting structure (2) and the horizontal supporting structure (3) are connected between the foundation (1) and the house roof (19), the vertical supporting structure (2) comprises a plurality of groups of spaced upright columns, and each group of upright columns is provided with two upright columns; the vertical columns comprise core columns (201) used for bearing, the horizontal supporting structure (3) comprises a joist, the joist comprises first lining pipes (301) used for bearing, and the first lining pipes (301) are fixedly connected to the top ends of the two core columns (201) in one group of vertical columns; the horizontal support further comprises a first purline, a second purline and a children column, the first purline comprises a second lining pipe (302), and the second lining pipe (302) is fixedly connected to the first lining pipe (301) of the adjacent two small-section beam; the child column comprises an inner column (304) which is vertically arranged, and the bottom end of the inner column (304) is fixedly connected to the top end of the first lining pipe (301); the second purline is arranged in parallel with the first purline and comprises third lining pipes (303) fixedly connected to two columella bodies on two adjacent groups of upright columns; the core column (201), the first lining pipe (301), the second lining pipe (302), the third lining pipe (303) and the inner support column (304) are all metal pipes.

2. The archaized building of claim 1, wherein: the core column (201), the first inner lining pipe (301), the second inner lining pipe (302) and the third inner lining pipe (303) are all sleeved with an outer decoration pipe (4) for decoration, and the outer decoration pipe (4) shields the core column (201), the first inner lining pipe (301), the second inner lining pipe (302) or the third inner lining pipe (303).

3. The archaized building of claim 2, wherein: plug-in holes (20) vertically penetrating through the pipe walls of the outer decorative pipes (4) are formed in the top ends of the outer decorative pipes (4) of the girth beam, the first purline and the second purline, the plug-in holes (20) are arranged in parallel to the length direction of the outer decorative pipes (4) and are smaller than the width of the first inner lining pipe (301), the second inner lining pipe (302) or the third inner lining pipe (303).

4. The archaized building of claim 2, wherein: the two children columns are symmetrically arranged in the middle of the length direction of the beam, the two children columns are fixedly connected with decorative circular beams (8), the decorative circular beams (8) are arranged in parallel to the beam, each decorative circular beam (8) comprises a middle portion (801) located between the two children column outer decorative tubes (4) and two end decorative portions (802) respectively located on two opposite sides of the two children column outer decorative tubes (4), and the end decorative portions (802) are arranged corresponding to the middle portions (801).

5. The archaized building of claim 1, wherein: the first purline is further fixedly connected with an outer cantilever portion (7), and the outer cantilever portion (7) is arranged corresponding to the outer decorative pipe (4) of the beam.

6. The archaized building of claim 1, wherein: still be provided with a plurality of lotus rafters along the length direction interval distribution of first purlin between horizontal bearing structure (3) and roof (19), the lotus rafter is including decoration rafter (15) and bearing rafter (14) that parallel first purlin length direction interval was arranged in proper order, and decoration rafter (15) are the hollow outer tube of protruding arch form, it is used for supporting fossil fragments (1401) of bearing still fixedly connected with in bearing rafter (14), fossil fragments (1401) and first purlin, second purlin fixed connection.

7. The archaized building of claim 6, wherein: still the butt on basis (1) is in decorating mound (5), stem (201) are vertical to be passed and are decorated mound (5) and basis (1) fixed connection, the butt of outer casing pipe (4) bottom of stand is on decorating mound (5).

8. The archaized building of claim 1, wherein: a gap exists between the stem (201) and the outer decoration tube (4) of the upright post, and a filling layer (6) is filled and formed.

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