Main tower lower cross beam construction system and construction method
阅读说明:本技术 主塔下横梁施工体系及施工方法 (Main tower lower cross beam construction system and construction method ) 是由 焦长青 雷军伟 党文静 魏耀华 王明 于 2019-11-26 设计创作,主要内容包括:本发明提供一种主塔下横梁施工体系及施工方法,主要施工步骤包括:(1)钢管柱、定型化支架、预埋件制作;(2)预埋件安装;(3)承台及塔座浇筑;(4)钢管柱安装;(5)型钢、军用贝雷梁等上部结构施工;(6)牛腿托架安装;(7)定型化附塔套箍吊装固定;(8)焊接方形定型化钢模;(9)浇筑下横梁混凝土;(10)拆除支模体系,该主塔下横梁斜撑支架体系及施工方法支架支撑点设计合理,支架受力平衡性强,支架固定牢固,牛腿托架拆卸方便,受风力、机械作用力影响小,承载力大,无须在水中搭设支架体系,受水流影响小,具有较好的经济技术效益。(The invention provides a main tower lower beam construction system and a construction method, which mainly comprise the following construction steps: (1) manufacturing a steel pipe column, a shaped bracket and an embedded part; (2) installing an embedded part; (3) pouring a bearing platform and a tower seat; (4) installing the steel pipe column; (5) constructing upper structures such as profile steel and military Bailey beams; (6) mounting a bracket; (7) hoisting and fixing the shaped tower-attached ferrule; (8) welding a square shaped steel die; (9) pouring lower beam concrete; (10) the main tower lower beam diagonal bracing support system and the construction method have the advantages that the support supporting point is reasonably designed, the stress balance of the support is strong, the support is fixed firmly, the bracket is convenient to disassemble, the influence of wind force and mechanical acting force is small, the bearing capacity is large, the support system does not need to be erected in water, the influence of water flow is small, and the economic and technical benefits are better.)
1. A construction method of a main tower lower beam construction system is characterized by comprising the following steps:
(1) manufacturing a steel pipe column, a sizing bracket and an embedded part:
spirally rolling an oblique steel pipe column (8) and a vertical steel pipe pile (11) by using steel, wherein a screw through hole is reserved in the oblique steel pipe column (8), a screw cushion block 5 is welded on the oblique steel pipe column (8), and the shaped support (2) is made of profile steel; welding a steel plate (27) and a twisted steel bar (28) into a first embedded part (3), and welding the steel plate (27) and the twisted steel bar (28) into a second embedded part (4);
(2) installing an embedded part:
fixing a first embedded part (3) in the steel bar binding process of a bearing platform (1), fixing a second embedded part (4) in the steel bar binding process of a tower base (9), connecting the bottoms of the first embedded part (3) and the second embedded part (4) with a sizing bracket (2), and binding the sizing bracket (2) with a steel bar cage in the bearing platform (1) and the tower base (9);
(3) pouring a bearing platform and a tower seat:
after the embedded parts are fixed, pouring concrete of a bearing platform (1) and a tower seat (9), arranging an inclined steel pipe column reserved mounting hole (29) in the concrete pouring process of the bearing platform (1), and arranging a vertical steel pipe column reserved mounting hole (30) in the concrete pouring process of the tower seat (9);
(4) installing the steel pipe column:
after the concrete strength of the bearing platform (1) and the tower base (9) meets the design requirement, pouring concrete of the tower column (19), reserving a screw hole during pouring concrete of the tower column (19), inserting the bottom of the vertical steel pipe column (11) into a reserved vertical steel pipe column mounting hole (30) reserved in the tower base (9), and welding the vertical steel pipe column with a second embedded part (4) in the tower base (9); the bottom of the oblique steel pipe column (8) is inserted into a reserved mounting hole (29) of the oblique steel pipe column reserved in the bearing platform (1) and is welded with a first embedded part (3) in the bearing platform (1); after the oblique steel pipe columns (8) and the vertical steel pipe columns (11) are temporarily stabilized through an auxiliary device, I-shaped steel frameworks (7) are welded between the steel pipe columns, one ends of counter-pulling screws (6) are fixed on screw cushion blocks (5), and the other ends of the counter-pulling screws penetrate through reserved screw holes in tower columns (19); a plurality of cuffs (10) are arranged at the upper part of the vertical steel pipe column (11), the vertical steel pipe column (11) is fixedly attached to a tower column (19) through the cuffs (10), and the tightness of the cuffs (10) is adjusted through bolts;
(5) the upper structure construction such as shaped steel, military bailey beam:
the steel pipe column comprises vertical steel pipe columns (11) and oblique steel pipe columns (8), wherein profile steels (20) are arranged on the top sides of the vertical steel pipe columns (11) and the oblique steel pipe columns (8) and serve as cross beams, military Bailey beams (21) are arranged on the profile steels (20) in the longitudinal bridge direction, I25a I-shaped steels (22) are arranged on the military Bailey beams (21) in the transverse bridge direction, longitudinal distribution beams I16I-shaped steels (23) are arranged on the I25a I-shaped steels (22), and sizing templates (24) are arranged on the I16I-;
(6) and (3) mounting a bracket:
the diagonal brace of the bracket (13) adopts double-channel steel, the supporting plate (14) is arranged on the diagonal brace, the sleeve is embedded in the tower column (19) in the pouring process of the tower column (19), after the bracket (13) is lifted to the designed position of the tower column (19) by the tower crane, the bracket (13) is fixed in the embedded sleeve through a high-strength bolt, and then the railing (15) is arranged on the supporting plate (14);
(7) and (3) hoisting and fixing the sizing tower-attached ferrule:
directly hoisting a shaped tower crane attached with a tower hoop (16) on site to the position of a lower beam overhanging section (17) of a tower column (19), closely attaching a transverse bridge direction tower attached hoop plate (33) and a forward bridge direction tower attached hoop plate (35) to the tower column (19), connecting the transverse bridge direction tower attached hoop plate (33) with the tower column (19) by penetrating a transverse bridge direction bolt hole (34) through a transverse bridge direction bolt (18), and connecting the forward bridge direction tower attached hoop plate (35) with the tower column (19) by penetrating a forward bridge direction bolt hole (36) through a forward bridge direction bolt (31);
(8) welding a square shaped steel die:
the template of the lower beam overhanging section (17) adopts a square shaped steel die (32), after the shaped attached tower hoop (16) is fixed on a tower column (19), the square shaped steel die (32) is hung on a supporting plate (14), and the side surface of the square shaped steel die is welded with the shaped attached tower hoop (16);
(9) pouring concrete of the lower cross beam:
after the lower cross beam inclined strut support system and the cantilever section bracket support system are all pre-pressed, lower cross beam concrete pouring is carried out, the lower cross beam cross section (26) concrete is poured for three times, half of the first pouring height, the other half of the second pouring height and the post-cast strip (25) are poured for the third time; the overhanging section (17) of the lower cross beam is poured once, and after concrete pouring is finished and initial setting is finished, water spraying maintenance is started immediately;
(10) removing a formwork system:
after construction is completed, the connecting bolt of the sizing tower attaching hoop (16) and the tower column (19) is unscrewed, the tower attaching hoop plate (35) is rotated along the bridge direction, the square sizing steel die (32) and the integral structure of the sizing tower attaching hoop (16) are disassembled together, the bracket (13) is disassembled, and the hole of the pre-buried sleeve is sealed.
2. The utility model provides a main tower bottom end rail construction system, is used in on the main tower, wherein on cushion cap (1) is arranged in to tower seat (9) of main tower, and tower column (19) are arranged in on tower seat (9), its characterized in that includes: main tower bottom end rail bracing mounting system and main tower bottom end rail section bracket system of encorbelmenting, wherein main tower bottom end rail bracing mounting system includes: a lower cross beam cross section formwork, section steel (20), a military Bailey beam (21), I-shaped steel (22) and a sizing formwork (24); wherein the cross section formwork of the lower cross beam adopts a bearing platform support type floor K-shaped support which is composed of a vertical steel pipe column (11), an oblique steel pipe column (8) and an I-shaped steel skeleton (7), wherein the vertical steel pipe column (11) is supported on a tower base (9), the oblique steel pipe column (8) is supported on the top side of the bearing platform (1), the vertical steel pipe column (11) and the oblique steel pipe column (8) are welded with the I-shaped steel skeleton (7), the oblique steel pipe (8) is connected with a first embedded part (3) on the bearing platform (1), the vertical steel pipe column (11) is connected with a second embedded part (4) on the tower base (9), the upper part of the oblique steel pipe column (8) is fixed with the tower column (19) through a counter-pulling screw rod (6), the upper part of the vertical steel pipe column (11) is fixed with the tower column (19) through a hoop (10), and the steel pipe (20) is arranged on the top sides of the vertical steel pipe column (11) and the oblique steel pipe column (8), the military Bailey beam (21), the I-shaped steel (22) and the sizing template (24) are sequentially arranged on the section steel (20); wherein a lower beam overhanging section (17) formwork of a main tower lower beam overhanging section bracket system is supported by a bracket (13), and the bracket (13) is connected and fixed on the side wall of a tower column (19) by adopting a detachable pre-embedded sleeve high-strength bolt (12); the template of the lower beam overhanging section (17) adopts a square shaped steel die (32), the side surface of the square shaped steel die (32) is connected with a linearly matched shaped tower hoop (16), the shaped tower hoop (16) is hooped on a tower column (19), and the bottom surface of the square shaped steel die (32) is supported on a bracket (13).
3. The main tower lower beam construction system according to claim 2, wherein the first embedded part (3) is formed by welding a steel plate (27) and a threaded steel bar (28), the second embedded part (4) is formed by welding a steel plate (27) and a threaded steel bar (28), the first embedded part (3) and the second embedded part (4) are embedded in the pouring process of the bearing platform (1) and the tower base (9) respectively, the first embedded part (3) and the second embedded part (4) are connected together through a shaping support (2), an inclined steel pipe column reserved mounting hole (29) is reserved in the bearing platform (1), and a vertical steel pipe column reserved mounting hole (30) is reserved in the tower base (9).
4. The main tower lower cross beam construction system according to claim 3, wherein the bottom of the vertical steel pipe column (11) is inserted into a reserved vertical steel pipe column mounting hole (30) reserved in the tower base (9) and welded with a second embedded part (4) in the tower base (9); the bottom of the oblique steel pipe column (8) is inserted into a reserved mounting hole (29) of the oblique steel pipe column reserved in the bearing platform (1) and welded with a first embedded part (3) in the bearing platform (1).
5. The main tower lower beam construction system according to claim 2, wherein a screw rod cushion block (5) is arranged on the oblique steel pipe column (8), a screw rod hole is reserved when the tower column (19) is poured, one end of the opposite-pull screw rod (6) is fixed on the screw rod cushion block (5), and the other end of the opposite-pull screw rod penetrates through the reserved screw rod hole on the tower column (19); the upper part of the vertical steel pipe column (11) is provided with a plurality of cuffs (10), the vertical steel pipe column (11) is fixedly attached to the tower column (19) through the cuffs (10), and the tightness of the cuffs (10) is adjusted through bolts.
6. The main tower lower beam construction system according to claim 2, wherein the steel tube column tops are provided with section steel (20) as the beams, the section steel (20) is provided with military Bailey beams (21) in the longitudinal direction, the military Bailey beams (21) are provided with I25a I-beams (22) in the transverse direction, the I25a I-beams (22) are provided with longitudinal distribution beams I16I-beams (23), and the I16I-beams (23) are provided with sizing templates (24).
7. The main tower lower beam construction system according to claim 2, wherein the detachable embedded sleeve high-strength bolt (12) consists of a sleeve and a high-strength bolt which are embedded in the tower column (19), and the bracket (13) is fixed on the tower column (19) through the high-strength bolt; a supporting plate (14) is arranged on the bracket (13), and a railing (15) is arranged on the supporting plate (14).
8. The main tower lower beam construction system according to claim 2, wherein the shaped tower attaching hoop (16) is composed of a transverse bridge tower attaching hoop plate (33) and a transverse bridge tower attaching hoop plate (35), the transverse bridge tower attaching hoop plate (33) is provided with a plurality of rows of transverse bridge bolt holes (34), the transverse bridge tower attaching hoop plate (35) is provided with a plurality of rows of transverse bridge bolt holes (36), and the transverse bridge tower attaching hoop plate (35) rotates around a rotating shaft (37).
9. A main tower lower beam construction system according to claim 7, wherein the side of the square shaped steel form (32) is welded to the shaped secondary tower hoop (16), and the bottom is supported on the pallet (14).
Technical Field
The invention relates to a construction system and a construction method for a lower cross beam of a main tower, in particular to a construction method for a support system of a lower cross beam with an ultralow and oversized cross section in a large-flow-velocity water area.
Background
The bridge support is the main bearing structure of the construction of the integral cast-in-place continuous box girder, has the advantages of convenient transportation, simple installation and disassembly, good integrity and the like, can be widely applied to the construction of the large-span bridge, and has obvious problem of support collapse in the application. In some areas, the support collapses in the construction process for many times, so that a major liability accident of bridge collapse is caused, immeasurable loss is caused to the life safety of people and national property, and severe social influence is also generated.
A series of bridge support collapse accidents are mainly caused by the following reasons: (1) the support is supported under water, is greatly influenced by water flow and ships, and has a weak foundation. (2) The cast-in-place continuous box girder has large size and large load, the strength of the support is low, and the support collapses due to insufficient bearing capacity. (3) The support supporting point is unreasonable in design, and the side turning is caused by the unbalanced stress of the support. (4) The bracket is not firmly welded and has poor welding quality.
Disclosure of Invention
The invention aims to provide a simple and effective main tower lower cross beam construction system and a construction method which can improve the bearing capacity of a lower cross beam support system, reduce the influence of water flow and wind power and optimize the structural stress characteristics, improve the construction safety, reduce property loss, improve the bearing capacity of the lower cross beam support system, reduce the influence of water flow and wind power and enhance the stability of a support structure system.
The technical scheme provides a construction method of a main tower lower beam construction system, which comprises the following steps:
(1) manufacturing a steel pipe column, a sizing bracket and an embedded part:
spirally rolling an oblique steel pipe column (8) and a vertical steel pipe pile (11) by using steel, wherein a screw through hole is reserved in the oblique steel pipe column (8), a screw cushion block 5 is welded on the oblique steel pipe column (8), and the shaped support (2) is made of profile steel; welding a steel plate (27) and a twisted steel bar (28) into a first embedded part (3), and welding the steel plate (27) and the twisted steel bar (28) into a second embedded part (4);
(2) installing an embedded part:
fixing a first embedded part (3) in the steel bar binding process of a bearing platform (1), fixing a second embedded part (4) in the steel bar binding process of a tower base (9), connecting the bottoms of the first embedded part (3) and the second embedded part (4) with a sizing bracket (2), and binding the sizing bracket (2) with a steel bar cage in the bearing platform (1) and the tower base (9);
(3) pouring a bearing platform and a tower seat:
after the embedded parts are fixed, pouring concrete of a bearing platform (1) and a tower seat (9), arranging an inclined steel pipe column reserved mounting hole (29) in the concrete pouring process of the bearing platform (1), and arranging a vertical steel pipe column reserved mounting hole (30) in the concrete pouring process of the tower seat (9);
(4) installing the steel pipe column:
after the concrete strength of the bearing platform (1) and the tower base (9) meets the design requirement, pouring concrete of the tower column (19), reserving a screw hole during pouring concrete of the tower column (19), inserting the bottom of the vertical steel pipe column (11) into a reserved vertical steel pipe column mounting hole (30) reserved in the tower base (9), and welding the vertical steel pipe column with a second embedded part (4) in the tower base (9); the bottom of the oblique steel pipe column (8) is inserted into a reserved mounting hole (29) of the oblique steel pipe column reserved in the bearing platform (1) and is welded with a first embedded part (3) in the bearing platform (1); after the oblique steel pipe columns (8) and the vertical steel pipe columns (11) are temporarily stabilized through an auxiliary device, I-shaped steel frameworks (7) are welded between the steel pipe columns, one ends of counter-pulling screws (6) are fixed on screw cushion blocks (5), and the other ends of the counter-pulling screws penetrate through reserved screw holes in tower columns (19); a plurality of cuffs (10) are arranged at the upper part of the vertical steel pipe column (11), the vertical steel pipe column (11) is fixedly attached to a tower column (19) through the cuffs (10), and the tightness of the cuffs (10) is adjusted through bolts;
(5) the upper structure construction such as shaped steel, military bailey beam:
the steel pipe column comprises vertical steel pipe columns (11) and oblique steel pipe columns (8), wherein profile steels (20) are arranged on the top sides of the vertical steel pipe columns (11) and the oblique steel pipe columns (8) and serve as cross beams, military Bailey beams (21) are arranged on the profile steels (20) in the longitudinal bridge direction, I25a I-shaped steels (22) are arranged on the military Bailey beams (21) in the transverse bridge direction, longitudinal distribution beams I16I-shaped steels (23) are arranged on the I25a I-shaped steels (22), and sizing templates (24) are arranged on the I16I-;
(6) and (3) mounting a bracket:
the diagonal brace of the bracket (13) adopts double-channel steel, the supporting plate (14) is arranged on the diagonal brace, the sleeve is embedded in the tower column (19) in the pouring process of the tower column (19), after the bracket (13) is lifted to the designed position of the tower column (19) by the tower crane, the bracket (13) is fixed in the embedded sleeve through a high-strength bolt, and then the railing (15) is arranged on the supporting plate (14);
(7) and (3) hoisting and fixing the sizing tower-attached ferrule:
directly hoisting a shaped tower crane attached with a tower hoop (16) on site to the position of a lower beam overhanging section (17) of a tower column (19), closely attaching a transverse bridge direction tower attached hoop plate (33) and a forward bridge direction tower attached hoop plate (35) to the tower column (19), connecting the transverse bridge direction tower attached hoop plate (33) with the tower column (19) by penetrating a transverse bridge direction bolt hole (34) through a transverse bridge direction bolt (18), and connecting the forward bridge direction tower attached hoop plate (35) with the tower column (19) by penetrating a forward bridge direction bolt hole (36) through a forward bridge direction bolt (31);
(8) welding a square shaped steel die:
the template of the lower beam overhanging section (17) adopts a square shaped steel die (32), after the shaped attached tower hoop (16) is fixed on a tower column (19), the square shaped steel die (32) is hung on a supporting plate (14), and the side surface of the square shaped steel die is welded with the shaped attached tower hoop (16);
(9) pouring concrete of the lower cross beam:
after the lower cross beam inclined strut support system and the cantilever section bracket support system are all pre-pressed, lower cross beam concrete pouring is carried out, the lower cross beam cross section (26) concrete is poured for three times, half of the first pouring height, the other half of the second pouring height and the post-cast strip (25) are poured for the third time; the overhanging section (17) of the lower cross beam is poured once, and after concrete pouring is finished and initial setting is finished, water spraying maintenance is started immediately;
(10) removing a formwork system:
after construction is completed, the connecting bolt of the sizing tower attaching hoop (16) and the tower column (19) is unscrewed, the tower attaching hoop plate (35) is rotated along the bridge direction, the square sizing steel die (32) and the integral structure of the sizing tower attaching hoop (16) are disassembled together, the bracket (13) is disassembled, and the hole of the pre-buried sleeve is sealed.
On the other hand, the construction system of the lower beam of the main tower is applied to the main tower, wherein a tower base (9) of the main tower is arranged on a bearing platform (1), and a tower column (19) is arranged on the tower base (9), and is characterized by comprising a main tower lower beam inclined strut bracket system and a main tower lower beam cantilever section bracket system;
wherein, a supporting die of a crossing section of an ultra-large cross section lower cross beam in an inclined supporting bracket system of a lower cross beam of a main tower adopts a bearing platform supporting type floor K-shaped bracket which consists of a vertical steel pipe column (11), an inclined steel pipe column (8) and an I-shaped steel frame (7), the vertical steel pipe column (11) and the inclined steel pipe column (8) are respectively supported at the top sides of a tower base (9) and a bearing platform (1) and are connected with a first embedded part (3) and a second embedded part (4), the first embedded part (3) and the second embedded part (4) are installed and positioned through a regularization bracket (2), the upper part of the inclined steel pipe column (8) is fixed with the tower column (19) in a counter-pulling way through a counter-pulling screw rod (6), the upper part of the vertical steel pipe column (11) is fixed with the steel pipe tower through a hoop (10), section steel (20) is arranged at the top of the vertical column (11) and the inclined steel pipe column (8) as a cross beam, the military Bailey beam (21), the I-steel (22) and the sizing template (24) are sequentially arranged on the section steel (20);
the bracket system of the overhanging section of the lower beam of the main tower comprises an overhanging section (17) of the lower beam, a support die of the overhanging section (17) of the lower beam is supported by a bracket (13), and the bracket (13) is connected and fixed on the side wall of a tower column (19) by adopting a detachable pre-embedded sleeve high-strength bolt (12); the template of the lower beam overhanging section (17) adopts a square shaped steel die (32), the side surface of the square shaped steel die (32) is connected with a linearly matched shaped tower hoop (16), the shaped tower hoop (16) is hooped on a tower column (19), and the bottom surface of the square shaped steel die (32) is supported on a bracket (13).
Compared with the prior art, the technical scheme has the following characteristics and beneficial effects:
1. the lower crossbeam cross-span section formwork provided by the invention adopts a bearing platform support type floor K-shaped support which is supported on the top of a bearing platform of a main tower, a support system does not need to be erected in water, and the influence of water flow is small.
2. The bottom of the steel pipe column provided by the invention is connected with the embedded part, and the embedded part is accurately positioned through the shaped bracket, so that the displacement of the embedded part in the concrete pouring process is effectively reduced, and the mounting and positioning accuracy of the bottom of the steel pipe column is improved.
3. The bracket provided by the invention is connected with the tower column by adopting the detachable embedded sleeve high-strength bolt, the bracket is convenient to install and dismantle, welding is not needed, the workload is small, and the construction efficiency is high.
4. The cantilever section of the lower cross beam provided by the invention is cast by adopting a square shaped steel mould, the steel mould is connected with a shaped tower-attached hoop, the tower-attached hoop is connected with a tower column through a bolt, the cantilever section is cast at one time, after the construction is finished, the square shaped steel mould and the tower-attached hoop are integrally removed, the construction speed is high, and the quality is good.
Drawings
FIG. 1 is a lower cross beam formwork system structure of a main tower of the present invention;
FIG. 2 is a cross-sectional view of a cross-section diagonal brace support system of a lower beam of a main tower according to the present invention;
FIG. 3 is a preformed hole of a bearing platform and a tower seat of the lower beam diagonal bracing support system;
FIG. 4 is a cross-sectional view of a bracket system of a cantilever section of a lower beam of a main tower according to the present invention;
FIG. 5 is a diagram of a stylized stent;
FIG. 6 is a connection diagram of a shaped steel die and a tower-attached ferrule;
FIG. 7 is a composite view of a first embedment and a second embedment.
Wherein: 1-bearing platform, 2-regularization bracket, 3-first embedded part, 4-second embedded part, 5-screw cushion block, 6-split screw, 7-I-steel skeleton, 8-oblique steel pipe column, 9-tower base, 10-hoop, 11-vertical steel pipe column, 12-sleeve high-strength bolt, 13-bracket, 14-supporting plate, 15-railing, 16-tower hoop, 17-lower beam overhanging section, 18-transverse bridge bolt, 19-tower column, 20-section steel, 21-military bailey beam, 22-I25a I-steel, 23-I16I-steel, 24-template, 25-post-cast strip, 26-lower beam, 27-steel plate, 28-reinforcing steel bar, 29-oblique steel pipe reserved mounting hole, The method comprises the following steps of 30-reserving a mounting hole in a vertical steel pipe column, 31-following bridge direction bolts, 32-square shaped steel dies, 33-transverse bridge direction tower-attached hoop plates, 34-transverse bridge direction bolt holes, 35-following bridge direction tower-attached hoop plates, 36-following bridge direction bolt holes and 37-rotating shafts.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.
It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be constructed and operated in a particular orientation and thus are not to be considered limiting.
It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.
The technical requirements of welding between the steel bars and the steel plates, the technical requirements of connection between the hoop and the tower column, the technical requirements of installation of bolts and screws of various types, a concrete pouring process, the connection and welding technology between the section steel and the Bailey beam and between the Bailey beam and the I-shaped steel distribution beam and the like are met, and the invention is not repeated, and the structure implementation mode is mainly explained.
Main tower bottom end rail construction system is used in on the main tower, and wherein the cushion cap is arranged in to the tower of main tower on, and the tower column is arranged in on the tower seat, includes: the main tower lower beam inclined strut bracket system and the main tower lower beam overhanging section bracket system.
As shown in fig. 1 and 5, the main tower lower beam formwork system structure is shown and includes a cushion cap 1, a regularization bracket 2, a first embedded
The method comprises the steps that before concrete of a bearing platform 1 is poured, a first embedded
As shown in fig. 7, the structure diagram of the embedded parts includes steel plates 27 and reinforcing steel bars 28, the first embedded
As shown in fig. 3, the holes reserved in the bearing platform 1 and the
As shown in fig. 1 and 3, in the main tower lower cross beam formwork system structure, the bottom of a vertical
As shown in fig. 1, in the main tower lower beam formwork system structure, a screw hole is reserved when a
As shown in fig. 1 and 2, after a bearing platform supporting type floor K-shaped support structure composed of an inclined steel pipe column 8, a vertical
As shown in fig. 1 and 4, the corbel bracket system structure of the overhanging section of the lower beam of the main tower comprises a bearing platform 1, a
The sleeve high-strength bolt 12 consists of a sleeve and a high-strength bolt, and the sleeve is embedded in the
As shown in fig. 6, the connecting structure of the stereotyped steel die and the tower-attached hoop is characterized in that the stereotyped tower-attached
As shown in fig. 1 and 6, in the bracket system structure of the cantilever section of the lower beam of the main tower, the template of the
The invention also provides a construction method of the main tower lower beam construction system, which is characterized by comprising the following steps:
(1) manufacturing a steel pipe column, a sizing bracket and an embedded part: an oblique steel pipe column 8 and a vertical
(2) Installing an embedded part: the method comprises the steps that a first embedded
(3) Pouring a bearing platform and a tower seat: after the embedded parts are fixed, concrete is poured into the bearing platform 1 and the
(4) Installing the steel pipe column: and after the concrete strength of the bearing platform 1 and the
(5) The upper structure construction such as shaped steel, military bailey beam: the steel tube column top is provided with
(6) And (3) mounting a bracket: the diagonal brace of the
(7) And (3) hoisting and fixing the sizing tower-attached ferrule: the stereotyped tower attaching
(8) Welding a square shaped steel die: the template of the lower
After the shaped tower-attached
(9) Pouring concrete of the lower cross beam: and performing concrete pouring on the lower cross beam after the lower cross beam inclined strut bracket system and the cantilever section bracket system are all pre-pressed. The concrete of the lower cross
(10) Removing a formwork system: after the construction is finished, the connecting bolt of the sizing tower-attached