CN114876239A - Closed protection dismantling system for high-altitude cantilever structure and construction method thereof - Google Patents
Closed protection dismantling system for high-altitude cantilever structure and construction method thereof Download PDFInfo
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- CN114876239A CN114876239A CN202210507473.5A CN202210507473A CN114876239A CN 114876239 A CN114876239 A CN 114876239A CN 202210507473 A CN202210507473 A CN 202210507473A CN 114876239 A CN114876239 A CN 114876239A
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G23/00—Working measures on existing buildings
- E04G23/08—Wrecking of buildings
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G21/00—Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
- E04G21/32—Safety or protective measures for persons during the construction of buildings
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G21/00—Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
- E04G21/32—Safety or protective measures for persons during the construction of buildings
- E04G21/3204—Safety or protective measures for persons during the construction of buildings against falling down
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- G—PHYSICS
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Abstract
The invention discloses a closed protection dismantling system of an overhead cantilever structure and a construction method thereof, wherein the closed protection dismantling system comprises a sliding rail, a closed protective cover and an assembling platform, the sliding rail is laid on the top of a main structure and the top of the cantilever structure, the closed protective cover is slidably nested on the outer side of the cantilever structure and seals the cantilever structure, a cover body is formed by assembling a roof shoulder pole beam, a truss platform, a tie hanging column and a packaging plate in a segmented mode, a plurality of groups of hydraulic crawlers are arranged between the cover body and the sliding rail, the assembling platform is correspondingly erected on the main structure below the truss platform, and the tail end of the assembling platform extends out of the outer vertical face of the main structure and is arranged in a cantilever state. The invention fully practices the principle of 'protection first and then dismantling', gradually dismantles the cantilever structure from the far end to the near end by matching the closed protective cover with the accumulation pushing sliding system, realizes the closed construction and the top-down construction dismantling of the cantilever structure, improves the dismantling efficiency of the cantilever structure and ensures the safety of high-altitude construction operation.
Description
Technical Field
The invention relates to the technical field of building transformation construction, in particular to a closed protection dismantling system of a high-altitude overhanging structure and a construction method thereof.
Background
In order to make the building shape more beautiful, the buildings with multiple steel structures are provided with overhanging structures. However, as the life span of the building increases, the safety of the cantilever structure is lowered, and at this time, in order to ensure the safety of the main structure of the building, the cantilever structure needs to be dismantled and modified. For the building with lower floor height, the construction can be usually dismantled by adopting the mode of erecting a scaffold and matching a tower crane. However, for the higher building of floor height, the scaffold is because set up the height and too high no longer be suitable for, in order not to influence the normal operation of the structure below floor of encorbelmenting, how to accomplish the technical problem who urgently needs to solve under the prerequisite that lacks scaffold support protection.
Disclosure of Invention
The invention aims to provide a closed protection dismantling system of a high-altitude cantilever structure and a construction method thereof, so as to solve the technical problems in the background technology.
In order to achieve the technical purpose, the invention adopts the following technical scheme:
the utility model provides a high altitude structure of encorbelmenting seals protection and demolishs system for demolish the structure of encorbelmenting at major structure top, including the track that slides, seal protection casing and assembly platform, the track that slides is equipped with a plurality of roots that are parallel to each other, and a plurality of root track intervals that slide set up and lay on the braced truss at major structure and structure top of encorbelmenting along the direction of penetration, seal protection casing slip nestification including the structure of encorbelmenting outside and seal the structure of encorbelmenting, its cover body is formed by roofing spreader beam, truss platform, drawstring davit and encapsulation plate segmentation assembly, and is equipped with a plurality of groups hydraulic pressure crawlers between its cover body and the track of sliding, roofing spreader beam slidable mounting is at the track top of sliding, and its beam body direction of setting is mutually perpendicular with the track extending direction, and its beam body end extends to outside the structure of encorbelmenting, the truss platform suspends in midair below the structure, and its both ends extend to outside the structure of encorbelmenting, the drawknot davit corresponds the setting in the structure outside of encorbelmenting and with roofing shoulder pole roof beam and truss platform fixed linking to each other, the encapsulation plate is inserted and is established between the drawknot davit and will be encorbelmented structure outside space closed tightly, the assembly platform corresponds to be set up on the major structure of truss platform below, and its end extends to and be the state setting of encorbelmenting outside the outer facade of major structure.
Preferably, the closed protection dismantling system further comprises an unloading platform, a winch, a monorail crane and a transferring platform which are matched with the tower crane to work, wherein the unloading platform is erected at the top of the main structure at the inner side end of the sliding track, an unloading channel communicated with the indoor space of the main structure is formed in the platform, the winch is used as an indoor vertical conveying mechanism for dismantling the component, a machine body of the winch is installed at the inner side end of the sliding track, a steel wire rope wound on a winding drum of the winch extends forwards along a horizontal guide wheel above the sliding track and hangs downwards after bypassing a vertical guide wheel at the outer section of the sliding track, a lifting hook is arranged at the bottom end of the steel wire rope, the monorail crane is used as an indoor horizontal conveying mechanism for dismantling the component, the machine body of the monorail crane is slidably installed on a track beam of a truss at the bottom of the overhanging structure, and the transferring platform is correspondingly arranged at the outer vertical face of the main structure below the inner side end of the track beam, and the platform space is communicated with the indoor space of the main structure.
Preferably, for the bearing capacity that improves the assembly platform, the assembly platform adopts truss structure's structural style, and the bed-jig that is used for assembling the truss platform is placed at its platform top, and is provided with jacking cylinder between the bed-jig.
Preferably, for the construction safety of construction platform is guaranteed simultaneously to the easy to assemble construction platform, the major structure department of construction platform below has set up the protection platform, the protection platform end extends to and is the state setting of encorbelmenting outside the outer facade of major structure.
Preferably, for guaranteeing constructor safety, the major structure is parallel to the orbital both sides border department of sliding with the structure of encorbelmenting and is provided with interim banding enclosure, interim banding enclosure will slide the orbital and the platform of unloading face limit position enclosure and seal.
Preferably, in order to avoid the spattering of sparks during the high-altitude welding operation, the tie hanging column is connected with the roof shoulder pole beam and the truss platform through the high-strength bolt.
Preferably, the roof shoulder pole beam arranged on the outermost side of the closed protective cover is of a double-beam structure, and a notch for inserting the tie hanging column is reserved between the double beams.
Preferably, the tie hanging columns are made of I-shaped steel, the top of the flange of each tie hanging column is arranged to be in a horn mouth shape so as to facilitate insertion of a packaging plate, the wing plates of the tie hanging columns are parallel to the outer vertical surfaces of the closed protective covers, the packaging plate outside the cornice of the cantilever structure is correspondingly inserted into the abdominal cavities of two adjacent tie hanging columns and connected with the wing plates of the tie hanging columns through the code pieces and the high-strength bolts, the T-shaped plates are welded and fixed at the wing plates outside the tie hanging columns on two sides of the cantilever structure, the T-shaped plates and the tie hanging columns on the corresponding positions form a king-shaped rod piece, and the packaging plate on two sides of the cantilever structure is correspondingly inserted into the notches outside the two adjacent king-shaped rod pieces and connected with the wing plates of the tie hanging columns through the code pieces and the high-strength bolts.
Preferably, the hydraulic crawlers are connected with a hydraulic pump source system, the fixed ends of the hydraulic crawlers are clamped on the sliding tracks, the telescopic ends of the hydraulic crawlers are bolted on the roof shoulder pole beam, the rod bodies of the hydraulic crawlers are provided with pressure sensors and stroke sensors, and all the hydraulic crawlers realize synchronous pushing through a computer control system.
In addition, the invention also provides a construction method of the high-altitude overhanging structure closed protection dismantling system, which comprises the following steps:
establishing a main body structure model and an overhanging structure model through finite element software and carrying out simulation calculation;
step two, removing a redundant structure of the cantilever structure according to the calculation result of the step one and reinforcing the cantilever structure;
step three, installing a temporary edge sealing enclosure, constructing a support truss as a paving platform of a sliding track, paving the sliding track on a horizontal plane at the top of the support truss, erecting an unloading platform at the main structure roof at the tail end of the sliding track, and erecting an assembling platform at the floor below the cantilever structure;
dismantling a part of curtain wall at the lower side of the cantilever structure, and installing a monorail crane as a truss platform rod piece hoisting mechanism at the cantilever structure above the splicing platform along the direction of the gap;
step five, respectively assembling a roof shoulder pole beam and a truss platform of the first section of closed protective cover at the top of the supporting truss and the assembling platform, after assembling, installing the tie hanging columns and the packaging plates in place through a tower crane, starting a jacking oil cylinder after the installation in place, drawing out a jig frame at the top of the assembling platform after the truss platform is suspended, and controlling the jacking oil cylinder to fall back and reset after the drawing out;
step six, starting the hydraulic crawlers, and controlling the hydraulic crawlers to synchronously push the first section of closed protective cover outwards by the distance of a section of closed protective cover through the computer control system;
step seven, after the pushing is finished, laying a jig frame on the top of the assembling platform again, assembling a next section of closed protective cover at the inner side end of the upper section of closed protective cover, and pushing all the assembled closed protective covers outwards for a distance of a section of closed protective cover;
step eight, repeating the step eight until all the sections of the closed protective covers are pushed to be in place;
sequentially hoisting a drawknot hanging column and a packaging plate between a roof shoulder pole beam and a truss platform of the first section of the closed protective cover outside the cornice of the cantilever structure to complete the installation of the whole closed protective cover;
step ten, setting up a transfer platform, dismantling a part of curtain wall at the lower side of the cantilever structure, and installing a monorail crane at the bottom of the cantilever structure along the depth direction to serve as a horizontal hoisting mechanism of a rod piece to be dismantled;
step eleven, installing a winch at the inner side end of the sliding rail, and enabling a steel wire rope wound on a winding drum of the winch to extend forwards along a horizontal guide wheel above the sliding rail and to hang downwards after bypassing a vertical guide wheel at the outer section of the sliding rail to serve as a vertical hoisting mechanism of the rod piece to be dismantled;
step twelve, breaking and dismantling the overhanging structure section by section from the eaves of the overhanging structure, conveying the dismantling component to a transfer platform through a winch and a monorail crane, transferring the dismantling component to a discharge platform or the ground through a discharge channel matched with a tower crane, or directly transferring the dismantling component to the ground through an indoor vertical ladder;
step thirteen, after the dismantling length of the cantilever structure reaches the length of a section of closed protective cover, pushing the closed protective cover inwards for the distance of the section of closed protective cover and dismantling the pushed section of closed protective cover;
fourteen, moving the vertical guide wheels inwards to a proper position, and cutting off the sliding tracks with redundant length;
fifteenth, repeating the thirteenth to fifteenth steps until the last section of cantilever structure to be broken is left;
sixthly, breaking and dismantling the last section of overhanging structure after dismantling the last section of closed protective cover;
seventhly, dismantling the assembling platform to complete the breaking and dismantling process of the whole cantilever structure.
Compared with the prior art, the invention has the beneficial effects that: the invention fully practices the principle of 'protection first and then dismantling', gradually dismantles the cantilever structure from the far end to the near end by matching the closed protective cover with the accumulation pushing sliding system, realizes the closed construction and the top-down construction dismantling of the cantilever structure, improves the dismantling efficiency of the cantilever structure and ensures the safety of high-altitude construction operation.
Drawings
The above and/or other aspects and advantages of the present invention will become more apparent and more readily appreciated from the detailed description taken in conjunction with the following drawings, which are meant to be illustrative, not limiting of the invention, and in which:
FIG. 1 is a schematic structural diagram of a closed protection dismantling system for a high-altitude overhanging structure, which is related by the invention;
FIG. 2 is a schematic structural diagram of a hydraulic crawler of a closed protection dismantling system for an aerial cantilever structure according to the present invention;
FIG. 3 is a schematic cross-sectional structure view of a high-altitude cantilever structure closed protection dismantling system according to the present invention, along the cantilever structure bay direction;
FIG. 4 is a schematic view of an assembly relationship between a high-altitude cantilever structure closed protection dismantling system and a cantilever structure according to the present invention;
FIG. 5 is a construction flow schematic diagram of a construction method of a high-altitude cantilever structure closed protection dismantling system related to the invention.
Reference numerals: 1-main structure, 2-cantilever structure, 3-assembly platform, 4-protection platform, 5-supporting truss, 6-sliding track, 7-closed protection cover, 701-roof carrying pole beam, 702-truss platform, 703-tie hoisting post, 704-packaging plate, 8-hydraulic crawler, 9-unloading platform, 10-unloading channel, 11-winch, 12-monorail crane, 13-transfer platform and 14-temporary edge sealing enclosure.
Detailed Description
Hereinafter, embodiments of a high-altitude overhanging structure closed protection demolition system and a construction method thereof according to the present invention will be described with reference to the accompanying drawings. The examples described herein are specific embodiments of the present invention, are intended to be illustrative and exemplary in nature, and are not to be construed as limiting the scope of the invention. In addition to the embodiments described herein, those skilled in the art will be able to employ other technical solutions which are obvious based on the disclosure of the claims and the specification of the present application, and these technical solutions include technical solutions which make any obvious replacement or modification for the embodiments described herein.
In the description of the present invention, it should be noted that the terms "front", "back", "top", "bottom", "upper", "lower", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
The drawings in the present specification are schematic views to assist in explaining the concept of the present invention, and schematically show the shapes of respective portions and their mutual relationships. It is noted that the drawings are not necessarily to the same scale so as to clearly illustrate the structures of the various elements of the embodiments of the invention. Like reference numerals are used to denote like parts.
The principles and features of this invention are described below in conjunction with the following drawings, which are set forth to illustrate, but are not to be construed to limit the scope of the invention. Preferred embodiments of the present invention are described in further detail below with reference to FIGS. 1-5:
as shown in fig. 1-4, the closed protection dismantling system for high-altitude overhanging structure of the invention is used for dismantling an overhanging structure 2 at the top of a main structure 1, and comprises a sliding track 6, a closed protection cover 7, an assembling platform 3, a protection platform 4, a discharging platform 9, a windlass 11, a monorail crane 12 and a transferring platform 14, wherein the sliding track 6 is provided with a plurality of mutually parallel sliding tracks 6, the sliding tracks 6 are arranged at intervals and are laid on a support truss 5 at the top of the main structure 1 and the overhanging structure 2 along the depth direction, the support truss 5 is connected with an upper chord of an original structure truss through a support short column, the support beam of the top track is positioned on the same horizontal plane, the closed protection cover 7 is slidably nested at the outer side of the overhanging structure 2 and encloses the overhanging structure 2, and the cover body is formed by assembling a roof stretcher beam 701, a truss platform 702, a drawknot lifting column 703 and a packaging plate 704 in sections, and a plurality of groups of hydraulic crawlers 8 are arranged between the cover body and the sliding track 6, the roof carrying pole beam 701 is slidably arranged at the top of the sliding track 6, the arrangement direction of the beam body is vertical to the extension direction of the sliding track 6, the tail end of the beam body extends out of the overhanging structure 2, the roof carrying pole beam 701 arranged at the outermost side of the closed protective cover 7 is of a double-beam structure, a notch for inserting a tie hoisting pole 703 is reserved between the double beams, the truss platform 702 is suspended below the overhanging structure 2, and the two ends of the truss platform extend out of the overhanging structure 2, the tie hoisting pole 703 is correspondingly arranged at the outer side of the overhanging structure 2 and is connected with the roof carrying pole beam 701 and the truss platform 702 through a high-strength bolt, the packaging plate block 704 is inserted between the tie hoisting poles 703 and seals the space at the outer side of the overhanging structure 2 tightly, in order to improve the stability of the frame structure of the closed protective cover 7 and facilitate the high-altitude hoisting of the packaging plate block 704, the tying hanging columns 703 are made of I-shaped steel, the tops of the flanges of the tying hanging columns 703 are arranged into a horn mouth shape, the wing plates of the tying hanging columns are parallel to the outer vertical surface of the closed protective cover 7, the packaging plate blocks 704 on the outer sides of the cornices of the overhanging structure 2 are correspondingly inserted into the abdominal cavities of the two adjacent tying hanging columns 703 and are connected with the wing plates of the tying hanging columns 703 through the code pieces and the high-strength bolts, T-shaped plates are welded and fixed on the wing plates on the outer sides of the tying hanging columns 703 on the two sides of the overhanging structure 2, the T-shaped plates and the tying hanging columns 703 on the corresponding positions form a king-shaped rod piece, and the packaging plate blocks 704 on the two sides of the overhanging structure 2 are correspondingly inserted into the grooves on the outer sides of the two adjacent king-shaped rod pieces and are connected with the wing plates 703 of the tying hanging columns through the code pieces and the high-strength bolts;
as shown in fig. 2, the hydraulic crawlers 8 are connected to a hydraulic pump source system, the fixed ends of the hydraulic crawlers are clamped on the sliding rails 6, the telescopic ends of the hydraulic crawlers are bolted to the roof shoulder pole beam 701, the rod bodies of the hydraulic crawlers are provided with pressure sensors and stroke sensors, and all the hydraulic crawlers 8 realize synchronous pushing through a computer control system;
the assembling platform 3 is correspondingly arranged on the main structure 1 below the truss platform 702, the tail end of the assembling platform extends out of the outer vertical face of the main structure 1 and is arranged in an overhanging state, in order to improve the bearing capacity of the assembling platform 3, the assembling platform 3 adopts a truss structure form, a jig frame used for assembling the truss platform 702 is arranged at the top of the platform, a jacking oil cylinder is arranged between the jig frames, in order to realize the installation and protection of the assembling platform 3, a protection platform 4 is arranged at a floor below the assembling platform 3, and the tail end of the protection platform 4 extends out of the outer vertical face of the main structure 1 and is arranged in an overhanging state;
as shown in fig. 1, the unloading platform 9 is erected on the top of the main structure 1 at the inner side end of the sliding rail 6 and works in cooperation with a tower crane, the platform is provided with a discharge passage 10 communicated with the indoor space of the main body structure 1, the winch 11 is used as an indoor vertical transportation mechanism for dismantling components, the machine body is arranged at the inner side end of the sliding track 6, the steel wire rope wound on the winding drum extends forwards along the horizontal guide wheel above the sliding track 6 and hangs downwards after passing through the vertical guide wheel at the outer section of the sliding track 6, and the bottom end of the steel wire rope is provided with a lifting hook, the monorail crane 12 is used as an indoor horizontal transportation mechanism for dismantling the component, the machine body is arranged on a track beam of a truss at the bottom of the cantilever structure 2 in a sliding manner, the transfer platform 14 is correspondingly arranged at the outer vertical surface of the main structure 1 below the inner side end of the track beam, and the platform space of the transfer platform is communicated with the indoor space of the main structure 1;
in order to ensure the safety of the high-altitude operation personnel, temporary edge sealing enclosures 14 are arranged at the edges of the two sides of the main structure 1 and the overhanging structure 2, which are parallel to the sliding track 6, and the temporary edge sealing enclosures 14 enclose and seal the sliding track 6 and the edge-facing position of the discharging platform 9.
As shown in fig. 5, the invention also provides a construction method of the high-altitude cantilever structure closed protection dismantling system, which comprises the following steps:
establishing models of a main body structure 1 and an overhanging structure 2 through finite element software and carrying out simulation calculation;
step two, removing the redundant structure of the cantilever structure 2 according to the calculation result of the step one and reinforcing the cantilever structure 2;
step three, installing a temporary edge sealing enclosure 14, building a support truss 5, laying a sliding track 6 and building a discharging platform 9 and an assembling platform 3;
fourthly, dismantling a part of curtain wall at the lower side of the cantilever structure 2, and installing a monorail crane 12 at the cantilever structure 2 above the splicing platform 3 along the bay direction to serve as a truss platform 702 rod hoisting mechanism;
step five, respectively assembling a roof shoulder pole beam 701 and a truss platform 702 of a first section of closed protective cover 7 at the top of the support truss 5 and the assembly platform 3, after the assembly is finished, installing a tie lifting column 703 and a packaging plate 704 in place through a tower crane, starting a jacking oil cylinder after the installation in place, drawing out a jig frame at the top of the assembly platform 3 after the truss platform 702 is suspended, and controlling the jacking oil cylinder to fall back and reset after the drawing out;
step six, starting the hydraulic crawlers 8, and controlling the hydraulic crawlers 8 to synchronously push the first section of closed protective cover 7 outwards by the distance of the first section of closed protective cover 7 through the computer control system;
step seven, after the pushing is finished, laying the jig frame again, assembling the next section of closed protective cover 7 at the inner side end of the last section of closed protective cover 7, and pushing all the assembled closed protective covers 7 outwards by the distance of one section of closed protective cover 7;
step eight, repeating the step eight until all the sections of the closed protective covers 7 are pushed to be in place;
sequentially hoisting tie hanging posts 703 and a packaging plate 704 between a roof shoulder pole beam 701 and a truss platform 702 of the first section of the closed protective cover 7 outside the cornice of the cantilever structure 2 to complete the installation of the whole closed protective cover 7;
step ten, setting up a transfer platform 14, dismantling a part of curtain wall at the lower side of the cantilever structure 2, and installing a monorail crane 12 at the bottom of the cantilever structure 2 along the depth direction to serve as a horizontal hoisting mechanism of a rod piece to be dismantled;
step eleven, installing a winch 11 at the inner side end of the sliding rail 6, and enabling a steel wire rope wound on a winding drum of the winch to extend forwards along a horizontal guide wheel above the sliding rail 6, and to hang downwards after bypassing a vertical guide wheel at the outer section of the sliding rail 6 to serve as a vertical hoisting mechanism of a rod piece to be dismantled;
step twelve, breaking and dismantling the overhanging structure 2 section by section from the cornice of the overhanging structure 2, conveying the dismantled component to a transfer platform 14 through a winch 11 and a monorail crane 12, transferring the dismantled component to a discharge platform 9 or the ground through a discharge channel 10 matched with a tower crane, or directly transferring the dismantled component to the ground through an indoor vertical ladder;
step thirteen, after the dismantling length of the cantilever structure 2 reaches the length of a section of the closed protective cover 7, pushing the closed protective cover 7 inwards by the distance of the section of the closed protective cover 7 and dismantling the pushed-back closed protective cover 7;
fourteen, moving the vertical guide wheels inwards to a proper position, and cutting off the sliding tracks 6 with redundant length;
fifteenth, repeating the thirteenth to fifteenth steps until the last section of the cantilever structure 2 to be broken and disassembled remains;
sixthly, the last section of the cantilever structure 2 is broken and dismantled after the last section of the closed protective cover 7 is dismantled;
seventhly, dismantling the assembling platform 3 to complete the dismantling process of the whole cantilever structure 2.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (10)
1. The utility model provides a system is demolishd in structure closed protection of encorbelmenting in high altitude for demolish major structure (1) top encorbelment structure (2), its characterized in that: comprises a sliding track (6), a closed protective cover (7) and an assembling platform (3), wherein the sliding track (6) is provided with a plurality of mutually parallel rails, the sliding tracks (6) are arranged at intervals and are laid on a supporting truss (5) at the top of a main structure (1) and an overhanging structure (2) along the depth direction, the closed protective cover (7) is nested in the outer side of the overhanging structure (2) in a sliding way and seals the overhanging structure (2), a cover body is formed by assembling a roof shoulder pole beam (701), a truss platform (702), a pull lifting column (703) and a packaging plate block (704) in a subsection way, a plurality of groups of hydraulic traveling devices (8) are arranged between the cover body and the sliding track (6), the roof shoulder pole beam (701) is slidably arranged at the top of the sliding track (6), the beam body setting direction is mutually vertical to the extending direction of the sliding track (6), and the tail end of the beam body extends out of the overhanging structure (2), truss platform (702) suspend in midair structure (2) below of encorbelmenting, and its both ends extend to structure (2) of encorbelmenting outside, drawknot davit (703) correspond to set up in structure (2) outside of encorbelmenting and with roofing shoulder pole roof beam (701) and truss platform (702) fixed linking to each other, encapsulation plate (704) are inserted and are established between drawknot davit (703) and will be encorbelmented structure (2) outside space closure tight, assemble platform (3) and correspond to set up on major structure (1) of truss platform (702) below, and its end extends to major structure (1) outer facade and be the state setting of encorbelmenting outside.
2. The high-altitude overhanging structure closed protection dismantling system according to claim 1, characterized in that: the closed protection dismantling system further comprises a discharging platform (9), a winch (11), a monorail crane (12) and a transferring platform (13), wherein the discharging platform (9) is matched with the tower crane to work, the discharging platform (9) is erected at the top of the main structure (1) at the inner side end of the sliding track (6), a discharging channel (10) communicated with the indoor space of the main structure (1) is formed in the platform, the winch (11) is used as an indoor vertical conveying mechanism for dismantling components, a machine body of the winch is installed at the inner side end of the sliding track (6), a steel wire rope wound on a winding drum of the winch extends forwards along a horizontal guide wheel above the sliding track (6) and hangs downwards after bypassing a vertical guide wheel at the outer section of the sliding track (6), a lifting hook is arranged at the bottom end of the steel wire rope, the monorail crane (12) is used as an indoor horizontal conveying mechanism for dismantling components, and is slidably installed on a track beam of a truss at the bottom of the cantilever structure (2), the transfer platform (13) is correspondingly arranged at the outer vertical surface of the main structure (1) below the inner side end of the track beam, and the platform space of the transfer platform is communicated with the indoor space of the main structure (1).
3. The high-altitude overhanging structure closed protection dismantling system according to claim 1, characterized in that: the assembly platform (3) is of a truss structure, a jig frame used for assembling the truss platform (702) is placed at the top of the platform, and a jacking oil cylinder is arranged between the jig frames.
4. The high-altitude overhanging structure closed protection dismantling system according to claim 1, characterized in that: main structure (1) department of assembling platform (3) below has set up protection platform (4), protection platform (4) end extends to be the state setting of encorbelmenting outside main structure (1) facade.
5. The high-altitude overhanging structure closed protection dismantling system as claimed in claim 2, wherein: main structure (1) and overhanging structure (2) are on a parallel with the both sides border department of track (6) that slides and are provided with interim banding enclosure (14), interim banding enclosure (14) will slide track (6) and unload that the platform (9) face limit position enclosure is sealed.
6. The high-altitude overhanging structure closed protection dismantling system according to claim 1, characterized in that: the tie hanging columns (703) are connected with the roof shoulder pole beam (701) and the truss platform (702) through high-strength bolts.
7. The high-altitude overhanging structure closed protection dismantling system according to claim 1, characterized in that: the roof carrying pole beam (701) arranged on the outermost side of the closed protective cover (7) is of a double-beam structure, and a notch for inserting the tie hanging column (703) is reserved between the double beams.
8. The high-altitude overhanging structure closed protection dismantling system according to claim 7, characterized in that: the binding hanging columns (703) are made of I-shaped steel, the tops of flanges of the binding hanging columns are arranged to be in a horn mouth shape, wing plates of the binding hanging columns are parallel to the outer vertical face of the closed protective cover (7), packaging plate blocks (704) on the outer sides of the cornices of the cantilever structure (2) are correspondingly inserted into abdominal cavities of the two adjacent binding hanging columns (703) and connected with the wing plates of the binding hanging columns (703) through a code piece and a high-strength bolt, T-shaped plates are welded and fixed at the wing plates on the outer sides of the binding hanging columns (703) on the two sides of the cantilever structure (2), the T-shaped plates and the binding hanging columns (703) in corresponding positions form a king rod piece, and the packaging plate blocks (704) on the two sides of the cantilever structure (2) are correspondingly inserted into grooves on the outer sides of the two adjacent king rod pieces and connected with the wing plates of the binding hanging columns (703) through the code piece and the high-strength bolt.
9. The high-altitude overhanging structure closed protection dismantling system according to claim 1, characterized in that: the hydraulic crawlers (8) are connected with a hydraulic pump source system, the fixed ends of the hydraulic crawlers are clamped on the sliding rails (6), the telescopic ends of the hydraulic crawlers are bolted on the roof shoulder pole beam (701), the rod bodies of the hydraulic crawlers are provided with pressure sensors and stroke sensors, and all the hydraulic crawlers (8) realize synchronous pushing through a computer control system.
10. A construction method is characterized by comprising the following steps:
establishing models of a main body structure (1) and an overhanging structure (2) through finite element software and carrying out simulation calculation;
secondly, removing the redundant structure of the cantilever structure (2) according to the calculation result of the first step and reinforcing the cantilever structure (2);
step three, installing a temporary edge sealing enclosure (14), building a support truss (5), laying a sliding track (6) and building a discharging platform (9) and an assembling platform (3);
fourthly, dismantling a part of curtain wall at the lower side of the cantilever structure (2), and installing a monorail crane (12) at the cantilever structure (2) above the splicing platform (3) along the opening direction to serve as a truss platform (702) rod hoisting mechanism;
step five, respectively assembling a roof shoulder pole beam (701) and a truss platform (702) of a first section of closed protective cover (7) at the top of a supporting truss (5) and an assembling platform (3), after assembling is finished, installing tie hanging columns (703) and packaging plates (704) in place through a tower crane, starting a jacking oil cylinder after the installation in place, drawing out a jig frame at the top of the assembling platform (3) after the truss platform (702) is suspended, and controlling the jacking oil cylinder to fall back and reset after the drawing out;
step six, starting the hydraulic crawlers (8), and controlling the hydraulic crawlers (8) to synchronously push the first section of closed protective cover (7) outwards by the distance of the first section of closed protective cover (7) through a computer control system;
step seven, after the pushing is finished, laying the jig frame again, assembling the next section of closed protective cover (7) at the inner side end of the last section of closed protective cover (7), and pushing all the assembled closed protective covers (7) outwards by the distance of one section of closed protective cover (7);
step eight, repeating the step eight until all the sections of the closed protective covers (7) are pushed to be in place;
sequentially hoisting a tie hanging column (703) and a packaging plate block (704) between a roof shoulder pole beam (701) of the first section of the closed protective cover (7) outside the cornice of the cantilever structure (2) and a truss platform (702) to complete the installation of the whole closed protective cover (7);
step ten, erecting a transfer platform (13), dismantling a part of curtain wall at the lower side of the cantilever structure (2), and installing a monorail crane (12) at the bottom of the cantilever structure (2) along the depth direction to serve as a horizontal hoisting mechanism of the rod piece to be dismantled;
step eleven, installing a winch (11) at the inner side end of the sliding track (6), and enabling a steel wire rope wound on a winding drum of the winch to extend forwards along a horizontal guide wheel above the sliding track (6) and to hang downwards after bypassing a vertical guide wheel at the outer section of the sliding track (6) to serve as a vertical hoisting mechanism of the rod piece to be dismantled;
step twelve, breaking and dismantling the overhanging structure (2) section by section from the eaves of the overhanging structure (2), conveying the dismantled component to a transfer platform (13) through a winch (11) and a monorail crane (12), transferring the dismantled component to an unloading platform (9) or the ground through an unloading channel (10) matched with a tower crane, or directly transferring the dismantled component to the ground through an indoor vertical ladder;
step thirteen, after the breaking and dismantling length of the cantilever structure (2) reaches the length of a section of closed protective cover (7), pushing the closed protective cover (7) inwards for the distance of the section of closed protective cover (7) and dismantling the pushed closed protective cover (7);
fourteen, moving the vertical guide wheels inwards to a proper position, and cutting off the sliding track (6) with redundant length;
fifteen, repeating the thirteen step to the fifteen step until the last section of the cantilever structure (2) to be broken and disassembled remains;
sixthly, the last section of the cantilever structure (2) is broken and disassembled after the last section of the closed protective cover (7) is disassembled;
seventhly, dismantling the assembling platform (3) to complete the breaking and dismantling process of the whole cantilever structure (2).
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