CN115217311B - Intelligent climbing safety protection platform with large span for super high-rise core tube - Google Patents

Abstract

The invention belongs to the field of core tube protection platforms, and particularly relates to a high-rise core tube large-span intelligent climbing safety protection platform which comprises two protection frames symmetrically arranged in a core tube, wherein the two protection frames are connected through a horizontal layer, each protection frame comprises a frame body, a climbing assembly is arranged between each frame body and the core tube and comprises a sliding rail, a plurality of supporting pieces are arranged between each sliding rail and the core tube and vertically distributed, the core tube is provided with embedded holes matched with the supporting pieces, one end of each supporting piece is slidably inserted into each embedded hole, and the other end of each supporting piece is used for supporting the sliding rail. Be provided with the hydraulic means of vertical installation between slide rail and the support body, the support body is connected at the hydraulic means top, and connects the slide rail upper end through last joint spare detachable, and slide rail lower extreme is connected through lower joint spare to its bottom, and the support body top is provided with rotatable board that turns over, turns over the board top and leans on the core section of thick bamboo, and is connected with support piece, has the beneficial effect that improves protection platform's convenience of climbing.

Description

Intelligent climbing safety protection platform with large span for super high-rise core tube

Technical Field

The invention belongs to the field of core tube protection platforms, and particularly relates to a high-rise core tube large-span intelligent climbing safety protection platform.

Background

With the rapid development and construction of cities, a large number of large-scale, large-span and highly-tall buildings emerge in urban dense space areas. Super high-rise buildings become the signs of modern buildings, the super high-rise buildings are usually designed to be favorable for earthquake-resistant selection of core tube-frame structure forms, the frame tube structure forms enable the construction process of the core tube wall to be diversified, and the requirement of high perpendicularity of the core tube wall enables the selection of the wall construction process to be extremely important. The vertical structure construction of the core tube often adopts a hydraulic climbing formwork technology, but the horizontal part of the core tube cannot be synchronous due to the installation of a tower crane and a climbing formwork machine, a plurality of post-construction structures are left behind, and in the post-construction structure construction process, the distance between the post-construction structure and an upper outer frame working surface is higher than that between the post-construction structure and the core tube working surface. Therefore, when the post-construction structure is constructed, a great potential safety hazard exists, if the I-steel is adopted as a supporting point to set up the steel pipe safety protection platform, the problems of high setting up cost, tower crane time occupation, first setting up and first dismounting of several layers and the like exist, and therefore the core tube climbing type safety protection platform appears in the prior art.

The current climbing type safety protection platform usually comprises a sliding rail, a frame body and a hydraulic device, wherein the sliding rail is connected with a core tube through a buried part hanging seat, two ends of the hydraulic device are connected with the sliding rail and the frame body through reversing boxes, the buried part hanging seat is installed in advance in the climbing process, the buried part hanging seat is connected to the frame body through a bolt, a screw or other parts in the sliding rail lifting process to form a supporting effect on the frame body, more operation and time are spent on the installation and connection of the buried part hanging seat, and the supporting effect cannot be automatically formed along with the lifting of the sliding rail.

Disclosure of Invention

The invention aims to provide an ultra-high-rise core tube large-span intelligent climbing safety protection platform for improving climbing convenience of the protection platform, and in order to achieve the aim of the invention, the technical scheme adopted by the invention is as follows:

the high-rise core tube large-span intelligent climbing safety protection platform comprises two protection frames which are symmetrically arranged in a core tube, wherein the two protection frames are connected through a horizontal layer, each protection frame comprises a frame body, a climbing assembly is arranged between each frame body and the core tube, each climbing assembly comprises a sliding rail, a plurality of supporting pieces are arranged between each sliding rail and the core tube, the supporting pieces are vertically distributed, the core tube is provided with embedded holes matched with the supporting pieces, one ends of the supporting pieces are slidably inserted into the embedded holes, and the other ends of the supporting pieces are used for supporting the sliding rails;

a vertically installed hydraulic device is arranged between the sliding rail and the frame body, the top of the hydraulic device is connected with the frame body and is detachably connected with the upper end of the sliding rail through an upper clamping piece, the bottom of the support body is connected with the lower end of the sliding rail through a lower clamping piece, a rotatable turning plate is arranged at the top of the support body, and the top of the turning plate is leaning against the core tube and is connected with the supporting piece.

Further, the support piece comprises a plugging rod which is arranged in the embedded hole in a sliding mode, the end portion of the plugging rod is fixedly connected with a support block, the support block extends out of the embedded hole, a support pin is arranged at the top of the support block and is connected with the sliding rail through a sliding mechanism, and the support pin is used for moving to the top of the support block above when the sliding rail ascends.

Further, the sliding rail is of an I-shaped steel structure, a groove at one side of the sliding rail faces the supporting block, the sliding mechanism comprises a spring arranged in the groove of the sliding rail, the spring is vertically arranged and positioned above the supporting pin, the bottom of the spring is connected with the supporting pin, and the top of the spring is connected with the sliding rail;

the sliding rail is provided with oblique holes towards two sides of the groove of the supporting block, the oblique holes are of square hole structures which are obliquely arranged, the supporting pins penetrate through the oblique holes and are arranged at the tops of the oblique holes, the bottoms of the supporting blocks are of arc-shaped structures, and two ends of each supporting pin extend out of the corresponding oblique hole and are arranged at the tops of the supporting blocks.

Further, the supporting shoe is kept away from the one end of plug rod is provided with the notch, slide rail slidable sets up in the notch, the up end of notch is provided with the spacing groove, the rotatable roll portion that is connected with in supporting pin both ends, the roll portion sets up in the spacing groove.

Further, the slide rail is the I-steel structure, and the recess orientation of its one side the support body, and inside be provided with a plurality of vertical lugs of distributing side by side, go up the joint spare and include the casing, casing fixed connection the support body top inner wall, and fixed connection the hydraulic means top, but horizontal slip is provided with the traveller in the casing, traveller one end extends the casing, and be provided with the last draw-in groove of lug adaptation, go up the draw-in groove in be provided with the lug.

Further, the sliding column is far away from the rotatable connecting screw rod of one end of the lug, and the screw rod extends out of the shell and is in threaded connection with the shell. The top and the bottom of the sliding column are provided with a plurality of roll shafts.

Further, the lower clamping piece is fixedly connected with the bottom of the hydraulic device, the lower clamping piece is provided with a lower clamping groove matched with the protruding block, and the protruding block is arranged in the lower clamping groove.

Further, the bottom surface of the turning plate is provided with an abutting piece, and the abutting piece is abutted and positioned on one supporting piece above the sliding rail.

Further, the climbing assembly is arranged in a plurality of side-by-side mode along the horizontal direction of the core tube.

Further, the horizontal layer comprises protection plates, and the protection plates are arranged at the tops of the two frame bodies on the protection frames.

The invention has the following beneficial effects: when the whole platform is to climb, the connection between the upper clamping piece and the upper end of the sliding rail is firstly released, then the lower clamping piece is driven by the hydraulic device to rise and enable the sliding rail to rise, after the sliding rail rises in place, the sliding rail is supported again by the supporting piece, the hydraulic device frame body and the turning plate rise together, after the sliding rail rises in place, the upper clamping piece and the sliding rail are connected again, in the whole process, the turning plate not only has the effect of shielding and filling gaps, but also has the supporting effect, compared with the prior art, the supporting piece is installed without spending a large amount of time, the installation of the supporting piece can be realized through an inserting mode, the supporting of the sliding rail is formed, meanwhile, the supporting piece is not required to be connected with the frame body, the beneficial effect of improving the climbing convenience of the protection platform is achieved, and in the process of resetting the supporting pin through the spring, the supporting of the sliding rail is realized again, and the automatic supporting effect can be realized without operating the supporting piece.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the connection relationship between the slide rail and the upper and lower clamping members;

FIG. 3 is an enlarged schematic view of FIG. 2 at A;

FIG. 4 is a schematic top view of a slide rail;

FIG. 5 is a schematic view of a lifting slide rail;

fig. 6 is a schematic view of a lifting frame.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 6 of the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. The technical means used in the examples are conventional means well known to those skilled in the art unless otherwise indicated.

In the description of the present invention, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

The high-rise core tube large-span intelligent climbing safety protection platform comprises two protection frames which are symmetrically arranged in a core tube 1, wherein the two protection frames are connected through a horizontal layer, each protection frame comprises a frame body 2, a climbing assembly is arranged between each frame body 2 and the core tube 1, each climbing assembly comprises a sliding rail 6, a plurality of supporting pieces 8 are arranged between each sliding rail 6 and the core tube 1, a plurality of supporting pieces 8 are vertically distributed, the core tube 1 is provided with embedded holes matched with the supporting pieces 8, one end of each supporting piece 8 is slidably inserted into each embedded hole, and the other end of each supporting piece 8 is used for supporting each sliding rail 6;

the utility model discloses a support member, including support member 8, slide rail 6, support member 2, hydraulic means 5, support member 2, slide rail 6 with be provided with vertical installation between the support member 2, hydraulic means 5 top is connected support member 2, and through last joint 9 detachable connection slide rail 6 upper end, its bottom is connected through lower joint 10 slide rail 6 lower extreme, support member 2 top is provided with rotatable board 7 that turns over, it leans on to turn over 7 tops core section of thick bamboo 1, and is connected with support member 8.

As shown in fig. 1, two protection frames are arranged on two opposite inner sides of a core tube 1, the two inner sides are connected with the wall surface of the core tube 1 through two opposite climbing assemblies, and the two inner sides are connected with the wall surface of the core tube 1 through horizontal layers to realize the horizontal connection, the aim of climbing jointly is realized, wherein a frame body 2 is in a structure of a scaffold in the prior art, one side, close to the wall surface of the core tube 1, of the scaffold is provided with a hollow structure, the climbing assemblies are arranged between the hollow part and the core tube 1, a sliding rail 6 is vertically arranged, a plurality of embedded holes which are arranged side by side in the vertical direction are formed in the wall surface of the core tube 1, the axis of the embedded holes is horizontal, one end of a supporting piece 8 is inserted in the embedded holes in an inserting mode, the other end of the supporting piece supports the sliding rail 6, specifically, the sliding rail 6 is supported at least through two supporting pieces 8, the stroke of each ascending of the sliding rail 6 is the distance between the two supporting pieces 8, the lower clamping piece 10 is always kept in a connection relation with the sliding rail 6, the lower clamping piece 10 is respectively located at the lower end of the height of the sliding rail 6, the lower clamping piece 9 is located at the upper end of the lower height of the sliding rail 6 and the upper end of the higher than the height of the upper clamping piece, the sliding rail 6, the sliding piece 7 is in the prior art, the sliding piece 7 is in the whole structure, one side of the sliding piece 2 is connected with the sliding rail 1 in the whole horizontal direction, the sliding piece is in the whole horizontal direction, and the sliding piece 8 is arranged, and the sliding piece 8, and the sliding piece is in the whole horizontal body, and the sliding piece 8, and the sliding piece is in the sliding platform 2, and the whole is in the lifting the sliding body, and the lifting platform.

When the whole platform is to climb, the connection between the upper clamping piece 9 and the upper end of the sliding rail 6 is firstly released, at the moment, the supporting point of the whole platform is the turning plate 7 and the sliding rail 6, then the hydraulic device 5 drives the lower clamping piece 10 to ascend, the sliding rail 6 is further ascended under the pulling force of the turning plate 7, the supporting point of the whole platform is the turning plate 7 in the ascending process, the sliding rail 6 rubs, the supporting force and the inclined angle of the turning plate 7 are maintained by the abutting joint between the two sides of the whole platform and the core tube 1 in the horizontal direction, after the sliding rail 6 ascends in place, the supporting piece 8 supports the sliding rail 6 again, the state shown in figure 5 is formed, at the moment, the supporting point of the whole platform is the turning plate 7 and the sliding rail 6, then the hydraulic device 5 drives again, under the supporting of the supporting piece 8, the frame body 2 and the turning plate 7 ascend together, and the upper clamping piece 9 and the sliding rail 6 are reconnected after ascending in place, at this moment, the supporting point of whole platform is slide rail 6, afterwards, the staff climbs up support body 2 top, turn over board 7 down, form the state like fig. 6, and install two at least support piece 8 in slide rail 6 top, one of them support piece 8 is used for slide rail 6 climbing, another is used for connecting and turns over board 7, then turn over board 7 again and get back to again like state in fig. 1 can, in addition, be provided with the staircase on the support body 2, in order to be used for the staff to climb up support body 2 top, in whole climbing process, compare prior art, do not need spending a large amount of time installation support piece 8, can realize the installation of support piece 8 through the mode of pegging graft, and form the support to slide rail 6, do not need support piece 8 to connect support body 2 simultaneously, the beneficial effect of improving protection platform's degree of facilitating climbing has been reached.

Further, the supporting member 8 includes a plugging rod 801 slidably disposed in the pre-buried hole, an end portion of the plugging rod 801 is fixedly connected with a supporting block 802, the supporting block 802 extends out of the pre-buried hole, a supporting pin 11 is disposed at the top of the supporting block 802, and the supporting pin 11 is connected with the sliding rail 6 through a sliding mechanism, so that when the sliding rail 6 ascends, the supporting pin moves to the top of the other supporting block 802 above.

Specifically, only after the slide rail 6 is raised in place and stopped, the support pin 11 rests on top of the support block 802, thereby forming an effective support.

Further, the sliding rail 6 is in an i-steel structure, a groove at one side of the sliding rail faces the supporting block 802, the sliding mechanism comprises a spring 12 arranged in the groove of the sliding rail 6, the spring 12 is vertically arranged and is positioned above the supporting pin 11, the bottom of the spring 12 is connected with the supporting pin 11, and the top of the spring is connected with the sliding rail 6;

the slide rail 6 is towards the both sides of the recess of supporting shoe 802 all are provided with slant hole 15, slant hole 15 slope sets up, supporting pin 11 passes slant hole 15, and set up slant hole 15 top, supporting shoe 802 bottom is the arc structure, supporting pin 11 both ends extend slant hole 15, and set up the supporting shoe 802 top.

As shown in fig. 3, the i-steel structure of the sliding rail 6 includes two grooves, which respectively face the supporting block 802 and the frame 2, the spring 12 is in a stretched state, the top of the spring 12 is fixedly connected with the connecting block 14, the connecting block 14 is fixedly connected with the inner side of the sliding rail 6, two ends of the supporting pin 11 extending out of the inclined hole 15 lean against the top of the supporting block 802 to form a supporting structure, the supporting pin 11 is horizontally arranged and parallel to the wall surface of the core tube 1 and is perpendicular to the inserting rod 801, the supporting pin 11 can slide in the inclined hole 15, in the process of lifting the sliding rail 6, the supporting pin 11 is under the tensile force of the spring 12 and is positioned at the top of the inclined hole 15, when the supporting pin 11 contacts the bottom of the supporting block 802, the supporting pin 11 moves along the outer wall surface of the supporting block 802 under the action of the arc-shaped structure of the bottom of the supporting block 802, and moves to the top of the supporting block 802 under the action of the spring 12 when the supporting pin 11 moves to be level with the top of the supporting block 802, then the hydraulic device 5 can slightly push the sliding rail 6 downwards, so that the supporting block 802 is abutted against the supporting pin 11 to form an effective support, and in the process of resetting the supporting pin 11 through the spring 12, the supporting block 11 is realized, and the supporting piece is automatically reset, and the supporting piece 8 can be operated without the supporting piece.

Further, a notch is provided at one end of the supporting block 802 away from the insertion rod 801, the slide rail 6 is slidably disposed in the notch, a limit groove 803 is provided on an upper end surface of the notch, rolling parts 17 are rotatably connected to two ends of the supporting pin 11, and the rolling parts 17 are disposed in the limit groove 803.

Specifically, as shown in fig. 4, the supporting block 802 is in a shape of a letter , the opening of the supporting block forms a notch, a part of the sliding rail 6 is wrapped to form an effective limiting structure, the structure is stable, the rolling part 17 can be a roller, a bearing and other parts, the limiting groove 803 is in an arc groove structure matched with the rolling part, a radial limiting effect on the supporting pin 11 is formed, in addition, the top of the inclined hole 15 is positioned right above the limiting groove 803, and the bottom of the inclined hole 15 is positioned below the supporting block 802.

In addition, the end face of the embedded hole is provided with a square groove matched with the supporting block 802, a part of the supporting block 802 is arranged in the square groove, as shown in fig. 4, a positioning effect is formed, the supporting block 802 is prevented from deflecting, and the ascending path of the sliding rail 6 is matched.

Further, the slide rail 6 is of an i-steel structure, a groove at one side of the slide rail faces the frame body 2, a plurality of vertical side-by-side distributed lugs 13 are arranged inside the slide rail, the upper clamping piece 9 comprises a shell 901, the shell 901 is fixedly connected with the inner wall of the top of the frame body 2 and is fixedly connected with the top of the hydraulic device 5, a slide column 903 is arranged in the shell 901 in a horizontally sliding manner, one end of the slide column 903 extends out of the shell 901 and is provided with an upper clamping groove matched with the lugs 13, and the lugs 13 are arranged in the upper clamping groove.

As shown in fig. 2, a space is formed between two adjacent protruding blocks 13, the sliding column 903 is in a square structure, the housing 901 is provided with a sliding cavity adapted to the sliding column, a plurality of upper clamping grooves are formed to facilitate clamping of the protruding blocks 13, and the housing 901 penetrates through the hollow part of the frame 2.

Further, the sliding post 903 is rotatably connected to a screw 902 at an end far away from the bump 13, the screw 902 extends out of the housing 901 and is screwed to the housing 901, and a plurality of rollers 904 are disposed at the top and bottom of the sliding post 903.

Specifically, the screw 902 is provided with a handle at one end far away from the slide post 903, the slide post 903 can be moved by rotating the handle, the roll shafts 904 rotate when the slide post 903 moves, and the roll shafts 904 are arranged side by side, and the upper clamping piece 9 has a supporting effect on the whole platform, so that the roll shafts 904 play a role in effectively reducing friction force when the slide post 903 moves.

Therefore, when the upper engaging member 9 is disconnected from the upper end of the slide rail 6 during climbing, the screw 902 is turned to disengage the upper engaging groove on the slide post 903 from the projection 13.

Further, the lower clamping piece 10 is fixedly connected with the bottom of the hydraulic device 5, the lower clamping piece 10 is provided with a lower clamping groove matched with the protruding block 13, and the protruding block 13 is arranged in the lower clamping groove.

The lower clamping groove on the lower clamping piece 10 always keeps clamping relation with the protruding block 13 at the lower end of the sliding rail 6.

Specifically, the hydraulic device 5 may be a hydraulic cylinder, where the telescopic end is downward, and the bottom of the telescopic end is fixedly connected with the top of the lower clamping piece 10, and the top of the hydraulic cylinder is fixedly connected with the bottom of the housing 901.

Further, an abutment member 16 is disposed on the bottom surface of the flap 7, and the abutment member 16 abuts against one of the supporting members 8 above the slide rail 6.

Specifically, the turning plate 7 is of a high-strength square structure, the supporting piece 8 can be of a plate-shaped structure, and also can comprise a cross rod, the cross rod is parallel to the turning plate 7, and the cross rod is fixedly connected with the bottom surface of the turning plate 7 through a plurality of transition rods.

The end of the support piece 8 far away from the turning plate 7 is abutted on the top of the support piece 8, so that an effective support structure is formed, and therefore, the turning plate 7 has the effect of shielding and filling gaps and also has the supporting effect.

Further, the climbing assembly is arranged in a plurality along the horizontal direction of the core tube 1.

Specifically, at least two climbing assemblies are arranged between the frame body 2 and the core tube 1 so as to improve stability.

Further, the horizontal layer comprises a protection plate 3, and the protection plate 3 is arranged at the top of the frame body 2 on the two protection frames.

The protective plate further comprises a lower-layer pavement 4, the protective plate 3 and the lower-layer pavement 4 form horizontal connection between two protective frames together so as to climb at the same time, and the turning plate 7 is hinged to the top of the protective plate 3.

The above embodiments are only illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications, variations, alterations, substitutions made by those skilled in the art to the technical solution of the present invention should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the design of the present invention.

Claims (7)

1. The utility model provides a super high-rise core section of thick bamboo large-span intelligence safety protection platform that climbs, including two protection frames of symmetry setting in core section of thick bamboo (1), two connect its characterized in that through the horizontal layer between the protection frame: the protection frame comprises a frame body (2), a climbing assembly is arranged between the frame body (2) and the core tube (1), the climbing assembly comprises a sliding rail (6), a plurality of supporting pieces (8) are arranged between the sliding rail (6) and the core tube (1), the supporting pieces (8) are vertically distributed, the core tube (1) is provided with embedded holes matched with the supporting pieces (8), one end of each supporting piece (8) is slidably inserted into each embedded hole, and the other end of each supporting piece is used for supporting the sliding rail (6);

a vertically installed hydraulic device (5) is arranged between the sliding rail (6) and the frame body (2), the top of the hydraulic device (5) is connected with the frame body (2), the hydraulic device is detachably connected with the upper end of the sliding rail (6) through an upper clamping piece (9), the bottom of the hydraulic device is connected with the lower end of the sliding rail (6) through a lower clamping piece (10), a rotatable turning plate (7) is arranged at the top of the frame body (2), and the top of the turning plate (7) is leaning against the core tube (1) and is connected with a supporting piece (8);

the sliding rail (6) is of an I-shaped steel structure, a groove at one side of the sliding rail faces the frame body (2), a plurality of vertical side-by-side distributed lugs (13) are arranged in the sliding rail, the upper clamping piece (9) comprises a shell (901), the shell (901) is fixedly connected with the inner wall of the top of the frame body (2) and is fixedly connected with the top of the hydraulic device (5), a sliding column (903) is arranged in the shell (901) in a horizontal sliding mode, one end of the sliding column (903) extends out of the shell (901), an upper clamping groove matched with the lugs (13) is formed in the upper clamping groove, and the lugs (13) are arranged in the upper clamping groove;

the sliding column (903) is far away from a rotatable connecting screw rod (902) at one end of the protruding block (13), the screw rod (902) extends out of the shell (901) and is in threaded connection with the shell (901), and a plurality of roll shafts (904) are arranged at the top and the bottom of the sliding column (903);

the lower clamping piece (10) is fixedly connected with the bottom of the hydraulic device (5), the lower clamping piece (10) is provided with a lower clamping groove matched with the protruding block (13), and the protruding block (13) is arranged in the lower clamping groove.

2. The ultra-high-rise core tube large-span intelligent climbing safety protection platform according to claim 1, wherein: the support piece (8) comprises a plugging rod (801) which is arranged in the embedded hole in a sliding mode, the end portion of the plugging rod (801) is fixedly connected with a support block (802), the support block (802) extends out of the embedded hole, a support pin (11) is arranged at the top of the support block (802), the support pin (11) is connected with the sliding rail (6) through a sliding mechanism, and the support pin is used for moving to the top of the support block (802) above when the sliding rail (6) ascends.

3. The ultra-high-rise core tube large-span intelligent climbing safety protection platform according to claim 2, wherein: the sliding rail (6) is of an I-shaped steel structure, a groove on one side of the sliding rail faces the supporting block (802), the sliding mechanism comprises a spring (12) arranged in the groove of the sliding rail (6), the spring (12) is vertically arranged and is positioned above the supporting pin (11), the bottom of the spring (12) is connected with the supporting pin (11), and the top of the spring is connected with the sliding rail (6);

the sliding rail (6) is provided with slant holes (15) towards both sides of the groove of the supporting block (802), the slant holes (15) are of a square hole structure which is obliquely arranged, the supporting pins (11) penetrate through the slant holes (15) and are arranged at the tops of the slant holes (15), the bottoms of the supporting block (802) are of arc structures, and both ends of the supporting pins (11) extend out of the slant holes (15) and are arranged at the tops of the supporting block (802).

4. The ultra-high-rise core tube large-span intelligent climbing safety protection platform according to claim 3, wherein: the support block (802) is kept away from the one end of plug rod (801) is provided with the notch, slide rail (6) slidable sets up in the notch, the up end of notch is provided with spacing groove (803), the rotatable roll portion (17) that is connected with in supporting pin (11) both ends, roll portion (17) setting is in spacing groove (803).

5. The ultra-high-rise core tube large-span intelligent climbing safety protection platform according to claim 1, wherein: the bottom surface of the turning plate (7) is provided with an abutting piece (16), and the abutting piece (16) is abutted on one supporting piece (8) above the sliding rail (6).

6. The ultra-high-rise core tube large-span intelligent climbing safety protection platform according to claim 1, wherein: the climbing assembly is arranged in a plurality of side-by-side manner along the horizontal direction of the core tube (1).

7. The ultra-high-rise core tube large-span intelligent climbing safety protection platform according to claim 1, wherein: the horizontal layer comprises protection plates (3), and the protection plates (3) are arranged at the tops of the two frame bodies (2) on the protection frames.