CN115288409A - Green intelligent trapezoidal horizontal sliding platform for high cornice - Google Patents

Abstract

The invention discloses a green intelligent trapezoidal horizontal sliding platform for a tall cornice, and belongs to the technical field of building construction. The utility model provides a trapezoidal horizontal sliding platform of green intelligence for high big cornice, includes end to end's closed type slide rail, install on cornice with the slide rail connection's that slides platform, the platform that slides moves on cornice through the track that slides. The sliding platform is designed to be of a trapezoidal structure, is assembled in an assembling mode through steel plates and rod pieces and is formed by fixing through bolts, and accordingly green recycling is achieved. The bottom of the cornice is obliquely arranged to be approximately parallel to the bottom surface of the cornice, so that the use of materials is reduced, the flow linearity of the structure is improved, and the wind resistance is reduced.

Description

Green intelligent trapezoidal horizontal sliding platform for high and large cornice

Technical Field

The invention relates to the technical field of building construction, in particular to a green intelligent trapezoidal horizontal sliding platform for a tall cornice.

Background

In some house building engineering designs, a large number of eaves are adopted, so that the construction is challenged. When the house is cornice in construction, an operation platform needs to be erected, the existing method of adopting a floor type or cantilever type operation platform is complicated in erection and disassembly, and meanwhile, the problems of long period, high cost, high safety risk and the like are also faced. The patent document currently published as CN204024010U discloses a smooth moving platform for high and large cornice construction water, and discloses a sliding platform moving on the cornice, wherein a sliding rail is mounted on the cornice, the sliding platform is erected on the rail, and the sliding platform can move on the whole cornice. In addition, patent document CN104018657a discloses a method for constructing a tall cornice by using a horizontal sliding platform. The sliding platform is designed to be of a C-shaped structure, can move on the cornice, and can effectively reduce cost and shorten construction period.

Discover in the construction research to big cornice, when construction platform was built at the high-rise building top, great windage was faced, it improves stably to need stronger enhancement protection, make the cost improve, based on the slope structure of cornice bottom, this application has designed the trapezoidal horizontal slip platform of green intelligence that is used for big cornice, let the slip platform design into the trapezium structure, make its bottom slope set up and be similar to parallel with the cornice bottom surface, reduce the windage and improve stability, and the use of reducible material embodies green.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the problems that when a construction platform is built on the top of a high-rise building, the high wind resistance is met, stronger reinforcement protection is needed, the stability is improved, and the cost is increased.

In order to solve the technical problem, the invention solves the problem of large wind resistance through the following technical scheme, the whole translation platform is designed into a trapezoidal structure, the bottom of the platform is designed into an inclined structure approximately parallel to the bottom surface of the cornice, the streamline is improved, the wind resistance is reduced, and the stability of the sliding platform is improved.

In order to achieve the purpose, the invention adopts the following technical scheme:

a green intelligent trapezoidal horizontal sliding platform for a tall cornice comprises closed sliding rails connected end to end and a sliding platform which is arranged on the cornice and connected with the sliding rails, wherein the sliding platform moves on the cornice through the sliding rails;

the sliding platform comprises an operating platform located on the lower side of the cornice, a sliding supporting assembly located on the top surface of the cornice, and a driving part installed on the sliding supporting assembly, wherein the sliding supporting assembly is fixedly connected with the operating platform to enable the sliding supporting assembly to suspend on the lower side of the cornice, the sliding supporting assembly is connected with a sliding track and can slide along the sliding supporting assembly, and the driving part is used for driving the operating platform and the sliding supporting assembly to move around the sliding track. According to the invention, the connecting component connected with the wall surface and the cornice is arranged at the end part of the operating platform, so that the stability of the operating platform is improved and the deformation force of the trapezoidal bending point of the operating platform is reduced by using the connecting component, and the stability and the safety are improved.

Preferably, the operating platform is fixedly connected with the sliding support component to form a trapezoidal structure, and the operating platform is installed on a connecting component connected with the cornice or the wall surface. The sliding platform is designed to be of a trapezoidal structure, the bottom of the sliding platform is inclined to be approximately parallel to the bottom surface of the cornice, the streamline of the structure can be improved, the wind resistance is reduced, the use of materials is reduced, and green and environment-friendly effects are better embodied.

Preferably, when the hook is installed on the cornice or the wall surface, the connecting assembly comprises a contact piece and a rope, the rope is fixedly connected with the hook, and the contact piece is installed at the bottom of the operating platform and can extend to the wall surface.

Preferably, when install the slide rail on cornice or the wall, coupling assembling includes conflict piece, slide bar one end and slide rail sliding connection, conflict piece is installed in the operation platform bottom and can extend to the wall.

Preferably, the conflict piece includes cylinder, telescopic link, antiskid ribbed tile, the cylinder is connected with the telescopic link and orders about it flexible, antiskid ribbed tile is installed in the telescopic link tip and is used for contacting with the wall.

Preferably, the sliding support assembly comprises a first sliding table connected with the operating platform and a second sliding table connected with the first sliding table; the second sliding table idler wheel is connected with the sliding track in a sliding mode, and the first sliding table is connected with the second sliding table in a sliding mode. The sliding support component capable of extending is designed, the operating platform is driven to move outwards, and operation at the cornice edge and passing through from the cornice edge are facilitated.

Preferably, the first sliding table is arranged in a U-shaped structure, a plurality of supporting rods penetrating through the second sliding table are uniformly distributed in the middle of the first sliding table, and a limiting block is fixed at the end part of each supporting rod.

Preferably, the two end faces of the second sliding table are symmetrically provided with sliding grooves, and the two ends of the first sliding table penetrate through the sliding grooves and are in interactive fit with the sliding grooves.

Preferably, a plurality of the sliding rails are fixed on the cornice in parallel, and the sliding rails are arranged in an arc shape at the corners of the cornice.

Preferably, the driving part comprises a driver and a second roller in friction fit with the cornice, the driver and the second roller are both mounted on the second sliding table, and the driver drives the second roller to move through tooth transmission.

Compared with the prior art, the invention has the following beneficial effects:

1. the sliding platform is designed to be in a trapezoidal structure, the sliding platform is assembled by adopting steel plates and rod pieces in an assembling mode and is formed by fixing bolts, green recycling is achieved, the bottom of the sliding platform is obliquely arranged to be approximately parallel to the bottom surface of the cornice, the number of parts is reduced, the number of materials is reduced, the flow linearity of the structure is improved, and wind resistance is reduced.

2. According to the invention, the connecting component connected with the wall surface and the cornice is arranged at the end part of the operating platform, so that the stability of the operating platform is improved and the deformation force of the trapezoidal bending point of the operating platform is reduced by using the connecting component, and the stability and the safety are improved. The rope in the connecting component is connected and fixed with the cornice to provide a pulling force for the operating platform, so that the pulling force at the end part of the sliding supporting component can be reduced, and the stability of the inclined plane of the operating platform is improved; conflict piece among the coupling assembling for when cornice edge operation, with the abundant contact of wall, realize its stability.

3. The invention designs a closed sliding track connected end to end, so that the sliding platform can be switched and moved among a plurality of cornices. The sliding support component capable of extending is designed, the operating platform is driven to move outwards, and operation at the cornice edge and passing through from the cornice edge are facilitated.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a sliding structure of the sliding platform of the present invention capable of sliding on a plurality of cornices;

FIG. 2 is a schematic view of a connection structure of the sliding platform and the sliding track according to the present invention;

FIG. 3 is a schematic view of the front view of the sliding platform of the present invention;

FIG. 4 is a schematic perspective view of the sliding platform of the present invention;

FIG. 5 is a schematic view of the sliding support assembly of the present invention;

fig. 6 is a schematic view of the overall structure of the interference member of the present invention.

Description of the figure numbers: 100. a sliding track; 200. a sliding platform; 300. an operating platform; 400. a sliding support component; 401. a first sliding table; 402. a second sliding table; 403. a support bar; 404. a limiting block; 405. a chute; 500. a drive member; 501. a driver; 502. a second roller; 600. a connecting assembly; 601. a contact member; 6011. a cylinder; 6012. a telescopic rod; 6013. an anti-skid plate; 602. a rope.

Detailed Description

The present invention is described in further detail below with reference to the attached drawing figures.

The following description is provided to disclose the invention so that others skilled in the art may practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "left," "right," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or position relative to one another as illustrated in the figures, which is intended to simplify the description of the present disclosure, but does not indicate or imply that the referenced devices or elements must be in a particular orientation, constructed, and operated in a particular orientation, and thus, the above-described terms are not to be construed as limiting the present disclosure.

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.

Example 1:

referring to fig. 1-3, a green intelligent trapezoidal horizontal sliding platform for a tall cornice comprises a closed sliding rail 100 connected end to end, and a sliding platform 200 installed on the cornice and connected with the sliding rail 100, wherein the sliding platform 200 moves on the cornice through the sliding rail 100;

the sliding platform 200 comprises an operating platform 300 positioned on the lower side of the cornice, a sliding support assembly 400 positioned on the top surface of the cornice, and a driving part 500 installed on the sliding support assembly 400, wherein the sliding support assembly 400 is fixedly connected with the operating platform 300 to enable the sliding support assembly to suspend on the lower side of the cornice, the sliding support assembly 400 is connected with the sliding track 100 and can slide along the sliding support assembly, and the driving part 500 is used for driving the operating platform 300 and the sliding support assembly 400 to move around the sliding track 100.

Some embodiments of the present application will be described in detail below with reference to the following drawings:

referring to fig. 1-4, the present application provides a green intelligent trapezoidal horizontal sliding platform for cornice, which includes a sliding rail 100 and a sliding platform 200. When all being equipped with the cornice at building four sides top, fix a plurality of tracks 100 that slide end to end at a plurality of cornices top surface, set up trapezoidal platform 200 that slides on the cornice, be connected platform 200 that will slide with track 100 that slides, make platform 200 that slides along track 100 that slides remove on a plurality of cornices. The construction of a single sliding platform 200 to cornice can be realized, the opposite construction of the sliding platform 200 is reduced, or a plurality of sliding platforms 200 are arranged at intervals to distribute different construction processes of operation.

Referring to fig. 4 and 6, the sliding platform 200 of the present application is composed of an operating platform 300 and a sliding support assembly 400, the sliding support assembly 400 is installed on the top surface of the cornice and connected to the sliding rail 100, the operating platform 300 is erected on the lower side of the cornice, and the sliding support assembly 400 and the operating platform 300 are fixed and then can move along the sliding rail 100 as a whole.

The sliding support assembly 400 is integrally in a trapezoidal structure after being fixed with the operation platform 300, and compared with the prior art, the bottom of the sliding platform 200 is inclined, so that an end angle is reduced, the use of materials can be reduced, the linearity of flow is improved, and the wind resistance is reduced.

The sliding platform 200 adopts a green assembly type connection mode, the steel plates and the rod pieces which are applied all adopt standard sizes, and the cyclic utilization is realized through the fixation of screws.

In addition in this application, the supporting component 400 that slides connects into trapezium structure with operation platform 300, and operation platform's 300 includes vertical dowel steel and slope ladder platform, and the dowel steel adopts the shaped steel assembled to be connected, can dismantle reuse. The inclined stair platform is assembled by rod pieces to form a basic framework, a scaffold board is laid on the basic framework, and protective railings and safety nets are arranged on the periphery of the basic framework.

In order to maintain the stability of the operation platform 300 after the trapezoidal structure is designed, the connection assembly 600 is installed on the sliding platform 200.

Coupling assembling 600 includes to support piece 601, rope 602 etc. and the one end of conflict piece 601 and rope 602 is all fixed on operation platform 300, and when the cornice was the steel skeleton state, fix rope 602 one end on the reinforcing bar of cornice, pull up operation platform 300 by the bottom, share the supporting component 400 that slides and to operation platform 300 bearing, reduce the deformation power of the trapezoidal buckling point of operation platform 300, make operation platform 300 more firm safety.

When the cornice has been cast as a solid structure, the rope 602 is fixed to the hook by mounting the hook on the cornice or the wall surface.

The contact 601 makes one end of the contact with the wall surface through telescopic adjustment, so that the stability of the operating platform 300 is improved, the bearing capacity of the operating platform 300 on wind resistance is reduced, and the stability and the safety of the operating platform 300 are improved.

Wherein, the abutting part 601 comprises a cylinder 6011, an expansion link 6012, an anti-skid plate 6013 and the like, the cylinder 6011 is installed on the operating platform 300 and is connected with the expansion link 6012, the expansion link 6012 is driven to move towards the wall surface, the end part of the expansion link 6012 is connected with the anti-skid plate 6013, the anti-skid plate 6013 is contacted with the wall surface, the anti-skid plate 6013 is movably connected with the expansion link 6012, and the anti-skid plate 6013 is contacted with the wall surface more fully.

It should be noted that, the track 100 that slides in this application is the arc setting in the corner of cornice, can realize that the platform 200 that slides and remove to another cornice by a cornice on, and during the corner construction of cornice, receive very big challenge in operation platform 300's the stability, through symmetrical two contact 601 that set up on operation platform 300, in the eave corner, two antiskid ribbed tile 6013 are 45 slopes respectively and two wall fully contact, improve operation platform 300's stability.

Wherein, each time the operation platform 300 moves, the rope 602 needs to be detached and the abutting element 601 needs to be retracted. And reconnects the rope 602 at the next construction, using the abutting piece 601.

In some embodiments, a rail may be installed on the cornice or the wall surface, the rope 602 may be replaced by a sliding rod, one end of the sliding rod is connected to the operation platform 300, the other end of the sliding rod is connected to the sliding rod in a clamping manner and is slidably engaged with the sliding rod, and the operation platform 300 may move without detaching the sliding rod. It should be noted that the slide bar needs to be temporarily removed at the cornice corners. In addition, the sliding rod can be telescopically adjusted, and the sliding rod is adjusted to be kept connected with the sliding rail at the corner of the cornice, and is temporarily fixed like a rope 602.

Referring to fig. 4 and 5, in the present application, when the sliding platform 200 needs to move from one cornice to another cornice or perform construction on the corners of the cornices, the operating platform 300 needs to move outward to ensure the natural passage. The sliding support assembly 400 has the function of expansion and contraction.

The sliding support assembly 400 comprises a first sliding table 401, a second sliding table 402 and the like, the first sliding table 401 is fixedly connected with the operating platform 300, the second sliding table 402 is slidably connected with the sliding rails 100 through a first roller, and the first sliding table 401 is in sliding fit with the second sliding table 402.

The first sliding table 401 is arranged in a U-shaped structure towards one side of the second sliding table 402, the second sliding table 402 is inserted into the first sliding table 401, a plurality of metal supporting rods 403 penetrating through the second sliding table 402 are fixed in the first sliding table 401, a limiting block 404 is fixed at the end part of each supporting rod 403, so that the supporting rods 403 cannot withdraw the second sliding table 402, the limiting block 404 is fixed at the end part of the second sliding table 402 and connected with an adjustable fixing piece, and the first sliding table 401 can slide outwards by releasing the fixing piece gradually.

The two end faces of the second sliding table 402 are symmetrically provided with sliding grooves 405, and the two ends of the first sliding table 401 penetrate through the sliding grooves 405 and are in interaction fit with the sliding grooves.

Referring to the drawings, in the present application, a driving part 500 is installed on a surface of the sliding support assembly 400, and a power for driving the sliding platform 200 to move integrally is installed on the sliding support assembly 400, so that the sliding platform 200 can move over a curve and in a circular track.

The driving part 500 includes a driver 501 and a second roller 502, the driver 501 and the second roller 502 are both installed on the second sliding table 402, the second roller 502 is in friction fit with the cornice or the sliding track 100, and the driver 501 drives the second roller 502 to rotate through gear transmission fit, so as to realize the movement of the sliding platform 200.

It should be noted that, the main body of the sliding platform 200 of the present application is assembled, and the structures are fixed by using a fixing method, such as bolt fixing, which is convenient to disassemble. The sliding platform 200 is convenient to disassemble and assemble and can be repeatedly used, and the sliding platform can be properly adjusted according to the mechanism for cornice.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (10)

1. The utility model provides a trapezoidal horizontal sliding platform of green intelligence for high big cornice, its characterized in that: the eave-type closed-type sliding rail comprises a closed-type sliding rail (100) connected end to end and a sliding platform (200) which is arranged on an eave and connected with the sliding rail (100), wherein the sliding platform (200) moves on the eave through the sliding rail (100);

slip platform (200) including being located cornice downside operation platform (300), being located cornice top surface's supporting component (400) that slides, it is fixed to be connected with operation platform (300) and makes it hang in cornice downside to slide supporting component (400), it can follow its slip to slide supporting component (400) and slide track (100) connection, install drive part (500) on the supporting component (400) that slides, drive part (500) are used for driving operation platform (300) and slide supporting component (400) and move around sliding track (100).

2. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 1, characterized in that: operation platform (300) and the fixed trapezium structure that is connected of supporting component (400) that slides, install in on operation platform (300) and cornice or wall connection's coupling assembling (600).

3. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 2, characterized in that: when the hook is installed on the cornice or the wall surface, the connecting assembly (600) comprises a supporting piece (601) and a rope (602), the rope (602) is fixedly connected with the hook, and the supporting piece (601) is installed at the bottom of the operating platform (300) and can extend to the wall surface.

4. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 3, characterized in that: when the slide rail is installed on the cornice or the wall surface, the connecting assembly (600) comprises a contact part (601) and a slide bar, one end of the slide bar is connected with the slide rail in a sliding mode, and the contact part (601) is installed at the bottom of the operating platform (300) and can extend to the wall surface.

5. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 3 or 4, characterized in that: the contact piece (601) comprises a cylinder (6011), an expansion link (6012) and an anti-skid plate (6013), the cylinder (6011) is connected with the expansion link (6012) and driven to expand and contract, and the anti-skid plate (6013) is installed at the end portion of the expansion link (6012) and used for being in contact with a wall face.

6. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 5, characterized in that: the sliding support assembly (400) comprises a first sliding table (401) connected with the operating platform (300) and a second sliding table (402) connected with the first sliding table (401); the second sliding table (402) is connected with the sliding track (100) in a sliding mode through a first roller, and the first sliding table (401) is connected with the second sliding table (402) in a sliding mode.

7. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 6, characterized in that: first slip table (401) are the setting of U type structure, first slip table (401) middle part equipartition has a plurality of bracing pieces (403) of passing second slip table (402), bracing piece (403) end fixing has stopper (404).

8. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 7, characterized in that: and sliding grooves (405) are symmetrically formed in two end faces of the second sliding table (402), and two ends of the first sliding table (401) penetrate through the sliding grooves (405) and are in interactive fit with the sliding grooves.

9. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 8, characterized in that: a plurality of slide rail (100) parallel fixation is on the cornice, slide rail (100) are the arc setting in the corner of cornice.

10. The green intelligent trapezoidal horizontal sliding platform for the tall cornice according to claim 9, characterized in that: the driving part (500) comprises a driver (501) and a second roller (502) in friction fit with the cornice, the driver (501) and the second roller (502) are both installed on the second sliding table (402), and the driver (501) drives the second roller (502) to move through tooth transmission.

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