CN112411992A - Construction platform is prevented shaking by suspension type for construction - Google Patents

Abstract

The invention discloses a suspended anti-shaking construction platform for building construction, which comprises a stabilizing frame and a construction hanging basket, wherein the anti-shaking construction platform is also provided with an anti-shaking structure connected with the construction hanging basket, the anti-shaking structure comprises a bottom plate arranged perpendicular to the horizontal plane and two through holes arranged along the length direction of the bottom plate, and the two through holes are symmetrically arranged along the direction perpendicular to the horizontal plane; the anti-shaking structure also comprises a pair of fixing pieces, each fixing piece comprises a sliding rod in sliding connection with the through hole, one end of each sliding rod extends out of the through hole and is mutually and vertically connected with the fixed side plate, and a groove is formed in the fixed side plate along the direction vertical to the horizontal plane; the bottom plate is also provided with a connecting part used for being connected with the construction hanging basket and a limiting part used for fixing the length of the through hole extending out of the slide bar; through setting up and preventing shaking the structure, utilize recess and scaffold frame contact on the fixed curb plate, stretch out the distance of through-hole through spacing portion control slide bar to make construction hanging flower basket can not the horizontal hunting aloft, thereby construction platform's improvement stability.

Description

Construction platform is prevented shaking by suspension type for construction

Technical Field

The invention relates to the technical field of construction platforms, in particular to a suspended anti-shaking construction platform for building construction.

Background

The construction platforms used for auxiliary work in building construction are various, wherein a hanging basket is used frequently, the hanging basket is a construction tool for high-altitude operation in building engineering, the hanging basket acts on curtain wall installation and outer wall cleaning, the cantilever mechanism is erected on a building or a structure, the lifting mechanism is used for driving the suspension platform, and the construction facilities run up and down along the vertical surface of the building or the structure through a steel wire rope are also operation platforms arranged for operators.

The hanging flower basket is often used in building engineering, especially in high altitude construction big sharp weapon, and when traditional hanging flower basket was used in the high altitude, only reached the effect that part was firm through wire rope, however wire rope can only guarantee that the hanging flower basket can not rock in the vertical direction, and on the horizontal direction, the hanging flower basket often because less wind causes rocks about, thereby influences the progress of workman's construction.

Disclosure of Invention

The invention aims to provide a suspended anti-shaking construction platform for building construction, which is used for solving the technical problem of poor stability of the construction platform in the prior art.

In order to realize the task, the invention adopts the following technical scheme:

a suspension type anti-shaking construction platform for building construction comprises a stabilizing frame and a construction hanging basket hung on the stabilizing frame, and is further provided with an anti-shaking structure connected with the construction hanging basket, wherein the anti-shaking structure comprises a rectangular bottom plate arranged perpendicular to a horizontal plane and two through holes formed in the length direction of the bottom plate, and the two through holes are symmetrically arranged in the direction perpendicular to the horizontal plane; the anti-shaking structure further comprises a pair of fixing pieces, each fixing piece comprises a sliding rod in sliding connection with the through hole, one end of each sliding rod extends out of the through hole and is vertically connected with the corresponding fixing side plate, and a groove is formed in each fixing side plate in the direction perpendicular to the horizontal plane;

the bottom plate is also provided with a connecting part used for being connected with the construction hanging basket and a limiting part used for fixing the length of the through hole extending out of the sliding rod.

Furthermore, an elastic part is connected between the fixed side plate and the bottom plate.

Furthermore, the limiting part comprises a rotating wheel arranged on the bottom plate and two steel wire ropes connected to the rotating wheel, and the two steel wire ropes are also respectively connected with the pair of fixed side plates; the limiting part further comprises a rotating wheel fixing part used for fixing the rotating wheel.

Furthermore, the connecting part comprises a pair of sliding chutes which are arranged on the bottom plate along the direction vertical to the horizontal plane, and the sliding chutes are arranged on one surface of the bottom plate close to the construction hanging basket;

the connecting part further comprises a pair of connecting pieces, one end of each connecting piece is fixedly connected with the construction hanging basket, and the other end of each connecting piece extends into the corresponding sliding groove.

Furthermore, the connecting piece comprises a pair of connecting rods, one ends of the connecting rods are connected, the other ends of the connecting rods are separated from each other, and springs are connected between the connecting rods;

one end of the pair of connecting rods which are connected with each other is also connected with a fixed frame, and the fixed frame is also fixedly connected with the construction hanging basket;

the connecting piece also comprises an adjusting frame, and the adjusting frame is sleeved on the pair of connecting rods; threaded holes are symmetrically formed in the upper surface and the lower surface of the adjusting frame; the connecting piece also comprises a pair of threaded rods which penetrate through the threaded holes to be in contact with the connecting rods.

Furthermore, the anti-shaking construction platform also comprises a containing structure arranged on the construction hanging basket, the containing structure comprises a containing box, the containing box is installed at one end of the construction hanging basket, a plurality of containing frames are movably connected inside the containing box, connecting rods are further connected onto the containing frames, a plurality of strip-shaped holes are formed in the containing box along the direction vertical to the horizontal plane, and the connecting rods extend out of the strip-shaped holes;

the containing structure further comprises a base connected with the bottom end of the containing box, and a supporting frame used for lifting the connecting rod is connected to the base in a sliding mode.

Further, the support frame include the slider be provided with the spring on the slider be connected with the backup pad on the spring the backup pad on be provided with mated circle pole along vertical direction, be connected with branch between a pair of circle pole, branch with the connecting rod contact.

Furthermore, a tool transmission structure is further arranged on one side, away from the anti-shaking structure, of the construction hanging basket, the tool transmission structure comprises a pair of cross beams arranged parallel to the horizontal plane, two ends of each cross beam are connected with the construction hanging basket through connecting plates, and the tool transmission structure further comprises a hoisting piece and a tool box arranged below the hoisting piece; the lifting piece is movably connected between the pair of cross beams and moves along the length direction of the cross beams.

Furthermore, the connecting plate is connected with a push plate through a spring.

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

1. according to the suspension type anti-shaking construction platform for building construction, the anti-shaking structure is arranged, the groove in the fixed side plate is in contact with the scaffold, the distance that the sliding rod extends out of the through hole is controlled through the limiting part, so that a construction hanging basket cannot swing left and right in the air, and the stability of the construction platform is improved;

2. according to the suspension type anti-shaking construction platform for building construction, the fixed side plates are connected with the bottom plate through the elastic pieces, so that the convenience of moving the sliding rods is improved;

3. according to the suspension type anti-shaking construction platform for building construction, the limiting part is further limited to be the combination of the rotating wheel and the steel wire rope, and the stability of the platform is further improved;

4. according to the suspension type anti-shaking construction platform for building construction, the anti-shaking structure and the construction hanging basket are connected together by arranging the sliding chute and the connecting piece, so that the construction hanging basket can only move in the vertical direction, and the possibility that the construction hanging basket swings left and right in high altitude is further avoided;

5. according to the suspension type anti-shaking construction platform for building construction, the distance between the construction hanging basket and the anti-shaking structure is adjusted by increasing and decreasing the included angle of the pair of connecting pieces, so that the upper position and the lower position of the construction hanging basket can be finely adjusted, and the problem that the hanging basket usually shakes left and right due to small wind in the horizontal direction to influence the progress of worker construction because a steel wire rope can only ensure that the hanging basket cannot shake in the vertical direction is solved;

6. according to the suspension type anti-shaking construction platform for building construction, due to the arrangement of the storage structure, when working at high altitude, a worker drives a large number of tools to be placed in the storage box, when the suspension type anti-shaking construction platform is needed to be used, the support plate is stepped on by feet, the support plate slides through the feet, the support plate drives the sliding block to slide on the surface of the base to lift the storage frame, the worker can conveniently take needed tools, and the problem that the worker often needs to find a proper tool for a long time when the tools are placed in a bag is solved.

7. According to the suspension type anti-shaking construction platform for building construction, the tool box is hung below the cross beam through the tool transmission structure, when one worker needs to use a tool of the other worker, the tool is placed in the box at the moment, the push plate is pressed at the moment, the hanging piece is pushed out through elasticity, the hanging piece drives the tool in the tool box to slide on the surface of the cross beam through the wheels, the tool is transmitted to the worker at the other end, the problem that the workers need to run back and forth to exchange when needing to use the tools of each other is solved, and convenience of platform construction is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of a suspended anti-sway construction platform for building construction according to the present invention;

FIG. 2 is a schematic view of a partially enlarged structure of a suspended anti-sway construction platform for building construction according to the present invention;

fig. 3 is a schematic structural diagram of an anti-sway structure in a suspended anti-sway construction platform for building construction according to the present invention;

FIG. 4 is a schematic view of a partially enlarged structure of an anti-sway structure in a suspended anti-sway construction platform for building construction according to the present invention;

FIG. 5 is a schematic structural diagram of a connecting member in a suspended anti-sway construction platform for building construction according to the present invention;

FIG. 6 is a schematic view of a storage structure in a suspended anti-sway construction platform for building construction according to the present invention;

FIG. 7 is a schematic diagram of a tool transmission structure in a suspended anti-sway construction platform for building construction according to the present invention;

fig. 8 is a schematic connection diagram of steel wire ropes of an anti-sway structure in a suspended anti-sway construction platform for building construction provided by the invention.

The reference numbers in the figures represent: 1-construction hanging basket, 2-stabilizing frame, 3-control box, 4-shaking prevention structure, 5-storage structure, 6-tool transmission structure, (4-1) -bottom plate, (4-2) -through hole, (4-3) -fixing piece, (4-4) -connecting part, (4-5) -limiting part, (4-3-1) -sliding bar, (4-3-2) fixing side plate, (4-3-3) -elastic piece, (4-4-1) -sliding groove, (4-4-2) -connecting piece, (4-4-2-1) -connecting bar, (4-4-2-2) -fixing frame, (4-4-2-3) -adjusting frame, (4-4-2-4) -threaded rod, (4-4-2-5) -sliding plate, (4-5-1) -rotating wheel, (5-1) -containing box, (5-2) -containing frame, (5-3) -connecting rod, (5-4) -base, (5-5) -supporting frame, (5-6) -strip hole, (5-5-1) -sliding block, (5-5-2) -supporting plate, (5-5-3) -round rod, (5-5-4) -supporting rod, (6-1) -cross beam, (6-2) -hoisting piece, (6-3) -tool box, (6-4) -push plate, (6-5) -connecting plates.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

As shown in fig. 1-8, in the present embodiment, a suspended anti-sway construction platform for building construction is provided, which includes a stable frame 2 and a construction hanging basket 1 hung on the stable frame 2, the anti-sway construction platform is further provided with an anti-sway structure 4 connected to the construction hanging basket 1, the anti-sway structure 4 includes a rectangular bottom plate 4-1 disposed perpendicular to a horizontal plane and two through holes 4-2 disposed along a length direction of the bottom plate 4-1, and the two through holes 4-2 are symmetrically disposed along a direction perpendicular to the horizontal plane; the anti-shaking structure 4 further comprises a pair of fixing pieces 4-3, the fixing pieces 4-3 comprise sliding rods 4-3-1 in sliding connection with the through holes 4-2, one ends of the sliding rods 4-3-1 extend out of the through holes 4-2 to be mutually vertically connected with the fixed side plates 4-3-2, and grooves are formed in the fixed side plates 4-3-2 in the direction vertical to the horizontal plane;

the bottom plate 4-1 is also provided with a connecting part 4-4 used for being connected with the construction hanging basket 1 and a limiting part 4-5 used for fixing the length of the slide bar 4-3-1 extending out of the through hole 4-2.

In this embodiment, as shown in fig. 1 and 4, the whole construction platform includes a construction basket 1 suspended on a stabilizing frame 2, a control box 3 is further installed in the construction basket 1, and an anti-shaking structure 4 is connected with the construction basket 1.

The anti-shaking structure 4 comprises a bottom plate 4-1, the bottom plate 4-1 is cuboid, two through holes 4-2 are formed along the length direction of the bottom plate 4-1, the two through holes 4-2 are arranged in an up-and-down symmetrical mode, a fixing piece 4-3 penetrates through the through hole 4-2 and moves along the length direction of the through hole 4-2, one end, extending out of the through hole 4-2, of the fixing piece 4-3 is connected with a fixing side plate 4-3-2, the fixing side plate 4-3-2 is connected with a sliding rod 4-3-1 in an L-shaped mode, grooves used for being in contact with a scaffold are formed in the fixing side plate 4-3-2, a pair of grooves are formed in the fixing side plate 4-3-2, the pair of grooves are respectively in contact with the scaffold, the sliding rod 4-3, therefore, the pair of fixed side plates 4-3-2 are fixed on the scaffold, the anti-shaking structure 4 is fixedly connected with the construction hanging basket 1 through the connecting part 4-4, and the anti-shaking structure 4 is fixed on the scaffold through the pair of fixed side plates 4-3-2, so that the construction hanging basket 1 is fixed on the scaffold, and the construction hanging basket 1 is prevented from swinging left and right in the air.

Through the arrangement of the anti-shaking structure 4, when high-altitude operation is needed on the surface of a wall body, a scaffold is usually erected for assistance, the anti-shaking structure 4 is firstly connected with the construction hanging basket 1 through the connecting part 4-4 by virtue of a bolt, at the moment, the construction hanging basket 1 rises to a half-space to drive the bottom plate 4-1 to rise together, when construction is needed at a certain height, the sliding rod 4-3-1 in the bottom plate 4-1 is drawn out, the groove on the fixed side plate 4-3-2 connected by the pair of sliding rods 4-3-1 is matched with the shape of the scaffold, the sliding rod 4-3-1 is clamped on the surface of the vertical steel pipe of the scaffold by virtue of a circular groove, at the moment, the limiting part 4-5 is used for fixing the length of the sliding rod 4-3-1 extending out of the through hole 4-, the problem of wire rope can only guarantee that the hanging flower basket can not rock in the vertical direction in order to solve, on the horizontal direction, the hanging flower basket often rocks about because less wind causes to influence the progress of workman's construction.

Optionally, an elastic member 4-3-3 is connected between the fixed side plate 4-3-2 and the bottom plate 4-1.

In the embodiment, as shown in fig. 2 and 3, in order for a worker to conveniently draw out the sliding rod 4-3-1 from the through hole 4-2 in high altitude, an elastic member 4-3-3 is arranged between the fixed side plate 4-3-2 and the bottom plate 4-1, and the elastic member 4-3-3 can be an elastic device such as a spring, an elastic belt and the like.

Optionally, the limiting part 4-5 comprises a rotating wheel 4-5-1 mounted on the bottom plate 4-1 and two steel wire ropes connected to the rotating wheel 4-5-1, and the two steel wire ropes are respectively connected with a pair of fixed side plates 4-3-2; the limiting part 4-5 also comprises a rotating wheel fixing part 4-5-2 used for fixing the rotating wheel 4-5-1.

In this embodiment, as shown in fig. 3 and 8, the limiting portion 4-5 is implemented by a rotating wheel 4-5-1, a rotating wheel fixing member and a steel wire rope, the rotating wheel 4-5-1 is rotated during use, the rotating wheel 4-5-1 drives the steel wire rope wound thereon, at this time, the steel wire rope tensions two sliding rods 4-3-1, the sliding rods 4-3-1 are connected with the scaffold, the rotating wheel 4-5-1 is fixed by the rotating wheel fixing member to prevent the rotating wheel 4-5-1 from rotating accidentally, and the rotating wheel fixing member penetrates through a plurality of screw holes formed along the circumferential direction of the rotating wheel 4-5-1 and abuts against the bottom plate 4-1, so as to fix the rotating wheel 4-5-1.

Optionally, the connecting part 4-4 comprises a pair of sliding chutes 4-4-1 which are formed on the bottom plate 4-1 along a direction vertical to the horizontal plane, and the sliding chutes 4-4-1 are formed on one surface of the bottom plate 4-1, which is close to the construction hanging basket 1;

the connecting part 4-4 also comprises a pair of connecting pieces 4-4-2, one end of each connecting piece 4-4-2 is fixedly connected with the construction hanging basket 1, and the other end of each connecting piece 4-4-2 extends into the corresponding sliding groove 4-4-1.

In the present embodiment, as shown in fig. 3-5, in order to further realize the stability of the construction basket 1 in the air, the construction basket 1 is driven to move back and forth along the vertical direction by arranging the connecting member 4-4-2 capable of being arranged inside the sliding groove 4-4-1.

One end of the connecting piece 4-4-2 extending into the sliding groove 4-4-1 is of a T-shaped structure, and the short edge of the T-shaped structure is cylindrical, so that the connecting piece can slide in the sliding groove 4-4-1.

Optionally, the connecting member 4-4-2 comprises a pair of connecting rods 4-4-2-1, one ends of the pair of connecting rods 4-4-2-1 are connected, the other ends are separated from each other, and a spring is further connected between the pair of connecting rods 4-4-2-1;

one end of the pair of connecting rods 4-4-2-1 which is connected with each other is also connected with the fixed frame 4-4-2-2, and the fixed frame 4-4-2-2 is also fixedly connected with the construction hanging basket 1;

the connecting piece 4-4-2 also comprises an adjusting frame 4-4-2-3, the adjusting frame 4-4-2-3 is sleeved on the pair of connecting rods 4-4-2-1, and threaded holes are symmetrically formed in the upper surface and the lower surface of the adjusting frame 4-4-2-3; the connecting piece also comprises a pair of threaded rods 4-4-2-4, and the threaded rods 4-4-2-4 penetrate through the threaded holes to be in contact with the connecting rods 4-4-2-1.

In this embodiment, as shown in fig. 5, in order to finely adjust the up-down position of the construction basket 1, a specific structure of the connection member 4-4-2 is provided, in this embodiment, one end of a pair of connection rods 4-4-2-1 is connected to each other, the other end is far away from each other and is triangular, the ends far away from each other are connected by a spring, and a plurality of protrusions are provided in parallel on the connection rod 4-4-2-1.

In this embodiment, the pair of connecting rods 4-4-2-1 can be a diamond expansion bracket, the diamond expansion bracket is convenient to expand and contract in the process, the distance between the adjusting bottom plate 4-1 and the construction hanging basket 1 is convenient and rapid, and the adjusting distance is wide, however, the diamond expansion bracket needs to fix a plurality of movable corners in the fixing process, time consumption is inevitably increased in construction, a worker needs to check each movable corner once in the fixing process, and carelessness is inevitably caused, so that the movable corners are loosened.

In this embodiment, the opening angle of the fixed side plate 4-3-2-1 connected to the sliding rod 4-3-1 is adjusted to make the groove on the fixed side plate 4-3-2 and the scaffold in a straight line, so that the main scaffold is clamped by the groove on the fixed side plate 4-3-2, thereby achieving the purpose of stability.

The threaded rod 4-4-2-4 is also connected with a sliding plate 4-4-2-5 after passing through the threaded hole, and the sliding plate 4-4-2-5 is contacted with the connecting rod 4-4-2-1 through the sliding plate 4-4-2-5, namely, the sliding plate 4-4-2-5 can move back and forth in the direction vertical to the horizontal plane inside the adjusting frame 4-4-2-3.

When the sliding frame is used, the fixed frame 4-4-2-2 is firstly slid to adjust the surface of the connecting rod 4-4-2-1 to a proper position, the threaded rod 4-4-2-4 is screwed, the threaded rod 4-4-2-4 adjusts the distance between the sliding plate 4-4-2-5 and the connecting rod 4-4-2-1, the threaded rod 4-4-2-4 is fixed after the distance is adjusted, the sliding plate 4-4-2-5 is prevented from loosening, the two connecting rods 4-4-2-1 are opened by the tension of the spring, the connecting rod 4-4-2-1 adjusts the distance between the connecting rod 4-4-2-1 and the sliding frame 4-4-2-2 by adjusting the angle of the fixed frame and the fixed frame 4-4-2-2, after the distance between the bottom plate 4-1 and the construction hanging basket 1 is adjusted, the sliding rod 4-3-1 is drawn out to adjust the position of the groove, so that a main scaffold is clamped, and the stability of the construction hanging basket 1 is ensured.

Optionally, the anti-shaking construction platform further comprises a storage structure 5 arranged on the construction hanging basket 1, the storage structure 5 comprises a storage box 5-1, the storage box 51 is installed at one end of the construction hanging basket 1, a plurality of storage racks 5-2 are movably connected inside the storage box 5-1, the storage racks 5-2 are further connected with connecting rods 5-3, a plurality of strip-shaped holes 5-6 are formed in the storage box 5-1 along a direction perpendicular to the horizontal plane, and the connecting rods 5-3 extend out of the strip-shaped holes 5-6;

the containing structure 5 further comprises a base 5-4 connected with the bottom end of the containing box 5-1, and a supporting frame 5-5 used for lifting the connecting rod 5-3 is connected on the base 5-4 in a sliding mode.

In the embodiment, as shown in fig. 1 and 6, a receiving structure 5 is arranged on a side wall of a construction hanging basket 1, the receiving structure 5 comprises a receiving box 5-1, the receiving box 5-1 is fixedly connected with the construction hanging basket 1, a receiving frame 5-2 is slidably connected to an inner wall of the receiving box 5-1, a connecting rod 5-3 is rotatably connected to the surface of the receiving frame 5-2, a base 5-4 is fixedly connected to one end of the receiving box 5-1 close to the construction hanging basket 1, and a supporting frame 5-5 is slidably connected to the upper surface of the base 5-4.

The support frame 5-5 which can move along the length direction of the base 5-4 can move to the position below the connecting rod 5-3 corresponding to different storage frames 5-2, so that the support frame 5-5 is used for lifting the connecting rod 5-3, and the storage frame 5-2 is lifted from the storage box 5-1.

Optionally, the support frame 5-5 comprises a sliding block 5-5-1, a spring is arranged on the sliding block 5-5-1, a support plate 5-5-2 is connected to the spring, a pair of round rods 5-5-3 is arranged on the support plate 5-5-2 along the vertical direction, a support rod 5-5-4 is connected between the pair of round rods 5-5-3, and the support rod 5-5-4 is in contact with the connecting rod 5-3.

In the invention, as shown in fig. 6, a support frame 5-5 moves in a sliding groove on a base 5-4 through a sliding block 5-5-1, a support plate 5-5-2 is connected to the sliding block 5-5-1 through a spring, in the embodiment, the spring is respectively arranged at four corners of the sliding block 5-5-1, namely, the spring is connected between the support plate 5-5-2 and the sliding block 5-5-1, a pair of round rods 5-5-3 is also arranged on the support plate 5-5-2, and a support rod 5-5-4 is connected between the pair of round rods 5-5-3.

In this embodiment, as shown in fig. 6, when working at high altitude, a worker drives more tools, and places them in the storage box 5-1, when needed, the worker steps on the support plate 5-5-2 with feet, and slides the support plate 5-5-2 with feet to move along the length direction of the base 5-4, the support plate 5-5-2 drives the slider 5-5-1 to slide on the surface of the base 5-4, and the connecting rod 5-3 is inclined downward and inward in a natural state, the movement of the support frame 5-5 is not obstructed by the connecting rod 5-3, when the support frame slides to the vicinity of the storage frame 5-2 needed, the worker releases the feet slowly, and the support plate 5-5-2 is lifted slowly by the spring to drive the support rod 5-5-4 to lift, when the connecting rod 5-3 is required to be moved to the next storage rack 5-2, the supporting plate 5-5-2 is pressed by feet and is inclined towards the direction of the worker, and then the connecting rod 5-3 can be moved away from the supporting rod 5-5-4.

Optionally, a tool transmission structure 6 is further arranged on one side, away from the anti-shaking structure 4, of the construction hanging basket 1, the tool transmission structure 6 comprises a pair of cross beams 6-1 arranged parallel to the horizontal plane, two ends of the pair of cross beams 6-1 are connected with the construction hanging basket 1 through connecting plates 6-5, and the tool transmission structure 6 further comprises a hoisting piece 6-2 and a tool box 6-3 arranged below the hoisting piece 6-2; the hoisting piece 6-2 is movably connected between the pair of beams 6-1 and moves along the length direction of the beams 6-1.

In this embodiment, as shown in fig. 1 and 7, a tool transmission structure 6 is arranged at one end of the construction hanging basket 1 far away from the bottom plate 4-1, the tool transmission structure 6 comprises a pair of cross beams 6-1, a gap is arranged between the pair of cross beams 6-1, the hoisting piece 6-2 is in a cross shape, the lower end of the cross passes through the gap and then is fixedly connected with the tool box 6-3, rollers are respectively connected to the lower parts of the left end and the right end of the cross, the pair of rollers are erected on the pair of cross beams 6-1, and the pair of rollers move along the length direction of the pair of cross beams 6.

When the worker needs to transport the tool again on the gondola, the tool can be transported by pushing the toolbox 6-3 to move along the length of the beam 6-1.

Optionally, a push plate 6-4 is connected to the connecting plate 6-5 through a spring.

In this embodiment, as shown in fig. 7, the pressing push plate 6-4 can push the tool box 6-3 to the other side conveniently and quickly by using the elastic force of the spring.

In the invention, through arranging the tool transmission structure 6, two persons often carry out construction on the construction hanging basket 1 one by one, when one worker needs to use the tool of the other worker, the tool is placed in the tool box 6-3 at the moment, the clamping block on the tool box 6-3 is buckled, the push plate 6-4 is pressed at the moment, when the spring is pressed and deformed, the hand is loosened, the spring pops out the hoisting piece 6-2 by virtue of the push plate 6-4 at the moment, the hoisting piece 6-2 drives the tool in the tool box 6-3 to slide on the surface of the cross beam 6-12 by virtue of the wheels, and the tool is transmitted to the worker at the other end at the moment, so that the problem that the workers need to run back and forth for interchange when needing to use the tools of each other is solved.

The invention provides a suspended anti-shaking construction platform for building construction, which comprises the following use steps:

s1, taking parts of the construction hanging basket 1 and the stabilizing frame 2 to a construction site, and fixing the high and low railings and the basket bottom by bolts;

s2, connecting the construction hanging basket 1 with the stabilizing frame 2 through a steel wire rope, placing the stabilizing frame 2 on a roof, stabilizing the stabilizing frame 2 by means of a heavy object, installing the control box 3 in the construction hanging basket 1 and communicating a power supply, and testing the performance of the construction hanging basket 1 before formal construction;

s3, before formal construction, fixing the anti-shaking structure 4 at one end of the construction hanging basket 1 close to the wall of the scaffold through bolts, and adjusting the opening angle of a pair of connecting rods 4-4-2-1 by means of a fixing frame 4-4-2-2 so as to adjust the distance from the bottom plate 4-1 to the construction hanging basket 1;

s4, winding the two steel wires on the surface of the rotating wheel 4-5-1 in opposite directions, and fixedly connecting the other ends of the two steel wires with a pair of connecting rods 4-4-2-1;

s5, arranging the tools needed by construction, and hanging the tools on the storage rack 5-2 in the storage box 5-1 in sequence;

s6, enabling workers to enter the construction hanging basket 1, placing safety belts, and lifting the construction hanging basket 1 for overhead operation;

s7, tools which are not used temporarily in high-altitude operation are placed in the containing box 5-1 to prevent accidental falling to cause high-altitude falling accidents;

s8, in the working process, the tool is transmitted by using the tool transmission structure;

s9, cleaning the surface of the construction hanging basket 1 after construction is finished;

and S10, after the work of the staff is finished, closing the power supply of the control box 3, and simultaneously locking the control box 3 to prevent passers-by from touching and operating.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes by using the technical contents disclosed in the above description to other fields, but any simple modification, equivalent change and change made to the above embodiments according to the technical essence of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (9)

1. A suspended anti-shaking construction platform for building construction comprises a stabilizing frame (2) and a construction hanging basket (1) hung on the stabilizing frame (2), and is characterized in that the anti-shaking construction platform is further provided with an anti-shaking structure (4) connected with the construction hanging basket (1), the anti-shaking structure (4) comprises a cuboid bottom plate (4-1) arranged perpendicular to a horizontal plane and two through holes (4-2) formed in the length direction of the bottom plate (4-1), and the two through holes (4-2) are symmetrically arranged in the direction perpendicular to the horizontal plane; the anti-shaking structure (4) further comprises a pair of fixing pieces (4-3), the fixing pieces (4-3) comprise sliding rods (4-3-1) in sliding connection with the through holes (4-2), one ends of the sliding rods (4-3-1) extend out of the through holes (4-2) and are mutually and vertically connected with the fixed side plates (4-3-2), and grooves are formed in the fixed side plates (4-3-2) along the direction vertical to the horizontal plane;

the bottom plate (4-1) is also provided with a connecting part (4-4) used for being connected with the construction hanging basket (1) and a limiting part (4-5) used for fixing the length of the sliding rod (4-3-1) extending out of the through hole (4-2).

2. A suspended shaking prevention construction platform for building construction as claimed in claim 1, wherein an elastic member (4-3-3) is further connected between the fixed side plate (4-3-2) and the bottom plate (4-1).

3. A suspended shaking prevention construction platform for building construction according to claim 2 wherein the limiting part (4-5) comprises a rotating wheel (4-5-1) mounted on the bottom plate (4-1) and two steel wire ropes connected to the rotating wheel (4-5-1), the two steel wire ropes are further connected to a pair of fixed side plates (4-3-2) respectively; the limiting part (4-5) also comprises a rotating wheel fixing part for fixing the rotating wheel (4-5-1).

4. A suspended shaking-proof construction platform for building construction according to claim 3 wherein the connection part (4-4) comprises a pair of sliding grooves (4-4-1) formed on the bottom plate (4-1) along the direction perpendicular to the horizontal plane, the sliding grooves (4-4-1) are formed on the bottom plate (4-1) near the construction basket (1);

the connecting part (4-4) further comprises a pair of connecting pieces (4-4-2), one end of each connecting piece (4-4-2) is fixedly connected with the construction hanging basket (1), and the other end of each connecting piece extends into the sliding groove (4-4-1).

5. A suspended shaking prevention construction platform for building construction as claimed in claim 4, wherein the connection member (4-4-2) comprises a pair of connection rods (4-4-2-1), one end of the pair of connection rods (4-4-2-1) is connected and the other end is separated from each other, and a spring is connected between the pair of connection rods (4-4-2-1);

one end of the pair of connecting rods (4-4-2-1) which are connected with each other is also connected with a fixed frame (4-4-2-2), and the fixed frame (4-4-2-2) is also fixedly connected with the construction hanging basket (1);

the connecting piece (4-4-2) further comprises an adjusting frame (4-4-2-3), and the adjusting frame (4-4-2-3) is sleeved on the pair of connecting rods (4-4-2-1); threaded holes are symmetrically formed in the upper surface and the lower surface of the adjusting frame (4-4-2-3); the connecting piece also comprises a pair of threaded rods (4-4-2-4), and the threaded rods (4-4-2-4) pass through the threaded holes to be in contact with the connecting rods (4-4-2-1).

6. A suspended shaking prevention construction platform for building construction according to claim 1, wherein the shaking prevention construction platform further comprises a receiving structure (5) arranged on the construction hanging basket (1), the receiving structure (5) comprises a receiving box (5-1), the receiving box (51) is installed at one end of the construction hanging basket (1), a plurality of receiving frames (5-2) are movably connected inside the receiving box (5-1), the receiving frames (5-2) are further connected with connecting rods (5-3), a plurality of strip-shaped holes (5-6) are formed in the receiving box (5-1) along a direction perpendicular to the horizontal plane, and the connecting rods (5-3) extend out of the strip-shaped holes (5-6);

the storage structure (5) further comprises a base (5-4) connected with the bottom end of the storage box (5-1), and a support frame (5-5) used for lifting the connecting rod (5-3) is connected to the base (5-4) in a sliding mode.

7. A suspended shaking-proof construction platform for building construction according to claim 6 wherein the support frame (5-5) comprises a slide block (5-5-1), a spring is arranged on the slide block (5-5-1), a support plate (5-5-2) is connected to the spring, a pair of round bars (5-5-3) is arranged on the support plate (5-5-2) along the vertical direction, a support rod (5-5-4) is connected between the pair of round bars (5-5-3), and the support rod (5-5-4) is in contact with the connecting rod (5-3).

8. A suspended shaking-proof construction platform for building construction as claimed in claim 6, wherein a tool transmission structure (6) is further provided at a side of the construction basket (1) far from the shaking-proof structure (4), the tool transmission structure (6) comprises a pair of beams (6-1) arranged parallel to the horizontal plane, both ends of the pair of beams (6-1) are connected with the construction basket (1) through connecting plates (6-5), the tool transmission structure (6) further comprises a hoisting member (6-2) and a tool box (6-3) arranged below the hoisting member (6-2); the hoisting piece (6-2) is movably connected between the pair of cross beams (6-1) and moves along the length direction of the cross beams (6-1).

9. A suspended shaking-proof construction platform for building construction as claimed in claim 8, wherein the connection plate (6-5) is further connected with a push plate (6-4) through a spring.

Images