CN216277042U - A safe suspended structure for building engineering high altitude construction - Google Patents

Abstract

The utility model relates to the technical field of high-altitude operation, in particular to a safe suspension structure for high-altitude construction of building engineering, which comprises a lifting box, threaded columns are arranged in the lifting box at intervals, the bottoms of the two threaded columns are rotationally connected with the bottom of the lifting box, first bevel gears are fixed at the tops of the two threaded columns, one side inside the lifting box is provided with rotating shafts at intervals, one end of each rotating shaft is rotatably connected with the inner wall of the lifting box, the other end of each rotating shaft is connected with a second bevel gear, the two second bevel gears are respectively meshed with the first bevel gears, the two rotating shafts are connected through a belt, the two threaded columns are both provided with adjusting mechanisms, adjustment mechanism one side is connected with the arc guard plate, and above-mentioned device had both prevented that the staff from stepping on empty and having leaded to colliding with the lift box mutually, increased the device flexibility through adjustment mechanism again.

Description

A safe suspended structure for building engineering high altitude construction

Technical Field

The utility model relates to the technical field of high-altitude operation, in particular to a safe suspension structure for high-altitude construction of building engineering.

Background

The high-altitude operation generally refers to high-altitude operation, and refers to operation performed by people at a high altitude with a certain position as a reference, and the high-altitude operation in building construction mainly includes five basic types, such as limb, entrance, climbing, crossing, and the like, and these types of high-altitude operation are main sites where casualty accidents of high-altitude operation may occur, so that when workers perform high-altitude construction operation, the workers need to use a safe suspension structure to ensure the operation safety of the workers.

The prior publication No. CN201921912054.X discloses a high-altitude construction safety suspension structure for houses and buildings, which comprises a seat plate and two vertical plates, wherein the two vertical plates are fixedly arranged at two sides of the seat plate through bolts, one side of the top of the seat plate is fixedly connected with an elastic band, and one end of the elastic band is buckled on an inverted buckle at the other side of the top of the seat plate through a buckle, a fixed pipe is fixedly inserted in a fixed cylinder at the outer side of the vertical plate, a sucking disc is arranged at one end of a movable rod in the fixed pipe, the sucking disc is used for sucking the wall of a house to fix the device during high-altitude operation, the phenomenon that the device shakes during high-altitude operation is avoided, the working efficiency of operators is reduced, the movable rod is movably inserted in the fixed pipe, the whole length of the movable rod and the fixed pipe can be adjusted by utilizing the movement of the movable rod in the fixed pipe according to actual conditions, the use is more flexible.

But above-mentioned device is fixed through binder band and connecting band to human body when using, and this is protected the staff, prevents that it from stepping on the sky and leading to dropping, nevertheless when the staff steps on the sky, its body can collide with the box, can cause serious injury to the staff equally.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that when a worker steps on the building, the worker collides with a lifting box in the prior art, and provides a safe suspension structure for high-altitude construction of building engineering.

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

the design is used for building engineering high altitude construction's safe suspended structure, including the elevator case, the inside interval of elevator case is provided with the screw thread post, two the screw thread bottom of the column portion rotates with the elevator bottom of the case and is connected, two the screw thread top of the column portion all is fixed with first bevel gear, the inside one side interval of elevator case is provided with the pivot, two pivot one end with the elevator incasement wall rotates to be connected, the other end is connected with second bevel gear, two second bevel gear respectively with first bevel gear meshes mutually, and two be connected through the belt between the pivot, two all be provided with adjustment mechanism on the screw thread post, adjustment mechanism one side is connected with the arc guard plate.

Preferably, adjustment mechanism includes support sleeve and telescopic link, the support sleeve screw thread sets up on the screw thread post, support sleeve one side and lift incasement wall sliding connection, the support sleeve opposite side is fixed with the backup pad, the spout has been seted up in the backup pad, the telescopic link slides and sets up inside the spout, the telescopic link output is connected with the arc.

Preferably, a protection pad is arranged on the arc-shaped plate.

Preferably, the lifting box further comprises a motor, the motor is fixed on the outer surface of the lifting box, and one end of the rotating shaft extends out of the interior of the lifting box and is connected with the output end of the motor.

Preferably, a mobile power supply is fixed on the lifting box, and the mobile power supply and the motor are located on the same side of the lifting box.

The utility model provides a safe suspension structure for high-altitude construction of building construction engineering, which has the beneficial effects that: this safe suspended structure of engineering high altitude construction is built in room when needs fix people of different heights, through rotating the pivot, the pivot is rotated and is made first bevel gear and second bevel gear rotate, the screw post can then follow second bevel gear rotate this moment, the screw post rotates and drives adjustment mechanism and reciprocate and drive the arc and reciprocate, satisfy the staff use of different heights and size, and avoid appearing the staff when using and step on the circumstances that the sky leads to the cage to collide with each other.

Drawings

FIG. 1 is a schematic overall structure diagram I of a safety suspension structure for high-altitude construction of a building construction project, provided by the utility model;

FIG. 2 is a schematic view of the overall structure of a safety suspension structure for high-altitude construction of building construction according to the present invention;

fig. 3 is a schematic structural diagram three of a safety suspension structure for high-altitude construction of building construction engineering provided by the utility model.

In the figure: 1 lifting box, 2 threaded columns, 3 first bevel gears, 4 rotating shafts, 5 belts, 6 second bevel gears, 7 supporting sleeves, 8 supporting plates, 9 sliding grooves, 10 telescopic rods, 11 arc-shaped plates, 12 motors and 13 mobile power supplies.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1-2, a safe suspended structure for high altitude construction of building engineering, including cage 1, the top of cage 1 is connected in elevating gear through connecting the rope, cage 1 is inside to be provided with screw thread post 2 at an interval, two screw thread post 2 bottoms are rotated with cage 1 bottom and are connected, two screw thread post 2 tops all are fixed with first bevel gear 3, cage 1 is inside one side interval to be provided with pivot 4, two pivot 4 one end is rotated with cage 1 inner wall and is connected, the other end is connected with second bevel gear 6, two second bevel gear 6 mesh with first bevel gear 3 respectively.

The lifting box comprises a lifting box body and is characterized by further comprising a motor 12, the motor 12 is fixed on the outer surface of the lifting box body 1, one end of each rotating shaft 4 extends out of the lifting box body 1 and is connected with the output end of the motor 12, the two rotating shafts 4 are connected through a belt 5, adjusting mechanisms are arranged on the two threaded columns 2 respectively, an arc-shaped protection plate 11 is connected to one side of each adjusting mechanism, each adjusting mechanism comprises a supporting sleeve 7 and a telescopic rod 10, the supporting sleeves 7 are arranged on the threaded columns 2 in a threaded mode, one side of each supporting sleeve 7 is connected with the inner wall of the lifting box body 1 in a sliding mode, the supporting sleeves 7 can only move up and down under the driving of the threaded columns 2, a supporting plate 8 is fixed to the other side of each supporting sleeve 7, sliding grooves 9 are formed in the supporting plates 8, the telescopic rods 10 are arranged inside the sliding grooves 9 in a sliding mode, workers can flexibly move in the lifting box body 1 in the front, the back and left directions, the flexibility of the lifting box body is improved, and the output end of each telescopic rod 10 is connected with the arc-shaped plate 11, be provided with the protection pad on the arc 11, carry out further protection to the staff, prevent that its clothing on one's body from being worn and torn by arc 11 and touch arc 11 carelessly when the construction and lead to limbs damage.

The working principle is as follows: when needs are fixed people of different heights, rotate rather than the pivot 4 that the output is connected through opening motor 12 drive, pivot 4 rotates and makes first bevel gear 3 and second bevel gear 6 rotate, threaded post 2 can then second bevel gear 6 rotate this moment, again because threaded post 2 goes up one side of threaded connection's support sleeve 7 be with the lateral wall sliding connection of cage 1, support sleeve 7 only can reciprocate and can't rotate this moment, support sleeve 7 reciprocates and can drive to be that the arc 11 that telescopic link 10 and telescopic link 10 are connected reciprocates, satisfy the staff use of different heights.

Example 2

Referring to fig. 3, as another preferred embodiment of the present invention, the difference from embodiment 1 is that a mobile power supply 13 is fixed on the lifting box 1, the mobile power supply 13 and the motor 12 are located on the same side of the lifting box 1, and the mobile power supply 13 supplies power to the motor 1, so that the problem of winding caused by using a wire is avoided.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (5)

1. A safe suspension structure for high-altitude construction of building engineering comprises a lifting box (1), it is characterized in that the lifting box (1) is internally provided with threaded columns (2) at intervals, the bottoms of the two threaded columns (2) are rotatably connected with the bottom of the lifting box (1), the tops of the two threaded columns (2) are both fixed with first bevel gears (3), one side inside the lifting box (1) is provided with rotating shafts (4) at intervals, one end of each of the two rotating shafts (4) is rotatably connected with the inner wall of the lifting box (1), the other end of each of the two rotating shafts is connected with a second bevel gear (6), the two second bevel gears (6) are respectively meshed with the first bevel gear (3), and the two rotating shafts (4) are connected through a belt (5), the two threaded columns (2) are provided with adjusting mechanisms, and one sides of the adjusting mechanisms are connected with arc-shaped plates (11).

2. The safety suspension structure for high-altitude construction of building construction engineering according to claim 1, characterized in that the adjusting mechanism comprises a support sleeve (7) and an expansion link (10), wherein the support sleeve (7) is threaded on the threaded column (2), one side of the support sleeve (7) is slidably connected with the inner wall of the lifting box (1), the other side of the support sleeve (7) is fixed with a support plate (8), a sliding groove (9) is formed in the support plate (8), the expansion link (10) is slidably arranged in the sliding groove (9), and the output end of the expansion link (10) is connected with an arc-shaped plate (11).

3. The safety suspension structure for high-altitude construction of building construction engineering according to claim 1, characterized in that the arc-shaped plates (11) are provided with protective pads.

4. The safety suspension structure for high-altitude construction of building construction engineering according to claim 1, further comprising a motor (12), wherein the motor (12) is fixed on the outer surface of the lifting box (1), and one end of the rotating shaft (4) extends out of the interior of the lifting box (1) and is connected with the output end of the motor (12).

5. The safety suspension structure for high-altitude construction of building construction engineering according to claim 4, characterized in that a mobile power supply (13) is fixed on the lifting box (1), and the mobile power supply (13) and the motor (12) are positioned on the same side of the lifting box (1).

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