CN214697026U - But lateral shifting's high altitude construction safety suspended structure - Google Patents

Abstract

The utility model relates to a but lateral shifting's high altitude construction safety suspended structure belongs to the field of construction, and it includes the suspension rope, suspension rope's one end fixed connection is in the building top, wear to be equipped with the safety armour that is used for fixed operator on the suspension rope, the edge of building is equipped with adjustment mechanism, adjustment mechanism includes the messenger body and guide assembly, the wire rope handling hole has been seted up on the messenger body, the suspension rope passes the wire rope handling hole, adjustment mechanism passes through guide assembly and moves along the top edge of building. The utility model discloses through adjustment mechanism operation messenger body along the top edge removal of building, messenger's body drives the flagging portion lateral shifting of suspension rope to reach the operator who makes high altitude construction and change self lateral position and enlarge the purpose in operation area.

Description

But lateral shifting's high altitude construction safety suspended structure

Technical Field

The application relates to the technical field of building construction, in particular to a high-altitude operation safe suspension structure capable of moving transversely.

Background

The high-altitude operation is an important operation mode for installing, overhauling, cleaning and other daily maintenance of the curtain wall of the high-rise building. The overhead suspension device is one of the necessary auxiliary tools in the overhead operation, and is used for lifting and keeping the operator or the cargo in a suspended state.

In the related art, an aerial work suspension rope for lifting an operator has one end fixed to the top of a building and the other end naturally drooping along the edge of the building, and the suspension rope passes through a work clothes of the operator, so that the operator can carry out aerial work at various heights of the building along the length direction of the suspension rope.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: only one operator is hung on a single suspension rope, the operators can adjust different positions along the height direction of the suspension rope, the operable space of the horizontal operation in the high-altitude operation is extremely limited, and for a construction site requiring large-area high-altitude operation, a method of simultaneously constructing a plurality of persons has to be adopted, so that the labor cost and the potential safety hazard are improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of limitation of the transverse adjusting space of the aerial work suspension rope, the application provides a transversely-movable aerial work safety suspension structure.

The application provides a but lateral shifting's high altitude construction safety suspended structure adopts following technical scheme:

the utility model provides a but lateral shifting's high altitude construction safety suspended structure, includes the suspension rope, the one end fixed connection of suspension rope is in the building top, wear to be equipped with the safety armour that is used for fixed operator on the suspension rope, the edge of building is equipped with adjustment mechanism, adjustment mechanism includes the messenger body and guide assembly, the stringing hole has been seted up on the messenger body, the suspension rope passes the stringing hole, adjustment mechanism passes through guide assembly and moves along the top edge of building.

By adopting the technical scheme, the leading rope body is positioned at the top edge of the building and is penetrated by the suspension rope, so the leading rope body is always positioned at the same transverse position with the drooping part of the suspension rope, the adjusting mechanism controls the leading rope body to transversely move along the top edge of the building, and the leading rope body drives the drooping part of the suspension rope to move, so that the drooping part of the suspension rope obtains a transverse movement adjusting space, and an operator can perform aerial work in a larger operating space.

Optionally, the guide assembly includes a guide rod, the guide rod is fixedly connected to the top of the building, the length direction of the guide rod is the same as the moving direction of the rope guiding body, and a guide groove for the guide rod to pass through is formed in the rope guiding body.

Through adopting above-mentioned technical scheme, the guide arm passes the messenger body and provides removal direction and support to the messenger body, and the messenger body has comparatively stable moving direction and motion state during.

Optionally, the bottom of the guide groove is rotatably connected with a plurality of first rollers, the rotating plane of the first rollers is parallel to the length direction of the guide rod, and one end of the first rollers, which is far away from the bottom of the guide groove, is abutted to the guide rod.

Through adopting above-mentioned technical scheme, the relative roll between first gyro wheel and the guide arm makes the resistance that the messenger rope body received at the in-process of marcing reduce greatly, improves the smooth degree of messenger rope body removal process.

Optionally, adjustment mechanism still includes the control assembly, the control assembly includes accommodate the lead screw, adjusting sleeve and control rope, adjusting sleeve and the messenger rotate the connection, outside the accommodate the lead screw was located to the adjusting sleeve cover and the two threaded connection, control rope's one end fixed connection and adjusting sleeve global, the other end and safety armour relatively fixed, just control rope is equipped with many circles around being equipped with in adjusting sleeve global.

Through adopting above-mentioned technical scheme, the pulling control rope can make adjusting sleeve rotatory, and under adjusting sleeve and accommodate the lead screw's cooperation, adjusting sleeve drives the messenger body and removes along the length direction of accommodate the lead screw.

Optionally, the number of the control ropes is two, and the winding directions of the two control ropes on the adjusting sleeve are opposite.

By adopting the technical scheme, because the two control ropes are wound in different directions, the steering directions of the adjusting sleeve are different when the different control ropes are pulled in the same direction, so that the movement control of the leading rope body in two opposite directions can be realized.

Optionally, the hole wall of the rope threading hole is rotatably connected with a plurality of second rollers, the rotating plane of each second roller is parallel to the length direction of the suspension rope in the rope threading hole, and one end, facing the suspension rope, of each second roller is abutted to the suspension rope.

Through adopting above-mentioned technical scheme, because the one end of suspension rope is fixed in the unable removal of building top, then when the pilot rope body removed, the relative movement that the suspension rope will take place in the pilot rope body in rope-handling hole department, the second gyro wheel rolls with the suspension rope relatively, has improved the smooth degree of the in-process of suspension rope and pilot rope body relative movement, has also reduced the sliding friction that the suspension rope received, plays the guard action to the structure of suspension rope.

Optionally, the suspension rope is far away from the upper part and is positioned at a position where the safety armor is far away from the rope guiding body, and a safety block is fixedly connected with the safety armor.

Through adopting above-mentioned technical scheme, when safe armour is out of order and causes safe armour tenesmus out of control, the safe piece can form the limit point of whereabouts process to safe armour, when safe armour and safe piece looks butt, safe armour just no longer continues the tenesmus to the security of high altitude construction process has been improved.

Optionally, the outer side of the safety block is wrapped with an elastic pad.

By adopting the technical scheme, when the safety armor falls to the safety block along the suspension rope, the elastic cushion can prolong the deceleration of the safety armor so as to reduce the impact force of the safety block on the safety armor, and the safety armor can protect the suspension rope, the safety armor, the safety block and an operator.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the leading rope body and the adjusting mechanism, the leading rope body is always in the same transverse position with the hanging rope hanging part, the adjusting mechanism controls the leading rope body to transversely move along the top edge of the building, and the leading rope body drives the hanging rope hanging part to move, so that the hanging rope hanging part obtains a transverse movement adjusting space, and an operator can perform aerial work in a larger operating space;

2. through the setting of second gyro wheel, second gyro wheel and suspension rope direct contact, when suspension rope removed in the stringing hole, the global and suspension rope relative roll of second gyro wheel has reduced the friction that suspension rope received, and then reduces the friction damage that suspension rope received.

Drawings

FIG. 1 is a schematic illustration of an embodiment of the present application for embodying a laterally movable aerial work safety suspension.

Fig. 2 is a schematic diagram of a matching relationship for embodying an operating state of a rope guiding body in the embodiment of the present application.

Fig. 3 is a partially enlarged view of a portion a in fig. 1.

Description of reference numerals: 1. building; 11. a suspension rope; 12. a safety block; 121. an elastic pad; 13. safety armour; 2. an adjustment mechanism; 21. a rope guide body; 211. a stringing hole; 212. a second roller; 213. a guide groove; 3. a guide assembly; 31. a guide bar; 32. a first roller; 4. a control component; 41. adjusting the screw rod; 42. an adjustment sleeve; 43. a control cord.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a transversely-movable aloft work safety suspension structure, as shown in fig. 1, the transversely-movable aloft work safety suspension structure comprises a suspension rope 11 and an adjusting mechanism 2, wherein the suspension rope 11 hangs down along the side face of a building 1 and is used for hoisting an operator to perform suspended work on the side face of the building 1, and the adjusting mechanism 2 used for controlling the hanging part of the suspension rope 11 to transversely move is arranged at the top of the building 1.

As shown in fig. 1, one end of the suspension rope 11 is fixed on the top of the building 1, a safety armour 13 for fixing high-altitude operators is arranged on the side part of the building 1 through the suspension rope 11, and an adjusting device arranged on the safety armour 13 can enable the safety armour 13 to move or lock along the suspension rope 11 in the height direction of the building 1. A safety block 12 is fixed on the hanging rope 11 and positioned on one side of the safety armor 13 far away from the top of the building 1, and an elastic pad 121 made of rubber materials is wrapped outside the safety block 12; when the adjusting device of the safety shield 13 fails to lock the safety shield 13 in position relative to the suspension cord 11, the safety block 12 becomes a limiting point for the descending end position of the safety shield 13, and the risk that the operator directly falls to the bottom surface is reduced.

As shown in fig. 1 and 2, the adjusting mechanism 2 is located at the top edge of the building 1, and the adjusting mechanism 2 comprises a guiding component 3, a control component 4 and a rope guide 21. The guide assembly 3 comprises a guide rod 31 and a first roller 32, the guide rod 31 is parallel to the top edge line of the building 1 where the adjusting mechanism 2 is located, the guide rod 31 is fixedly connected with the building 1, the two guide rods 31 are parallel to each other, and the guide rod 31 penetrates through the rope guiding body 21. The rope guiding body 21 is provided with a guiding groove 213 for the guide rod 31 to pass through, the first roller 32 is rotatably connected to the bottom of the guiding groove 213, in this embodiment, the first roller 32 is a cylinder, the rotating plane of the first roller 32 is parallel to the length direction of the guide rod 31, and the peripheral surface of the first roller 32 abuts against the side surface of the guide rod 31 facing the bottom of the guiding groove 213.

As shown in fig. 1 and 2, a rope threading hole 211 is formed on the rope guiding body 21 and between the two guide rods 31, and the length direction of the rope threading hole 211 is perpendicular to the length direction of the guide rods 31; the suspension cord 11 is passed through the threading hole 211, and at this time, the suspension cord 11 on one side of the leading cord body 21 is a portion located at the top of the building 1, and the suspension cord 11 on the other side is a portion hanging down along the side of the building 1, and the leading cord body 21 moves along the guide bar 31 and also guides the hanging down portion of the suspension cord 11 to move laterally. The wall of the rope threading hole 211 is rotatably connected with a second roller 212, the rotating plane of the second roller 212 is parallel to the length direction of the rope threading hole 211, and the rotating peripheral surface of the second roller 212 is abutted to the suspension rope 11; when the suspension rope 11 moves in the rope threading hole 211, the second roller 212 replaces the hole wall of the rope threading hole 211 to directly contact and roll relative to the suspension rope 11, so that the structural damage of the suspension rope 11 is reduced.

As shown in fig. 1 and 3, the control assembly 4 is used for controlling the rope guide body 21 to move along the length direction of the guide rod 31, and the control assembly 4 comprises an adjusting sleeve 42, an adjusting screw rod 41 and a control rope 43; the length directions of the adjusting screw rod 41 and the two guide rods 31 are parallel, and the adjusting screw rod 41 is also fixedly connected with the building 1; the rope guiding body 21 is rotatably connected with an adjusting sleeve 42, the axis of the adjusting sleeve 42 coincides with the axis of the adjusting screw 41, the adjusting sleeve 42 is sleeved outside the adjusting screw 41, and the adjusting sleeve and the adjusting screw 41 are in threaded connection. Two ends of the adjusting sleeve 42 in the length direction are respectively positioned at two opposite sides of the rope guiding body 21, two adjusting parts of the adjusting sleeve 42 are formed between the rope guiding body 21 and two ends of the adjusting sleeve 42, two control ropes 43 are provided, and one ends of the two control ropes 43 are respectively fixed on different adjusting parts; the control ropes 43 are wound on the circumferential surface of the adjusting sleeve 42 of the adjusting part connected with each control rope 43 in multiple turns, and the winding directions of the two control ropes 43 on the adjusting sleeve 42 are opposite, namely different control ropes 43 are pulled, so that the adjusting sleeve 42 rotates in different turning directions, and the rope guiding body 21 can move along the guide rod 31 in two directions under the action of the adjusting screw rod 41. One end of the control rope 43, which is far away from the adjusting sleeve 42, is fixed on the safety armour 13, and under a normal state, the part of the control rope 43 between the safety armour 13 and the adjusting sleeve 42 is provided with an adjusting allowance, namely the control rope 43 is not subjected to the pulling force between the weight of an operator and the adjusting sleeve 42; the adjustment margin of the control cable 43 and the portion of the adjusting sleeve 42 around it together form the lateral adjustment range of the control unit 4 for the suspension cable 11.

The implementation principle of the aerial work safe suspension structure capable of moving transversely in the embodiment of the application is as follows:

an operator wears the safety armor 13 to carry out aerial work on the side of the building 1, and when the operator needs to move transversely to expand a working area, the control rope 43 is pulled to drive the adjusting sleeve 42 to rotate, so that the rope leading body 21 moves transversely on the guide rod 31, and meanwhile, the rope leading body 21 plays a transverse guiding role in the sagging part of the suspension rope 11; when the control rope 43 does not apply a pulling force to the adjusting sleeve 42, the adjusting screw rod 41 and the adjusting sleeve 42 form self-locking under the action of the threads, and the rope guiding body 21 maintains a stable position state.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a but lateral shifting's high altitude construction safety suspended structure, includes suspension rope (11), the one end fixed connection of suspension rope (11) is in building (1) top, wear to be equipped with on suspension rope (11) and be used for fixed operator's safety armour (13), its characterized in that: the edge of the building (1) is provided with an adjusting mechanism (2), the adjusting mechanism (2) comprises a rope guiding body (21) and a guide assembly (3), a rope threading hole (211) is formed in the rope guiding body (21), the suspension rope (11) penetrates through the rope threading hole (211), and the adjusting mechanism (2) moves along the top edge of the building (1) through the guide assembly (3).

2. A laterally displaceable aloft work safety suspension according to claim 1 wherein: the guide assembly (3) comprises a guide rod (31), the guide rod (31) is fixedly connected to the top of the building (1), the length direction of the guide rod (31) is the same as the moving direction of the rope guiding body (21), and a guide groove (213) for the guide rod (31) to pass through is formed in the rope guiding body (21).

3. A laterally displaceable aloft work safety suspension according to claim 2 wherein: the guide rail is characterized in that a plurality of first rollers (32) are rotatably connected to the bottom of the guide groove (213), the rotating plane of each first roller (32) is parallel to the length direction of the guide rod (31), and one end, far away from the bottom of the guide groove (213), of each first roller (32) is abutted to the guide rod (31).

4. A laterally displaceable aloft work safety suspension according to claim 1 wherein: adjustment mechanism (2) still include control assembly (4), control assembly (4) include accommodate the lead screw (41), adjusting sleeve (42) and control rope (43), adjusting sleeve (42) and messenger body (21) rotate to be connected, outside accommodate the lead screw (41) and two threaded connection are located to adjusting sleeve (42) cover, the one end fixed connection of control rope (43) and the global of adjusting sleeve (42), the other end and safe armour (13) relatively fixed, just control rope (43) are equipped with many circles in the global of adjusting sleeve (42) around.

5. A laterally displaceable aloft work safety suspension according to claim 4, wherein: the number of the control ropes (43) is two, and the winding directions of the two control ropes (43) on the adjusting sleeve (42) are opposite.

6. A laterally displaceable aloft work safety suspension according to claim 1 wherein: the wall of the rope threading hole (211) is rotatably connected with a plurality of second rollers (212), the rotating plane of each second roller (212) is parallel to the length direction of the suspension rope (11) in the rope threading hole (211), and one end, facing the suspension rope (11), of each second roller (212) is abutted to the suspension rope (11).

7. A laterally displaceable aloft work safety suspension according to claim 1 wherein: the hanging rope (11) is far away from the upper part and is fixedly connected with a safety block (12) at the position of the safety armor (13) far away from the rope leading body (21).

8. A laterally displaceable aloft work safety suspension according to claim 7 wherein: the outer side of the safety block (12) is wrapped with an elastic pad (121).

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