CN219317837U - Adjusting structure and anti-seismic hanging bracket - Google Patents

Abstract

The utility model relates to the technical field of anti-seismic hanging frames, in particular to an adjusting structure, which comprises a traction arm, wherein the traction arm is lapped on the surface of a hook, an extension screw is screwed on the surface of the traction arm, a rotating cylinder is arranged on the surface of the extension screw, a steel wire rope is arranged on the surface of the rotating cylinder, one end of the steel wire rope is fixed on the surface of the traction arm by bypassing a positioning rod, and the positioning rod is arranged on the surface of the hook; the beneficial effects are as follows: the traction arm moves downwards to a height which can be reached by a worker when the worker stands on the ground, and then the traction arm is rotated, and the adjustment of the traction arm and the extension screw can be completed under the cooperation of the thread groove on the surface of the traction arm and the thread on the surface of the extension screw; the rotation extension screw drives the traction arm to rotate so as to drive the placing plate to move on the surface of the side groove, the rotation cylinder rotates so as to drive the steel wire rope to move, the placing plate can be located on the surface of the placing groove, and the placing plate can be lapped on the surface of the placing groove by rotating, so that the gravity of the traction arm applied to the steel wire rope as a whole is reduced.

Description

Adjusting structure and anti-seismic hanging bracket

Technical Field

The utility model relates to the field of anti-seismic hanging frames, in particular to an adjusting structure and an anti-seismic hanging frame.

Background

The anti-seismic support and hanger is a part of the support and hanger, plays roles in bearing the weight of each accessory and medium thereof, restraining and limiting unreasonable displacement of building components, controlling vibration of the components and the like in a construction link, and plays an extremely important role in safe operation of building facilities. The support and hanger is mainly used for building water supply and drainage, fire protection, heating, ventilation, air conditioning, fuel gas, heating power, electric power, communication and other electromechanical engineering facilities, and generates thermal displacement and equipment devices thereof during operation.

In the prior art, CN216952028U is a high adjustable antidetonation gallows, this patent can satisfy the holistic regulation of antidetonation gallows, and point out in this patent, with tuber pipe frame locating lever overlap joint on the bracket couple, press clamp plate wire rope on tuber pipe frame locating lever, then lock behind the bottom plate and the clamp plate wire rope that pass the bracket couple with locking bolt trailing arm, hang the couple on the pre-buried lifting hook in roof, when need highly finely tuning to the traction structure, rotate the trailing arm and rotate a section of thick bamboo, can realize spiro union groove installation pole and follow extension screw displacement, and the trailing arm rotates a section of thick bamboo top cover and establish the bearing frame handle, so can not lead to the trailing arm to rotate a section of thick bamboo and rotate and drive wire rope and twine.

However, when the traction arm is set at a high position and the traction arm is required to be rotated to adjust the height of the traction structure, a worker needs to be able to reach the traction arm and rotate the traction arm by the climbing device.

Disclosure of Invention

The utility model aims to provide an adjusting structure and an anti-seismic hanging bracket, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an adjusting structure, includes the trailing arm, and the trailing arm overlap joint is at the surface of couple, the surface spiro union of trailing arm has extension screw, and extension screw's surface is provided with a rotation section of thick bamboo, and the surface of a rotation section of thick bamboo is provided with wire rope, and wire rope's one end bypasses the locating lever to be fixed at the surface of trailing arm, and the locating lever is located the surface of couple.

Preferably, the traction arm is of a T-shaped column structure, the surface of the traction arm is integrally formed with a stacking plate, the stacking plate is of a T-shaped structure, and the stacking plate is lapped on the surface of the hook.

Preferably, the surface of the hook is provided with a side groove and a placing groove, the side groove is of a square plate-shaped structure, the placing groove is of a round groove body structure, the side groove is communicated with the placing groove, and the placing plate is positioned in the placing groove.

Preferably, the surface of the extension screw is provided with a mounting rod, the mounting rod is of a T-shaped cylinder structure, the rotating cylinder is of an annular cylinder structure, and the rotating cylinder is sleeved on the surface of the mounting rod.

Preferably, the surface of the rotary cylinder is provided with a handle, the handle is of a -shaped platy structure, the surface of the handle is movably inserted with a limiting rod, the limiting rod is of a T-shaped column structure, and one end of the limiting rod is movably inserted into a groove corresponding to the surface of the mounting rod.

Preferably, a spring is arranged between the handle and the surface of the limiting rod, and the spring is sleeved on the outer side of the limiting rod.

An anti-seismic hanging bracket comprises the adjusting structure.

Compared with the prior art, the utility model has the beneficial effects that:

according to the adjusting structure provided by the utility model, the steel wire rope is integrally pulled by the traction arm, the traction arm moves downwards to a height which can be reached by a worker standing on the ground, and then the traction arm is rotated, so that the adjustment of the traction arm and the extension screw can be completed under the cooperation of the thread groove on the surface of the traction arm and the thread on the surface of the extension screw; finally, the whole extension screw is rotated, the extension screw rotates to drive the traction arm to rotate, so that the traction arm is driven to be placed on the surface of the side groove, the steel wire rope is driven to move by rotating the rotating cylinder, the placing plate can be placed on the surface of the placing groove, and the traction arm is enabled to be placed on the surface of the placing groove in a lap joint mode by rotating the rotating cylinder, so that the gravity of the traction arm applied to the steel wire rope integrally is reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a partial schematic view of the structure of the present utility model;

FIG. 3 is a schematic view of a hanger according to the present utility model;

FIG. 4 is an enlarged schematic view of FIG. 2 at A;

fig. 5 is a schematic view of a partial structure of a trailing arm according to the present utility model.

In the figure: the device comprises a hook 1, a positioning rod 2, a steel wire rope 3, a traction arm 4, a placing plate 5, a side groove 6, a placing groove 7, an extension screw 8, a mounting rod 9, a rotating cylinder 10, a handle 11 and a limiting rod 12.

Detailed Description

In order to make the objects, technical solutions, and advantages of the present utility model more apparent, the embodiments of the present utility model will be further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are some, but not all, embodiments of the present utility model, are intended to be illustrative only and not limiting of the embodiments of the present utility model, and that all other embodiments obtained by persons of ordinary skill in the art without making any inventive effort are within the scope of the present utility model.

Example 1

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides an adjusting structure, includes trailing arm 4, trailing arm 4 overlap joint is at the surface of couple 1, the surface spiro union of trailing arm 4 has extension screw rod 8, and the surface of extension screw rod 8 is provided with a rotary drum 10, and the surface of rotary drum 10 is provided with wire rope 3, and wire rope 3's one end bypasses locating lever 2 to be fixed at the surface of trailing arm 4, and locating lever 2 locates the surface of couple 1; the steel wire rope 3 is integrally pulled by the traction arm 4, the traction arm 4 moves downwards to a height which can be reached by a worker standing on the ground, the traction arm 4 is rotated, and the adjustment of the traction arm 4 and the extension screw 8 can be completed under the cooperation of a thread groove on the surface of the traction arm 4 and a thread on the surface of the extension screw 8; finally, the whole extension screw 8 is rotated, the extension screw 8 rotates to drive the traction arm 4 to rotate, so that the placing plate 5 is driven to rotate on the surface of the side groove 6, the rotating cylinder 10 rotates to drive the steel wire rope 3 to move through the rotating cylinder 10, the placing plate 5 can be positioned on the surface of the placing groove 7, the placing plate 5 is lapped on the surface of the placing groove 7 through the rotating, and the gravity of the traction arm 4 applied to the steel wire rope 3 on the whole is relieved.

Example two

On the basis of the first embodiment, the traction arm 4 is of a T-shaped column structure, the surface of the traction arm 4 is integrally formed with a placing plate 5, the placing plate 5 is of a T-shaped structure, the placing plate 5 is lapped on the surface of the hook 1, the surface of the hook 1 is provided with a side groove 6 and a placing groove 7, the side groove 6 is of a square plate-shaped structure, the placing groove 7 is of a round groove body structure, the side groove 6 is communicated with the placing groove 7, the placing plate 5 is positioned in the placing groove 7, the surface of the extension screw 8 is provided with a mounting rod 9, the mounting rod 9 is of a T-shaped column structure, the rotating cylinder 10 is of an annular tubular structure, the rotating cylinder 10 is sleeved on the surface of the mounting rod 9, the surface of the rotating cylinder 10 is provided with a handle 11, the handle 11 is of a -shaped plate-shaped structure, the surface of the handle 11 is movably spliced with a limit rod 12, the limit rod 12 is of the T-shaped column structure, one end of the limiting rod 12 is movably inserted into a groove corresponding to the surface of the mounting rod 9, a spring is arranged between the handle 11 and the surface of the limiting rod 12, the spring is sleeved outside the limiting rod 12, when the hook 1 is hung on a roof embedded lifting hook, the extending screw rod 8 is rotationally connected to the whole surface of the anti-seismic hanging frame, therefore, when the traction arm 4 and the extending screw rod 8 are required to be adjusted, the limiting rod 12 is pulled to enable one end of the limiting rod 12 to be separated from the surface of the mounting rod 9, at the moment, the rotating cylinder 10 loses the limit, under the whole gravity of the traction arm 4, the steel wire rope 3 is integrally pulled by the traction arm 4 until the traction arm 4 moves downwards to the height which can be reached by a worker standing on the ground, and then the traction arm 4 is rotated, and the adjustment of the traction arm 4 and the extending screw rod 8 can be completed under the coordination of the thread groove on the surface of the traction arm 4 and the surface of the extending screw rod 8; after the adjustment is finished, the steel wire rope 3 is wound on the surface of the rotary cylinder 10 by rotating the handle 11 until the traction arm 4 contacts with the bottom surface of the hook 1, one end of the limiting rod 12 is movably inserted into a groove corresponding to the surface of the mounting rod 9, and the whole traction arm 4 is fixed; finally, the whole extension screw 8 is rotated, the extension screw 8 rotates to drive the traction arm 4 to rotate, so that the placing plate 5 is driven to rotate on the surface of the side groove 6, the rotating cylinder 10 rotates to drive the steel wire rope 3 to move through the rotating cylinder 10, the placing plate 5 can be positioned on the surface of the placing groove 7, the placing plate 5 is lapped on the surface of the placing groove 7 through the rotating, and the gravity of the traction arm 4 applied to the steel wire rope 3 on the whole is relieved.

An anti-seismic hanging bracket comprises the adjusting structure.

When the anti-vibration hanging rack is actually used, the hanging hook 1 is hung on a roof pre-buried hanging hook, the extension screw 8 is rotationally connected to the whole surface of the anti-vibration hanging rack, so that when the traction arm 4 and the extension screw 8 are required to be adjusted, one end of the anti-vibration hanging rack is pulled to be separated from the surface of the mounting rod 9, the rotating cylinder 10 loses limit, under the whole gravity of the traction arm 4, the steel wire rope 3 is integrally pulled by the traction arm 4 until the traction arm 4 moves downwards to the height which can be reached by a worker when standing on the ground, and then the traction arm 4 is rotated, and the adjustment of the traction arm 4 and the extension screw 8 can be completed under the cooperation of a thread groove on the surface of the traction arm 4 and a thread on the surface of the extension screw 8; after the adjustment is finished, the steel wire rope 3 is wound on the surface of the rotary cylinder 10 by rotating the handle 11 until the traction arm 4 contacts with the bottom surface of the hook 1, one end of the limiting rod 12 is movably inserted into a groove corresponding to the surface of the mounting rod 9, and the whole traction arm 4 is fixed; finally, the whole extension screw 8 is rotated, the extension screw 8 rotates to drive the traction arm 4 to rotate, so that the placing plate 5 is driven to rotate on the surface of the side groove 6, the rotating cylinder 10 rotates to drive the steel wire rope 3 to move through the rotating cylinder 10, the placing plate 5 can be positioned on the surface of the placing groove 7, the placing plate 5 is lapped on the surface of the placing groove 7 through the rotating, and the gravity of the traction arm 4 applied to the steel wire rope 3 on the whole is relieved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an adjust structure, includes trailing arm (4), and trailing arm (4) overlap joint are at the surface of couple (1), its characterized in that: the surface spiro union of trailing arm (4) has extension screw (8), and the surface of extension screw (8) is provided with a rotation section of thick bamboo (10), and the surface of rotation section of thick bamboo (10) is provided with wire rope (3), and the one end of wire rope (3) is walked around locating lever (2) and is fixed on the surface of trailing arm (4), and the surface of couple (1) is located to locating lever (2).

2. An adjustment structure according to claim 1, characterized in that: the traction arm (4) is of a T-shaped column structure, the surface of the traction arm (4) is integrally formed with a placing plate (5), the placing plate (5) is of a T-shaped structure, and the placing plate (5) is lapped on the surface of the hook (1).

3. An adjustment structure according to claim 2, characterized in that: the surface of the hook (1) is provided with a side groove (6) and a placing groove (7), the side groove (6) is of a square plate-shaped structure, the placing groove (7) is of a round groove body structure, the side groove (6) is communicated with the placing groove (7), and the placing plate (5) is positioned in the placing groove (7).

4. An adjustment structure according to claim 3, characterized in that: the surface of extension screw rod (8) is provided with installation pole (9), and installation pole (9) are "T" font cylinder structure, and rotary drum (10) are annular tubular structure, and rotary drum (10) cover is established at the surface of installation pole (9).

5. An adjustment mechanism according to claim 4, wherein: the surface of the rotary cylinder (10) is provided with a handle (11), the handle (11) is of a -shaped platy structure, a limiting rod (12) is movably inserted into the surface of the handle (11), the limiting rod (12) is of a T-shaped cylinder structure, and one end of the limiting rod (12) is movably inserted into a groove corresponding to the surface of the mounting rod (9).

6. An adjustment mechanism as set forth in claim 5, wherein: a spring is arranged between the handle (11) and the surface of the limiting rod (12), and the spring is sleeved on the outer side of the limiting rod (12).

7. An antidetonation gallows, its characterized in that: comprising an adjustment structure according to any of the preceding claims 1-6.

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