CN220080737U - Telescopic calipers type hanging basket cantilever supporting frame device - Google Patents

Abstract

The utility model discloses a telescopic caliper type hanging basket cantilever support frame device, which comprises: the device comprises a force transfer beam, a front support and a back support, wherein the force transfer beam is divided into an overhanging end and a non-overhanging end, the front support is sleeved at the overhanging end of the force transfer beam, the back support is sleeved at the non-overhanging end of the force transfer beam, the overhanging end of the force transfer beam is provided with a rope wheel and a suspension hanging point, the non-overhanging end of the force transfer beam is provided with a wedge-shaped joint, a safety steel wire rope of a hanging basket penetrates the wedge-shaped joint through the rope wheel, the end part of the safety steel wire rope is fixed on the wedge-shaped joint, and a working steel wire rope of the hanging basket is fixed at the suspension hanging point; according to the utility model, by utilizing the mechanical principle design of the lever, the safety of the whole hanging basket system can be ensured as long as the roof parapet gable or the flower frame beam has corresponding shear strength.

Description

Telescopic calipers type hanging basket cantilever supporting frame device

Technical Field

The utility model relates to the technical field of construction hanging baskets in building engineering, in particular to a telescopic caliper type hanging basket cantilever support frame device.

Background

Along with the promotion of people's material level, the attention degree of the intention of building facade increases increasingly for the unsmooth lines of building facade novel, the odd special, roofing pergola form of molding is various etc. reasons, traditional double-beam bridge formula hanging flower basket can not satisfy facade construction requirement yet, and because of double-beam bridge formula hanging flower basket combination member is many, occupy roofing space, the distance is chosen outward to limit, the installation space demand is big, the potential safety hazard is many scheduling problem, can't satisfy the demand of current facade operation.

At present, the construction industry also provides a plurality of single-double cantilever type hanging baskets in the hanging basket application, and solves the problems that the double-beam bridge type hanging basket occupies the roof space, but brings new potential safety hazards, construction difficulty and the like. Because the single-double cantilever type hanging basket is fixed on the parapet wall or the vertical component by utilizing the cantilever bracket, the cantilever end is pulled by adopting a steel wire rope to resist the vertical load of the cantilever end, when the transverse wind load or other transverse acting forces are received, the single-double cantilever type hanging basket is easy to incline sideways to generate safety accidents, or when the pulling rope of the cantilever end is not concentric with the stress direction of the single-double cantilever type hanging basket, the single-double cantilever type hanging basket can also be caused to incline to generate safety accidents; the overhanging length of the cantilever ends of the single and double cantilever type hanging baskets is fixed, so that the hanging baskets are difficult to leave the wall according to actual conditions and inconvenient to work to a certain extent if the hanging baskets meet the conditions of more protrusions of the outer vertical surface of a building, irregular protruding surfaces and the like.

Disclosure of Invention

The utility model aims to provide a telescopic caliper type hanging basket cantilever support frame device, which solves the technical problem that the hanging basket cantilever support frame device in the prior art is low in safety.

The aim of the utility model can be achieved by the following technical scheme:

a telescopic caliper basket cantilever support bracket apparatus comprising: the device comprises a force transfer beam, a front support and a back support, wherein the force transfer beam is divided into an overhanging end and a non-overhanging end, the front support is arranged at the overhanging end of the force transfer beam, the back support is arranged at the non-overhanging end of the force transfer beam, the overhanging end of the force transfer beam is provided with a rope wheel and a suspension hanging point, the non-overhanging end of the force transfer beam is provided with a wedge-shaped joint, a safety steel wire rope of a hanging basket penetrates into the wedge-shaped joint through the rope wheel, the end part of the safety steel wire rope is fixed on the wedge-shaped joint, and a working steel wire rope of the hanging basket is fixed at the suspension hanging point.

Further, a top support plate is arranged on one opposite side of the front support and the back support respectively, and the front support and the back support are connected and fixed with the top support plate through top support screws respectively.

Further, a plurality of reserved bolt holes are formed in the force transfer beam, a plurality of reserved holes are formed in the back support and the front support, and the front support and the back support are fixed on the force transfer beam through bolts.

Further, a limit support is arranged on the force transfer beam and fixedly connected with the wall body, and the force transfer beam is fixedly connected with the limit support.

The utility model has the beneficial effects that:

1. the safety is high: according to the utility model, by utilizing the mechanical principle design of the lever, the safety of the whole hanging basket system can be ensured as long as the roof parapet gable or the flower frame beam has corresponding shear strength;

2. the whole weight of the component is light: the heaviest component is a front support, the weight of the front support is about 30kg, the total weight of the whole support frame device after assembly is about 60kg, the whole weight is light, and the convenience of operation is improved;

3. the component assembly is simple: all the components can be detached, so that the transportation and the assembly are convenient, the assembly is connected by bolts and bolts, the technical difficulty is avoided, and the process that the traditional hanging basket needs a counterweight can be abandoned;

4. the application scene is wide: the device can be directly erected on parapet walls or roof flower frame beams, can be directly used after being fastened and stressed, does not occupy the roof space, does not have the effect that the steel wire rope is pulled everywhere to influence the passing of the roof, is not limited by the space environment of the roof, and has wide application prospect;

5. the compatibility is strong: the device can be changed into a safety belt hanging point of an outer frame worker during the period that the hanging basket is not used, an operator can hang a high-position operation falling protector at the hanging point of the hanging basket working rope by using the device, the life safety of the outer frame worker is protected, and the practicability is very high.

Drawings

The utility model is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of the overall structure of a telescopic caliper type hanging basket cantilever support frame device;

fig. 2 is a schematic structural view of a force transmission beam of a telescopic caliper type hanging basket cantilever support frame device;

fig. 3 is a schematic structural view of a back support and a front support of a telescopic caliper type hanging basket cantilever support frame device;

fig. 4 is a schematic structural view of a wedge-shaped joint of a telescopic caliper type hanging basket cantilever support frame device;

fig. 5 is a schematic structural diagram of a rope sheave and a suspension point of a telescopic caliper type hanging basket overhanging supporting frame device;

fig. 6 is a schematic structural view of a limiting support of a telescopic caliper type hanging basket cantilever support device.

In the figure: 1. a transfer beam; 2. a back support; 3. a top support plate; 31. supporting the screw rod; 4. a wedge joint; 5. a limit support; 6. a front support; 7. a rope pulley; 8. hanging the hanging point.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model is a telescopic caliper type hanging basket cantilever supporting frame device, comprising: the device comprises a force transfer beam 1, a front support 6 and a back support 2, wherein the force transfer beam 1 is used for erecting the whole support frame device on a wall body or other vertical components, the force transfer beam 1 divides two ends of the force transfer beam 1 into overhanging ends and non-overhanging ends through the erected wall body, the front support 6 is arranged at the overhanging ends of the force transfer beam 1, the back support 2 is arranged at the non-overhanging ends of the force transfer beam 1, and a hanging basket is hung at the overhanging ends of the force transfer beam 1 through working steel wire ropes;

the opposite sides of the front support 6 and the back support 2 are respectively provided with a top support plate 3, and the top support plates 3 are in contact with and limit with the two sides of the wall body.

In the embodiment, the front support 6 and the back support 2 are respectively connected and fixed with the top support plate 3 through top support screws 31;

specifically, the lower parts of the back support 2 and the front support 6 are welded to form an upright rod by adopting a welding process, and a support preformed hole with the diameter of 24mm is reserved at the position 50mm upwards from the lower end of the upright rod, so that the penetrating of the support screw 31 is facilitated.

When the support frame is used, the force transfer beam 1 is matched with the back support 2 and the front support 6, the whole support frame device is arranged on a wall body to form a caliper structure, and when the overhanging end of the force transfer beam 1 is subjected to downward tension, the back support 2 and the front support 6 can generate transverse thrust to the wall body, so that the whole support frame device can be tightly clamped on the wall body or other vertical components.

In this embodiment, the overhanging end of the force transfer beam 1 is opened, the rope sheave 7 and the hanging point 8 are arranged at the opening, the wedge-shaped connector 4 is arranged on the non-overhanging end of the force transfer beam 1, the safety steel wire rope of the hanging basket penetrates into the wedge-shaped connector 4 through the rope sheave 7, the end part of the safety steel wire rope is fixed on the wedge-shaped connector 4, tensioning and locking can be realized after the safety steel wire rope is stressed, and the hanging point 8 at the overhanging end of the force transfer beam 1 is used for fixing the working steel wire rope, so that the safety steel wire rope of the hanging basket is separately fixed with the working steel wire rope.

Specifically, the bottom of the shell part of the wedge-shaped joint 4 is welded with 90 x 70 x 5mm galvanized square steel, 1 reserved hole with the diameter of 14mm is reserved on the square steel, and the square steel at the bottom of the wedge-shaped joint 4 is sleeved at the tail part of the force transfer beam 1 and fixed through a bolt.

Specifically, the length of an opening of the overhanging end of the force transfer beam 1 is 100mm, 2 bolt holes with the diameter of 20mm are reserved at the opening, and phi 20 high-strength bolts are adopted to penetrate the bolt holes; the rope pulley 7 is arranged on the inner plug pin, and the suspension hanging point 8 is positioned on the outer plug pin;

specifically, the rope pulley 7 adopts a metal guide wheel with the diameter of 50mm, is fixed at the overhanging end part of the force transfer beam 1 by a bolt, and is used as a steering transition of a safety steel wire rope; the hanging point 8 is used as a hanging point of a hanging basket working steel wire rope, and a phi 20 high-strength bolt penetrates into the force transmission beam 1 to hang the working steel wire rope.

In this embodiment, a plurality of reserved bolt holes are formed in the force transfer beam 1, a plurality of reserved holes are formed in the back support 2 and the front support 6, and the front support 6 and the back support 2 are fixed on the force transfer beam 1 through bolts.

Specifically, the force transfer beam 1 is made of galvanized square steel with the specification of 70 x 50 x 5mm, and bolt reserved holes with the diameter of 14mm are arranged at intervals of 100mm from the center of the side surface of 50mm at the end part of the force transfer beam 1;

specifically, the back support 2 and the front support 6 are manufactured by welding galvanized square steel with the specification of 90-70-5 mm, so that the back support 2 and the front support 6 can be smoothly sleeved into the force transfer beam 1, the square steel sleeved into the force transfer beam 1 is provided with reserved holes every 100mm, and the reserved holes on the back support 2 and the front support 6 are communicated with the reserved bolt holes on the force transfer beam 1;

specifically, the back support 2 is sleeved into a part of the force transfer beam 1, the length of the part is 200mm, and 2 reserved holes with the diameter of 14mm are reserved;

specifically, the front support 6 is sleeved into a part of the force transfer beam 1, the length of the part is 600mm, and 6 reserved holes with the diameter of 14mm are reserved.

In this embodiment the support frame means is susceptible to lateral movement if subjected to forces transversely perpendicular to the transfer beam 1 during operation; through being provided with spacing support 5 on dowel steel 1, spacing support 5 and wall body fixed connection, dowel steel 1 and spacing support 5 fixed connection can guarantee that dowel steel 1 can not take place transverse displacement when receiving transverse effort, guarantees the stability of this support frame device.

Specifically, the limit support 5 adopts a steel plate with the thickness of 200 x 5mm as a base, 2 bolt holes are reserved on the plane of the steel plate, the limit support 5 is fixed on a wall body by using expansion screws, 90 x 70 x 5mm galvanized square steel is welded on the base, 2 bolt reserved holes with the diameter of 14mm are reserved on the side face of the square steel, the distance between the bolt reserved holes is 100mm, and the limit support 5 is fixedly connected with the force transmission beam 1 through bolts.

The specific working principle of the utility model is as follows:

when the wall body or the beam is in operation, firstly, the limiting support 5 is installed according to the actual use situation, and the limiting support 5 is fixedly connected with the wall body or the beam through the expansion screw; penetrating the force transfer beam 1 into a limit support 5, adjusting the overhanging length of the force transfer beam 1 according to the length requirement of the overhanging end of the force transfer beam 1 from a wall, fixing the force transfer beam 1 and the limit support 5, and sleeving the front support 6 and the back support 2 on the force transfer beam 1; then, the positions of the front support 6 and the back support 2 are adjusted, the front support 6 and the back support 2 are fixed on the force transmission beam 1 by bolts, and the top support screw rods 31 are adjusted to adjust the top support plates 3 at two sides to abut against the wall body, so that the force transmission beam 1 is kept horizontal as a whole or the overhanging end is slightly raised; finally, installing a wedge-shaped joint 4, a rope pulley 7 and a hanging point 8, installing a safety steel wire rope and a working steel wire rope, and hanging a hanging basket on the hanging point 8 through the working steel wire rope; after the installation is finished, the stress state of the equipment is checked, and the equipment can be started to be used without any problem.

The foregoing describes one embodiment of the present utility model in detail, but the description is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (4)

1. A telescopic caliper basket cantilever support bracket apparatus comprising: the novel lifting device is characterized in that the overhanging end of the force transfer beam (1) is provided with a rope sheave (7) and a suspension hanging point (8), the non-overhanging end of the force transfer beam (1) is provided with a wedge-shaped joint (4), a safety steel wire rope of a hanging basket penetrates into the wedge-shaped joint (4) through the rope sheave (7), the end part of the safety steel wire rope is fixed on the wedge-shaped joint (4), and a working steel wire rope of the hanging basket is fixed on the suspension hanging point (8).

2. A telescopic caliper type hanging basket cantilever supporting frame device according to claim 1, wherein the opposite sides of the front support (6) and the back support (2) are respectively provided with a top support plate (3), and the front support (6) and the back support (2) are respectively connected and fixed with the top support plates (3) through top support screws (31).

3. The telescopic caliper type hanging basket cantilever support frame device according to claim 1 is characterized in that a plurality of reserved bolt holes are formed in the force transfer beam (1), a plurality of reserved holes are formed in the back support (2) and the front support (6), and the front support (6) and the back support (2) are fixed on the force transfer beam (1) through bolts.

4. The telescopic caliper type hanging basket cantilever support frame device according to claim 1, wherein a limiting support (5) is arranged on the force transfer beam (1), the limiting support (5) is fixedly connected with a wall body, and the force transfer beam (1) is fixedly connected with the limiting support (5).