CN220768660U - BIM-based adjustable awning with hydraulic telescopic device - Google Patents

Abstract

The utility model discloses an adjustable canopy with a hydraulic telescopic device based on BIM, which comprises a main structure column, wherein the main structure column is vertical to the ground and is vertically arranged, a canopy beam is arranged on the main structure column, the main structure column is connected with the canopy beam through a main connecting component, an electric telescopic hydraulic device is arranged above the canopy beam, two ends of the electric telescopic hydraulic device are respectively arranged on the main structure column and the canopy beam through secondary connecting components, and the electric telescopic hydraulic device is connected with an external power supply through a power line. The utility model can flexibly adjust the overturning angle of the awning according to weather and use requirements, can effectively cope with and prevent disasters caused by strong wind and snowy weather, has wide application range and can meet daily production requirements of factories.

Description

BIM-based adjustable awning with hydraulic telescopic device

Technical Field

The utility model relates to the technical field of rainsheds, in particular to an adjustable rainshed with a hydraulic telescopic device based on BIM.

Background

The awning is a building assembly which is arranged above a building entrance or a top balcony and is used for shielding rain, wind and high-altitude falling objects from being injured by smashing. According to different structural forms of the rain shed, the rain shed is divided into a steel structure rain shed and a concrete rain shed. Because of the limitations of the concrete canopy, the concrete canopy can only be applied to a concrete structure, is heavy, needs formwork pouring and is complex in construction; the inverted steel structure canopy can be installed on a concrete structure or a steel structure factory building, and is simple and quick to install, light and attractive in appearance. So the application of the steel structure canopy is more and more widespread, especially in industrial production.

When the overhanging length of the traditional awning is greater than 2.4 meters, the upper diagonal rods are arranged, but the length of the general diagonal rods is fixed, so that the awning cannot adjust the inclination angle according to weather requirements, the air pressure cannot be dredged, the snow accumulation removing function is not achieved, and therefore the awning is damaged frequently, and extra unnecessary loss is brought to factory buildings.

Disclosure of Invention

The utility model aims to provide an adjustable canopy with a hydraulic telescopic device based on BIM, which has the advantages of adjustable canopy angle, high practicability and wide application range, and solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides an area hydraulic telescoping device's adjustable canopy based on BIM, includes the major structure post, the perpendicular ground of major structure post and vertical setting up, installs the canopy roof beam on the major structure post, and the major structure post passes through main coupling assembling with the canopy roof beam and is connected, and the top of canopy roof beam is equipped with electronic scalable hydraulic means, and electronic scalable hydraulic means's both ends are installed respectively on major structure post and canopy roof beam through sub-coupling assembling, and electronic scalable hydraulic means passes through the power cord and connects external power source.

Preferably, the skin material of the upper surface of the canopy beam is glass or profiled steel sheet.

Preferably, the main connecting assembly comprises a first main connecting plate, a second main connecting plate and a main rotating shaft, wherein the first main connecting plate is arranged on the side wall of the main structural column, the second main connecting plate is arranged on the end face, facing the main structural column, of the canopy beam, and the first main connecting plate and the second main connecting plate are connected through the main rotating shaft.

Preferably, the secondary connection assembly comprises a first secondary connection plate, a second secondary connection plate and a secondary rotation shaft, wherein the first secondary connection plate, the second secondary connection plate and the secondary rotation shaft are of a group of locking structures, and two groups are arranged in total.

Preferably, the two ends of the electric telescopic hydraulic device are respectively connected with a second connecting plate, the first connecting plates are respectively arranged on the side wall of the main body structural column and the upper surface of the canopy beam, and the first connecting plates are connected with the second connecting plates through secondary rotating shafts.

Preferably, the main structure column, the canopy beam and the electric telescopic hydraulic device form a position relationship of a triangle structure.

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

1. when the utility model is used for dealing with windy weather, in order to effectively dredge wind load borne by the lower surface of the awning, the electric telescopic hydraulic device is started, so that a piston rod of the electric telescopic hydraulic device is retracted into the sleeve, and the awning beam is driven to rotate upwards around the main rotating shaft, so that the awning beam is turned upwards; when the rain shed beam is in heavy snow weather, in order to enable snow on the rain shed beam to slide down to reduce stress, an electric telescopic hydraulic device is started to enable a piston rod of the electric telescopic hydraulic device to extend outwards of a sleeve, and the piston rod drives the rain shed beam to turn down, so that the snow phenomenon can be effectively prevented; when daily use, through adjusting electronic scalable hydraulic means's flexible length messenger canopy roof beam level state can, can adjust the canopy angle in a flexible way according to the weather, the practicality is high.

2. The utility model can be used for concrete structure plants, also can be used for steel structure plants, and can be used for reserving embedded parts on main structure columns and welding the first main connecting plates when being used for concrete plants, and can be used for reserving the first main connecting plates on the main structure columns made of steel when being used for steel structure plants, so that the application range is wide, and the daily production requirements are met.

Drawings

FIG. 1 is a plan view of a canopy beam of the present utility model in an upturned state;

FIG. 2 is a plan view of a canopy beam of the present utility model in a horizontal position;

FIG. 3 is a plan view of the canopy beams of the present utility model in a turned down condition;

FIG. 4 is a plan view of a first primary web of the present utility model;

FIG. 5 is a plan view of a second primary web of the present utility model;

fig. 6 is a plan view of the main rotation shaft of the present utility model.

In the figure: 1. a main structural column; 2. a canopy beam; 3. a main connection assembly; 31. a first main connection board; 32. a second main connection plate; 33. a main rotation shaft; 4. an electrically-operated telescopic hydraulic device; 5. a secondary connection assembly; 51. a first connecting plate; 52. a second connecting plate; 53. a secondary rotating shaft; 6. and a power supply line.

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.

In order to solve the problem that the angle of the awning is not adjustable in the prior art, the following technical scheme is provided, please refer to fig. 1-6;

the utility model provides an adjustable canopy of area hydraulic telescoping device based on BIM, including main structure post 1, main structure post 1 is perpendicular ground and vertical the setting up, installs rain shed roof beam 2 on the main structure post 1, and main structure post 1 is connected through main coupling assembling 3 with rain shed roof beam 2, and the top of rain shed roof beam 2 is equipped with electronic scalable hydraulic means 4, and electronic scalable hydraulic means 4's both ends are installed respectively on main structure post 1 and rain shed roof beam 2 through sub-coupling assembling 5, and electronic scalable hydraulic means 4 passes through power cord 6 and connects external power source.

The covering material of the upper surface of the canopy beam 2 is glass or profiled steel sheet.

The main connection assembly 3 includes a first main connection plate 31, a second main connection plate 32, and a main rotation shaft 33, the first main connection plate 31 is installed on a side wall of the main structural column 1, the second main connection plate 32 is installed on an end face of the canopy beam 2 facing the main structural column 1, and the first main connection plate 31 and the second main connection plate 32 are connected through the main rotation shaft 33.

The secondary connection assembly 5 comprises a first secondary connection plate 51, a second secondary connection plate 52 and a secondary rotation shaft 53, wherein the first secondary connection plate 51, the second secondary connection plate 52 and the secondary rotation shaft 53 are of a group of locking structures, and two groups are arranged in total.

The two ends of the electric telescopic hydraulic device 4 are respectively connected with a second connecting plate 52, the first connecting plates 51 are respectively arranged on the side wall of the main body structural column 1 and the upper surface of the canopy beam 2, and the first connecting plates 51 and the second connecting plates 52 are connected through a second rotating shaft 53.

The main structure column 1, the canopy beam 2 and the electric telescopic hydraulic device 4 form a triangle structure.

Specifically, in order to effectively dredge wind load on the lower surface of the canopy when the weather is met, the electric telescopic hydraulic device 4 is started, so that a piston rod of the electric telescopic hydraulic device 4 retracts into the sleeve, and the canopy beam 2 is driven to rotate upwards around the main rotating shaft 33, so that the canopy beam 2 is turned upwards; when the rain shed beam 2 is used for coping with snowy weather, in order to enable snow on the rain shed beam 2 to slide down to reduce stress, the electric telescopic hydraulic device 4 is started to enable a piston rod of the electric telescopic hydraulic device to extend outwards of the sleeve, and the piston rod drives the rain shed beam 2 to turn down, so that the snow phenomenon can be effectively prevented; when the rain shed beam is used daily, the rain shed beam 2 can be kept in a horizontal state by adjusting the telescopic length of the electric telescopic hydraulic device 4.

Specifically, the device application range is wide, can be used to concrete structure factory building, also can be used to steel construction factory building, when being used for concrete factory building, reserve the built-in fitting on major structure post 1 and weld first main connecting plate 31 can, when being used for steel construction factory building, reserve first main connecting plate 31 on major structure post 1 of steel can.

Working principle: when the weather of strong wind is dealt with, in order to effectively dredge wind load borne by the lower surface of the canopy, the electric telescopic hydraulic device 4 is started, so that a piston rod of the electric telescopic hydraulic device 4 is retracted into the sleeve, the canopy beam 2 is driven to rotate upwards around the main rotating shaft 33, and the canopy beam 2 is turned upwards; when the rain shed beam 2 is used for coping with snowy weather, in order to enable snow on the rain shed beam 2 to slide down to reduce stress, the electric telescopic hydraulic device 4 is started to enable a piston rod of the electric telescopic hydraulic device to extend outwards of the sleeve, and the piston rod drives the rain shed beam 2 to turn down, so that the snow phenomenon can be effectively prevented; when the rain shed beam is used daily, the rain shed beam 2 can be kept in a horizontal state by adjusting the telescopic length of the electric telescopic hydraulic device 4.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (6)

1. The utility model provides an adjustable canopy of area hydraulic telescoping device based on BIM, includes major structure post (1), its characterized in that, major structure post (1) perpendicular ground and vertical setting up, install canopy roof beam (2) on major structure post (1), major structure post (1) are connected through main coupling assembling (3) with canopy roof beam (2), the top of canopy roof beam (2) is equipped with electronic scalable hydraulic means (4), install respectively on major structure post (1) and canopy roof beam (2) through sub-coupling assembling (5) at the both ends of electronic scalable hydraulic means (4), external power source is connected through power cord (6) to electronic scalable hydraulic means (4).

2. The BIM-based adjustable awning with the hydraulic telescopic device, as claimed in claim 1, is characterized in that the upper surface of the awning beam (2) is made of glass or profiled steel sheet.

3. The adjustable canopy with hydraulic telescoping device based on BIM according to claim 1, wherein the main connection assembly (3) includes a first main connection board (31), a second main connection board (32) and a main rotation shaft (33), the first main connection board (31) is mounted on a side wall of the main structure column (1), the second main connection board (32) is mounted on an end face of the canopy beam (2) facing the main structure column (1), and the first main connection board (31) and the second main connection board (32) are connected through the main rotation shaft (33).

4. The adjustable canopy with hydraulic telescoping device based on BIM according to claim 1, wherein the secondary connection assembly (5) includes a first secondary connection plate (51), a second secondary connection plate (52) and a secondary rotation shaft (53), and the first secondary connection plate (51), the second secondary connection plate (52) and the secondary rotation shaft (53) are a set of locking structures, and two sets are provided.

5. The adjustable canopy with the hydraulic telescopic device based on the BIM according to claim 4, wherein two ends of the electric telescopic hydraulic device (4) are respectively connected with a second connecting plate (52), the first connecting plate (51) is respectively arranged on the side wall of the main body structural column (1) and the upper surface of the canopy beam (2), and the first connecting plate (51) and the second connecting plate (52) are connected through a secondary rotating shaft (53).

6. The adjustable canopy with the hydraulic telescopic device based on the BIM according to claim 1, wherein the main structural column (1), the canopy beam (2) and the electric telescopic hydraulic device (4) form a triangular structural position relationship.