CN219603157U - High-rise building material transfer device - Google Patents

Abstract

The utility model discloses a high-rise building material transferring device which comprises a beam frame and a loading table, wherein the beam frame is arranged at the edge of a floor of a building material to be received of a concrete frame structure, the beam frame comprises a plurality of groups of supporting frameworks, the supporting frameworks are supported by using the top surface, the bottom surface and a spandrel girder structure of the floor, the lower cross beam of each group of supporting frameworks is provided with a bearing surface for receiving the loading table, the upper cross beam of the uppermost supporting framework is externally connected with a top plate, the top plate is provided with a lifting hoist for connecting and driving the loading table to move up and down, the loading table is used for transferring the building material, the building material transportation within a specific floor range can be realized, and a plurality of high-rise building material transferring devices can be simultaneously arranged for simultaneous operation, so that the transferring efficiency of the building material on a high-rise building is obviously improved.

Description

High-rise building material transfer device

Technical Field

The utility model relates to the technical field of building construction. More particularly, the present utility model relates to a high-rise building material transfer device.

Background

In the construction process of the high-rise building structure, materials need to be lifted from the side surface of the storey to the storey, and for the buildings with higher storeys, the construction materials are inconvenient to transport because facilities such as elevators are not constructed.

In the prior art, there are three main ways of carrying out the transport of building materials:

1) The crane is arranged outside the building for transportation; the crane is very convenient for transporting the plane floors, in particular to a tower crane, and can hoist a large amount of building materials to an ongoing construction surface, but the defects are very obvious, the accessibility of the construction surface which is already capped is very poor, and the material transportation is very difficult to be carried out in a hoisting mode for the part which is already subjected to the floor construction.

2) Arranging lifting baskets on the side surface of the concrete frame structure for conveying; the method has the defects that the space of the hanging basket is limited, the lifting of materials is inconvenient, construction materials are required to be transferred at the corresponding height by constructors, great risks are caused to personal safety of the constructors, and when floors are more, the overall conveying efficiency is low;

3) A lifter supported on the floor frame; the material transporting device is a relatively convenient transportation mode, but is similar to a hanging basket, and because the supporting device is imperfect, the material transporting device can transport materials, but needs to be manually transported or pulled when the materials enter and exit floors, constructors need to repeatedly enter and exit the elevators to transport the materials, and the safety risk is high.

In production, a mechanical device is needed to improve the lifter, so that a transfer device with convenient transportation and ensured personnel safety is formed

Disclosure of Invention

The utility model aims to provide a high-rise building material transferring device, which solves the technical problems that the transferring efficiency of high-rise building materials is low and personal safety cannot be guaranteed in the prior art.

The utility model discloses a high-rise building material transfer device, which comprises:

the beam frame comprises a plurality of groups of support frameworks which are arranged continuously along the vertical direction, each group of support frameworks is arranged at the edge of a concrete frame structure of a floor and is positioned between two adjacent spandrel girders, each support framework comprises an upper beam and a lower beam which are arranged in an up-down aligned manner, each upper beam is in conflict with the top surface of the corresponding floor, each lower beam is in conflict with the bottom surface of the corresponding floor, the upper beams and/or the lower beams respectively extend to spandrel girders on the corresponding sides at two ends of the length direction and are connected with the spandrel girders, vertical beams are connected between the two ends of each upper beam and the lower beam, the upper beams of the support frameworks positioned at the uppermost layer extend towards the outside of the floor and are provided with top plates, the two ends of the bottom surface of each top plate are symmetrically provided with lifting blocks, and the upper surface of each lower beam is provided with a bearing surface which is convenient for receiving a loading table;

the length of the loading table is larger than the distance between the two lifting hoists, hanging lugs which are used for being connected with the hooks of the lifting hoists are respectively arranged at positions corresponding to the two lifting hoists on the loading table, and the positions between the hanging lugs on the two sides are used for loading building materials.

Preferably, the upper surface of the lower beam is located at two sides of the bearing surface and is provided with grooves along the width direction respectively, a pushing oil cylinder is installed in each groove, a sliding plate which is arranged horizontally is arranged outside a telescopic direction building layer of the pushing oil cylinder and is upwards connected with the top of a telescopic end, one side of the bottom surface of the sliding plate is connected with the surface of the lower beam in a sliding manner, a rotating motor is fixed on the sliding plate, an output shaft of the rotating motor is arranged along the length direction of the lower beam and is upwards connected with an inverted L-shaped hook rod, and the vertical length of the hook rod is larger than the width of the top plate and the top of the hook rod faces the inner side of the upper beam.

Preferably, a blocking net is arranged on the loading table in a surrounding way.

Preferably, the loading platform comprises a bottom plate, the two ends of the bottom plate in the length direction are respectively and upwards connected with a gate-shaped frame at the position corresponding to the lifting hoist, the top surface of the gate-shaped frame is fixed with the hanging lugs, one side of the barrier net is respectively connected between the end parts of the gate-shaped frames at the two sides and the inner side of each gate-shaped frame, and the height of the gate-shaped frame is larger than that of the barrier net.

Preferably, two ends of the upper beam and/or the lower beam are respectively provided with a vertically through L-shaped groove, and two side surfaces of each L-shaped groove at each end are respectively abutted against one surface, facing the floor, of the spandrel girder at the corresponding position and one surface, facing the adjacent spandrel girder.

The utility model at least comprises the following beneficial effects: the utility model relates to a high-rise building material transferring device which comprises a beam frame and a loading platform, wherein the beam frame is arranged at the floor edge of a building material to be received of a concrete frame structure, the beam frame comprises a plurality of groups of supporting frameworks, the supporting frameworks are supported by using the top surface, the bottom surface and a bearing beam structure of a floor, a bearing surface for receiving the loading platform is arranged on a lower cross beam of each group of supporting frameworks, wherein the upper cross beam of the uppermost supporting framework is externally connected with a top plate, a lifting hoist is arranged on the top plate and used for connecting and driving the loading platform to move up and down, the loading platform is used for transferring the building material, the building material in a specific floor range can be transferred, a plurality of high-rise building material transferring devices can be simultaneously arranged for simultaneous operation, the transferring efficiency of the building material on the high-rise building is remarkably improved, and in addition, the loading platform which is moved to the corresponding floor is hooked by arranging a groove, a pushing oil cylinder, a rotating motor and a hooking rod structure until the loading platform falls on the bearing surface, the automatic operation of the loading platform is realized, and the operation safety of constructor is further improved.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a front view of the construction of the present utility model mounted to a concrete frame structure;

FIG. 2 is a top view of the present utility model at a top plate;

FIG. 3 is a top view of the present utility model at the lower cross member;

fig. 4 is an enlarged structural view of the hooking rod of fig. 1.

Description of the specification reference numerals: 1. the concrete frame structure comprises a concrete frame structure body 2, a spandrel girder, a supporting framework body 3, a supporting framework body 4, an upper cross beam, a lower cross beam, a vertical beam, a top plate 7, a top plate 8, a lifting hoist 9, a bearing surface 10, a loading table 11, hanging lugs 12, grooves 13, pushing oil cylinders 14, sliding plates 15, rotating motors 16, hooking rods 17, blocking nets 18, bottom plates 19, door-shaped frames 20 and L-shaped grooves.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

In the description of the present utility model, the terms "transverse", "longitudinal", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model.

As shown in fig. 1 to 3, a high-rise building material transfer apparatus of the present utility model comprises:

the beam frame comprises a plurality of groups of support frameworks 3 which are arranged vertically and continuously, each group of support frameworks 3 is arranged at the edge of a concrete frame structure 1 of a floor and positioned between two adjacent spandrel girders 2, each support framework 3 comprises an upper beam 4 and a lower beam 5 which are arranged vertically and aligned, each upper beam 4 is in conflict with the top surface of the corresponding floor, each lower beam 5 is in conflict with the bottom surface of the corresponding floor, each upper beam 4 and/or each lower beam 5 respectively extends to the spandrel girder 2 on the corresponding side at two ends in the length direction and is connected with the spandrel girder 2, a vertical beam 6 is connected between the two ends of each upper beam 4 and each lower beam 5, the upper beam 4 positioned at the uppermost layer of support frameworks 3 extends outwards towards the floor and is provided with a top plate 7, lifting blocks 8 are symmetrically arranged at two ends of the bottom surface of each top beam 5, and a bearing surface 9 which is convenient for receiving a loading table 10 is arranged on the upper surface of each lower beam 5;

the length of the loading table 10 is larger than the distance between the two lifting hoists 8, hanging lugs 11 used for being connected with hooks of the lifting hoists 8 are respectively arranged on the loading table 10 corresponding to the two lifting hoists 8, and the positions between the hanging lugs 11 on the two sides are used for loading building materials.

When the support frame is used, the edges of the concrete frame structures 1 of the continuous layers on the same vertical are erected respectively according to the requirements, three groups can be generally arranged, one group of support frames 3 provided with lifting hoists 8 are arranged on the uppermost layer of the three groups to form a beam frame structure, each layer forms a firm support structure through an upper beam 4, a lower beam 5 and a vertical beam 6, the firm support structure is matched with or temporarily fixedly connected with a spandrel beam 2 at the corresponding position, the stability of the support frame 3 in use is enhanced, for example, the beam frame is initially arranged on the 1-3 layers starting from the ground, the lifting hoists 8 release hooks to move downwards and are connected with hanging lugs 11 of the loading platform 10, the loading platform 10 is lowered to the lowest position, building materials are conveniently placed on the loading platform 10, then the loading platform 10 is lifted to the corresponding 2-3 layers, the building materials can be transferred to the 2-3 layers, the lifting hoists 10 are pulled to be unloaded on the loading surfaces of the corresponding layers, the lifting hoists 10 are moved to the bearing surfaces 9 in the process, after the loading platform 10 is cleaned, the lifting hoists 8 are matched with the supporting beams 2 at the corresponding positions, the uppermost layer 10 are transferred to the corresponding layers, the supporting layer 4 can be transferred to the more layers by using the lifting hoists 6, the support frames can be further arranged on the high-3 layers, the support frame can be sequentially, the building materials can be transferred to the high-layer 4, and the building frame can be further arranged on the high-level frame layer can be simultaneously, and the support frame can be transported by the high-quality materials can be arranged at the layers, and the high-level layer can be sequentially and arranged at the high level layers 4, and the high level layer can be arranged.

In another technical scheme, as shown in fig. 1-4, grooves 12 are respectively formed in two sides of the upper surface of the lower beam 5, which are located on the bearing surface 9, along the width direction, pushing cylinders 13 are installed in the grooves 12, the tops of telescopic ends of telescopic direction floors of the pushing cylinders 13 are upwards connected with sliding plates 14 which are horizontally arranged, one side of the bottom surface of each sliding plate 14 is in sliding connection with the surface of the lower beam 5, rotating motors 15 are fixed on the sliding plates 14, the output shafts of the rotating motors 15 are arranged along the length direction of the lower beam 5 and upwards connected with inverted-L-shaped hook rods 16, and the vertical length of the hook rods 16 is larger than the width of the top plate 7 and the tops of the hook rods are arranged towards the inner side of the upper beam 4.

When the loading platform 10 reaches the height of the corresponding layer, the pushing cylinder 13 is started to extend outwards of the floor, the distance between the output shaft of the rotating motor 15 and the top of the hooking rod 16 is ensured to be larger than the distance between the output shaft of the rotating motor 15 and the outer edge of the loading platform 10, namely, the upward direction as shown in the figure, the sliding plate 14, the rotating motor 15 and the hooking rod 16 are driven to move to the bottom, the hooking rod 16 is L-shaped and is provided with a vertical part and a horizontal part, then the rotating motor 15 is started to rotate outwards for 90 degrees, the whole hooking rod 16 is changed into a horizontal state, at the moment, the top of the hooking rod 16, namely, the horizontal part, reaches the outer edge of the loading platform 10, the hydraulic cylinder is retracted, the hooking rod 16 hooks the loading platform 10 to move inwards of the floor until the loading platform 10 falls on the bearing surface 9, automatic operation of the loading platform 10 is realized, and the operation safety of constructors is further improved.

In another embodiment, as shown in fig. 1 and 3, the loading platform 10 is provided with a barrier net 17. By providing the barrier 17, the safety of the loading volume and the loading platform 10 during movement is increased, and the loading platform 10 can be matched with the transportation of constructors.

In another technical solution, as shown in fig. 1 and 3, the loading platform 10 includes a bottom plate 18, two ends of the bottom plate 18 in the length direction are respectively connected with a gate-shaped frame 19 upwards at positions corresponding to the lifting hoist 8, the top surfaces of the gate-shaped frames 19 fix the hanging lugs 11, one side of the barrier net 17 is respectively connected between the ends of the gate-shaped frames 19 on two sides and the inner side of each gate-shaped frame 19, and the height of the gate-shaped frame 19 is greater than that of the barrier net 17. The provision of the gate 19 serves as a handrail to facilitate movement or docking of the loading station 10 and to facilitate installation of the barrier net 17.

In another technical scheme, as shown in fig. 2-3, two ends of the upper beam 4 and/or the lower beam 5 are respectively provided with a vertically penetrating L-shaped groove 20, and two side surfaces of each L-shaped groove 20 at each end respectively contact one surface of the spandrel girder 2 facing the floor at a corresponding position and one surface facing the adjacent spandrel girder 2.

Through setting up L-shaped groove 20, can inlay the spandrel girder 2 department in both sides with the both ends of entablature 4, bottom end rail 5 or the both ends of entablature 4 alone or the both ends cooperation of bottom end rail 5 alone, when installing braced frame 3 like this, direct translation can realize spacing effect to two adjacent spandrel girders 2 departments, and is in place fast, and is favorable to improving structural stability and security when braced frame 3 receives the power towards floor outside direction.

In summary, the high-rise building material transferring device of the utility model comprises a beam frame and a loading platform, wherein the beam frame is arranged at the edge of a floor of a concrete frame structure, which is to be received with building materials, the beam frame comprises a plurality of groups of supporting frameworks, the supporting frameworks are supported by using the top surface, the bottom surface and the bearing beam structure of the floor, the lower cross beam of each group of supporting frameworks is provided with a bearing surface for receiving the loading platform, the upper cross beam of the uppermost supporting framework is externally connected with a top plate, the top plate is provided with a lifting hoist for connecting and driving the loading platform to move up and down, the loading platform is used for transferring the building materials, the building materials within the specific floor range can be transferred, and a plurality of high-rise building material transferring devices can be simultaneously arranged for simultaneous operation, thereby remarkably improving the transferring efficiency of the building materials on the high-rise building.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and drawings shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (5)

1. A high-rise building material transfer device, comprising:

the beam frame comprises a plurality of groups of support frameworks which are arranged along the vertical direction continuously, each group of support frameworks is arranged at the edge of a concrete frame structure of a floor and is positioned between two adjacent spandrel girders, each support framework comprises an upper beam and a lower beam which are arranged in an up-down alignment manner, each upper beam is in conflict with the top surface of the corresponding floor, each lower beam is in conflict with the bottom surface of the corresponding floor, the two ends of each upper beam and/or each lower beam in the length direction extend to spandrel girders of the corresponding side respectively and are connected with the spandrel girders, vertical beams are connected between the two ends of each upper beam and each lower beam, a top plate is arranged at the upper beam of the support framework positioned at the uppermost layer in an extending manner towards the outside of the floor, lifting hoists are symmetrically arranged at the two ends of the bottom surface of the top plate, and the upper surface of each lower beam is provided with a bearing surface which is convenient for receiving a loading table;

the length of the loading table is larger than the distance between the two lifting hoists, hanging lugs which are used for being connected with the hooks of the lifting hoists are respectively arranged at positions corresponding to the two lifting hoists on the loading table, and the positions between the hanging lugs on the two sides are used for loading building materials.

2. The high-rise building material transfer device according to claim 1, wherein grooves are formed in two sides of the upper surface of the lower beam, which are located on the bearing surface, in the width direction respectively, pushing oil cylinders are installed in the grooves, sliding plates which are arranged horizontally are arranged outside a building layer in the extending direction of the pushing oil cylinders and the tops of the extending ends are upwards connected with the sliding plates, one side of the bottom surface of each sliding plate is in sliding connection with the surface of the lower beam, rotating motors are fixed on the sliding plates, output shafts of the rotating motors are arranged in the length direction of the lower beam and are upwards connected with inverted L-shaped hook rods, and the vertical lengths of the hook rods are larger than the width of the top plate and the tops of the hook rods face the inner sides of the upper beam.

3. A high-rise building material transfer device according to claim 1, wherein the loading table is provided with a barrier net.

4. A high-rise building material transfer device according to claim 3, wherein the loading platform comprises a bottom plate, door-shaped frames are respectively and upwardly connected at two ends of the bottom plate in the length direction at positions corresponding to the lifting hoist, the top surfaces of the door-shaped frames are used for fixing the hanging lugs, one side of the barrier net is respectively connected between the end parts of the door-shaped frames at two sides and the inner side of each door-shaped frame, and the height of the door-shaped frames is larger than that of the barrier net.

5. A high-rise building material transfer device according to claim 1, wherein two ends of the upper beam and/or the lower beam are respectively provided with a vertically penetrating L-shaped groove, and two side surfaces of each L-shaped groove are respectively abutted against one surface of the spandrel girder facing the floor layer and one surface of the spandrel girder facing the adjacent spandrel girder at the corresponding position.