CN217439587U - Platform of unloading that construction was used - Google Patents

Abstract

The discharging platform for building construction comprises a material bearing platform, wherein a sliding frame is arranged on the material bearing platform, a transfer frame is arranged above the sliding frame, a sliding rail corresponding to the sliding frame is arranged on a floor slab at the outlet of the material bearing platform, and the sliding frame drives the transfer frame to move onto the sliding rail; the slide rail is equipped with the transportation frame in the one end of keeping away from the material bearing platform, the transportation frame can move to the transportation frame on, through the dual cooperation of slide rail and transportation frame, whole material transportation process need not the secondary transport, convenient operation, swift, and the through windrow district of material can reduce the transport operation and the transport distance of material effectively, has saved manpower and material resources.

Description

Platform of unloading that construction was used

Technical Field

The utility model relates to a building engineering construction field especially relates to a platform of unloading that construction used.

Background

At present, the unloading platform is a temporary platform which is set up for facilitating material transfer in floors on a construction site, generally speaking, the unloading platform can be used for bearing materials within a certain construction period, and the unloading platform is convenient for the construction site to transfer the materials to a stacking area of related floors. The general unloading platform can be divided into a movable operation platform, a floor type unloading platform and an overhanging type unloading platform. In actual job site application, the platform of unloading need the manual work to carry the material on the platform of unloading to the windrow district after transporting the material to corresponding floor, and not only the efficiency of construction is lower, can waste a large amount of manpowers moreover.

Chinese patent document CN21469971U, published/announced date: 2021.09.10, discloses a construction engineering platform of unloading, including a lifting base, the upper end face of the lifting base is fixedly connected with a supporting frame, the left and right end faces and the rear end face of the supporting frame are all provided with a protective iron net, the upper end face of the lifting base is provided with a sliding first groove and a limiting groove, the limiting groove is positioned between the two sliding first grooves, the upper end face of the conveying plate is provided with a sliding second groove, the sliding first groove is communicated with the sliding second groove, the sliding block is connected in the sliding first groove in a sliding way, the upper end face of the sliding block is fixedly connected with a placing frame, a transport vehicle is placed in the placing frame, the front end face of the placing frame rotates a connecting baffle plate, the transport vehicle has the characteristics of being convenient for smoothly transporting construction raw materials, effectively reducing manpower consumption, the disadvantage of having shorter distance of the conveying plate, leading materials to be far away from the stacking area of the relevant floors, the transport vehicle needs to be pushed or dragged after leaving the conveying plate, and the site is uneven due to construction, so that labor and time are wasted, and the construction efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the problem of exist among the above-mentioned background art is solved, a platform of unloading that construction used is transported to relevant floor windrow district to the material on the platform of unloading convenient, swift, laborsaving is provided.

In order to realize the technical characteristics, the purpose of the utility model is realized as follows: the unloading platform for building construction comprises a material bearing platform, wherein a sliding frame is arranged on the material bearing platform, a transfer frame is arranged above the sliding frame, a sliding rail for supporting the sliding frame is arranged on a floor slab at the outlet of the material bearing platform, and the sliding frame drives the transfer frame to move onto the sliding rail; the slide rail is equipped with the transportation frame in the one end of keeping away from the material bearing platform, the transportation frame can move to on the transportation frame.

The material bearing table moves vertically along the inside of the supporting frame.

The sliding frame comprises a first flat plate and rollers arranged at the bottom of the first flat plate.

The slide rail sets up twice relatively parallel on the floor, and the width phase-match of interval and carriage between the two slide rails.

The transfer frame comprises a transfer frame body and a roller shaft arranged at the lower part of the transfer frame body.

The two sides of the bottom of the transfer frame body are provided with connecting plates, and the two ends of the roll shaft are installed on the connecting plates.

The transfer frame further comprises a side plate arranged above the transfer frame body.

The transportation frame comprises a transportation frame body and wheels arranged at the bottom of the transportation frame body.

The transportation frame further comprises a handle arranged on one side of the transportation frame body.

The utility model discloses there is following beneficial effect:

1. be equipped with the slide rail that corresponds the carriage on the floor of cushion cap export, the slide rail is equipped with the transportation frame in the one end of keeping away from the cushion cap, and the transportation frame can be followed on the carriage in the cushion cap removes the transportation frame, through the dual cooperation of slide rail and transportation frame, whole transportation process need not the secondary transport, convenient operation, swift, and the through windrow district of material can reduce the transport operation and the transport distance of material effectively, has saved manpower and material resources.

2. The material bearing platform can vertically move along the inside of the supporting frame, so that the material bearing platform can conveniently drag and place materials into each floor, and the work efficiency is high.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the structure schematic diagram of the transfer frame and the transportation frame of the present invention.

In the figure, the protection plate 1, the sliding frame 2, the roller 21 and the first flat plate 22;

a material bearing table 3; the transfer frame 4, the transfer frame body 41, the roll shaft 42, the connecting plate 43 and the side plate 44;

a support frame 5 and a slide rail 6; the transportation frame 7, wheels 71, a transportation frame body 72, handles 73, vertical beams 74 and transverse beams 75;

a floor slab 8.

Detailed Description

The following describes embodiments of the present invention with reference to the accompanying drawings.

Referring to fig. 1-2, the discharging platform for building construction comprises a material bearing platform 3, wherein a sliding frame 2 is arranged on the material bearing platform 3, a transfer frame 4 is arranged above the sliding frame 2, a sliding rail 6 corresponding to the sliding frame 2 is arranged on a floor slab 8 at the outlet of the material bearing platform 3, and the sliding frame 2 drives the transfer frame 4 to move to the sliding rail 6; the slide rail 6 is provided with a transport rack 7 at one end far away from the material bearing platform 3, and the transport rack 4 can move to the transport rack 7. The lateral part of material bearing platform 3 is provided with guardrail or guard plate 1, and slide rail 6 is connected with the side of going up of floor 8 with fixed connection mode, and slide rail 6 is preferably H shaped steel or channel-section steel, extends to ground and levels or be close to the material and stack the district, and its accessible staple bolt is fixed at floor 8 subaerially, also can set up expansion bolts subaerial, fixes subaerial through expansion bolts spare slide rail 6. The carriage 2 sets up in the material platform 3 to establish a transport frame 4 directly over the carriage 2, the carriage 2 drives transport frame 4 and removes to the slide rail 6 in the material platform 3 from bearing, carriage 2 further drives transport frame 4 and removes on slide rail 6, so that transport frame 4 is close to transport frame 7, transport frame 7 places on the floor 8, wherein, transport frame 7 is used for placing the planar height that transports frame 4 equals or is less than the planar height on the slide rail 6 of operation on slide frame 2 slightly. The conveying frame 7 is placed close to the sliding rail 6, the sliding frame 2 drives the conveying frame 4 to slide on the sliding rail 6 to the position of the conveying frame 7, then the rotating frame 4 is pushed to the conveying frame 7, the conveying frame 7 drives the conveying frame 4 to move on the floor slab 8, and materials are conveyed to the stacking area on the floor slab 8 to be unloaded. Slide rail 6 extends and is close to the windrow district, and in the region that slide rail 6 can not arrive, uses transportation frame 7 further to transport, through the dual cooperation of slide rail 6 and transportation frame 7, whole transportation process need not the secondary transport, convenient operation, swift, and the through windrow district of material can reduce the transport operation and the transport distance of material effectively, has greatly saved manpower and material resources.

In the preferred embodiment, the material-bearing platform 3 moves vertically along the supporting frame 5, so that the material-bearing platform 3 can conveniently drag and drop the materials into each floor. The support frame 5 is fixed on one side of the building body, and the material bearing platform 3 vertically moves in the support frame 5 through a vertical transportation mechanism. For example, a construction hoist mechanism.

In a preferred embodiment, the carriage 2 comprises a first plate 22 and rollers 21 arranged at the bottom of the first plate 22. The first plate 22 is a square plate, which is preferably a metal plate. Simple structure and convenient manufacture.

In a preferred scheme, the sliding rails 6 are arranged in parallel on the floor slab 8, and the distance between the two sliding rails 6 corresponds to the sliding frame 2. The arrangement width between the rollers 21 is the same as the arrangement width between the slide rails 6, so that the rollers 21 can be conveniently butted with the slide rails 6, and the sliding frame 2 can stably slide on the slide rails 6. The slide rail 6 is preferably H-shaped steel or channel steel, the structural strength is high, and the channel structure also plays a role in guiding the roller 21.

In a preferred embodiment, as shown in fig. 2, the transfer rack 4 includes a transfer rack body 41 and a roller shaft 42 provided at a lower portion thereof. Be used for placing the material in the frame of transporting 4, a plurality of roller 41 are even set up side by side on the downside of blowing frame, and roller 42 compares the wheel more stable, even acutely rock, transports the frame and can not overturn yet. In addition, the arrangement of the rollers 42 also allows the transportation frame 7 to be moved smoothly to the transportation frame 7 regardless of the angle of the transportation frame 7 as long as the horizontal height of the transportation frame 7 is ensured.

In a preferred scheme, as shown in fig. 2, the two sides of the bottom of the transfer rack body 41 are provided with connecting plates 43, and the two ends of the roller shaft 42 are mounted on the connecting plates 43, so that the structure is simple and the manufacturing and production are convenient.

In a preferred embodiment, as shown in fig. 2, the transfer rack 4 further includes a side plate 44 disposed above the transfer rack body 41. The transfer frame body 41 and the side plates 44 are connected to each other to form a square box structure, wherein one side of the box structure is opened to facilitate loading and unloading of materials.

In a preferred embodiment, as shown in fig. 2, the transportation frame 7 includes a transportation frame body 72 and wheels 71 disposed at the bottom of the transportation frame body 72. The carrier body 72 is a rectangular flat plate, preferably a metal plate. The upper part of the transportation frame body 72 is used for placing the transportation frame 4, and the wheels 71 are preferably universal wheels and are arranged at four corners of the lower side surface of the transportation frame body 72. The universal wheels can enable the transportation frame 7 to rotate on the floor slab 8 at will, and the movement is flexible.

In a preferred embodiment, as shown in fig. 2, the transportation frame 7 further includes a handle 73 disposed at one side of the transportation frame body 72 for easy pushing and pulling. The upper portion of one side of the transportation frame body 72 is provided with a handle 73, the handle 73 comprises two vertical beams 74 and a cross beam 75, the two vertical beams 74 are arranged in a relatively parallel mode, the lower end of each vertical beam 74 is connected with the upper side face of the transportation frame body 72, the two ends of the cross beam 75 are respectively connected with the upper end portions of the two vertical beams 74, the vertical beams 74 and the cross beam 75 are perpendicularly intersected, and the transportation frame 7 can be pushed conveniently through the handle 73. The vertical beams 74 and the horizontal beams 75 are preferably steel pipes, and are connected with the transportation frame body 72 by welding.

The utility model discloses a working process and principle:

be provided with carriage 2 and transport frame 4 in the material platform 3, the material that will wait to transport is placed transport frame 4 through the tower crane, carriage 2 drives transport frame 4 and removes to slide rail 6 in the material platform 3 from bearing, carriage 2 drives transport frame 4 and continues to remove on slide rail 6, so that transport frame 4 is close to transportation frame 7, transportation frame 7 is close to slide rail 6 and places, drive transport frame 4 at carriage 2 and slide to the position of transportation frame 7 on slide rail 6 after, promote transport frame 4 to transportation frame 7 on, drive transport frame 4 through transportation frame 7 and remove on floor 8, transport the windrow district on floor 8 with the material.

The material bearing platform 3 can also vertically move in the support frame 5 through the vertical conveying mechanism on each floor, so that a tower crane is not needed to place materials to be transported, and the material bearing platform 3 can directly move to the floor where the materials to be transported or the ground.

Claims (9)

1. The utility model provides a platform of unloading that construction used, includes cushion cap (3), its characterized in that: a sliding frame (2) is arranged on the material bearing platform (3), a transfer frame (4) is arranged above the sliding frame (2), a sliding rail (6) for supporting the sliding frame (2) is arranged on a floor slab (8) at the outlet of the material bearing platform (3), and the sliding frame (2) drives the transfer frame (4) to move onto the sliding rail (6); the slide rail (6) is equipped with transportation frame (7) in the one end of keeping away from material bearing platform (3), transports frame (4) and can move to on transportation frame (7).

2. The discharging platform for building construction according to claim 1, wherein: the material bearing platform (3) vertically moves along the inside of the support frame (5).

3. The discharging platform for building construction according to claim 1, wherein: the sliding frame (2) comprises a first flat plate (22) and rollers (21) arranged at the bottom of the first flat plate (22).

4. A platform of claim 1 or 3 for unloading of construction, wherein: the sliding rails (6) are arranged on the floor (8) in parallel, and the distance between the two sliding rails (6) is matched with the width of the sliding frame (2).

5. The discharging platform for building construction according to claim 1, wherein: the transfer rack (4) comprises a transfer rack body (41) and a roller shaft (42) arranged at the lower part of the transfer rack body.

6. The discharging platform for building construction according to claim 5, wherein: the two sides of the bottom of the transfer frame body (41) are provided with connecting plates (43), and the two ends of the roll shafts (42) are installed on the connecting plates (43).

7. The discharging platform for building construction according to claim 1, wherein: the transfer rack (4) further comprises a side plate (44) arranged above the transfer rack body (41).

8. The discharging platform for building construction according to claim 1, wherein: the transportation frame (7) comprises a transportation frame body (72) and wheels (71) arranged at the bottom of the transportation frame body (72).

9. The discharging platform for building construction according to claim 1, wherein: the transportation frame (7) further comprises a handle (73) arranged on one side of the transportation frame body (72).

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