CN108086661B - Transport platform system and application construction method thereof - Google Patents

Abstract

The invention relates to a transportation platform system and an application construction method thereof. The transportation platform system comprises at least two transportation platforms, each transportation platform comprises a lifting platform, a lifting part, a base and a rolling part, wherein clamping pieces are arranged on the lifting platform, the lifting part is arranged below the lifting platform and is connected with the lifting platform, the lifting platform ascends or descends through the lifting part, the base is arranged below the lifting part and is connected with the lifting part, and the rolling part is arranged at the bottom of the base and is connected with the base. The support beam is combined with the transportation in the dismantling process through the transportation platform system, the replacement of the instruments is not needed in the middle, the lifting capacity is high, the process is simple and safe, and the transportation platform system has a lifting function and is less influenced by the height limitation, so that the transportation platform system is suitable for transportation of the support beam in various high-rise areas. The application construction method of the transport platform system is simple in steps and convenient to operate.

Description

Transport platform system and application construction method thereof

Technical Field

The invention relates to the field of building construction, in particular to a transportation platform system and an application construction method thereof.

Background

At present, in the dismantling process of the supporting beam in the construction site, the sectional steel in the form of a split heads is mainly used as a supporting bracket, and then the supporting beam is transported to a hoisting hole by a forklift for hoisting. The whole process is complicated, the weight of the detached supporting beam is large, and the weight of the forklift is limited and is generally controlled within 8 tons. Therefore, there is a certain safety hazard in transporting the larger support beams. In addition, forklift transportation is highly limited and cannot be carried out in areas with relatively low levels.

Disclosure of Invention

Based on the above, it is necessary to provide a transportation platform system which is safe and has less height limitation and an application construction method thereof, aiming at the problems that the transportation of the supporting beam has potential safety hazard and has limitation on the layer height.

A transport platform system comprising at least two transport platforms connected, the transport platforms comprising:

the lifting platform is provided with a clamping piece;

the lifting part is positioned below the lifting platform and connected with the lifting platform, and the lifting platform ascends or descends through the lifting part;

the base is positioned below the lifting part and connected with the lifting part;

the rolling part is arranged at the bottom of the base and is connected with the base.

In one embodiment, the transport platforms are connected by connecting rods.

In one embodiment, the at least four connecting rods are respectively connected with the two lifting platforms and the two bases.

In one embodiment, the lifting part comprises a lifting frame and a hydraulic unit, wherein the lifting frame is positioned between the lifting platform and the base and is connected with the lifting platform and the base, and the hydraulic unit is connected with the lifting frame.

In one embodiment, the lift is a scissor lift.

In one embodiment, the device further comprises a driving part, and the driving part is connected with the rolling part.

In one embodiment, the rolling part comprises a plurality of rollers, and the rollers are uniformly arranged at the bottom of the base.

In one embodiment, the roller is a universal wheel.

In one embodiment, two fastening pieces are arranged on the lifting platform, and the two fastening pieces are arranged along the width direction of the lifting platform.

The application construction method of the transport platform system comprises the following steps:

connecting the two transport platforms to form the transport platform system;

the height of the lifting platform is adjusted through the lifting part according to the height of the supporting beam to be detached;

fixing the supporting beam by adopting the clamping piece;

after the support beam is cut, the transportation platform system is moved to the lifting hole through the rolling part, and transportation of the support beam is completed.

In the construction process of the transportation platform system, the two hoisting platforms are connected firstly, the two hoisting platforms after connection are used as brackets, the height of the hoisting platform is adjusted through the lifting part according to the height of the supporting beam to be detached, after the adjustment is finished, the supporting beam is fixed through the clamping piece, and after the cutting of the supporting beam is finished, the transportation platform system is moved to the lifting hole through the rolling part. Therefore, the transportation platform system can be used as a liftable support bracket and can be horizontally transported, the combination of supporting beams and transportation in the dismantling process is realized, the replacement of instruments is not needed in the middle, the lifting capacity is high, the process is simple and safe, and the transportation platform system has a lifting function and is less influenced by the height limitation, so that the transportation platform system is suitable for the transportation of supporting beams in various high-rise areas, and the construction period is saved while the safety is ensured. The application construction method of the transport platform system is simple in steps and convenient to operate.

Drawings

FIG. 1 is a schematic diagram of a transport platform system according to an embodiment;

FIG. 2 is a schematic illustration of an application of a transport platform system according to an embodiment;

FIG. 3 is a flow chart of an application construction method of a transport platform system according to an embodiment.

Detailed Description

As shown in fig. 1, the transport platform system 1 of an embodiment includes at least two transport platforms 10, where the transport platforms 10 include a lifting platform 100, a lifting portion 110, a base 120 and a rolling portion 130, the lifting platform 100 is provided with a buckle 102, the lifting portion 110 is located below the lifting platform 100 and connected to the lifting platform 100, the lifting platform 100 is lifted or lowered by the lifting portion 110, the base 120 is located below the lifting portion 110 and connected to the lifting portion 110, and the rolling portion 130 is disposed at the bottom of the base 120 and connected to the base 120.

As shown in fig. 2, in the above-mentioned transportation platform system 1, two lifting platforms 100 are used as brackets in the construction process, the height of the lifting platform 100 is adjusted by the lifting portion 110 according to the height of the supporting beam 2 to be disassembled, after the adjustment is completed, the supporting beam 2 is fixed by the fastening member 102, and after the cutting of the supporting beam 2 is completed, the transportation platform system 1 is moved to the lifting hole by the rolling portion 130. Therefore, the transportation platform system 1 can be used as a lifting support bracket and can be horizontally transported, so that the combination of supporting beams 2 in the process of dismantling is realized, the replacement of instruments is not needed in the middle, the lifting capacity is high, the process is simple and safe, and the transportation platform system 1 has a lifting function and is less influenced by the height limitation, is suitable for the transportation of the supporting beams 2 in various high-rise areas, and saves the construction period while ensuring the safety.

The transport platform system 1 shown in fig. 1 comprises two transport platforms 10, the two transport platforms 10 being connected and symmetrically arranged. In this embodiment, two transport platforms 10 are connected by a connecting rod 20. As shown in fig. 1, in the present embodiment, there are four connecting rods 20, wherein two connecting rods 20 are disposed between two lifting platforms 100, and the other two connecting rods 20 are disposed between two bases 120. The two transport platforms 10 and the two connecting rods 20 form a support platform, so that the support area of the transport platform system 1 can be enlarged, and the support beams 2 with different lengths can be further adapted. In addition, the stability of the transportation platform system 1 in the process of transporting the supporting beams 2 can be improved by connecting the two transportation platforms 10, and the transportation safety is improved. In this embodiment, the connection rod 20 may be a telescopic connection rod 20, so that the distance between the two transportation platforms 10 may be extended or shortened by the connection rod 20. In this embodiment, the connecting rod 20 is a steel rod, which has high rigidity and can improve the bearing capacity of the transport platform system 1.

With continued reference to fig. 1, the lifting platform 100 is lifted or lowered by the lifting portion 110, and the height of the lifting portion 110 is adjusted according to the height of the support beam 2 to be removed, so that the height of the lifting platform 100 matches the height of the support beam 2. In the present embodiment, the lifting part 110 includes a lifting frame 112 and a hydraulic unit 114, the lifting frame 112 is located between the lifting platform 100 and the base 120 and is connected to the lifting platform 100 and the base 120, and the hydraulic unit 114 is connected to the lifting frame 112. Lifting and lowering of the lifting platform 100 is achieved by the hydraulic unit 114 pushing the lifting frame 112 up or down. In this embodiment, the hydraulic unit 114 is a hydraulic rod, and when the hydraulic pump in the hydraulic rod injects hydraulic oil into the lower end of the piston, the piston moves upward, and the connecting rod of the hydraulic rod extends out to push the lifting frame 112 to lift; when the hydraulic oil at the upper end of the piston is discharged from the connection pipe, the connection rod is retracted into the hydraulic rod, and the lifter 112 descends.

Further, in the present embodiment, the lifter 112 is a scissor lift. The scissor lift 112 includes two scissors that are disposed opposite each other and are connected by a connecting shaft. Each shear fork comprises two connecting rods, and the upper parts, the middle parts and the bottoms of the two connecting rods are respectively rotated through connecting shafts, namely, the connecting shafts are arranged on the upper parts, the middle parts and the lower parts of the two shear forks. One end of the hydraulic rod is connected with the connecting shaft in the middle part, and the other end of the hydraulic rod is connected with the connecting shaft in the lower part. When the length of the hydraulic rod is extended, the included angle between the two connecting rods of the scissor fork is reduced, and the lifting platform 100 is lifted; conversely, as the length of the hydraulic rod is reduced, the angle between the two links of the scissor fork increases and the lifting platform 100 descends.

In the present embodiment, the transport platform system 1 further includes a driving part 140, and the driving part 140 is connected to the rolling part 130. The driving part 140 can control the movement or stop of the rolling part 130, and the transport platform system 1 is moved to the lifting hole by the remote control driving part 140, so that the intellectualization and the safety of the transport platform system 1 are improved. In the present embodiment, the driving part 140 is disposed on the base 120, and the base 120 provides support for the driving part 140.

In the present embodiment, the rolling portion 130 includes a plurality of rollers, and the plurality of rollers are uniformly disposed at the bottom of the base 120. The plurality of rollers roll, thereby realizing the movement of the transport platform system 1. The transport platform 10 in fig. 1 includes four rollers disposed at four top corners of the base 120, respectively. Furthermore, in this embodiment, the rollers are universal wheels, so that 360-degree rotation can be realized, and the operation and control are convenient, so that the transportation of the support beam 2 is convenient. In the present embodiment, the base 120 is a steel plate.

With continued reference to fig. 1, in the present embodiment, two fastening members 102 are disposed on the lifting platform 100, and the two fastening members 102 are disposed along the width direction of the lifting platform 100. When the supporting beam 2 is placed on the lifting platform 100, the fastening members 102 positioned at two sides of the lifting platform 100 fix the supporting beam 2, so as to prevent the supporting beam 2 from moving in the transportation process. In this embodiment, a groove may be formed on the lifting platform 100 along the width direction, the fastening member 102 is disposed in the groove, and the fastening member 102 may move along the groove. That is, the distance between the two fastening members 102 can be adjusted, and the distance between the two fastening members 102 can be adjusted according to the support beams 2 with different widths, so as to adapt to the support beams 2 with different widths. In the present embodiment, the lifting platform 100 is a steel plate.

Referring to fig. 1 and 2, in the construction process, two transport platforms 10 are connected through a connection rod 20 to form a transport platform system 1, two lifting platforms 100 are used as brackets, and the lifting platforms 100 are adjusted according to the height, length and width of the support beam 2, i.e., the height of the lifting platforms 100 is raised or lowered by a hydraulic unit 114, so that the height of the lifting platforms 100 is matched with the height of the support beam 2; after the adjustment, the supporting beam 2 is fixed by the fastener 102, and the supporting beam 2 is fixed on the transportation platform system 1. After the support beam 2 is cut, the rolling part 130 moves the transportation platform system 1 under the driving of the driving part 140 through the remote control driving part 140, and the support beam 2 is transported to the lifting hole to complete the support and transportation of the support beam 2. The lifting part 112 of the transport platform system 1 can meet various height requirements by adopting a scissor fork type lifting frame, and is not limited by the layer height. Meanwhile, the rolling part 130 can rotate 360 degrees by adopting universal wheels, and the operation is convenient. In addition, the lifting platform 100 is made of steel, has high rigidity, improves the bearing capacity, meets the requirement of cutting reinforced concrete blocks as large as possible, and is beneficial to improving the construction progress.

The following describes an application construction method of the transport platform system.

Referring to fig. 1-3, an application construction method of a transport platform system according to an embodiment includes the following steps:

in step S300, two transport platforms 10 are connected to form a transport platform system 1. Two transport platforms 10 are connected to form a bracket providing support for the support beam 2. In this embodiment, two transport platforms 10 are connected by a connecting rod 20.

Step S310, adjusting the height of the lifting platform 100 through the lifting part 110 according to the height of the support beam 2 to be disassembled. The lifting platform 100 is raised or lowered by the lifting part 110, thereby making the height of the lifting platform 100 match the height of the support beam 2.

Step S320, the fastening member 102 is used to fix the support beam 2. When the supporting beam 2 is placed on the lifting platform 100, the supporting beam 2 is fixed on the lifting platform 100 by adopting the fastening piece 102, so that the supporting beam 2 is prevented from moving in the transportation process.

Step S330, after the support beam 2 is cut, the rolling part 130 moves the transportation platform system 1 to the lifting hole to complete the transportation of the support beam 2. In this embodiment, the rolling portion 130 includes a plurality of rollers, where the rollers are universal wheels, so that 360-degree rotation can be achieved, and operation is more convenient.

The application construction method of the transport platform system is simple in steps, convenient to operate and suitable for popularization and application.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (8)

1. A transport platform system comprising at least two transport platforms, the two transport platforms being connected, the transport platforms comprising:

the lifting platform is provided with a clamping piece;

the lifting part is positioned below the lifting platform and connected with the lifting platform, and the lifting platform ascends or descends through the lifting part;

the base is positioned below the lifting part and connected with the lifting part;

the rolling part is arranged at the bottom of the base and is connected with the base;

the transportation platform is connected through connecting rod pieces, the number of the connecting rod pieces is at least four, the two hoisting platforms and the two bases are respectively connected, wherein the two hoisting platforms are connected through at least two connecting rod pieces, the two bases are connected through at least two connecting rod pieces, and the connecting rod is a telescopic connecting rod.

2. The transport platform system according to claim 1, wherein the lifting portion comprises a lifting frame between and connected to the lifting platform and the base, and a hydraulic unit connected to the lifting frame.

3. The transport platform system according to claim 2, wherein the lift is a scissor lift.

4. The transport platform system according to claim 1, further comprising a drive portion coupled to the rolling portion.

5. The transport platform system according to claim 1, wherein the rolling portion comprises a plurality of rollers uniformly disposed at the bottom of the base.

6. The transport platform system according to claim 5, wherein the rollers are universal wheels.

7. The transport platform system according to claim 1, wherein two of the snap-in members are provided on the lifting platform, the two snap-in members being provided along a width direction of the lifting platform.

8. A method of application construction of a transport platform system according to any one of claims 1 to 7, comprising the steps of: connecting the two transport platforms to form the transport platform system;

the height of the lifting platform is adjusted through the lifting part according to the height of the supporting beam to be detached;

fixing the supporting beam by adopting the clamping piece;

after the support beam is cut, the transportation platform system is moved to the lifting hole through the rolling part, and transportation of the support beam is completed.