CN217805918U

CN217805918U - Can stack formula prefabricated component pedestal

Info

Publication number: CN217805918U
Application number: CN202221470807.8U
Authority: CN
Inventors: 李欢; 李振博; 徐志昌; 熊涛
Original assignee: Fujian Wujiang Construction Co ltd
Current assignee: Fujian Wujiang Construction Co ltd
Priority date: 2022-06-14
Filing date: 2022-06-14
Publication date: 2022-11-15
Anticipated expiration: 2032-06-14

Abstract

The utility model relates to a prefabricated component preparation field especially indicates a but prefabricated component pedestal of stacking, and this pedestal includes pedestal panel and stack. A plurality of deck panels are vertically stacked. The plurality of walking support beams are grouped in pairs, and each group of walking support beams are arranged on the side surfaces of two sides of the panel of the pedestal. The stacking piece is arranged on the side face of the walking supporting beam and consists of stacking socles and stacking tops arranged at the tops of the stacking socles, the stacking socles are arranged on the side face of the walking supporting beam, and when the pedestal panels are stacked together, the stacking tops on the lower-layer pedestal panel are embedded into hollow grooves of the stacking socles on the upper-layer pedestal panel. During the operation, through the nestification of stack top and stack socle, can realize the multilayer stack of pedestal, greatly save prefabricated component's parking space, and the setting of multilayer stack, the technology circulation of prefabricated component on the pedestal panel of can being convenient for is greatly saved prefabricated component, realizes taking, the operation of prefabricated component.

Description

Can stack formula prefabricated component pedestal

Technical Field

The utility model relates to a prefabricated component preparation field especially indicates a but prefabricated component pedestal of stacking.

Background

At present, the reinforced concrete floor slabs adopted in China comprise cast-in-place floor slabs and prefabricated floor slabs, wherein the prefabricated floor slabs do not need on-site formwork erection, the construction period is short, the construction cost is low, but the prefabricated components are heavy in weight and inconvenient to store, and the prefabricated components are traditionally stored on a storage rack and are inconvenient to store and take.

Disclosure of Invention

Not enough to above-mentioned background art provides, the utility model provides a but prefabricated component pedestal of stack formula.

The utility model adopts the following technical scheme:

a stackable prefabricated component pedestal, comprising:

the base panel is provided with a plurality of blocks, the plurality of base panels are vertically stacked together, and the base panel is used for placing prefabricated parts;

the base panel is provided with a plurality of walking support beams, the walking support beams are arranged in pairs to form a group, each group of walking support beams are symmetrically arranged on the side surfaces of two sides of the base panel, and the walking support beams are used for process circulation;

the stacking piece is arranged on the side face of the walking supporting beam and consists of stacking socles and stacking tops, the stacking socles are fixedly connected to the side face of the walking supporting beam, the top of the stacking socle is arranged on the top of the stacking piece, the stacking socle is of a hollow structure, the stacking top is of a conical structure which is small in top and big in bottom, and when the pedestal panels are stacked together, the stacking top on the pedestal panel on the lower layer is embedded into a hollow groove of the stacking socle on the pedestal panel on the upper layer.

As a further improvement, the bottom surface of the pedestal panel is provided with a plurality of stiffening beams, and the two ends of each stiffening beam are respectively connected to the surfaces of the two walking support beams.

As a further improvement, the bottom surface of the pedestal panel is provided with a plurality of reinforcing ribs, and two ends of each reinforcing rib are respectively connected to the surfaces of the adjacent reinforcing beams.

As a further improvement, a base is arranged below the pedestal panel at the lowest layer of the stack, and a plurality of stacking tops are arranged on the base and embedded into the hollow grooves of the stacking socles on the pedestal panel adjacent to the stacking tops.

As a further improvement, a plurality of hoisting pieces are symmetrically arranged on the walking supporting beams on two sides of the pedestal panel and used for hoisting the pedestal panel.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the stand includes a stand panel and a stacker. A plurality of deck panels are vertically stacked. The plurality of walking supporting beams are grouped in pairs, and each group of walking supporting beams are arranged on the side surfaces of the two sides of the pedestal panel. The stacking piece is arranged on the side face of the walking supporting beam and consists of stacking socles and stacking tops arranged at the tops of the stacking socles, the stacking socles are arranged on the side face of the walking supporting beam, and when the pedestal panels are stacked together, the stacking tops on the lower-layer pedestal panel are embedded into hollow grooves of the stacking socles on the upper-layer pedestal panel. During the operation, through the nestification of stack top and stack socle, can realize the multilayer stack of pedestal, greatly save prefabricated component's parking space, and the setting of multilayer stack, the technology circulation of prefabricated component on the pedestal panel of can being convenient for is greatly saved prefabricated component, realizes taking, the operation of prefabricated component.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the present invention.

Fig. 2 is a schematic perspective view of the structure of the pedestal panel, walking support beam and stacking member.

Fig. 3 is a schematic perspective view of the deck panel, the reinforcing beam, and the reinforcing ribs.

FIG. 4 is a schematic side view of the walking beam covering the guide wheels.

Fig. 5 is a schematic perspective view of the base.

Detailed Description

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

As shown in fig. 2, a stackable prefabricated member deck includes deck panels 1, walking support beams 11, and stacking members 2.

As shown in fig. 1 and 2, pedestal panel 1 is equipped with a plurality of, and vertical pile together of a plurality of pedestal panels 1, this pedestal panel 1 is used for placing prefabricated component, walking supporting beam 11 is equipped with a plurality of roots, and this walking supporting beam 11 is two liang for a set of, and every walking supporting beam 11 symmetry of group is located on pedestal panel 1's the both sides side, this walking supporting beam 11 is used for the technology circulation, and is concrete, as shown in fig. 4, subaerial a plurality of rows of supports 31 that are equipped with, all rotatable leading wheel 32 that is equipped with on the support 31, walking supporting beam 11 slidable cover in on walking supporting beam 11, when the operation, it is rotatory through motor drive leading wheel 32 for walking supporting beam 11 moves under the drive of leading wheel 32, realizes prefabricated component's technology circulation. Further, as shown in fig. 3, a plurality of hoisting pieces 12 are symmetrically arranged on the walking support beams 11 on two sides of the pedestal panel 1, the hoisting pieces 12 are used for hoisting the pedestal panel 1, during operation, hoisting ropes can be bound on holes of the hoisting pieces 12, then the pedestal panel 1 can be stably hoisted by a hoisting machine and moved to the upper side of the guide wheels 32, and taking and operation of prefabricated components on the pedestal panel 1 are completed.

As shown in fig. 1 and 2, the stacking member 2 is disposed on the side surface of the walking supporting beam 11, the stacking member 2 is composed of a stacking socle 21 and a stacking top 22, the stacking socle 21 is fixedly connected to the side surface of the walking supporting beam 11, the stacking top 22 is disposed on the top of the stacking socle 21, the stacking socle 21 is of a hollow structure, the stacking top 22 is of a conical structure with a small top and a large bottom, when the pedestal panels 1 are stacked together, the stacking top 22 on the lower pedestal panel 1 is embedded into the hollow groove of the stacking socle 21 on the upper pedestal panel 1, and the inner wall of the stacking socle 21 is utilized to limit the outer wall of the stacking top 22, so as to prevent the pedestal panels 1 from shifting in the storage process and causing toppling over, and stack the pedestal panels 1 together, thereby realizing multi-layer stacking of the pedestal and greatly saving the storage space. Wherein, stack top 22 is the big toper structure down for control accuracy requires not high when the stacking platform seat, and convenient and fast's stacking platform seat accelerates the stacking efficiency of pedestal, the depositing of the prefabricated component of being convenient for.

As shown in fig. 3, the bottom surface of the deck plate 1 is provided with a plurality of reinforcing beams 13, two ends of each reinforcing beam 13 are respectively connected to the surfaces of the two walking support beams 11, and the arrangement of the reinforcing beams 13 can bear the stress of the deck plate 1, improve the bearing capacity of the deck plate 1, reduce the risk of sinking or bending needles of the deck plate 1 in the use process, and further prolong the service life of the deck plate 1. Further, as shown in fig. 3, the bottom surface of the pedestal panel 1 is provided with a plurality of reinforcing ribs 14, two ends of each reinforcing rib 14 are respectively connected to the surfaces of the adjacent reinforcing beams 13, and the arrangement of the reinforcing ribs 14 can distribute the stress of the reinforcing beams 13, improve the bearing capacity of the reinforcing beams 13 in the length direction, reduce the risk of breakage of the reinforcing beams 13 in the use process, and further improve the service life of the pedestal panel 1.

As shown in fig. 1 and 5, the base 4 is disposed below the pedestal panel 1 at the lowest layer of the stack, a plurality of stack tops 22 are disposed on the base 4, the stack tops 22 are embedded into the hollow grooves of the stack pillars 21 on the pedestal panel 1 adjacent to the stack tops 22, and the base 4 can prevent the pedestal panel 1 from being wet and corroded due to the contact with the ground, so as to ensure the integrity of the pedestal panel 1 and prolong the service life of the pedestal panel 1.

In operation, bind on the hole of hoist sheet 12 through lifting rope, then accessible hoist crane steadily lifts pedestal panel 1, make pedestal panel 1 pile up on base 4, stack stilt 21 on pedestal panel 1 overlaps on the stack top 22 of base 4 this moment, then pile up pedestal panel 1 together one by one, the stack top 22 that is located lower floor's pedestal panel 1 this moment imbeds the hollow inslot that is located stack stilt 21 on upper strata pedestal panel 1, utilize the restriction that stack stilt 21 inner wall played to stack top 22 outer wall, avoid pedestal panel 1 to appear the skew depositing the in-process, lead to empting, and pile up pedestal panel 1 together, can realize the multilayer stack of pedestal, greatly save prefabricated component's parking space, wherein, stack top 22 is big-end-down's toper structure, make the control accuracy requirement when stacking the pedestal, convenient and fast's stack, accelerate the stack efficiency of pedestal, be convenient for depositing of pedestal and prefabricated component. And when taking prefabricated component at needs, can bind the lifting rope on the hole of hoist and mount piece 12, then the accessible crane steadily hoists pedestal panel 1, moves to leading wheel 32 top, and it is rotatory through motor drive leading wheel 32 for walking supporting beam 11 moves under the drive of leading wheel 32, realizes prefabricated component's technology circulation, accomplishes taking, the operation of prefabricated component on pedestal panel 1. Simple structure, the simple operation through the nested of stack top 22 with stack socle 21, can realize the multilayer stack of pedestal, greatly saves prefabricated component's parking space, and the multilayer stack greatly saves prefabricated component's parking space's setting, and the prefabricated component's of pedestal panel 1 upward technological circulation of can being convenient for realizes taking, the operation of prefabricated component.

The aforesaid is only the embodiment of the present invention, but the design concept of the present invention is not limited to this, and it is right to utilize this concept the present invention to perform insubstantial modification, and all belong to infringement the protection scope of the present invention.

Claims

1. A stackable prefabricated member pedestal is characterized by comprising:

the pedestal panel is provided with a plurality of blocks, the plurality of pedestal panels are vertically stacked together, and the pedestal panel is used for placing prefabricated components;

2. A stackable pre-fabricated component deck as recited in claim 1, wherein: and the bottom surface of the pedestal panel is provided with a plurality of stiffening beams, and two ends of each stiffening beam are respectively connected to the surfaces of the two walking support beams.

3. A stackable pre-fabricated component deck as defined in claim 2, wherein: and the bottom surface of the pedestal panel is provided with a plurality of reinforcing ribs, and two ends of each reinforcing rib are respectively connected to the surfaces of the adjacent reinforcing beams.

4. A stackable preform block deck as recited in claim 3, wherein: the pedestal panel positioned at the lowermost layer of the stack is provided with a base, the base is provided with a plurality of stack tops, and the stack tops are embedded into the hollow grooves of the stacking foot posts on the pedestal panel adjacent to the stack tops.

5. A stackable pre-fabricated component deck as defined in claim 2, wherein: a plurality of hoisting pieces are symmetrically arranged on the walking supporting beams on the two sides of the pedestal panel and used for hoisting the pedestal panel.