CN215433630U - Three-dimensional storage rack for laminated plates - Google Patents

Abstract

The utility model relates to a three-dimensional storage rack for superimposed plates, which comprises a bottom rack and a storage rack, wherein the bottom rack comprises a base and a plurality of vertical supporting rods arranged on the base, the storage rack at least comprises a first storage rack for storing large-size superimposed plates and a second storage rack for storing small-size superimposed plates, the first storage rack can be transversely placed on the base and/or longitudinally arranged on the vertical supporting rods, the second storage rack can be longitudinally placed on the base and/or transversely arranged on the vertical supporting rods, and the first storage rack and the second storage rack are both provided with transfer parts. The utility model reduces the requirement on the flatness of the stacking site and effectively saves the storage space; the first storage rack and the second storage rack have multiple combination modes, the flexibility is high, the universality is strong, the utilization rate is high, the underframe and the storage racks are designed in a split mode, the storage racks can be used as lifting tools to lift multiple laminated plates at one time, and the working time is effectively saved.

Description

Three-dimensional storage rack for laminated plates

Technical Field

The utility model belongs to the technical field of auxiliary equipment for producing building prefabricated parts, and particularly relates to a three-dimensional storage rack for laminated slabs.

Background

In the production process of prefabricated members for prefabricated buildings, after the prefabricated composite plates are cast and molded, the prefabricated composite plates need to be hoisted to a storage place in a factory from a processing workshop, a component transport vehicle is hoisted to a site from the storage place during delivery, the prefabricated composite plates need to be hoisted to the stacking area of a construction site on the site, and finally the prefabricated composite plates are hoisted to the site. Each prefabricated composite slab undergoes a total of four hoists from production to installation in place.

Too many times of hoisting will make the face destroyed possibility increase, and construction site storage yard environment is complicated, and the influence effect of storage yard roughness to component integrity is very big.

In order to solve the technical problem, patent CN201811481070 discloses a stacked plate stacking tool, which has the following disadvantages: 1. the three-layer storage design is adopted, 6 laminated plates are stored in each layer, the height of a sleeper and the reserved space of a stacking tool are increased, the total height is more than 2.5m, the tool has high requirement on the flatness of a storage yard, and potential safety hazards exist; 2. the laminated slab needs to be lifted by a single plate, so that the working efficiency is low; 3. the construction member is directly hoisted for many times, so that the possibility of damaging the plate surface of the construction member is increased; 4. the stacking tool is designed to be fully welded, and occupies a large space when being idle; 5. the size specification is single, the universality is poor, the tool needs to be designed and manufactured according to the sizes of different components, the single tool is low in utilization rate, and the manufacturing cost is greatly improved; 6. the tools have various specifications and are easy to cause disorder in use and management.

In view of the above, it is desirable to provide a three-dimensional storage rack for stacked slabs, which has high versatility and can effectively save space and time for lifting.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a three-dimensional storage rack for laminated slabs, which has strong universality and can effectively save space and hoisting time.

The above purpose is realized by the following technical scheme: the utility model provides a three-dimensional storage rack of superimposed sheet, includes chassis and storage rack, the chassis includes the base and sets up many vertical support pole on the base, the storage rack is at least including the first storage rack of depositing jumbo size superimposed sheet and the second storage rack of depositing small-size superimposed sheet, first storage rack can transversely place on the base and/or vertically set up on the vertical support pole, the second storage rack can vertically place on the base and/or transversely set up on the vertical support pole, first storage rack and second storage rack all are equipped with the transportation part.

The storage rack is used for storing laminated slabs, the underframe and the storage rack are designed in a split mode, a double-layer design is adopted, each layer can be suitable for storing the specifications of the laminated slabs in the whole range, specifically, the underframe is suitable for storing the storage racks with different specifications, namely the bottom layer can be used for horizontally storing the large-specification storage rack, and the bottom layer can be used for vertically storing the small-specification storage rack; the two layers of vertical supporting rod platforms are longitudinally provided with small-specification storage racks, and transversely provided with large-specification storage racks; specifically, each layer of storage rack can be used for storing laminated slabs below 7 layers, and each layer of laminated slabs can be stored according to different specifications.

The application of the utility model not only reduces the requirement on the flatness of the stacking field, but also effectively saves the storage space; each layer of bottom frame can be suitable for the storage rack to rotate, namely, the bottom frame can be transversely suitable for a large-specification storage rack and can be longitudinally suitable for a small-specification storage rack. The first storage rack and the second storage rack have various combination modes, so that the flexibility is high, the universality is strong, and the utilization rate is high; the manufacturing of storage racks with different specifications can be reduced, and the cost is greatly reduced; the underframe and the storage rack are designed in a split manner, and the storage rack can be used as a lifting appliance for lifting a plurality of laminated slabs at one time, so that the working time is effectively saved.

According to a further technical scheme, the transfer component comprises a transfer hole. The design of transporting the hole can make the storage rack can once only lift by crane polylith superimposed sheet as the hoist, is convenient for transport.

A further technical scheme is, first storage rack and second storage rack all include two vertical poles of relative setting and connect the many horizontal poles of two vertical poles, the hole is transported including setting up first transportation hole and second on the vertical pole are transported the hole, the axis in first transportation hole with vertical pole length direction is unanimous, the axis in second transportation hole is with perpendicular the direction of vertical pole length is unanimous, the size in first transportation hole is greater than the second is transported the hole. In the specific application process, the longitudinal rod is arranged to be a hollow structure to form a first transferring hole, the size of the first transferring hole is larger than that of the second transferring hole, the first transferring hole and the second transferring hole are preferably 100mm in height difference, and the design can be used for hoisting and transporting and can also be used for transferring by a forklift.

The further technical scheme is that the chassis is provided with a forklift hole. So set up, the fork truck of being convenient for transports the three-dimensional storage rack of superimposed sheet (including the superimposed sheet) wholly.

The technical scheme is that limit stops are arranged at the top of the vertical supporting rod, and the first storage rack or the second storage rack arranged on the vertical supporting rod is arranged among the limit stops. So set up, limit stop plays spacing and the effect of location on the one hand, and on the other hand also plays the restriction to the mode of placing of first storage rack and second storage rack, avoids placing the mistake.

The further technical proposal is that the vertical supporting rod is detachably connected with the base. So set up, vertical support bar bolted connection, dismantled and assembled the depositing, save occupation of land space.

Compared with the prior art, the utility model has the following technical effects: the laminated slab is applicable to the whole size and has strong universality; the requirement on the flatness of the stacking site is reduced, and the storage space is effectively saved; the first storage rack and the second storage rack have various combination modes, so that the flexibility is high, the universality is strong, and the utilization rate is high; the manufacturing of storage racks with different specifications can be reduced, and the cost is greatly reduced; the underframe and the storage rack are designed in a split manner, and the storage rack can be used as a lifting appliance for lifting a plurality of laminated slabs at one time, so that the working time is effectively saved; the chassis is provided with a forklift hole, so that the transportation is facilitated; the vertical supporting rods are connected when being detachable and can be detachably stored, and occupied space is saved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model.

FIG. 1 is an exploded perspective view of a three-dimensional storage rack for stacked slabs according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a three-dimensional storage rack of stacked slabs according to another embodiment of the present invention;

FIG. 3 is a schematic view of a first storage rack according to an embodiment of the present invention;

FIG. 4 is a schematic view of a second storage rack according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a chassis according to an embodiment of the present invention.

In the figure:

1 underframe 2, first storage rack 3, second storage rack 4 and vertical support rod

5 base 6, first transfer hole 7, second transfer hole 8 and longitudinal rod

9 crossbar 10 bump stop 11 forklift hole

Detailed Description

The present invention will now be described in detail with reference to the drawings, which are given by way of illustration and explanation only and should not be construed to limit the scope of the present invention in any way. Furthermore, features from embodiments in this document and from different embodiments may be combined accordingly by a person skilled in the art from the description in this document.

The embodiment of the utility model is as follows, referring to fig. 1 and 2, a three-dimensional storage rack for superimposed plates comprises an underframe 1 and a storage rack, wherein the underframe 1 comprises a base 5 and a plurality of vertical support rods 4 arranged on the base 5, the storage rack at least comprises a first storage rack 1 for storing large-size superimposed plates and a second storage rack 3 for storing small-size superimposed plates, the first storage rack 1 can be transversely placed on the base 5 and/or longitudinally arranged on the vertical support rods 4, the second storage rack 3 can be longitudinally placed on the base 5 and/or transversely arranged on the vertical support rods 4, and the first storage rack 1 and the second storage rack 3 are both provided with transfer components.

The storage rack is used for storing laminated slabs, the underframe 1 and the storage rack are designed in a split mode, a double-layer design is adopted, as shown in a figure 1 and a figure 2, each layer can be suitable for storing the specifications of the laminated slabs in the whole range, specifically, the underframe 1 is suitable for storing the storage racks with different specifications, namely the storage rack with large specification can be transversely placed at the bottom layer, and the storage rack with small specification can be longitudinally placed; the platform of the second layer of vertical supporting rod 4 is provided with a small storage rack longitudinally and a large storage rack transversely; specifically, each layer of storage rack can be used for storing laminated slabs below 7 layers, and each layer of laminated slabs can be stored according to different specifications.

The application of the utility model not only reduces the requirement on the flatness of the stacking field, but also effectively saves the storage space; each layer of underframe 1 can adapt to the storage rack to be placed in a rotating way, namely, the underframe can be horizontally suitable for a large-specification storage rack and can be vertically suitable for a small-specification storage rack. The first storage rack 1 and the second storage rack 3 have various combination modes, and have the advantages of high flexibility, strong universality and high utilization rate; the manufacturing of storage racks with different specifications can be reduced, and the cost is greatly reduced; the underframe 1 and the storage rack are designed in a split mode, the storage rack can be used as a lifting appliance for lifting a plurality of laminated slabs at one time, and working time is effectively saved.

In another embodiment of the present invention, based on the above embodiment, as shown in fig. 3 and 4, the transfer member includes a transfer hole. The design of transporting the hole can make the storage rack can once only lift by crane polylith superimposed sheet as the hoist, is convenient for transport.

In another embodiment of the present invention, as shown in fig. 3 and 4, each of the first storage rack 1 and the second storage rack 3 includes two longitudinal bars 8 disposed opposite to each other and a plurality of cross bars 9 connecting the two longitudinal bars 8, the transfer holes include a first transfer hole 6 and a second transfer hole 7 disposed on the longitudinal bars 8, an axis of the first transfer hole 6 coincides with a length direction of the longitudinal bars 8, an axis of the second transfer hole 7 coincides with a direction perpendicular to the length direction of the longitudinal bars 8, and the first transfer hole 6 is larger than the second transfer hole 7. In the specific application process, the longitudinal rod 8 is arranged to be in a hollow structure to form a first transferring hole 6, the size of the first transferring hole 6 is larger than that of the second transferring hole 7, the first transferring hole 6 and the second transferring hole 7 are preferably 100mm in height difference, and the design can be used for hoisting and transporting and can also be used for transporting by a forklift.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 5, the chassis 1 is provided with a forklift hole 11. So set up, the fork truck of being convenient for transports the three-dimensional storage rack of superimposed sheet (including the superimposed sheet) wholly.

On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 5, a limit stopper 10 is disposed on the top of the vertical support rod 4, and the first storage rack 1 or the second storage rack 3 disposed on the vertical support rod 4 is disposed between the limit stoppers 10. So set up, limit stop 10 plays spacing and the effect of location on the one hand, and on the other hand also plays the restriction to the mode of placing of first storage rack 1 and second storage rack 3, avoids placing the mistake.

On the basis of the above embodiment, in another embodiment of the present invention, the vertical supporting rod 4 is detachably connected to the base 5. So set up, 4 bolted connection of vertical support bar, dismantled and assembled depositing saves occupation of land space.

Compared with the prior art, the utility model has the following technical effects: the laminated slab is applicable to the whole size and has strong universality; the requirement on the flatness of the stacking site is reduced, and the storage space is effectively saved; the first storage rack 1 and the second storage rack 3 have various combination modes, and have the advantages of high flexibility, strong universality and high utilization rate; the manufacturing of storage racks with different specifications can be reduced, and the cost is greatly reduced; the underframe 1 and the storage rack are designed in a split manner, and the storage rack can be used as a lifting appliance for lifting a plurality of laminated slabs at one time, so that the working time is effectively saved; the chassis 1 is provided with a forklift hole 11, so that the transportation is facilitated; the vertical supporting rods 4 are connected when being detachable and can be detachably stored, and occupied space is saved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a three-dimensional storage rack of superimposed sheet, includes chassis and storage rack, its characterized in that, the chassis includes the base and sets up many vertical support pole on the base, the storage rack is at least including the first storage rack of depositing jumbo size superimposed sheet and the second storage rack of depositing small-size superimposed sheet, first storage rack can transversely place on the base and/or vertically set up on the vertical support pole, the second storage rack can vertically place on the base and/or transversely set up on the vertical support pole, first storage rack and second storage rack all are equipped with the transportation part.

2. A stacked slab space storage rack as claimed in claim 1, wherein said transfer means comprises transfer holes.

3. The stereoscopic storage rack of claim 2, wherein the first storage rack and the second storage rack each include two opposite longitudinal bars and a plurality of cross bars connecting the two longitudinal bars, the transfer holes include a first transfer hole and a second transfer hole provided on the longitudinal bars, an axis of the first transfer hole coincides with a longitudinal direction of the longitudinal bars, an axis of the second transfer hole coincides with a direction perpendicular to the longitudinal direction of the longitudinal bars, and a size of the first transfer hole is larger than that of the second transfer hole.

4. A three-dimensional storage rack for stacked plates according to any one of claims 1 to 3, wherein the bottom frame is provided with forklift holes.

5. A three-dimensional storage rack for stacked plates according to any one of claims 1 to 3, wherein a limit stopper is provided on the top of the vertical support bar, and the first storage rack or the second storage rack provided on the vertical support bar is provided between the limit stoppers.

6. A superimposed sheet stereoscopic storage holder according to claim 5, wherein the vertical support bar is detachably connected to the base.

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