CN219688237U - Three-dimensional warehouse for storing aluminum bar bundles - Google Patents

Abstract

The utility model discloses a three-dimensional warehouse for storing aluminum bar bundles, which comprises a shelf with a cuboid steel grid structure extending along the length direction; the storage device also comprises a roadway stacker which is positioned on the track between the two rows of shelves and is used for transversely storing or taking aluminum bar bundles in each storage space, and a transverse inlet and outlet of the aluminum bar bundles positioned at the bottom of one unit of one row of shelves; a feeding mechanism for moving the aluminum bar bundles placed on the three linear moving plates positioned at the outer side to the inner side for the fork of the tunnel stacker to put in storage or moving the aluminum bar bundles placed on the three linear moving plates positioned at the inner side to the outer side for the warehouse to be discharged is arranged in the transverse inlet and outlet of the aluminum bar bundles; each row of shelves comprises at least one unit, each unit comprises a plurality of layers of storage spaces, and aluminum bar bundles in each layer of storage spaces are placed on three steel frames fixed on steel upright posts in the length direction. The three-dimensional warehouse can meet the needs of entering, storing and exiting aluminum bar bundles, and has relatively small occupied area and space.

Description

Three-dimensional warehouse for storing aluminum bar bundles

Technical Field

The utility model relates to the technical field of metal material storage, in particular to a three-dimensional warehouse for storing aluminum bar bundles.

Background

In the prior art, the round aluminum bar with the diameter of 25-35 mm and the length of about 4 m is widely applied. Storage is generally done in two ways:

one is to store the three-dimensional warehouse singly, which occupies too large space, and because of the round shape, the warehouse-in and warehouse-out structure and the storage structure are complex, and the running cost of the warehouse-in, warehouse-out and storage is relatively high.

The other is to bundle a plurality of round aluminum bars such as about 100 into an aluminum bar bundle with a regular hexagon cross section, which can be carried one by one, and the outside of the aluminum bar bundle is covered by a covering material such as a plastic film to prevent water, dust and oxidation. However, since a single bundle of aluminum rods, i.e., an aluminum rod bundle, weighs about 1.5 tons, is about 4 meters long, and has a diagonal dimension of about 0.5 meters, there is currently no device capable of allowing aluminum rod bundles to enter, be stored and be discharged, so in the prior art, the aluminum rod bundle is still stored on the ground outdoors or indoors in a bulk manner, and the disadvantage is obvious: the aluminum bar bundles stored in unit area are limited and cannot be stacked, otherwise, potential safety hazards of unstability and collapse exist, the storage space utilization rate is low, the occupied area is overlarge, and the land cost of enterprises is increased.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide the three-dimensional warehouse for storing the aluminum bar bundles, which can meet the needs of entering, storing and exiting the aluminum bar bundles and has relatively small occupied area and space.

The technical scheme of the utility model is that the three-dimensional warehouse for storing aluminum bar bundles comprises a shelf with a cuboid steel grid structure extending along the length direction; the storage device also comprises a roadway stacker which is positioned on the track between the two rows of shelves and is used for transversely storing or taking aluminum bar bundles in each storage space, and a transverse inlet and outlet of the aluminum bar bundles positioned at the bottom of one unit of one row of shelves; a feeding mechanism for moving the aluminum bar bundles placed on at least three linear moving plates positioned at the outer side to the inner side for the fork of the tunnel stacker to put in storage or moving the aluminum bar bundles placed on at least three linear moving plates positioned at the inner side to the outer side for the warehouse to be discharged is arranged in the transverse inlet and outlet of the aluminum bar bundles; each row of shelves comprises at least one unit, each unit comprises a plurality of layers of storage spaces, and aluminum bar bundles in each layer of storage spaces are placed on three steel frames fixed on steel upright posts in the length direction.

After adopting the structure, the three-dimensional warehouse for storing aluminum bar bundles has the following advantages: the utility model provides a can satisfy every bundle or call every bundle weight about 1.5 tons, length about 4 meters, regular hexagon's diagonal size about 0.5 meters the equipment that needs of entering, storing and going out of storehouse, occupation space is little relatively, aluminium bar bundle storage is in three-dimensional storehouse, the aluminium bar bundle that the unit area was deposited is relatively many, deposit safety and reliability, the potential safety hazard of unstability collapse has been avoided, storage space utilization is higher, area is little relatively, the cost of land for the enterprise has been practiced thrift by a wide margin, the running cost of entering, going out and storing of aluminium bar bundle is low relatively.

Further, each row of shelves comprises two units, wherein the two units share two middle steel columns, the two middle steel columns are front and rear, a plurality of layers of field-shaped steel frames are fixed on the two middle steel columns, and each field-shaped steel frame forms a sun-shaped steel frame of a left unit and a sun-shaped steel frame of a right unit; the left steel upright posts of the left unit and the right steel upright posts of the right unit are respectively front and rear, the right sides of the two left steel upright posts are fixedly provided with a plurality of layers of Chinese character 'ri' shaped steel frames, and the left sides of the two right steel upright posts are fixedly provided with a plurality of layers of Chinese character 'ri' shaped steel frames; the outer side of the middle of the length of the left unit is provided with a left middle steel column, the inner side of the left middle steel column is fixedly provided with a multi-layer Chinese character 'ri' shaped steel frame, the outer side of the middle of the length of the right unit is provided with a right middle steel column, and the inner side of the right middle steel column is fixedly provided with a multi-layer Chinese character 'ri' shaped steel frame; three Chinese character 'ri' -shaped steel frames of each layer of each unit are used for placing two bundles of aluminum bars in parallel; the transverse inlet and outlet of the aluminum bar bundle are arranged at the right end of the right unit or the left end of the left unit of the row of shelves. After the structure is adopted, the storage rack is simple in structure, scientific in storage and flexible and convenient in storage and taking, and further ensures the technical effects that the occupied space is relatively small, the aluminum bar bundles stored in unit area are relatively more, the storage is safe and reliable, the storage space utilization rate is higher, the occupied area is relatively small, the land cost of enterprises is greatly saved, and the running cost of the aluminum bar bundles in, out and storage is relatively low.

Further, the bottom end of each steel upright post is provided with a fixed plate fixed on the foundation through foundation bolts; the top of the goods shelf is provided with a fixing frame; four outer side surfaces of the goods shelf are provided with fence for reinforcement and protection except for the transverse inlet and outlet of the aluminum bar bundle. After the structure is adopted, the three-dimensional warehouse for storing aluminum bar bundles is firmer and more reliable in structure, safer to store and higher in utilization rate of storage space.

Further, the length of the feeding mechanism is shorter than the length of one unit, and the width of the feeding mechanism is larger than or equal to the width of each row of shelves. After the structure is adopted, the matching rate of the feeding mechanism and the goods shelf is higher, and the warehousing or ex-warehouse of the aluminum bar bundles is more convenient, flexible and reliable.

Further, the feeding mechanism comprises a supporting frame formed by a plurality of steel vertical legs, a plurality of first steel connecting rods and guide rails, the guide rails are three parallel to each other and extend along the inner side and the outer side of a transverse inlet and outlet, each guide rail is provided with a linear moving plate in a sliding fit mode, the bottom in the middle of the width of each linear moving plate is fixed with a first annular chain positioned in the middle of the width of the guide rail, one end of each first annular chain is meshed with a first rotating chain wheel, the other end of each first annular chain is meshed with a second rotating chain wheel, three second rotating chain wheels are fixed on a linkage shaft in a rotating fit mode at the other end of each guide rail at intervals, an input chain wheel on the linkage shaft is meshed with an output chain wheel of a gear box through the second annular chain, and the three linear moving plates are used for being synchronously driven to linearly move so as to realize warehousing or delivery of each bundle of aluminum bars, and the gear box connected with the motor is arranged on the supporting frame. After the structure is adopted, the feeding mechanism is simple in structure, at least three linear moving plates can meet the requirement of transverse warehouse entry or transverse warehouse exit of aluminum bar bundles with the length of about 4 meters, so that the matching rate of the feeding mechanism and aluminum bar bundle entry equipment on the outer side of a goods shelf, such as a transfer stacker and a tunnel stacker on the inner side of the goods shelf, is higher, and the warehouse entry or warehouse exit of the aluminum bar bundles is more convenient, flexible, rapid and reliable.

Drawings

Fig. 1 is a schematic diagram of the three-dimensional warehouse of the present utility model (showing the external dumper and transfer stacker used in conjunction therewith).

Fig. 2 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 3 is a schematic diagram of a three-dimensional warehouse (showing a tunnel stacker) according to the present utility model.

Fig. 4 is a schematic view of the structure of the shelf-protruding pillars and frame in the present utility model.

Fig. 5 is an enlarged schematic view of the structure of B in fig. 4.

Fig. 6 is an enlarged schematic view of the structure of C in fig. 4.

Fig. 7 is an enlarged schematic view of the structure of D in fig. 4.

Fig. 8 is a schematic structural view of a feeding device according to the present utility model.

Fig. 9 is a schematic diagram of a feed device in accordance with the present utility model (motor, gearbox and second endless chain are shown and sprocket is shown with portions of the chain engaged with the sprocket omitted).

Fig. 10 is a schematic view of the feeding device according to the present utility model, in which a linear driving plate is omitted.

Fig. 11 is an enlarged schematic view of fig. 10E (the sprocket is shown with a portion of the chain engaged with the sprocket omitted).

The figure shows: 1. baffle, 2, aluminum bar bundle, 3, fixing frame, 4, goods shelf, 5, one unit, 6, transfer stacker, 7, feeding mechanism, 8, lateral inlet and outlet, 9, transporting vehicle, 10, fence, 11, track, 12, middle steel column, 13, storage space, 14, right steel column, 15, fixing plate, 16, right middle steel column, 17, field-shaped steel frame, 18, left steel column, 19, sun-shaped steel frame, 20, left middle steel column, 21, second steel connecting rod, 22, straight moving plate, 23, linkage shaft, 24, guide rail, 25, support frame, 26, chassis, 27, first steel connecting rod, 28, steel vertical leg, 29, input sprocket, 30, second annular chain, 31, gear box, 32, motor, 33, first rotary sprocket, 34, first annular chain, 35, connecting block, 36, slide block, 37, second rotary sprocket, 38, slide rail, 39, slide chute, 40, stacker.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. It should be noted that the description of these embodiments is for aiding in understanding the present utility model, but is not to be construed as limiting the utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11.

In the prior art, a plurality of round aluminum bars, such as about 100, are bundled into an aluminum bar bundle 2 with a regular hexagon cross section, the diameter of each aluminum bar is about 25-35 mm, and the length of each aluminum bar is about 4 m, and the outside of the aluminum bar bundle 2 is coated by a coating material, such as a plastic film, so as to prevent water, dust and oxidation. The single bundle of aluminum bars, namely aluminum bar bundle 2, generally weighs about 1.5 tons, is about 4 meters long, and has a diagonal dimension of about 0.5 meters.

As shown in fig. 1-7.

The utility model relates to a three-dimensional warehouse for storing aluminum bar bundles, which comprises a shelf 4 with a cuboid steel grid structure extending along the length direction. The utility model relates to a three-dimensional warehouse for storing aluminum bar bundles, which also comprises a tunnel stacker 40 which is positioned on a track 11 between two rows of shelves 4 and is used for transversely storing or taking the aluminum bar bundles 2 in each storage space 13, and a transverse inlet and outlet 8 of the aluminum bar bundles 2 positioned at the bottom of one unit 5 of one row of shelves 4. The transverse inlet and outlet 8 of the aluminum bar bundle 2 is internally provided with a feeding mechanism 7 which is used for moving the aluminum bar bundle 2 placed on at least three linear moving plates 22 positioned at the outer side to the inner side for the fork of the tunnel stacker 40 to put in storage or moving the aluminum bar bundle 2 placed on at least three linear moving plates 22 positioned at the inner side to the outer side for the warehouse to be discharged. Each row of shelves 4 comprises at least one unit 5, each comprising a plurality of layers of storage spaces 13, the aluminium bar bundles 2 in each layer of storage spaces 13 resting in length on three steel frames fixed to steel uprights. One unit 5 is also called a unit.

Each row of shelves preferably comprises two units, the two units share the middle steel upright post 12, the middle steel upright post 12 is two, the middle steel upright post 12 is fixed with a plurality of layers of field-shaped steel frames 19, and each field-shaped steel frame 19 forms a sun-shaped steel frame 17 of a left unit and a sun-shaped steel frame 17 of a right unit. The left steel upright post 14 of the left unit and the right steel upright post 14 of the right unit are respectively two, the right sides of the two left steel upright posts 18 are fixedly provided with a plurality of layers of Chinese character 'ri' shaped steel frames 17, and the left sides of the two right steel upright posts 14 are fixedly provided with a plurality of layers of Chinese character 'ri' shaped steel frames 17. The outer side of the middle of the left unit length is provided with a left middle steel upright post 16, the inner side of the left middle steel upright post 20 is fixedly provided with a multi-layer Chinese character 'ri' shaped steel frame 17, the outer side of the middle of the right unit length is provided with a right middle steel upright post 16, and the inner side of the right middle steel upright post 16 is fixedly provided with a multi-layer Chinese character 'ri' shaped steel frame 17. The three Chinese character 'ri' shaped steel frames 17 of each layer of each unit are used for placing two bundles of aluminum bar bundles 2 in parallel, namely, the three Chinese character 'ri' shaped steel frames of each layer of each unit are used for placing one bundle of aluminum bar bundles 2, and the other three Chinese character 'ri' shaped steel frames of each layer of each unit are used for placing one bundle of aluminum bar bundles 2. The transverse inlet and outlet 8 of the aluminum bar bundle 2 is arranged at the right end (right end of the right unit in the drawing) or the left end of the left unit of the row of shelves 4. The front and rear steel columns can be fixedly connected by a plurality of second steel connecting rods 21, for example, the steel connecting plates welded by the channel steel are fixedly connected by a plurality of bolts. The steel frame and the steel upright post can be fixed by a plurality of bolts through a steel connecting plate. It will be appreciated that each row of shelves 4 may also be three units, four units, etc. of the same construction as described above, but extending in the length direction, of course with two rows of shelves 4 extending simultaneously, i.e. with two rows of shelves 4 of equal length.

The bottom end of each steel upright post is provided with a fixed plate 15 fixed on the foundation through foundation bolts. The top of the goods shelf 4 is provided with a fixing frame 3. Four outer side surfaces of the goods shelf 4 are provided with a fence 10 for reinforcement and protection except for a transverse inlet and outlet 8 of the aluminum bar bundle 2, and the fence 10 and the baffle 1 can be adopted.

Of course, according to the floor space of the factory building, two or three stereoscopic libraries for storing aluminum bar bundles with equal quantity can be installed in parallel on the same site.

It will be appreciated that it is one of the inventive aspects of the present utility model to use a lane stacker 40 on the track 11 between two rows of shelves 4 to store aluminium bar bundles 2 laterally into each storage space 13, or to remove aluminium bar bundles 2 laterally from each storage space 13. The construction of the lane stacker 40 itself on the track 11 between the two rows of shelves 2 is not the utility model of the present utility model, but is prior art, such as a double column bi-directional pallet fork lane stacker as disclosed in the inventor's Ningbo An Najie molding technology incorporated, prior patents 202220622213.8 and 202220633391.0.

As shown in fig. 8-11.

The length of the feeding mechanism 7 is shorter than the length of one unit 5, and the width of the feeding mechanism 7 is larger than or equal to the width of each row of shelves 2.

The feeding mechanism 7 comprises a supporting frame 25 formed by a plurality of steel vertical legs 28, a plurality of first steel connecting rods 27 and guide rails 24, wherein the guide rails 24 are three parallel and extend along the inner side and the outer side of the transverse inlet and outlet 8, each guide rail 24 is provided with a linear moving plate 22 in a sliding fit mode, the middle bottom of the width of each linear moving plate 22 is fixed with a first annular chain 34 positioned in the middle of the width of the guide rail 24, one end of each first annular chain 34 is meshed with a first rotating chain wheel 33, the other end of each first annular chain 34 is meshed with a second rotating chain wheel 37, three second rotating chain wheels 37 are fixed on a linkage shaft 23 which is in rotary fit with the other ends of the three guide rails 24 at intervals, an input chain wheel 29 on the linkage shaft 23 is meshed with an output chain wheel of a gear box 31 through a second annular chain 30, so that each bundle 2 of aluminum bars can be put in or put out of a warehouse through synchronous driving of the three linear moving plates 22, and the gear box 31 connected with the motor 32 is arranged on the supporting frame 25.

The bottom ends of the plurality of steel legs 28 may be provided with a bottom plate 26 of adjustable horizontal height. Each of the linearly moving plates 22 is fixed to the first endless chain 34 via bolts and a connecting block 35, and the connecting block 35 may be one or two. Each linear motion plate 22 is also bolted to a plurality of, e.g., four, slide blocks 36, the slide grooves 39 of each two of the four slide blocks 36 being in sliding engagement with the respective slide rails 38 of the guide rail 24 for linear motion.

It is not difficult to understand: besides the steel parts such as the steel frame, other parts of the three-dimensional warehouse are made of steel. The three-dimensional warehouse and the matched transfer stacker or called equipment can comprise an electric control system formed by a main controller and an electric appliance control component in the prior art so as to automatically control the warehouse-in or called warehouse-in and warehouse-out processes of the aluminum bar bundles 2.

See fig. 1-3. When the aluminum bar bundle 2 needs to be put in storage, the material transporting vehicle 9 can be driven to the other end far away from the transverse inlet and outlet 8, the transported aluminum bar bundle 2 can be lifted to the transfer stacker 6 matched with the three-dimensional warehouse by lifting equipment such as an automobile crane, and the transfer stacker can be controlled by a main controller in the equipment: the transfer stacker 6 transversely transfers the aluminum bar bundles 2 to the feeding mechanism 7, three linear moving plates 22 of the feeding mechanism 7 linearly move to move the aluminum bar bundles 2 from the outside of the transverse inlet and outlet 8 to the inside of the transverse inlet and outlet 8, and the tunnel stacker 40 stores the aluminum bar bundles 2 positioned on the three inner moving plates 22 in any one layer of any one storage space 13 in any one unit 5 of the two rows of racks 4.

See fig. 1-3. When the aluminum bar bundles 2 need to be delivered out of the warehouse, the aluminum bar bundles can be controlled by a main controller in the equipment: the lane stacker 40 moves the aluminum bar bundle 2 stored in any one layer, namely any storage space 13, of any one unit 5 of the two rows of shelves 4 to three linear moving plates 22 positioned on the inner side of the feeding mechanism 7, the three linear moving plates 22 of the feeding mechanism 7 move linearly to move the aluminum bar bundle 2 from the inner side of the transverse inlet and outlet 8 to the outer side of the transverse inlet and outlet 8, the transfer stacker 6 can be used for transferring the aluminum bar bundle 2 transversely to the material transporting carriage 9 positioned at the transverse inlet and outlet and parallel to the transfer stacker 6, and the material transporting carriage 9 is driven to transport the aluminum bar bundle 2 to a bundle releasing and processing site such as a cutting site along a material transporting carriage guide rail. The material mover 9 is also called a trolley.

The above-noted components or structures or numbers are not shown in the figures. The drawings are schematic only, and the text descriptions will be followed if the drawings do not coincide with the text descriptions or if the drawings do not coincide with each other.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. A three-dimensional warehouse for storing aluminum bar bundles comprises a shelf with a cuboid steel grating structure extending along the length direction; the method is characterized in that: the storage device also comprises a roadway stacker which is positioned on the track between the two rows of shelves and is used for transversely storing or taking aluminum bar bundles in each storage space, and a transverse inlet and outlet of the aluminum bar bundles positioned at the bottom of one unit of one row of shelves; a feeding mechanism for moving the aluminum bar bundles placed on at least three linear moving plates positioned at the outer side to the inner side for the fork of the tunnel stacker to put in storage or moving the aluminum bar bundles placed on at least three linear moving plates positioned at the inner side to the outer side for the warehouse to be discharged is arranged in the transverse inlet and outlet of the aluminum bar bundles; each row of shelves comprises at least one unit, each unit comprises a plurality of layers of storage spaces, and aluminum bar bundles in each layer of storage spaces are placed on three steel frames fixed on steel upright posts in the length direction.

2. The solid garage for storing aluminum bar bundles according to claim 1, wherein: each row of goods shelves comprises two units, wherein the two units share two middle steel upright posts, the two middle steel upright posts are front and rear, a plurality of layers of field-shaped steel frames are fixed on the two middle steel upright posts, and each field-shaped steel frame forms a sun-shaped steel frame of a left unit and a sun-shaped steel frame of a right unit; the left steel upright posts of the left unit and the right steel upright posts of the right unit are respectively front and rear, the right sides of the two left steel upright posts are fixedly provided with a plurality of layers of Chinese character 'ri' shaped steel frames, and the left sides of the two right steel upright posts are fixedly provided with a plurality of layers of Chinese character 'ri' shaped steel frames; the outer side of the middle of the length of the left unit is provided with a left middle steel column, the inner side of the left middle steel column is fixedly provided with a multi-layer Chinese character 'ri' shaped steel frame, the outer side of the middle of the length of the right unit is provided with a right middle steel column, and the inner side of the right middle steel column is fixedly provided with a multi-layer Chinese character 'ri' shaped steel frame; three Chinese character 'ri' -shaped steel frames of each layer of each unit are used for placing two bundles of aluminum bars in parallel; the transverse inlet and outlet of the aluminum bar bundle are arranged at the right end of the right unit or the left end of the left unit of the row of shelves.

3. The solid garage for storing aluminum bar bundles according to claim 1, wherein: the bottom end of each steel upright post is provided with a fixed plate fixed on the foundation through an anchor bolt; the top of the goods shelf is provided with a fixing frame; four outer side surfaces of the goods shelf are provided with fence for reinforcement and protection except for the transverse inlet and outlet of the aluminum bar bundle.

4. The solid garage for storing aluminum bar bundles according to claim 1, wherein: the length of the feeding mechanism is shorter than that of one unit, and the width of the feeding mechanism is larger than or equal to that of each row of shelves.

5. The stereoscopic warehouse for storing aluminum bar bundles according to claim 4, wherein: the feeding mechanism comprises a support frame formed by a plurality of steel vertical legs, a plurality of first steel connecting rods and guide rails, wherein the guide rails are three parallel to each other and extend along the inner side and the outer side of a transverse inlet and outlet, each guide rail is provided with a linear moving plate in a sliding fit mode, the middle bottom of the width of each linear moving plate is fixed with a first annular chain positioned in the middle of the width of the guide rail, one end of each first annular chain is meshed with a first rotating chain wheel, the other end of each first annular chain is meshed with a second rotating chain wheel, three second rotating chain wheels are fixed on a linkage shaft which is in rotary fit with the other ends of the three guide rails at intervals, an input chain wheel on the linkage shaft is meshed with an output chain wheel of a gear box through the second annular chain, and the three linear moving plates are used for being synchronously driven to linearly move so as to realize warehousing or ex-warehouse of each bundle of aluminum bars, and the gear box connected with the motor is arranged on the support frame.