CN218950131U

CN218950131U - Intensive empty bin yard

Info

Publication number: CN218950131U
Application number: CN202223445591.2U
Authority: CN
Inventors: 刘宝军; 张毓杰; 张�荣
Original assignee: Shanghai Zhenghua Heavy Industries Co Ltd
Current assignee: Shanghai Zhenghua Heavy Industries Co Ltd
Priority date: 2022-12-22
Filing date: 2022-12-22
Publication date: 2023-05-02
Anticipated expiration: 2032-12-22

Abstract

The utility model provides an intensive empty container yard, which comprises: the container stacking device comprises a container body, a container body and a container box, wherein the container body is used for stacking containers; a running rail mounted within the magazine body; and the stacking and transporting device is movably connected to the running track and is used for lifting and transporting the container to a designated position in the warehouse body. According to the intensive empty container yard provided by the embodiment of the utility model, the container stacking height and precision can be improved, and the occupied area is saved.

Description

Intensive empty bin yard

Technical Field

The utility model relates to the field of logistics storage, in particular to an intensive empty bin yard.

Background

In port logistics container operation, the container throughput of ports and docks is increased year by year, but the lack of land is a problem, so that the three-dimensional and intensive upgrading and reconstruction of container storage yards are imperative for container manufacturers and ports and docks.

At present, although an automatic wharf exists, the automatic wharf is still extensive in storage of containers, most of the automatic wharf is stored in open air, empty containers stacked in the wharf are large in horizontal load caused by storm and the like, the stacking height of the empty containers cannot be too high, the stacking height is generally 6 to 8 layers, and safety is guaranteed by means of design and binding and the like, so that the precision of the containers cannot be guaranteed during storage and taking, and the occupied area is large.

Disclosure of Invention

In view of the above, the utility model provides an intensive empty container yard, which can improve the height and precision of container stacking and save the occupied area.

In order to solve the technical problems, the utility model adopts the following technical scheme:

according to an embodiment of the utility model, the intensive empty container yard comprises:

the container stacking device comprises a container body, a container body and a container box, wherein the container body is used for stacking containers;

a running rail mounted within the magazine body;

and the stacking and transporting device is movably connected to the running track and is used for lifting and transporting the container to a designated position in the warehouse body for stacking.

Further, the garage body comprises an inter-working area and a storage area which are adjacently arranged, wherein the inter-working area is used for loading and unloading containers by trucks, and the storage area is used for stacking the containers unloaded from the inter-working area.

Further, the interactive operation area comprises a first card collecting operation area and a second card collecting operation area, the storage area is arranged in the middle of the library body, and the first card collecting operation area and the second card collecting operation area are respectively arranged on two sides of the storage area.

Further, the storage area comprises a first storage area and a second storage area which are arranged up and down,

a plurality of roadways are arranged in the warehouse body, each roadway comprises a first roadway and a second roadway which are arranged up and down, the first roadway is transversely arranged through the interactive operation area and the first storage area, the second roadway is transversely arranged through the interactive operation area and the second storage area, the plurality of first roadways and the second roadways are respectively and longitudinally arranged in sequence along the first storage area and the second storage area,

the top of the first roadway and the top of the second roadway are provided with the running rails, and the stacking and transporting device runs on the running rails to transport containers from the interaction area to the first storage area and the second storage area.

Further, the intensive empty container yard further comprises a lifter and a carrying trolley, wherein the lifter is installed on one side of the interaction operation area in the warehouse body, the carrying trolley is movably arranged on the platform at the first storage area, and the container on the collection card in the interaction operation area is lifted to the carrying trolley on the platform at the first storage area through the lifter.

Further, the lifter includes:

an elevator body disposed at an outer sidewall of the interactive operation region 110 of the garage body;

the telescopic beam, the lift body is connected to the one end of telescopic beam movably from top to bottom, and the other end is to stretch out in the interaction district, but the hoist cable of lift is installed to the other end of telescopic beam, the hoist cable is used for hanging the container.

Further, the handling trolley runs perpendicular to the running direction of the stacking and transporting device.

Further, a plurality of container stacking areas are transversely and sequentially arranged in the corresponding roadway of the first storage area and the second storage area.

Further, the width of the container stacking area is 1-3 containers, and the height of the container stacking area is 12-20 containers.

Further, the stacking and transporting device comprises a lifting device and a travelling crane, wherein the lifting device is movably connected with the travelling crane in a first direction, and the travelling crane is movably connected with the running rail in a second direction.

The technical scheme of the utility model has at least one of the following beneficial effects:

the intensive empty box yard comprises a warehouse body, a running rail and a stacking and transporting device. The stacking and transporting device is movably connected to the running track, and the containers are hoisted and transported to a designated position in the warehouse body through the stacking and transporting device to be stacked, so that the height and the precision of the stacked containers are improved, and the occupied area is saved.

Drawings

FIG. 1 is a schematic diagram of an intensive empty container yard according to an embodiment of the present utility model;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a schematic structural diagram of a lifting mechanism of an intensive empty container yard according to an embodiment of the present utility model.

Reference numerals: 100. a library; 110. an interactive operation area; 120. a storage area; 121. a first storage area; 1211. a platform; 122. a second storage area; 130. roadway; 140. a carrying trolley;

200. a running rail;

300. a stacking and transporting device; 310. driving; 320. a lifting device;

400. a truck; 500 containers;

600. a lifter; 610. an elevator body; 620. and a telescopic cross beam.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the utility model, fall within the scope of protection of the utility model.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate a relative positional relationship, which changes accordingly when the absolute position of the object to be described changes.

An intensive empty container yard according to an embodiment of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the intensive empty container yard according to an embodiment of the present utility model may include: the warehouse body 100, the running rail 200, and the stacking and transporting device 300.

Wherein the container 500 is stacked within the magazine 100.

The running rail 200 is installed in the magazine 100.

The stacking and transporting device 300 is movably connected to the running rail 200, and the stacking and transporting device 300 is used for lifting and transporting the containers 500 to a designated position in the warehouse body 100 for stacking.

Specifically, the intensive empty box yard according to the embodiment of the present utility model includes a warehouse body 100, a running rail 200, and a stacking and transporting device 300. Wherein, be used for stacking container 500 in the storehouse body 100, install the track 200 in the storehouse body 100, the stack is moved fortune device 300 movably to be connected on the track 200, is moved the appointed position in the storehouse body 100 through the stack and is moved fortune device 300 with container 500 hoist and get and move and stack, realize improving container heap case height and precision from this, practice thrift area, simple structure, degree of automation is high.

In some embodiments, as shown in FIG. 1, the library 100 may include an inter-working area 110 and a storage area 120 disposed adjacent to each other, the inter-working area 110 for loading and unloading containers 500 by a truck 400, and the storage area 120 for stacking containers 500 unloaded from the inter-working area 110.

That is, the warehouse body 100 is configured to be an inter-working area 110 and a storage area 120 which are adjacently arranged, and the inter-working area 110 is a vacant area, so that the truck 400 loaded with the container 500 can be conveniently loaded and unloaded, and the storage area 120 is arranged beside the inter-working area 110, so that the container 500 unloaded in the inter-working area 110 can be conveniently moved into the storage area 120 for stacking and storing.

In some embodiments, as shown in fig. 1, the inter-working area 110 may include a first card-collecting working area and a second card-collecting working area, where the storage area 120 is disposed in the middle of the library 100, and the first card-collecting working area and the second card-collecting working area are disposed on two sides of the storage area 120, respectively.

That is, the storage area 120 is provided in the middle of the container body 100, and the inter-working area 110 is divided into two blocks, which are respectively provided at both sides of the storage area 120, so that the container 500 can be handled from two places in the storage area 120, thereby greatly improving the efficiency of storing the container 500 in the container body 100.

In addition, the first card collecting operation area and the second card collecting operation area may be respectively disposed in the middle of the storage area 120, and may be selectively disposed according to actual working conditions.

In some embodiments, as shown in fig. 1 and 2, the memory area 120 includes a first memory area 121 and a second memory area 122 disposed one above the other.

A plurality of lanes 130 are arranged in the library 100, the lanes 130 comprise a first lane (not shown) and a second lane (not shown) which are arranged up and down, the first lane is transversely arranged through the interactive operation area 110 and the first storage area 121, the second lane is transversely arranged through the interactive operation area 110 and the second storage area 122, and the plurality of first lanes and the plurality of second lanes are longitudinally and sequentially arranged along the first storage area 121 and the second storage area 122 respectively.

The top of the first lane and the second lane is installed with the running rail 200, and the container is transferred from the inter-working area 110 to the first storage area 121 and the second storage area 122 by the stacker carrier 300 running on the running rail 200.

Specifically, the storage area 120 in the warehouse body 100 is divided into the first storage area 121 and the second storage area 122 of the upper and lower layers for stacking and storing the containers, the running track 200 is installed on the top of the first storage area 121 and the second storage area 122 corresponding to the respective lanes 130, the running track 200 is movably provided with the stacking and transporting device 300, and the containers are transported from the interactive operation area 110 to the first storage area 121 and the second storage area 122 through the stacking and transporting device 300, so that the structure is simple and reasonable, and the containers can be conveniently and stably transported to the appointed area of the storage area 120 in the warehouse body 100.

It should be noted that, for example, the number of lanes 130 in each layer of the library 100 may be three, but not just three, and may be set to an adaptive number of lanes according to the throughput of a specific container, where three lanes 130 are disposed side by side along the longitudinal direction of the library 100, and are staggered with the interaction zone 110 and the storage zone 120 that are disposed laterally.

In some embodiments, as shown in fig. 1, the intensive empty container yard further includes a lift 600 and a trolley 140, the lift 600 is installed at one side of the inter-working area 110 in the warehouse body 100, the trolley 140 is movably disposed on the platform 1211 at the first storage area 121, and the container on the pallet in the inter-working area 110 is lifted to the trolley 140 of the platform 1211 at the upper first storage area 110 by the lift 600.

That is, in order to reduce the traction capability requirement of the equipment of the stacking and transporting device 300 in the upper first storage area 121, the container is first lifted from the ground by the lifter 600 onto the trolley 140 on the platform 1211 on the first storage area 121, and then transported to the corresponding position on the platform 1211 by the trolley 140, and supplied to the stacking and transporting device 300 in the first storage area 121 for lifting and transporting.

In some embodiments, as shown in fig. 1, 3, the elevator 600 may include: an elevator body 610 and a telescoping beam 620.

Wherein the elevator body 610 is disposed at an outer sidewall of the inter-working area 110 of the garage.

One end of the telescopic beam 620 is vertically movably connected to the elevator body 610, and the other end thereof extends out toward the inter-working area 110, and a sling (not shown) for lifting the container is installed at the other end of the telescopic beam 620.

Specifically, the lifter 600 includes a lifter body 610 and a telescopic girder 620, the lifter body 610 is disposed on an outer side beam of the inter-working area 110 of the garage 100, one end of the telescopic girder 620 is connected to the lifter 600 to be movable up and down, the other end of the telescopic girder 620 has a sling, and when in operation, the telescopic girder 620 is retracted at the bottom of the lifter 600, the container 500 on the truck 400 is lifted by the sling, and then the lifter 600 is driven to lift the telescopic girder 620 to the height of the upper first storage area 121, the telescopic girder 620 is extended, and the container 500 is loaded and unloaded on the carrier 140 on the platform 1211 of the first storage area 121, thereby lifting and transporting the container conveniently and reliably.

In some embodiments, as shown in fig. 2, the cart 140 runs perpendicular to the direction of travel of the palletizing device 300.

That is, the handling trolley 140 is operated on the platform 1211 perpendicular to the direction of travel of the palletizing device 300 so as to facilitate the adjustment of the container to the position entirely below the palletizing device 300 and the lifting of the palletizing device 300.

In some embodiments, a plurality of container stacking regions are disposed laterally in sequence within the respective lanes 130 of the first storage region 121 and the second storage region 122. (not shown).

That is, in the region where the first storage region 121 and the second storage region 122 overlap with the corresponding lane 130, a plurality of container stacking regions are laterally provided in order, and the container stacking regions are provided to perform accurate positioning storage when storing containers, which is also convenient for accurate specification of taking out.

In some embodiments, the width of the container stacking area is 1 to 3 containers wide and the height of the container stacking area is 12 to 20 containers high.

That is, a plurality of container stacking regions are provided in the upper and lower first and

second storage regions

121 and 122, respectively, and the container stacking regions may be provided in an appropriate area range, thereby improving the overall stacking height of the bank 100, increasing the receiving rate of the bank 100, and facilitating the maximum utilization of the floor space.

In some embodiments, the stacker transport device 300 includes a hoist 320 and a row bar 310, the hoist 320 being movably coupled to the row bar 310 in a first direction and the row bar 310 being movably coupled to the track 200 in a second direction.

Specifically, the stacking and transporting device 300 includes a hanger 320 and a crane 310, the crane 310 being movably connected to the running rail 200 in a lateral direction, the hanger 320 being longitudinally adjustably movable on the crane 310, whereby containers can be transported to a designated position in the container stacking area of the corresponding lane 130 to be discharged.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the present utility model.

Claims

1. An intensive empty bin yard, comprising:

a running rail mounted within the magazine body;

2. The intensive empty container yard of claim 1, wherein the warehouse body includes an inter-working area for truck loading and unloading of containers and a storage area for stacking containers unloaded from the inter-working area.

3. The intensive empty container yard of claim 2, wherein the inter-working area comprises a first card collecting working area and a second card collecting working area, the storage area is arranged in the middle of the container body, and the first card collecting working area and the second card collecting working area are respectively arranged at two sides of the storage area.

4. The intensive empty container yard of claim 2, wherein the storage areas comprise a first storage area and a second storage area arranged up and down,

5. The intensive empty container yard of claim 4, further comprising a lift mounted to one side of the inter-working area in the warehouse and a handling trolley movably disposed on the platform at the first storage area, wherein the container on the collector in the inter-working area is lifted to the handling trolley on the platform at the first storage area at an upper level by the lift.

6. The compact empty bin yard of claim 5, wherein said elevator comprises:

the elevator body is arranged at the outer side wall of the interaction area (110) of the warehouse body;

7. The concentrated empty bin yard of claim 5, wherein said cart is operated perpendicular to a direction of operation of said stacking and transporting device.

8. The intensive empty container yard of claim 4, wherein a plurality of container stacking areas are disposed in the first storage area and the second storage area in the respective lanes in a lateral sequence.

9. The intensive empty container yard of claim 8, wherein the width of the container stacking area is 1 to 3 containers wide and the height of the container stacking area is 12 to 20 containers high.

10. The concentrated empty box yard of claim 1, wherein the stacking and transporting device comprises a lifting device and a trolley, the lifting device being movably connected to the trolley in a first direction and the trolley being movably connected to the travel rail in a second direction.