KR101352991B1 - Multilayer type container storage and export system - Google Patents

Abstract

The present invention relates to a container loading system capable of random loading and unloading, in which the container of the port can be arbitrarily loaded and discharged.
With the increase of cargo transportation using medium and large containers, container loading is gradually increasing at the port for unloading it. There is an urgent need for an unmanned structure capable of minimizing such backlogs and separating and discharging the necessary containers in an optimal state.
The present invention arranges the lifting and lowering transport passage through which the center is passed up and down, and the transport loading structure consisting of a loading unit capable of stacking containers in multiple layers on the left and right sides of the lifting and lowering transport route,
Lifting and lowering conveying apparatus which can move up and down while loading the container in the lifting and lowering transport path of the conveying structure to reach the target loading layer, and transfers the container loaded in the desired loading layer from side to side,
Control unit for controlling the power for the control of the lifting and lowering of the lifting and lowering transfer device and the left and right transport of the loaded container,
A container entrance / exit control unit which is installed at the bottom of the lowermost floor of the loading unit and disembarks the loaded container when the container loading vehicle enters, and rides the container loaded on the vehicle by the elevating device to the loading unit;
The container loading system which can be carried out and the random loading which consists of the right and left conveyance part which consists of the guiding roller which is continuously arrange | positioned at the front and back of the lower part of the loading part of the said conveyance loading structure which can guide the left and right conveyance of the container was developed.
The present invention is configured separately from the loading and lowering transport device for loading and storing the container for shipping in Shanghai. In particular, since the single drive motor of the elevating feeder is used for both conveying and stacking, it is possible to optimize the required power as well as structural simplicity.
The present invention is also capable of loading and discharging the container at the same time, the container can be loaded indefinitely on a high floor, and in particular, it is possible to discharge the desired container when needed and at the same time to load the target container in the desired position Became possible.

Description

Random loading and exportable container loading system {Multilayer type container storage and export system}

The present invention relates to a container loading system capable of random loading and unloading, in which the container of the port can be arbitrarily loaded and discharged.

The present invention relates to a container loading system capable of random loading and unloading, which enables continuous loading of containers on a high floor, and enables unmanned loading and unmanned discharge according to a program and user and manager's intention for setting loading positions and flow rates separately. will be.

Despite the fact that the port has become larger and more precise, the volume of ports has gradually increased due to the inability to handle the increasing volume of cargo on time, and the costs including labor costs are increasing year by year.

In recent years, in order to alleviate these drawbacks, there have been some developments in which cranes can be directly loaded and directly unloaded.

However, there are no systems for discharging and moving some of the containers that have already been pirated when desired, and only mobile discharge by a giant crane is possible.

In addition, some pilot plants are attempting to install containers by unloading them from the ship and then transporting them to the intended load by the automatic transportation system installed on the ground instead of the vehicle.

The biggest problem in loading and unloading all these series of containers is that the container itself has a huge structure ranging from 3m to 12m in length and several tons to almost 4,50 tons. There is a difficulty. In other words, if some of the large containers are caught during unevenness during transport, all the momentum according to the moving speed of the tens of tons of containers is transmitted to the structure as impact energy, which causes serious safety accidents.

It is an object of the present invention to provide a container loading system that enables arbitrary loading and discharging of containers.

The present invention is to provide a loading system capable of loading a large amount of containers as possible while minimizing the loading space by continuously loading the container in a high floor.

The present invention is to provide a loading system capable of loading and discharging a continuous large quantity that enables the loading and discharging of two or more containers at the same time.

The present invention constructed a high-rise structure for loading a container.

The present invention allows the container vehicle to be directly accessible on the first floor, receives the container directly from the approaching vehicle, and can be loaded on the lifting and transporting device, and at the same time, the lifting and transporting device and the loading unit are configured. It was.

The present invention is to arrange the guiding rollers configured in pairs in the lower portion to enable the horizontal movement of the container in the required position.

The present invention enables the loading and discharging at the same time by simultaneously pulling the container to the desired position by the power of the drive motor installed in the lifting and lowering transfer device, thereby enabling operation with minimum energy.

The present invention enables the loading and discharging to be extended as necessary in the horizontal direction as necessary, thereby providing an optimal loading system according to the structure and circumstances of the port.

Claim 1 of the present invention, it is possible to load the container in a high-layer and at the same time only the required container in the loaded state can be discharged alone.

In claim 2, the transfer path is arranged in the center and the loading parts are arranged on the left and right sides, and the container vehicle directly enters the first floor to allow the discharge and receipt of the container at the same time.

In claim 3, the elevating device is capable of horizontally moving the container horizontally by installing a lower guiding roller and a balance edge of the side, and is precisely disposed in the intended loading part.

Claim 4 is the loading portion and the lifting and lowering device is penetrated through the groove during the Shanghai transport to prevent the transfer failure due to the gap between the loading unit and the lifting and lowering transfer device when transporting the container.

Claim 5 is because the guiding rollers of the elevating device and the loading unit are arranged in pairs to contact each other so that the entire guiding roller rotates with one power, it is possible to accurately control the rotational speed of the guiding rollers and minimize the use power. can do.

Claim 6 makes it possible to accurately transmit or interrupt power from the power generating device via the clutch part when the lifting and lowering portion of the elevating transfer device is in contact with the loading portion on the side.

Claim 7 is a clutch structure that transmits or closes the operation between the lifting and lowering transmission device and the loading unit, and the cooperative operation of the acceptor gear, the centering shaft and the spring behind it enables accurate power transmission and release.

Claim 8 is to arrange the same guiding rollers in the loading section, the continuous operation of the guiding rollers to interlock with the lifting and lowering transfer device, the lifting device and the loading unit that can be generated by the connection operation of the balance edge and the horizontal groove It is possible to fundamentally block the height difference of the liver.

Claim 9 solves the problem of equipment damage that can occur when tens of tons of containers are moved by leveling both horizontal and horizontal edges when the elevating device and the left and right loading units are not horizontal. .

1 is a front view showing the overall configuration of the present invention,
2 is a plan view of the lifting and lowering transfer apparatus of the present invention;
3 is a plan view of the assembled state of the guiding roller of the present invention;
Figure 4 is a plan view of the assembled state of the primary guiding roller of the lifting and lowering transfer apparatus of the present invention,
Figure 5 is a plan view of the assembled state of the primary guiding roller of the mounting portion of the present invention,
6 is a partially enlarged plan view of an entry / exit control unit of a lifting device;
7 is a side cross-sectional view of the lowering and feeding unit and the loading unit;
8 is an enlarged partial view of FIG.
9 is a plan view of the loading portion;
10 is a partially enlarged plan view of the clutch portion of the loading portion;
11 is an overall plan view of a state where the elevating device is disposed on the lowest floor;
12 is a partially enlarged plan view of the lifting device portion;
FIG. 13 is a partially enlarged plan view of the guiding roller and the clutch unit of FIG. 14;
14 is a plan view of the lifting device is disposed on the upper layer,
15 is a partially enlarged plan view of FIG. 14;
16 is a front configuration diagram showing a structure in which four or three containers can be loaded instead of two;
17 is a cross-sectional view of the AA line operating state of the horizontal holding portion,
Figure 18 is a perspective view of the operating state of FIG.

The present invention relates to a container loading system capable of random loading and carrying.

The present invention is to install a multi-layered structure in the harbor where the container unloading operation is performed by the steel structure or steel concrete structure, and then to accurately store and store the container in the desired position for the various containers unloaded from the container ship, It relates to a loading system that can be discharged arbitrarily and accurately if necessary.

The present invention provides a multi-layer loading unit and a lifting guide structure and a container entry and exit structure for loading a container, a lifting and lowering feeder for transporting the container up and down the multi-layer structure, the lifting and lowering of the lifting and lowering transfer device. It is composed of the loading and unloading control unit for moving the loaded container, the loading unit is arranged in the lower portion of the guiding roller for horizontal movement.

All information such as container loading / unloading, lifting and lowering of the lifting device, information on the loaded container, space layout of the currently loaded container is data into a database on a separate server, and subsequent analysis of container traffic and necessary space information. Can be used as data.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

In the present invention, as shown in the front configuration diagram of FIG. 1, the elevating device is arranged in the center, and the container stacking unit is arranged in a multi-layer structure on the left and right sides of the elevating device. Where the container vehicle directly enters and exits, the container vehicle is configured to directly enter and exit the bottom floor of the loading unit disposed on the left and right sides. Although the four floors are shown, the number of loading floors can be increased or decreased as needed, and there is no particular limitation.

More specifically, as shown in FIG. 16, it is also possible to make four loading parts of the left side loadable, and three to the right side. And such a configuration can be increased or decreased depending on the installation situation of the site. In this case, the elevating device can be loaded with three, not two. The number of stacking units of the lifting device can also be increased or decreased depending on the size of the stack.

The transport guideway 1000 formed in the center of the multi-layer structure is a guideway for raising and lowering the lifting device, and gear driving such as a conventional elevator traction device or rack and pinion structure installed at the top of the system. Elevate or descend by the elevator or gear drive. Lifting device in the present invention is composed of a double structure up and down is capable of loading two containers at the same time on the top and bottom. Therefore, the ground part (B) is separately installed on the ground, so that two units can be loaded and discharged on the first floor. However, when the number of containers loaded on the left and right loading units is two or more, the elevating device is configured as three or four floors, so that at least three or four containers can be loaded by one lifting.

The transport load structure of the present invention can be generally manufactured in a steel structure, but if the weight of the container to be loaded is a heavy weight of several tens of tons can be manufactured separately as a steel concrete structure to secure the stability to the weight. The selection of such a structure is possible by selecting the site according to the type and weight of the container to be loaded, and there is no particular limitation.

The loading part is installed on the left and right side centering on the transfer path in the center, and the loading part is configured to be stackable on two sides. This configuration is because the elevating device can load two top and bottom. However, these two loading structures are representative examples and it is also possible to load more than three units.

In the present invention, the transport load structure is disposed in the center of the transport guide path (1000) for the shanghai transport guide of the lifting and lowering transfer device loaded with a container in the center,

Guiding rollers are arranged at the bottom of each floor to the left and right of the conveying guide road, and the loading part for loading the container moving from the lifting and lowering conveying device is continuously from the second floor except for the lowest floor contacting the ground. The installed loading part was installed in a multilayer structure.

And the lowermost floor in contact with the ground is configured to the height of the container vehicle can be directly in and out, the ceiling was configured to the entrance and exit portion provided with lifters (501, 601) that can be lifted by lifting the container directly.

The vehicle loaded with the container is directly approached to the entrance and exit, and the lifter descends from the upper part while lifting the container to lift the container and separate the container from the vehicle. In this state, the vehicle exits, and the lifter loads the container in the position where the vehicle is removed. In this state, when the lower guiding roller rotates, the container is moved to the center lifting and lowering transfer device, and preparation for lifting and lowering is completed. The container is loaded according to the number of loading and lowering devices for loading and dropping the container, and the container is loaded as necessary and moved to the intended loading unit, thereby repeatedly loading.

In the present invention, the lifting device is shown in plan in the overall configuration in FIG.

The lifting and lowering feeder is configured to rotate the primary guiding rollers 512 and 612 in the guiding rollers which are installed before and after by the power transmitted from the drive motor of the entry and exit control unit installed on the front side, and continuously arrange the guiding rollers on the side. The rollers are also configured to interlock,

The balance edge 801 is installed near the four ears of the elevating device 2000, and the balance edge is guide grooves installed on the left and right loading portions by a linker 803 connected to the operating rods of the pneumatic cylinders 800 ( 805) to enable entry and exit.

A groove 512a is provided in the outer roller of the primary guiding roller which is in contact with the loading parts arranged on the left and right in the lifting device, and the protrusion of the loading part penetrates the lifting ascends here.

These grooves and protrusions enable a smooth movement by blocking a jam due to a distance difference that may occur during transportation of the container.

In the present invention, the guiding rollers installed in the elevating device and the loading unit are arranged in pairs, as shown in FIG. 3, and the main gears 516 condensed on the shafts 515 and 615 of each guiding roller. 616). Subsidiary gears 517 and 617 are installed between the main gears, which are connected to the shafts of the main sprockets 518 and 618 which are rotated by receiving power, so that the driving force is continuously arranged. It is transmitted to the roller to operate in one direction.

In addition, an entrance and exit control unit for controlling the driving of the guiding roller of the loading unit to be connected to the operation of the guiding roller is installed at the front of the lifting device as shown in FIG. 6.

The entrance and exit control unit arranges the drive motor M at the front center part, fastens the power transmission shaft 12 to the output shaft 11 of the drive motor, and installs the rotation sensor 13 at the rear of the drive motor. Install the power generator unit,

The power transmission shaft of the power generating unit is provided with first and second converters 15 and 16 for transmitting power to the clutch unit and the driving unit, and are transmitted through the first and second converters. Power is distributed from side to side so that the first converter is connected to the drive shafts (17) (18) (18) for the entry and exit control units installed on the left and right sides, and the second converter is also connected to the clutch units (301) (302) on the left and right sides;

The control mechanism part comprised of the left and right levers 201 and 202 and the left and right hydraulic pneumatic cylinder parts 203 and 204 which allow the power transmitted from the said 2nd conversion apparatus of the said power transmission device part to be able to control operation | movement with respect to this lever. The entry and exit control unit is configured to be arbitrarily transmitted to the drive shafts 560 and 660 in the left and right loading units.

The left and right operating levers 201 and 202 connected to the operating rods 203a and 204a of the left and right hydraulic pneumatic cylinders 203 and 204 in the entry and exit control unit are moved forward and backward around the pins 206 and 206a. The shift forks 205 and 205a connected to the front end of the operating lever are moved forward and backward by vibrating operation so that the clutch parts 301 and 302 on the left and right sides can be moved forward and backward,

The clutch parts 301 and 302 of the left and right sides have a hollow cylindrical structure, and an accept gear 303 is provided therein.

The inner bottom 308 of the accept gear is elastically supported by a spring 309.

The clutch unit on the lifting device side configured as described above is engaged with the centering shaft, which is separately installed in the loading unit, while lifting and lowering, thereby transmitting necessary power.

More specifically, as shown in FIG. 8, the outer thread protrusion 306 is configured to be engaged with each other in the inner side thread groove 305 of the accept gear, and the centering shaft 307 is protruded at the tip end thereof. The inner rear portion 308 of the accept gear is elastically supported by the spring 309 so that it can move forward and backward in conjunction with the forward and backward movement of the shift fork, and transfer and block of the driving force can be arbitrarily enabled.

In the present invention, the overall configuration of the loading part is provided with a projection 612a at the center of the outer roller 612 of the guiding roller facing the elevating feeder as shown in Figs. 9 and 10 of the outer roller of the elevating feeder. While the protrusions are formed in the grooves 512a to penetrate during the lifting and lowering operation, the inner guide rollers facing the outer rollers are provided with a primary guide roller configured to cover the protrusions by installing the grooves 612b,

Guide rollers constituted in pairs to interlock with the primary guide rollers are installed on the front and rear surfaces to form a guiding roller.

An outer thread projection 306 is formed on the outer circumferential surface of the driving shafts 560 and 660 that transmits power to the guiding roller portion of the guiding roller unit, and is moved up and down by the protruding centering shaft 307. It is configured to be fastened inside the accepting gear of

A horizontal groove 805 that can be engaged with the balance edge 801 formed on the side of the elevating device is formed.

In the present invention, the first floor in contact with the ground is provided with an embossed plate (P) at the bottom to prevent slipping when the vehicle approaches and to allow safe container discharge and loading as shown in FIGS. 12 and 13.

Fig. 14 shows a planar structure of one entire layer of a stacking portion of a multilayer structure. The structure of FIG. 14 allows two to be stacked, but when three or four to be stacked as shown in FIG. 16, the size can be connected laterally to increase the number.

15 is an arrangement state immediately before the power is transmitted to the loading unit by the operation of the clutch unit in contact with the loading unit disposed on the side of the elevating device of the present invention. In this state, the left and right clutch portions 301 and 302 are fastened to the centering shaft 307 protruding from the loading portion, so that the power of the elevating device is transmitted to the loading portion. In this operation, the container loaded on the lifting device is transferred to the loading unit.

17 and 18 show a device for accurately maintaining a horizontal balance of the lifting device and the left and right loading units.

As the weight of the container is several tons to several tens of tons, it is lifted or lowered through the lifting device, and contraction and relaxation occurs in the towing device for lifting. This contraction and relaxation may not be able to maintain the correct horizontal balance between the side of the lifting device and the side of the loading unit, and in this state to move the container from side to side causes a serious problem of equipment damage.

The present invention constitutes a balance groove formed on the side of the lifting device as shown in Figs. The balance groove of the horizontal holding portion is formed on the left and right sides of the elevating device so as to fit with the wedge-shaped protrusion structure installed on the left and right loading portions.

A wedge-shaped space portion 801a is formed therein, and freely rotating rollers 801b are disposed on the inner side wall of the space portion such that a part of the roller is exposed along the inner surface.

The balance edge 805 of the surface in contact with the lifting device of the left and right side loading portions was configured to have a wedge-shaped protrusion structure to be inserted into the balance groove.

In this configuration, the balance groove can move forward or backward as shown by an arrow by the operation of the pneumatic cylinder 800 installed at the rear toward the balance edge. Therefore, even when the lifting device is raised or lowered, even if a horizontal error occurs between both of the balance grooves and the balance edges to secure the error between the two. And the freely rotating rollers are easy to tighten by reducing the heavy impact friction applied to the inner surface that can occur during the insertion operation of the balance groove due to the weight of the container of several tens of tons.

1000: Transfer guide 2000: Lifting device 512, 612: Primary guiding roller 800: Pneumatic cylinder 301.302: Clutch part 560, 660: Drive shaft 17,18: Drive shaft of lifting and lowering unit

Claims (9)

A transport loading structure consisting of a loading section capable of stacking containers in multiple layers is arranged on the left and right sides of the lifting transport path, the center of which is disposed up and down.
Lifting and lowering conveying apparatus which can move up and down while loading the container in the lifting and lowering transport path of the conveying structure to reach the target loading layer, and transfers the container loaded in the desired loading layer from side to side,
Control unit for controlling the power for the control of the lifting and lowering of the lifting and lowering transfer device and the left and right transport of the loaded container,
A container entrance / exit control unit which is installed at the bottom of the lowermost floor of the loading unit and disembarks the loaded container when the container loading vehicle enters, and rides the container loaded on the vehicle by the elevating device to the loading unit;
Left and right conveying part composed of a guiding roller which is continuously disposed in the front and rear of the lower portion of the loading portion of the conveying structure to guide the left and right transport of the container,
And a loading and unloading container loading system consisting of a horizontal holding unit which balances both in a lifting device and a loading position in a loading position.
The method of claim 1,
The transport load structure is disposed at the center of the transport guide path (1000) for the Shanghai transport guide of the lifting and lowering transfer device loaded with a container in the center,
Guiding rollers are arranged at the bottom of each floor to the left and right of the conveying guide road, and the loading part for loading the container moving from the lifting and lowering conveying device is continuously from the second floor except for the lowest floor contacting the ground. Install the installed loading part in a multilayer structure,
Random loading and unloading, characterized in that the lowermost floor in contact with the ground is configured to the height of the container vehicle can be directly in and out, the ceiling is composed of the entrance and exit portion is provided with lifters (501, 601) that can be lifted by lifting the container directly Container loading system available. The method of claim 1,
The lifting and lowering feeder is arranged on the side by rotating the primary guiding rollers 512 and 612 among the guiding rollers installed before and after by the power transmitted from the drive motor M of the entry and exit control unit installed on the front side. One guiding rollers are configured to work together,
The balance edge 801 is installed near the four ears of the elevating device 2000, and the balance edge is guide grooves installed on the left and right loading portions by a linker 803 connected to the operating rods of the pneumatic cylinders 800 ( 805) randomly loaded and retractable container loading system, characterized in that arranged to enter and exit. The method of claim 3, wherein
A random loading and transportable container loading system, characterized in that a groove (512a) is provided in the outer roller of the primary guiding roller. The method of claim 1,
The guiding rollers are arranged in pairs, and the main gears 516 and 616 condensed on the shafts 515 and 615 of each guiding roller are provided, and the auxiliary gears 517 and 617 are interposed between the main gears. The sub-gear is connected to the main sprockets 518 and 618 so that the rotational force of the drive shafts 17 and 18 can be transmitted to the guiding rollers continuously arranged. Container loading system available. The method of claim 3, wherein
The drive motor (M) is disposed at the front center, and the power transmission shaft (12) is fastened to the output shaft (11) of the drive motor, and the rotation sensing sensor (13) is installed at the rear of the drive motor to provide a semi-power generator. Install wealth,
The power transmission shaft of the power generating unit is provided with first and second converters 15 and 16 for transmitting power to the clutch unit and the driving unit, and are transmitted through the first and second converters. Power is distributed from side to side so that the first converter is connected to the drive shafts (17) (18) (18) for the entry and exit control units installed on the left and right sides, and the second converter is also connected to the clutch units (301) (302) on the left and right sides;
The control mechanism part comprised of the left and right levers 201 and 202 and the left and right hydraulic pneumatic cylinder parts 203 and 204 which allow the power transmitted from the said 2nd conversion apparatus of the said power transmission device part to be able to control operation | movement with respect to this lever. And a loading / unloading control unit configured to be freely transmitted to the drive shafts (560) (660) in the left and right stacking units. The method according to claim 6,
Shift of left and right actuating levers 201 and 202 connected to actuating rods of the right and left pneumatic cylinders 203 and 204 connected to the tip of the actuating lever by forward and backward movement of the actuating rod about the pins 206 and 206a. The forks 205 and 205a move forward and backward so that the clutch parts 301 and 302 on the left and right sides can move forward and backward,
The clutch parts 301 and 302 of the left and right sides have a hollow cylindrical structure, and an accept gear having a screw groove 305 is provided therein,
The inner bottom surface 308 of the accept gear is elastically supported by the spring 309 and the outer screw protrusion 306 is configured to be engaged with each other in the inner screw thread 305 of the accept gear. The centering shaft 307 is protruded at the tip of the outer thread protrusion 306, and the inner rear portion 308 of the accept gear is elastically supported by the spring 309 to move forward and backward of the shift fork. Container loading system capable of random loading and carrying, characterized in that configured to move forward and backward in conjunction with the operation.
The method of claim 1,
The balance groove of the horizontal holding portion is formed on the left and right sides of the elevating device so that a wedge-shaped space portion 801a is formed therein, and freely rotating rollers 801b are formed on the inner wall of the space portion along the inner surface thereof. Is part of the surface is exposed,
Balanced edge of the surface in contact with the lifting device of the left and right side loading portion is configured to have a wedge-shaped protrusion structure to be inserted into the balance groove, characterized in that the random loading and retractable container loading system.

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