CN111776771A - Container cargo loading system and loading method thereof - Google Patents

Abstract

The invention discloses a container cargo loading system and a loading method thereof, wherein the container cargo loading system comprises a cargo carrying unit, a fixed pushing unit and a movable pushing unit; the fixed pushing unit is positioned at one side of the movable pushing unit, and the carrying unit is positioned at one side of the fixed pushing unit; the loading unit pushes the tray and the goods to the fixed pushing unit, the fixed pushing unit pushes the goods to the movable pushing unit, and the tray is left in the fixed pushing unit; the movable pushing unit conveys the goods into the container and pushes the goods down the movable pushing unit.

Description

Container cargo loading system and loading method thereof

Technical Field

The present invention relates to a loading system, and more particularly, to a container cargo loading system and a loading method thereof.

Background

The container is a large container with certain strength, rigidity and specification for turnover. The container is used for transferring goods, the goods can be directly loaded in the warehouse of a shipper and unloaded in the warehouse of a consignee, and the goods do not need to be taken out from the container for reloading when vehicles and ships are changed midway. Goods are placed on the tray for transportation convenience in the transportation process, and the tray needs to be taken down when being loaded into a container. Because the goods press the tray below, how to conveniently take the tray down and smoothly transport the goods into the container is an urgent problem to be solved.

Disclosure of Invention

The invention aims to provide a container cargo loading system, which achieves the purposes of taking down a tray and transferring cargo to a container by the cooperative cooperation of a cargo carrying unit, a fixed pushing unit and a movable pushing unit.

The invention aims to provide a container cargo loading system, which comprises a cargo carrying unit, a fixed pushing unit and a movable pushing unit, wherein the cargo carrying unit is arranged on the cargo carrying unit; the fixed pushing unit is positioned at one side of the movable pushing unit, and the carrying unit is positioned at one side of the fixed pushing unit; the loading unit pushes the tray and the goods to the fixed pushing unit, the fixed pushing unit pushes the goods to the movable pushing unit, and the tray is left in the fixed pushing unit; the movable pushing unit conveys the goods into the container and pushes the goods down the movable pushing unit.

The technical scheme of the invention is further improved as follows: the carrying unit comprises a first lifting adjusting support and a screw rod translation device arranged on the first lifting adjusting support; the screw translation device comprises a screw arranged in the first lifting adjusting support and a push block arranged above the first lifting adjusting support; the screw rod is sleeved with a translation nut, and the translation nut is connected with the push block.

The technical scheme of the invention is further improved as follows: the fixed pushing unit comprises a second lifting adjusting bracket, a tray carrying device for carrying the tray and a first ejector; one side of the second lifting adjusting support is close to the movable pushing unit, and the other side of the second lifting adjusting support is provided with a support frame; one side of the supporting frame, which is positioned on the second lifting adjusting support, is provided with a first ejector, and the other side of the supporting frame is provided with a tray carrying device used for placing a tray separated from the goods.

The technical scheme of the invention is further improved as follows: and a plurality of rolling shafts are arranged on the second lifting adjusting bracket.

The technical scheme of the invention is further improved as follows: the lower end of the side wall of the first ejector, which is close to one side of the support frame, is provided with a movable baffle plate through a fixed lantern ring.

The technical scheme of the invention is further improved as follows: the tray carrying device comprises two hydraulic oil cylinders and a carrier plate which are inverted on the support frame; the support plate is respectively connected with the telescopic rods of the two hydraulic oil cylinders.

The technical scheme of the invention is further improved as follows: the movable pushing unit comprises a third lifting adjusting support, a telescopic arm arranged on the third lifting adjusting support and a movable forklift connected with a movable body of the telescopic arm; one end of the telescopic arm is hinged on the third lifting adjusting support, and the other end of the telescopic arm is hinged with the first lifting adjusting device fixed on the third lifting adjusting support.

The technical scheme of the invention is further improved as follows: the movable forklift comprises a forklift body, a movable frame arranged on the forklift body, a second lifting adjusting device and an L-shaped cargo carrying plate arranged on the second lifting adjusting device; the second lifting adjusting device is arranged on the movable frame; the L-shaped cargo carrying plate is provided with a second ejector.

The technical scheme of the invention is further improved as follows: the telescopic arm is four sections of telescopic arms; one end of the movable frame is hinged on the vehicle body, and the other end of the movable frame is hinged on the vehicle body through a hydraulic oil cylinder.

The technical scheme of the invention is further improved as follows: the manipulator is used for adjusting the goods; the manipulator is arranged on one side of the fixed pushing unit.

The invention provides a loading method of a container cargo loading system, which comprises the following steps:

s1: moving the pallet with the goods to a carrying unit through a forklift;

s2: the carrying unit transmits the tray and the goods to the fixed pushing unit;

s3: the fixed pushing unit transmits the goods to the movable pushing unit, and the trays are left and overlapped together;

s4: the movable pushing unit adjusts the goods according to the position and height of the container, pushes the goods into the container and unloads the goods.

The invention has the beneficial effects that:

the invention relates to a container cargo loading system, which comprises a cargo carrying unit, a fixed pushing unit and a movable pushing unit; the forklift puts the tray and the goods into the carrying unit, the carrying unit pushes the tray and the goods to the fixed pushing unit, the fixed pushing unit pushes the goods to the movable pushing unit, and the tray is left in the fixed pushing unit; the movable pushing unit conveys the goods into the container and pushes the goods down the movable pushing unit.

The carrying unit can stably convey the tray and the goods to the fixed pushing unit through the screw rod translation device. The second elevation adjustment bracket is greater in height than the third elevation adjustment bracket such that the tray is left on the second elevation adjustment bracket when the first ejector pushes the goods to the moving pushing unit. When the first ejector is retracted, the movable baffle plate below the first ejector blocks the tray to push the tray to the tray carrying device.

The tray carrying device adopts a hydraulic oil cylinder, the hydraulic pressure of the tray carrying device is adjusted according to the weight of the tray, and the carrier plate can descend for a certain distance when one tray is added.

Drawings

FIG. 1 is a schematic view of a loading system of the present invention showing a container;

FIG. 2 is a schematic view of the loading system of the present invention;

FIG. 3 is a schematic view of another angle of the loading system of the present invention;

FIG. 4 is a schematic view of a carrier unit of the present invention;

fig. 5 is a schematic perspective view of a stationary pusher unit of the present invention;

FIG. 6 is a schematic view of a stationary pusher unit of the present invention;

FIG. 7 is an enlarged view of the circled portion of FIG. 6;

fig. 8 is a schematic view of a mobile pusher unit of the present invention.

Description of the reference numerals

1. The device comprises a carrying unit, 1-1 parts of a first lifting adjusting support, 1-2 parts of a screw rod, 1-3 parts of a pushing block, 1-4 parts of a translation nut, 2 parts of a fixed pushing unit, 2-1 parts of a second lifting adjusting support, 2-2 parts of a rolling shaft, 2-3 parts of a first ejector, 2-4 parts of a hydraulic oil cylinder, 2-5 parts of a supporting frame, 2-6 parts of a movable baffle, 2-7 parts of a supporting plate, 3 parts of a movable pushing unit, 3-1 parts of a telescopic arm, 3-2 parts of a vehicle body, 3-3 parts of a movable frame, 3-4 parts of a second lifting adjusting device, 3-5 parts of an L-shaped carrying plate, 4 parts of a tray, 5 parts of a container, 6 parts of a manipulator, 7 parts of a carrying support.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The invention aims to provide a container cargo loading system, which achieves the purposes of taking down a tray and transferring cargo to a container by the cooperative cooperation of a cargo carrying unit, a fixed pushing unit and a movable pushing unit. The following are specific examples:

the invention relates to a container cargo loading system, which comprises a cargo unit, a fixed pushing unit and a movable pushing unit, and is shown in figures 1, 2, 3, 4, 5, 6, 7 and 8.

The fixed pushing unit 2 is located at one side of the movable pushing unit 3, and the carrying unit 1 is located at one side of the fixed pushing unit 2, as shown in fig. 1, fig. 2, fig. 3, and fig. 4. The loading unit 1 pushes the pallet 4 and the goods to the fixed pushing unit 2 (for convenience of display, understanding is easier in fig. 1, and the goods on the pallet are omitted), the fixed pushing unit 2 pushes the goods to the movable pushing unit 3, and the pallet 4 is left in the fixed pushing unit 2; the movable pushing unit 3 transports the goods into the container 5, pushes the goods down the movable pushing unit 3, and finishes the process of loading the goods into the container 5.

The carrier unit 1 comprises a first lifting adjusting bracket 1-1 and a screw translation device, as shown in fig. 3. The screw translation device is arranged on the first lifting adjusting bracket 1-1. The screw translation device comprises a screw 1-2 and a push block 1-3. Preferably, the screws 1-2 are electric screws. The screw rod 1-2 is arranged in the first lifting adjusting support 1-1 through a bearing, the screw rod 1-2 is sleeved with a translation nut 1-4, the translation nut 1-4 is connected with a push block 1-3, and the push block 1-3 is arranged above the first lifting adjusting support 1-1. The forklift loads the pallet 4 onto the loading unit 1 with the pallet 4 and the goods on the pallet 4 inserted. The translation nut drives the push blocks 1-3 to push the tray 4 and the goods to the fixed pushing unit 2.

The fixed pushing unit 2 comprises a second lifting adjusting bracket 2-1, a disc loading device and a first pusher 2-3, as shown in fig. 5 and 6. One side of the second lifting adjusting bracket 2-1 is close to the movable pushing unit 3, and the other side is provided with a support frame 2-5. One side of the supporting frame 2-5 is provided with a first ejector 2-3, and the other side is provided with a carrying disc device. The pushing device is a device which is commonly used on a forklift and pushes goods out, and in the invention, a scissor type hydraulic translation device is adopted and comprises a scissor type fork structure and an oil cylinder. The two ends of the oil cylinder are respectively connected with the two ends of the scissor fork structure, so that the oil cylinder can drive the scissor fork structure to extend or retract, and the principle is equal to that of a scissor fork type hydraulic lift. The height of the lower edge of the first ejector 2-3 is higher than the sum of the heights of the second ascent and descent adjusting bracket 2-1 and the tray 4. The lower end of the side wall of the first ejector 2-3 close to the support frame 2-5 is provided with a movable baffle 2-6 through a fixed lantern ring. The flapper 2-6 extends a certain distance beyond the first ejector 2-3, as shown in fig. 7. The movable baffle plates 2-6 can be tilted upwards around the fixed lantern ring when the first push-out devices 2-3 push the goods, so that the movable baffle plates 2-6 cannot carry the tray 4 to move together, and after the first push-out devices 2-3 push the goods to the movable push unit 3, the side walls of the first push-out devices 2-3 block the movable baffle plates 2-6 in the retracting process of the first push-out devices 2-3, so that the movable baffle plates 2-6 can carry the tray 4 to move together to push the tray 4 to the tray carrying device.

The disc carrying device comprises two hydraulic oil cylinders 2-4 and a carrier plate 2-7. The hydraulic oil cylinder 2-4 is inverted on the support frame 2-5. The carrier plate 2-7 is a plate body used for holding the tray 4, and two ends of the carrier plate are respectively connected with the telescopic rods of the two hydraulic oil cylinders 2-4. When the tray 4 is not contained, the height of the carrier plate 2-7 is flush with the top surface of the second lifting adjusting bracket 2-1, and the first ejector 2-3 pushes the tray 4 onto the carrier plate 2-7 when retracting. The tray 4 falls on the carrier plate 2-7, and under the action of the gravity of the tray 4 and the carrier plate 2-7, the telescopic rod of the hydraulic oil cylinder 2-4 is stretched to drive the tray 4 and the carrier plate 2-7 to move downwards by a distance, so that balance is found again. Preferably, the appropriate hydraulic rams 2-4 are selected to lower by a distance equal to the length of the tray 4. An alarm device can be arranged on the tray carrying device, and can be a weight alarm device or a height alarm device. And after the weight loaded by the carrier plate 2-7 reaches a set value, alarming to prevent the hydraulic oil cylinder 2-4 from overtravel. In order to ensure that the movable baffle 2-6 can be better driven to the tray carrying device, the second lifting adjusting bracket 2-1 is provided with a plurality of rollers 2-2, and the friction force between the tray 4 and the second lifting adjusting bracket 2-1 is further reduced. The roller 2-2 is disposed in a direction in which the first ejector 2-3 is ejected and retracted.

The mobile pushing unit 3 is a unit that pushes the cargo into the container. The mobile pushing unit 3 includes a third elevation adjusting bracket, a telescopic arm 3-1 and a mobile forklift, as shown in fig. 8. The telescopic arm 3-1 and the movable forklift are both arranged on the third lifting adjusting bracket. A first lifting adjusting device is arranged on the third lifting adjusting bracket. The telescopic arm 3-1 includes a fixed body and a movable body. One end of a fixed body of the telescopic arm 3-1 is hinged on the third lifting adjusting bracket, and the other end of the fixed body is hinged with a telescopic end of a first lifting adjusting device arranged on the third lifting adjusting bracket. The movable forklift is connected with the movable body of the telescopic arm 3-1. Preferably, the telescopic arm 3-1 is a four-section telescopic arm, and one end of the fixed body extending out of the moving body is hinged with the telescopic end of the first lifting adjusting device.

The movable forklift comprises a forklift body 3-2, a movable frame 3-3, a second lifting adjusting device 3-4 and an L-shaped cargo carrying plate 3-5. The movable frame 3-3 is hinged on the vehicle body 3-2, preferably, the lower end of the movable frame 3-3 is hinged on the vehicle body 3-2, and the upper end is hinged on the vehicle body 3-2 through another hydraulic oil cylinder 2-4, so that the angle of the movable frame 3-3 can be adjusted through the hydraulic oil cylinder 2-4. The L-shaped cargo carrying plate 3-5 is arranged at the telescopic end of the second lifting adjusting device 3-4. An oil pump assembly for driving the telescopic arm 3-1 to move can also be arranged on the vehicle body 3-2. The L-shaped cargo carrying plate 3-5 is provided with a second ejector. After the fixed pushing unit 2 pushes the goods to the L-shaped goods carrying plate 3-5, the second lifting adjusting device 3-4 adjusts the height of the goods according to the height of the container 5, after the adjustment is finished, the movable body of the telescopic arm 3-1 extends, and the movable forklift enters the container 5. After reaching the position where it is to be lowered, the second ejector is operated to push the goods into the container 5 at the designated position.

In the present invention, the lifting adjusting device may be an oil cylinder, or may be other devices capable of achieving a lifting function, such as an air cylinder, and the like, without being limited thereto.

Before the implementation, the heights of the first lifting adjusting bracket 1-1, the second lifting adjusting bracket 2-1 and the third lifting adjusting bracket are adjusted. The third lifting adjusting support is level with the height of the container 5, so that the forklift can be conveniently moved to enter the container 5. The heights of the first lifting adjusting bracket 1-1 and the second lifting adjusting bracket 2-1 are kept equal. The third lifting adjusting bracket is higher than the second lifting adjusting bracket 2-1. Therefore, goods can be conveniently conveyed among the units.

The pallet 4 loaded with goods is placed on the carrying unit 1 by the forklift, the screw rod acts, and the pushing blocks 1-3 push the goods to the fixed pushing unit 2. The first ejector 2-2 of the fixed pushing unit 2 pushes the goods to the moving pushing unit 3 while leaving the pallet 4 on the second elevation adjustment bracket 2-1. In the retraction process of the first ejector 2-3, the movable baffle 2-6 drives the tray 4 to be pushed onto the tray carrying device, and the tray carrying device superposes and collects the trays 4 one by one. Meanwhile, the height of the goods is adjusted by the second lifting adjusting device 3-4, then the telescopic arm 3-1 drives the movable forklift to enter the container 5, and after the movable forklift reaches a designated position, the goods are pushed down from the L-shaped goods carrying plate 3-5 by the second pusher. The second ejector is retracted. The telescopic arm 3-1 is restored to the original position.

The invention can also arrange a mechanical arm 6 and a loading bracket 7 beside the mobile pushing unit 3, the state and the position of the goods placed on the L-shaped loading plate 3-5 can be adjusted through the mechanical arm 6, if the number of the goods stacked is too high, part of the goods can be taken down and placed on the loading bracket 7 through the mechanical arm 6, or the goods placed on the loading bracket 7 can be added on the L-shaped loading plate 3-5 again so that the goods can enter the container 5 more smoothly. The manipulator 6 can also adjust the position of goods and the angle of getting into the container, ensures that the convenient container 5 of getting into of goods.

The invention provides a loading method of a container cargo loading system, which comprises the following steps:

s1: moving the pallet with the goods to a carrying unit through a forklift;

s2: the carrying unit transmits the tray and the goods to the fixed pushing unit;

s3: the fixed pushing unit transmits the goods to the movable pushing unit, and the trays are left and overlapped together;

s4: the movable pushing unit adjusts the goods according to the position and height of the container, pushes the goods into the container and unloads the goods.

The carrying unit can stably convey the tray and the goods to the fixed pushing unit through the screw rod translation device. The second elevation adjustment bracket is greater in height than the third elevation adjustment bracket such that the tray is left on the second elevation adjustment bracket when the first ejector pushes the goods to the moving pushing unit. When the first ejector is retracted, the movable baffle plate below the first ejector blocks the tray to push the tray to the tray carrying device.

The tray carrying device adopts a hydraulic oil cylinder, the hydraulic pressure of the tray carrying device is adjusted according to the weight of the tray, and each tray carrying plate is added and descends for a certain distance.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A container cargo loading system is characterized by comprising a cargo carrying unit, a fixed pushing unit and a movable pushing unit; the fixed pushing unit is positioned at one side of the movable pushing unit, and the carrying unit is positioned at one side of the fixed pushing unit; the loading unit pushes the tray and the goods to the fixed pushing unit, the fixed pushing unit pushes the goods to the movable pushing unit, and the tray is left in the fixed pushing unit; the movable pushing unit conveys the goods into the container and pushes the goods down the movable pushing unit.

2. A container cargo loading system according to claim 1, wherein the carrier unit comprises a first elevation adjustment bracket and a screw translation device provided on the first elevation adjustment bracket; the screw translation device comprises a screw arranged in the first lifting adjusting support and a push block arranged above the first lifting adjusting support; the screw rod is sleeved with a translation nut, and the translation nut is connected with the push block.

3. A container cargo loading system according to claim 1, wherein the stationary pushing unit comprises a second lifting adjustment bracket, a tray carrying device and a first ejector; one side of the second lifting adjusting support is close to the movable pushing unit, and the other side of the second lifting adjusting support is provided with a support frame; one side of the supporting frame, which is positioned on the second lifting adjusting support, is provided with a first ejector, and the other side of the supporting frame is provided with a tray carrying device used for placing a tray separated from the goods.

4. A container cargo loading system according to claim 3, wherein the second lift adjustment bracket is provided with a plurality of rollers.

5. A container cargo loading system as claimed in claim 3, wherein the lower end of the side wall of the first ejector adjacent the side of the support frame is provided with a removable stop by means of a fixed collar.

6. A container cargo loading system according to claim 3 wherein said pallet means comprises two hydraulic rams and a pallet inverted on a support frame; the support plate is respectively connected with the telescopic rods of the two hydraulic oil cylinders.

7. The system as claimed in claim 1, wherein the mobile pushing unit comprises a third lifting adjusting bracket, a telescopic arm disposed on the third lifting adjusting bracket, and a mobile forklift connected to a mobile body of the telescopic arm; a first lifting adjusting device is arranged on the third lifting adjusting bracket; one end of the fixed body of the telescopic arm is hinged on the third lifting adjusting support, and the other end of the fixed body is hinged with the first lifting adjusting device fixed on the third lifting adjusting support.

8. A container cargo loading system according to claim 7, wherein the mobile forklift includes a body, a movable frame provided on the body, a second elevation adjusting means, and an L-shaped cargo carrying plate provided on the second elevation adjusting means; the second lifting adjusting device is arranged on the movable frame; the L-shaped cargo carrying plate is provided with a second ejector;

the telescopic arm is four sections of telescopic arms; one end of the movable frame is hinged on the vehicle body, and the other end of the movable frame is hinged on the vehicle body through a hydraulic oil cylinder.

9. A container cargo loading system according to claim 1, further comprising a manipulator for adjusting the cargo; the manipulator is arranged on one side of the fixed pushing unit.

10. A method of loading a container cargo loading system according to claim 1, comprising the steps of:

s1: moving the pallet with the goods to a carrying unit through a forklift;

s2: the carrying unit transmits the tray and the goods to the fixed pushing unit;

s3: the fixed pushing unit transmits the goods to the movable pushing unit, and the trays are left and overlapped together;

s4: the movable pushing unit adjusts the goods according to the position and height of the container, pushes the goods into the container and unloads the goods.

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