CN110697625B - Cargo handling system of quick-opening side curtain box - Google Patents

Abstract

The invention provides a cargo handling system of a quick-opening side curtain box, which comprises: conveying device, X axle movable module, support frame, Y axle movable module, Z axle movable module, fork, first detection device, second detection device, alarm device and controller, by these constitution handling system, by the controller control removes according to the track that sets for in advance to realize automatic handling goods, improve the position accuracy of parking the goods, reduce the number of times of adjustment parking position, thereby improve efficiency, and reduce fork truck's frequency of use, practice thrift fork truck's energy, reduce fork truck tail gas emission, reduce the manpower simultaneously.

Description

Cargo handling system of quick-opening side curtain box

Technical Field

The invention relates to the technical field of goods handling of quick-opening side curtain boxes, in particular to a goods handling system of a quick-opening side curtain box.

Background

The prior novel container is as follows: unlike conventional containers, the quick-opening side curtain box is used for loading and unloading goods by opening the doors on both sides. The advantage of such a container is that it is possible to improve the handling efficiency, but it is not possible to improve the handling efficiency by merely improving the structure of the container, and the other supporting handling systems need to be able to match such a container, so that the advantages of such a container can be exploited.

The traditional goods loading and unloading mode is that the forklift is started by a driver, and because the forklift driver needs to adjust the position every time the forklift is loaded and unloaded, the position adjustment is carried out by visual inspection by the driver, so that the efficiency of the loading and unloading mode is lower, and particularly, when the goods are loaded, the position accuracy is not high enough, and when the goods are loaded to the last tray, the last tray cannot be loaded into the container because the position in the front is not adjusted, and the goods loaded into the container in the front are required to be moved again, so that the manpower and material resources are wasted.

Disclosure of Invention

The invention aims to solve the technical problem of providing a cargo handling system of a quick-opening side curtain box, which can automatically handle cargoes and improve the cargo handling efficiency and the cargo position precision.

The invention is realized in the following way: a cargo handling system for a quick-opening side curtain box, comprising:

the conveying device is arranged in a straight line along the X axis;

The X-axis moving module is used for realizing X-axis linear motion;

the support frame is connected to the X-axis moving module;

the Y-axis moving module is movably connected with the supporting frame;

The Z-axis moving module is connected with the Y-axis moving module;

the fork is connected with the Z-axis moving module;

the first detection device is used for detecting whether articles exist in the container or not and detecting the height of the container;

The second detection device is used for detecting the parking position of the container or the truck;

An alarm device;

The controller is respectively in communication connection with the X-axis moving module, the Y-axis moving module, the Z-axis moving module, the alarm device, the conveying device, the second detection device and the first detection device.

Further, the alarm device is mounted on the support frame.

Further, the system also comprises a third detection device for collecting the license plate of the automobile, and the third detection device is connected with the controller in a communication mode.

Further, the X-axis sliding module comprises

The wheel seat is provided with a wheel groove at the bottom and is connected with the support frame;

the driving rail wheel is rotatably arranged in the wheel groove, and the rotation axis of the driving rail wheel is horizontally perpendicular to the X axis;

The output shaft of the first driving motor is fixedly connected to the driving rail wheel, and the first driving motor is arranged on the wheel seat; the first driving motor is also electrically connected to the controller.

Further, the device also comprises a track horizontally arranged along the X-axis, and the driving track wheel is mounted on the track.

Further, the X-axis sliding module further comprises a driven track wheel, wherein the driven track wheel is rotatably installed in the wheel groove, the rotation axis of the driven track wheel is horizontally perpendicular to the X-axis, and the driven track wheel is installed on the track.

Further, the Y-axis sliding module comprises

The screw rod is rotatably arranged on the support frame along the Y axis;

The second driving motor is arranged on the supporting frame, and an output shaft of the second driving motor is fixedly connected with the screw rod; the second driving motor is also electrically connected to the controller;

the nut is sleeved on the screw rod through threads;

The fixing seat is fixedly connected to the nut, is connected to the support frame in a sliding mode, and is horizontally arranged along the Y axis.

Further, the Z-axis sliding module comprises

The first lifting mechanism comprises a first fixing part and a first lifting part, and the first fixing part is fixedly connected to the Y-axis sliding module; the first lifting part is fixedly or rotatably connected to the fork; the first lifting mechanism is also communicatively connected to the controller.

Further, the lifting device also comprises a first fixing frame, wherein the first fixing frame is fixedly connected to the first lifting part; the fork is fixedly connected to the first fixing frame, and the fork is horizontally arranged along the Y axis.

Further, also comprises

The third driving motor is fixedly connected to the first fixing frame, and an output shaft of the third driving motor is vertically arranged; the third driving motor is also electrically connected to the controller;

The second fixing frame is fixedly connected to the output shaft of the third driving motor, and the fork is fixedly connected to the second fixing frame.

Further, each of the conveyor apparatuses includes a conveyor line body communicatively coupled to the controller; a plurality of blocking devices are arranged on the conveying line body at intervals; each of the blocking devices is communicatively coupled to the controller;

The blocking device comprises a second lifting mechanism and a limiting piece;

The second lifting mechanism comprises a second fixed part and a second lifting part; the second fixing part is arranged in the conveying line body; the second lifting part is fixedly connected to the limiting part, the limiting part is higher than the top surface of the conveying line body after being lifted, and the limiting part is lower than the top surface of the conveying line body after being lowered.

Further, the support frame is a portal frame.

Further, the support frame is provided with one;

the four X-axis moving modules are symmetrically arranged at the bottom of the supporting frame and are arranged in a rectangular shape;

The two Y-axis moving modules are symmetrically arranged at the top of the supporting frame;

The two Z-axis moving modules are symmetrically arranged on the two Y-axis moving modules in a one-to-one correspondence manner;

the two second detection devices are symmetrically arranged at the top of the support frame and are downwards arranged;

the two groups of the first detection devices are symmetrically arranged on the two inner side surfaces of the support frame and are oppositely arranged;

The two conveying devices are symmetrically arranged between the two inner side surfaces of the supporting frame, and a space for accommodating a container is arranged between the two conveying devices.

Further, the support frame is provided with one;

the four X-axis moving modules are symmetrically arranged at the bottom of the supporting frame and are arranged in a rectangular shape;

The two Y-axis moving modules are symmetrically arranged at the top of the supporting frame;

The two Z-axis moving modules are symmetrically arranged on the two Y-axis moving modules in a one-to-one correspondence manner;

the two second detection devices are symmetrically arranged at the top of the support frame and are downwards arranged;

the two groups of the first detection devices are symmetrically arranged on the two inner side surfaces of the support frame and are oppositely arranged;

The two conveying devices are symmetrically arranged at two outer sides of the supporting frame, and a space for accommodating a container is formed in the supporting frame.

Further, the X-axis moving module is connected to the ground in a sliding manner, or the X-axis moving module is hoisted above the ground in a sliding manner.

The invention has the following advantages: a cargo handling system for a quick-opening side curtain box, comprising: conveying device, X axle movable module, support frame, Y axle movable module, Z axle movable module, fork, first detection device, second detection device, alarm device and controller, by these constitution handling system, by the controller control removes according to the track that sets for in advance to realize automatic handling goods, improve the position accuracy of parking the goods, reduce the number of times of adjustment parking position, thereby improve efficiency, and reduce fork truck's frequency of use, practice thrift fork truck's energy, reduce fork truck tail gas emission, reduce the manpower simultaneously.

Drawings

The invention will be further described with reference to examples of embodiments with reference to the accompanying drawings.

Fig. 1 is a perspective view of a cargo handling system according to the present invention.

Fig. 2 is a top view of the cargo handling system of the present invention.

Fig. 3 is a side view of the cargo handling system of the present invention.

Fig. 4 is a rear view of the cargo handling system of the present invention.

Fig. 5 to 7 are perspective views showing the assembly of the X-axis moving module, the Y-axis moving module, the Z-axis moving module, the support frame and the fork according to the present invention.

Fig. 8 is a front view of the assembly of the X-axis moving module, the Y-axis moving module, the Z-axis moving module, the support frame and the fork according to the present invention.

Fig. 9 is a side view of an X-axis movement module, a Y-axis movement module, a Z-axis movement module, a support frame, and a fork assembly according to the present invention.

Fig. 10 is a top view of an X-axis movement module, a Y-axis movement module, a Z-axis movement module, a support frame, and a fork assembly according to the present invention.

Fig. 11 is a schematic structural diagram of an X-axis moving module according to the present invention.

Fig. 12 is a perspective view of one conveying unit in the conveying device according to the present invention.

Fig. 13 is a bottom view of fig. 12.

Fig. 14 is a side view of fig. 12.

Fig. 15 is a front view of fig. 12.

Fig. 16 and 17 are schematic views showing effects of a sixth embodiment of the cargo handling system according to the present invention.

Fig. 18 is a schematic view showing the effect of a fifth embodiment of the cargo handling system according to the present invention.

Fig. 19 is a top view of fig. 18.

Fig. 20 is a side view of fig. 18.

Fig. 21 is a rear view of fig. 18.

Fig. 22 is a control schematic block diagram of the controller according to the present invention.

Reference numerals illustrate:

The cargo handling system 100 is described as such,

Conveyor 1, conveyor line body 11, conveyor frame 111, conveyor motor 112, roller 113, blocking device 12, second lifting mechanism 121, second fixing portion 1211, second lifting portion 1212, stopper 122, vertical stopper rod 1221, support plate 1222, position sensor 123, second gear 13, first gear 14, drive shaft 15, third gear 16, chain 17,

The fork (2) is arranged to be moved,

The X-axis moving module 3, the wheel seat 31, the wheel groove 311, the driving rail wheel 32, the first driving motor 33, the rail 34, the driven rail wheel 35,

The supporting frame 4, the accommodating space 41,

The Y-axis moving module 5, a screw rod 51, a second driving motor 52, a nut 53, a fixing seat 54,

The Z-axis moving module 6, the first elevating mechanism 61, the first fixing part 611, the first elevating part 612, the first fixing frame 62, the third driving motor 63, the second fixing frame 64,

The first detection means 7 are provided for detecting,

The second detection means 8 are provided for detecting,

An alarm device 9;

the third means for detecting (10) the presence of a liquid,

The cargo 200 is transported and the transport of the cargo,

A conveyor line 300 for an automated warehouse system.

Detailed Description

The design concept of the invention is as follows: the existing parts, equipment or modules are combined to form a set of cargo handling system, the cargo handling system can be designed and combined according to the automation degree of a customer storage system, the whole cargo handling to the full-automatic storage use requirement can be met, the handling efficiency is higher, but the requirement on a user is higher, the user is required to be matched with the automatic storage system, and the equipment cost is high; the automatic loading and unloading can be realized only when the automatic loading and unloading is realized, and manual operation is adopted when the automatic loading and unloading is realized, for example, a forklift is adopted to carry out secondary conveying, semi-automation is realized, and the price of the whole equipment is different from that of the semi-automation. Automation and semi-automation are each advantageous, which can be flexibly combined according to the economic viability of the user. Of course, the invention is especially used for loading in automation or semi-automation, because the invention adopts automatic control technology, the position can be designed and calculated in advance for the size of the container and the length and width of the loaded goods, and compared with the traditional forklift or manual transportation, the invention has higher efficiency and higher precision of loading and unloading goods. Therefore, from the perspective of loading and unloading, the forklift has the advantages of high loading and unloading efficiency, reduced labor cost, reduced quantity of forklifts, and certain environmental protection, and saves the using amount of the forklifts, and most of the existing forklifts adopt oil extraction as power and can discharge tail gas. Furthermore, the invention has higher efficiency especially for the scene of loading and unloading the goods in large quantity by using the unified specification container and the unified specification tray, which is especially suitable for the user requirement of loading and unloading the goods in large quantity.

Referring to figures 1 to 22 of the drawings,

Embodiment one:

The present invention provides a cargo handling system 100 for a quick-opening side curtain box, comprising:

A conveying device 1, wherein the conveying device 1 is arranged in a straight line along an X axis; the conveying device 1 is used for conveying goods 200. When the goods are loaded, the goods 200 can be placed on the conveying device 1 by using a forklift, and the conveying device 1 plays a role in transmission, so that the position accuracy requirement is lower than that of the goods which are forked into a container by using the forklift, the operation is more convenient, and the operation difficulty is reduced; for the automatic warehouse system, the conveying device 1 and the conveying line 300 of the automatic warehouse system can be in butt joint, the goods 200 can be directly conveyed to the conveying device 1, a forklift is not required to be used for operation, automatic butt joint is realized, manpower and material resources are saved, and the conveying efficiency is improved. This may be arranged according to the degree of automation of the customer's warehousing system. In unloading, the goods 200 are firstly unloaded from the container onto the conveying device 1, and then are conveyed from the conveying device 1 to the conveying line 300 of the automatic warehouse system. If the automatic degree of the warehouse system is not high, the warehouse system can be directly forked from the conveying device 1 by a forklift, and the warehouse system with the low automatic degree of the warehouse system can be unloaded without adopting the automatic warehouse system unloading device. During loading, the conveying device 1 conveys the goods 200 to be loaded and unloaded to various positions, so that the fork 2 performs loading operation. During unloading, the fork 2 drops the goods 200 from the inner fork of the container on the conveying device 1 to be conveyed away. The conveying device 1 can be used with existing equipment or can be redesigned with new structures. In a specific implementation, the height of the conveying device 1 is smaller than or equal to the height of the bottom surface inside the container, so that cargo can be conveniently loaded and unloaded, certainly, the height of the bottom surface inside the container is slightly lower than the height of the bottom surface inside the container, and when the cargo is loaded, the cargo fork 2 can be conveniently withdrawn. For example, in the embodiment shown in the drawings, the grooves may be dug on the ground, or the grooves may not be dug, and only the top surface of the conveying device 1 is required to be lower than the bottom surface of the inner space of the container, so that the fork 2 is convenient to withdraw.

The X-axis moving module 3 is used for realizing X-axis linear motion; the X-axis movement module 3 may be mounted on the ground, for example in the form of existing rails and rail wheels; the X-axis moving module 3 may also be lifted above the ground, for example, may be lifted on a ceiling in a room, and an existing crane structure is adopted, so that the X-axis moving module 3 may be arranged according to needs or according to a structure of a field, and meanwhile, the X-axis moving module 3 may be an existing device, for example, a crane or a combination structure of a track and a track, a rack and pinion, a gear chain, a pulley system, or a combination of a cable winch and a motor may be adopted to implement the movement by pulling along the X-axis at both ends of the support frame 4, which may be selected according to the weight of the cargo 200, and a new structure may also be designed.

The support frame 4 is connected to the X-axis moving module 3, and the X-axis moving module 3 drives the support frame 4 to move in the X-axis direction; the supporting frame 4 can play a supporting role when the goods 200 are hoisted, and can also be used as a mounting seat of parts. The support 4 may be made into various structures, for example, an existing portal frame, a crane, etc., and the structures may be set as required.

The Y-axis moving module 5 is movably connected with the support frame 4, so that the support frame 4 drives the Y-axis moving module 5 to move in the X-axis direction, and the position change of the Y-axis moving module 5 in the X-axis direction is realized; the Y-axis moving module 5 may also be an existing device such as an existing ball screw nut pair, a rack and pinion, a gear chain, an air cylinder, a hydraulic cylinder, and a pulley system, and may be selected according to the weight of the cargo 200, or may be designed with a new structure. The Y-axis moving module 5 is used for realizing movement in the Y-axis direction.

The Z-axis moving module 6 is connected with the Y-axis moving module 5, so that the Y-axis moving module 5 drives the Z-axis moving module 6 to move, and the position change of the Z-axis moving module 6 in the Y-axis direction is realized; the Z-axis moving module 6 is used for realizing movement in the Z-axis direction.

The fork 2 is connected with the Z-axis moving module 6, so that the Z-axis moving module 6 drives the fork 2 to move in the Z-axis direction, and the position change of the fork 2 in the Z-axis is realized; finally, the positions of the fork 2 are conditioned through the position changes of the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6, and the position adjustment is realized, so that the position of the fork 2 can be accurately adjusted due to the adoption of automatic control, and finally, the accuracy of the position of the goods 200 when the goods 200 are loaded and unloaded by the fork 2 is realized, thereby avoiding the situation that the goods are loaded and unloaded and adjusted for multiple times due to low position accuracy when the goods are loaded and unloaded by a manually operated forklift in the prior art, and improving the efficiency of loading and unloading the goods. The pallet fork 2 may be one or two, when one pallet fork is adopted, the pallet fork is loaded and unloaded from one side, when two pallet forks are adopted, for example, the pallet fork is symmetrically arranged at two sides of a container, two sides are respectively provided with the conveying device 1, and the positions of the two sides respectively correspond to one group of the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6 for controlling, so that the pallet fork 200 can be loaded and unloaded at two sides simultaneously, and the efficiency is higher.

A first detecting device 7, wherein the first detecting device 7 is used for detecting whether articles exist in the container or not and detecting the height of the container; since the automatic loading and unloading is adopted during loading and unloading, the controller (not shown) cannot see whether the container contains articles like a person, and therefore the first detection device 7 needs to be arranged to detect whether the container contains articles in advance, so that the goods 200 are prevented from being loaded when the articles are contained, and the articles in the container or the goods 200 to be loaded are prevented from being damaged due to collision. Only when the first detecting device 7 detects that no article is in the container, the controller (not shown) controls the X-axis moving module 3, the Y-axis moving module 5, and the Z-axis moving module 7 to move along a predetermined trajectory, and then the container is loaded. Meanwhile, the first detecting device 7 is also used for detecting the height of the container, so as to feed back to the controller (not shown) to identify the size of the container, and then the controller (not shown) calls the movement track of the cargo 200 corresponding to the pre-stored container. The first detection means 7 may be an existing device, e.g. a grating sensor, a visual detection means. Since the angle of these detecting devices can be adjusted or a certain area can be scanned, the installation position of the first detecting device 7 can be flexibly arranged according to the actual requirement, so long as the height of the container and whether the cargo exists in the container can be detected.

A second detection device 8, wherein the second detection device 8 is used for detecting the parking position of a container or a truck; the range of the parking position, that is, the range of the position of the container, may be designed in advance according to the sizes of various containers and trucks, and when the second detecting device 8 detects whether the position of the container after the truck is parked is within a preset range, and when the position is within the preset range, a feedback signal is sent to the controller (not shown) to inform the controller that the container is parked in place, so that the next operation can be performed. The second detecting device 8 may be an existing visual detecting device, such as a CCD visual detecting device, and may be used to take a photograph through its camera and compare with a pre-stored parking range, which may be arranged in number and installed according to the use requirement.

An alarm device 9; the alarm device is used for alarm prompt. The alarm device 9 is an existing device, for example, the alarm device 9 adopts an alarm lamp, a buzzer and the like.

And a controller (not shown) which is respectively connected with the X-axis moving module 3, the Y-axis moving module 5, the Z-axis moving module 6, the alarm device 9, the conveying device 1, the second detection device 8 and the first detection device 7 in a communication way, wherein the controller (not shown) is used for controlling the modules or the devices to work so as to realize automatic control. The controller (not shown) may be any available device, and may be commercially available, for example, a PLC model FX5U-64 MT/ES. The mounting location of the controller (not shown) may be mounted as desired, for example on the support frame 4, or on the ground or elsewhere.

The first detecting device 7 comprises at least one grating sensor, and the number is set according to the height of the container in combination with the scanning range of the grating sensors, for example, a row of grating sensors can be set along the height direction of the container, so that the complete container can be scanned in the height direction. The first detection device 7 and the second detection device 8 can be independently arranged on the ground, and support objects can be arranged or not according to the needs, for example, the first detection device 7 can be independently arranged on the ground through a support rod, and the first detection devices 7 are symmetrically arranged on two sides of a container door; similarly, the second detection device 8 adopts a CCD visual detection device, and the second detection device 8 can also be erected and installed by adopting a supporting object alone. The first detection device 7 and the second detection device 8 may be mounted on the supporting frame 4, for example, the first detection device 7 is mounted on two sides of the supporting frame 4 and opposite to two side doors of the container, and the second detection device 8 is mounted on the top of the supporting frame 4 downward, so that the height of the container below can be detected.

The use mode is as follows: the conveying device 1 and the conveying line 300 of the automatic storage system are in butt joint through the existing conveying equipment, goods 200 are conveyed to the conveying device 1 from a warehouse, the movement tracks of the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6 are calculated according to the size of a container and the length and width of the loaded goods 200, and the parking range of a truck or the parking range of the container is set in advance, so that the second detecting device 8 detects and feeds back to a controller (not shown) to judge whether parking is in place or not, manual command is not needed to reverse, and labor is saved. For example, the cargo is transported by using a container and a pallet of uniform specification, the pallet is an existing intelligent pallet, each stop station of the cargo 200 in the conveying device 1 is preset according to the width of each pallet, and the working sequence of each stop station is set.

When loading, for example, the two side doors of the container are opened by reversing and enter the parking range, the truck driver firstly parks the truck in the preset parking range, in the parking process, the second detection device 8 detects the parking position in real time and feeds back to the controller, the controller compares the parking position with the preset parking range, and when the parking position is not in the preset parking range, the controller controls the alarm device 9 to send out a first alarm prompt, for example, a red light is lighted if an alarm lamp is adopted, so as to prompt the driver to adjust; when the parking position is within the preset range, the controller controls the alarm device 9 to send out a second alarm prompt, for example, if an alarm lamp is adopted, a green light is turned on to prompt a driver to stop in place. Or some alarms and the like have the functions of both sound and color.

On the other hand, the position of the supporting frame 4 is initially set at the forefront end, and the forefront end is the position opposite to the side surface of the container near one end of the cab when the truck parks in place, so that when the truck backs up and enters the parking range, the container passes through the first detection device 7 from the tail, the controller controls the first detection device 7 to detect, starts scanning from the tail of the container, and after the truck parks in place, i.e. scans to the forefront end of the container, whether the container has articles or not is just detected, thus saving energy, or not, and of course, the controller is required to control the X-axis moving module 3 to move along the X-axis direction when the truck parks in place, so that the operation is more complicated and the energy consumption is obviously needed. When the first detection device 7 feeds back the detected result to the controller, and when the articles in the container are detected, the controller controls the alarm device 9 to send out a third alarm prompt, a driver takes out the articles in the container after waiting for parking, and when the detected result is that no articles exist, a fourth alarm prompt is sent out or no alarm prompt is sent out, the alarm device 9 can adopt an alarm lamp capable of sending out various prompts, and one alarm device 9 can be independently arranged for each alarm prompt.

When the parking position is within a preset range and the first detection device 7 detects that no article is in the container, the controller controls the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6 to move and load according to a preset track, and the controller controls the conveying device 1 to work, so that the goods 200 conveyed by the warehouse are conveyed to a preset stop station, then controls the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6 to move according to the preset track, thereby adjusting the position of the pallet 2, controlling the pallet and the goods 200 to move according to the preset track, then controlling the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6 to load according to the preset track, then controlling the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6 to move according to the preset track, thereby controlling the pallet 2 to exit the goods loading of a next pallet, when the pallet is stopped, the pallet is stopped in the preset stop position, and the number of the pallet can be stopped at the preset stop station, and the number of the stop stations is calculated, and the number of the positions of the pallets need to be stopped when the number of the pallets need to reach the preset stop position is stopped, and the number of the positions is controlled by the device is controlled, and the number of the positions of the pallets need to stop positions is stopped, and the position is stopped when the number of the pallets need to stop is stopped in the stop position is controlled, and the position is controlled to stop, and the number of the positions are stopped to stop is required to stop and the pallets are stopped, and reminding a driver or staff to close the door of the container, opening the truck, and carrying out the loading of the next two trucks. The whole process realizes automatic control, thereby ensuring the position accuracy of the fork, reducing the time for position calibration and improving the efficiency. The loading action may be set to: firstly, moving to a side surface of a pallet of goods at a stop station, then entering the bottom of the pallet to lift the pallet and the goods 200, wherein the bottom surface of the pallet is higher than the inner bottom surface of the container, the top end of the goods 200 is lower than the inner top surface of the container, the goods 200 and the pallet are forked into the container, then the goods 200 are lowered and put down, the pallet fork 2 is separated from the pallet, the lowering height can be calculated and set in advance, and finally the pallet fork 2 is withdrawn from the pallet to load the goods of the next pallet.

For unloading, the controller (not shown) detects whether the truck is stopped within a preset stopping range by the second detecting device 8, and controls the first detecting device 7 to detect the position of the cargo 200 in the container, and finally controls the X-axis moving module 3, the Y-axis moving module 5 and the Z-axis moving module 6 to move, so as to drive the fork 2 to move for unloading, for example, the unloading action may be: the fork 2 moves to the bottom side of the tray firstly, then the fork 2 enters the bottom of the tray, then the fork 2 lifts up to lift up the goods 200 and the tray, then the fork 2 brings the goods 200 and the tray out of the container, the goods 200 and the tray are placed on a stop station of the conveying device 1, finally the fork 2 exits the tray to discharge the goods 200 of the next tray, the controller opens the stop station to discharge the goods, and the goods are conveyed away, at the moment, the running direction of the conveying device 1 is opposite to the loading time, and of course, the conveying device 1 can be made long enough to load and unload the goods in one direction, one end is used for loading and the other end is used for outputting the goods for unloading, the cost of the mode is higher, and the occupied area of the whole system is large.

In the second embodiment, on the basis of the first embodiment, the alarm device 9 is mounted on the support frame 4, so that no additional support is needed to mount the alarm device 9, and meanwhile, the ground space is saved, and more positions are left.

A third detection device 10 for collecting the license plate of the automobile is further included, and the third detection device 10 is communicatively connected to the controller (not shown). The third detection device 10 is used for detecting license plates of trucks, and can be more conveniently applied to an automatic warehouse system to realize full automation. For example, when in use, the controller is in communication connection with the control device of the automated storage system, thus, when in loading, the third detection device 100 can detect the license plate of the truck and then feed back to the controller, the controller can transmit the license plate to the control device of the automated storage system, thus, the automated storage system can know which truck is loaded and unloaded, the controller can also transmit the loading and unloading quantity of the truck to the control device, the control device can record how much of the truck is loaded with the license plate so as to inquire the transportation condition of the tracked truck, and when the existing intelligent tray is adopted by the tray, the control device of the automated storage system can also store the information of the cargo in advance on the chip of the intelligent tray, thus, the control device of the automated storage system can conveniently inquire which truck the cargo is tracked on, for example, the information of the stored cargo is set on the chip of each intelligent tray in advance, such as model, quantity and the like, and stored on the control device, when in loading, the control device controls the loading and feeds back to the control device, thus, the control device can conveniently inquire the license plate and the corresponding license plate. The third detection device 10 may be an existing CCD visual detection device, and the position of the third detection device may be installed behind the parking area, opposite to the rear license plate, or may be installed on the side of the truck, or the front end of the third detection device is opposite to the front license plate, and for the front end position, it is to be explained that, because the truck chassis has a certain height from the ground, the third detection device may be installed on the ground in front of the parking position, and of course, the third detection device may be crushed by the truck wheel under the condition that the driver is not aware of the third detection device.

Embodiment III: can be adopted on the basis of the first or second embodiment, and the X-axis sliding module 3 comprises

The wheel seat 31, a wheel groove 311 is formed at the bottom of the wheel seat 31, and the wheel seat 31 is connected to the supporting frame 4;

A driving rail wheel 32, wherein the driving rail wheel 32 is rotatably installed in the wheel groove 311, and the rotation axis of the driving rail wheel 32 is horizontally perpendicular to the X axis; for example, bearing holes are symmetrically formed on two sides of the wheel groove 311, bearings are installed in the bearing holes, and the rotating shaft of the price driving rail wheel 32 is embedded in the bearing inner ring.

The output shaft of the first driving motor 33 is fixedly connected to the driving rail wheel 32, specifically, the rotating shaft of the driving rail wheel 32 is fixedly connected with the output shaft of the first driving motor 33, for example, a coupling is used for fixedly connecting, the first driving motor 33 drives the first driving motor 33 to rotate, and the first driving motor 33 is mounted on the wheel seat 31; the first driving motor 33 is further electrically connected to the controller, so that the controller controls the first driving motor 33 to work, and movement of the X-axis moving module 3 in the X-axis direction is achieved.

Also included is a track 34 disposed horizontally along the X-axis, the active track wheel 32 being mounted on the track 34. The track 34 can enable the moving direction to be more accurate, plays a guiding role and facilitates the control of the moving track.

The X-axis sliding module 3 further comprises a driven rail wheel 35, the driven rail wheel 35 is rotatably mounted in the wheel groove 311, the rotation axis of the driven rail wheel 35 is horizontal and vertical to the X-axis, and the driven rail wheel 35 is mounted on the rail 34. The two stress points of the driving rail wheel 32 and the driven rail wheel 35 are used for supporting, so that the supporting is stable, the whole supporting frame 4 is stable during moving, and the safety of the goods 200 is ensured.

The Y-axis sliding module 5 comprises

The screw rod 51 is rotatably arranged on the support frame 4 along the Y axis;

The second driving motor 52 is installed on the supporting frame 4, and an output shaft of the second driving motor 52 is fixedly connected to the screw rod 51; the second drive motor 52 is also electrically connected to the controller; the second driving motor 52 is controlled to operate by the controller, thereby achieving movement in the Y-axis direction.

The nut 53 is sleeved on the screw rod 51 through threads;

The fixing seat 54, the fixing seat 54 is fixedly connected to the nut 53, and is slidably connected to the support frame 4, for example, by slidably connecting a slide rail with a slider, the slider is mounted on the fixing seat 54, and the slide rail is mounted on the support frame 4 and horizontally arranged along the Y axis.

The Z-axis sliding module 6 comprises

A first lifting mechanism 61, wherein the first lifting mechanism 61 comprises a first fixing part 611 and a first lifting part 612, and the first fixing part 611 is fixedly connected to the Y-axis sliding module 5; the first lifting part 612 is fixedly or rotatably connected to the fork 2; the first lifting mechanism 61 is also connected to the controller in a communication manner, and the controller controls the first lifting mechanism 61 to move in the Z-axis direction. The first lifting mechanism 61 may be an existing cylinder, a hydraulic cylinder, or the like, and is selected according to the weight of the cargo, and in a preferred embodiment, the hydraulic cylinder is selected, so that the force of the hydraulic cylinder is larger, and heavier cargo can be lifted, thereby being suitable for the application range of more kinds of cargo. At this time, the cylinder body of the hydraulic cylinder is the first fixing portion 611, and the piston rod of the hydraulic cylinder is the first lifting portion 612. The piston rod of the hydraulic cylinder is vertically downwards arranged.

The first fixing frame 62 is further included, and the first fixing frame 62 is fixedly connected to the first lifting portion 612; the pallet fork 2 is fixedly connected to the first fixing frame 62, and the pallet fork 2 is horizontally arranged along the Y-axis. The fork 2 may be fixedly connected to the Z-axis moving module 6 or may be rotatably connected to the Z-axis moving module 6, for example, when rotating, and further comprises

A third driving motor 63, wherein the third driving motor 63 is fixedly connected to the first fixing frame 62, and an output shaft of the third driving motor 62 is vertically arranged; the third driving motor 63 is also electrically connected to the controller; the third driving motor 63 is controlled by the controller to work so as to drive the second fixing frame 64 to rotate, and finally drive the fork 2 to rotate, so that the angle of the fork 2 can be adjusted, the direction is corrected when the fork 2 loads and unloads cargoes, the angle is more proper, the position accuracy of loading and unloading cargoes is higher, the use is more flexible, the position requirement for parking a container of a truck driver is reduced, and if the fork 2 and the Z-axis moving module 6 are fixedly connected, the parking position is more accurate when the truck driver is required to park the container.

The second fixing frame 64 is fixedly connected to the output shaft of the third driving motor 63, and the fork 2 is fixedly connected to the second fixing frame 64. The output shaft of the third driving motor 63 rotates to drive the second fixing frame 64 to rotate, so as to finally realize the rotation of the pallet fork 2, which has two advantages: firstly, the angle of the fork 2 can be adjusted, so that the sides of the fork and the container are more vertical, and the position accuracy of loading and unloading cargoes is improved; secondly, the movement of the fork 2 for loading and unloading goods can be changed more flexibly, and meanwhile, the installation position of the fork 2 is made more flexible and changeable, for example, the fork 2 can be rotated when loading and unloading goods, so that the fork 2 can be laterally accessed when loading and unloading goods on the conveying device 1, and the fork 2 can also be laterally accessed at the front or rear (the side is vertical to the side of the container and the front and rear are parallel to the side of the container), after being lifted at this time, the third driving motor 63 is controlled to rotate, and the fork 2 is rotated to the side of the container to be vertical, so that the installation direction of the fork 2 can be flexible and changeable, and the limitation is lower. In a specific implementation, the second fixing frame 64 is further rotatably connected to the first fixing frame 63, so as to increase the firmness of lifting.

The conveying device 1 can be used with existing equipment or can be redesigned.

Each conveyor 1 comprises a conveyor line body 11, the conveyor line body 11 being communicatively connected to the controller; a plurality of blocking devices 12 are arranged on the conveying line body 1 at intervals; each blocking device 12 is connected with the controller in a communication way, and the controller controls the lifting of the blocking device;

The blocking device 12 includes a second lifting mechanism 121 and a limiting member 122, in this way, the position of the tray is controlled by calculating the running distance in advance, for example, the distance of the movement of the chain 17 may be calculated in advance when the transmission motor 112 rotates one turn, then the total displacement of the tray to be moved may be calculated in advance, this is the distance from the start position to the stop position of the tray, then the number of rotations of the transmission motor 112 may be calculated, and the number of rotations of the transmission motor 112 may be controlled by the controller.

In other embodiments, a position sensor 123 may also be provided, the position sensor 123 being used to detect the position of the cargo 200 or tray;

The second elevating mechanism 121 includes a second fixing portion 1211 and a second elevating portion 1212; the second fixing portion 1211 is installed in the conveyor line body 1; the second lifting part 1212 is fixedly connected to the limiting member 122, and the limiting member 122 is higher than the top surface of the conveying line body 1 after being lifted, and lower than the top surface of the conveying line body 1 after being lowered.

In a specific embodiment, the conveyor line body 11 may be an existing conveyor line, for example, the conveyor line body 11 includes a conveyor frame 111, a transmission motor 112 is installed in the conveyor frame 111, a gear chain system is installed on an output shaft of the transmission motor, the chains are arranged along a length direction of the conveyor frame 111, two chains are symmetrically arranged in a width direction, a tray is placed on the two chains, the chains drive the tray to move to realize cargo conveying, and the transmission motor 112 is electrically connected to the controller, and is controlled by the controller to work; a row of rollers 113 is further disposed in the middle of the conveying frame 111 along the length direction, and plays a role of supporting an auxiliary group, so as to reduce stress of a chain, and the intervals of the blocking devices 12 are installed at intervals according to intervals of stop stations, as shown in fig. 12 to 15, and are schematic structural diagrams of conveying units of one stop station, the whole conveying device 1 is formed by splicing conveying units of a plurality of stop stations along the X-axis direction, in a specific embodiment, the second lifting mechanism 121 is also a hydraulic cylinder, the hydraulic cylinder is electrically connected to the controller, at this time, a cylinder body of the hydraulic cylinder is the second fixing portion 1211, and a piston rod is the second lifting portion 1212; the output shaft of the hydraulic cylinder is vertically arranged upwards, the limiting piece 122 comprises two vertical limiting rods 1221, the bottoms of the two vertical limiting rods are fixedly connected with a supporting plate 1222, and the supporting plate 1222 is fixedly connected with a piston rod of the hydraulic cylinder. Each blocking device 12 further comprises a position sensor 123, the position sensor 123 is communicatively connected to the controller and is used for detecting the position of the pallet or the goods and feeding back to the controller, then the controller controls the piston rod of the hydraulic cylinder to lift according to a preset degree to block the pallet, stops on the stop station and waits for the fork 2 to load, when the stop station is used for installing the goods, the controller controls the hydraulic cylinder of the blocking device 12 to retract and lowers the limiting piece 122, is lower than the top surface of the conveying line body 1 and prevents collision with the pallet, and then controls the other blocking device 12 to lift according to a preset program to continue the stop station for loading the goods, or when unloading, the blocking pallet waits for the fork 2 to exit the pallet. The position sensor 123 may be installed at will as long as it can detect the position of the pallet or the cargo.

As shown in fig. 13, the transmission mode of each conveying unit is as follows: two second gears 13 are fixedly arranged on the output shaft of the transmission motor 112, a transmission shaft 15 is arranged in parallel with the output shaft of the transmission motor 112, a third gear 16 is fixedly arranged on the transmission shaft 15, the second gears 13 are meshed with the third gear 16, two first gears 14 are respectively arranged at two ends of the transmission shaft 15, and the first gears 14 are meshed with a chain 17. During operation, the output shaft of the transmission motor 112 rotates to drive the second gear 13 to rotate, so that the meshing transmission drives the third gear 16 to rotate, and then drives the transmission shaft 15 to rotate, and then the transmission shaft 15 drives the first gear 14 to rotate, and finally drives the chain 17 to operate, so that the pallet and the goods on the chain 17 are conveyed.

Embodiment four: on the basis of the first, second or third embodiment, the supporting frame 4 is a portal frame, so that a receiving space 41 is provided for receiving the trucks and containers, and a predetermined parking range is easily arranged. It is of course also possible to use a ceiling-mounted suspension, whereby the support frame 4 and the ground form a space for parking the truck and the container. Therefore, the supporting frame 4 can be arranged in different structures, and the installation position can be flexibly selected according to the production places of users.

The relative positions of the support frame 4, the parking range and the conveying device 1 can be flexible and changeable. For example, the following embodiment five and embodiment six.

As shown in fig. 16 and 17, embodiment five: on the basis of the fourth embodiment, one supporting frame 4 is arranged;

The four X-axis moving modules 3 are symmetrically arranged at the bottom of the supporting frame 4 and are arranged in a rectangular shape;

two Y-axis moving modules 5 are arranged, and the two Y-axis moving modules 5 are symmetrically arranged at the top of the supporting frame 4;

The two Z-axis moving modules 6 are arranged, and the two Z-axis moving modules 6 are symmetrically arranged on the two Y-axis moving modules 5 in a one-to-one correspondence manner;

two second detection devices 8 are symmetrically arranged at the top of the support frame 4, and the two second detection devices 8 are arranged downwards, in specific implementation, for example, a CCD visual detection device is adopted, and the camera angle of the two second detection devices can be adjusted according to actual requirements;

The two groups of the first detection devices 7 are symmetrically arranged on the two inner side surfaces of the support frame 4 and are oppositely arranged; in a specific implementation, for example, each set of said first detection means 7 comprises a plurality of grating sensors vertically aligned.

The conveying devices 1 are arranged in two, the conveying devices 1 are symmetrically arranged between the two inner side surfaces of the supporting frame 4, and a space for accommodating a container is arranged between the two conveying devices 1.

The X-axis moving module 3 is connected to the ground in a sliding manner, or the X-axis moving module 3 is hoisted above the ground in a sliding manner. Realize carrying out the material loading simultaneously in container both sides, compare one side material loading, improve material loading efficiency.

As shown in fig. 18 to 21, embodiment six: based on the fourth embodiment:

one of the supporting frames 4 is arranged;

The four X-axis moving modules 3 are symmetrically arranged at the bottom of the supporting frame 4 and are arranged in a rectangular shape;

two Y-axis moving modules 5 are arranged, and the two Y-axis moving modules 5 are symmetrically arranged at the top of the supporting frame 4;

The two Z-axis moving modules 6 are arranged, and the two Z-axis moving modules 6 are symmetrically arranged on the two Y-axis moving modules 5 in a one-to-one correspondence manner;

two second detection devices 8 are arranged, wherein the two second detection devices 8 are symmetrically arranged at the top of the support frame 4 and are downwards arranged; in specific implementation, for example, a CCD visual detection device is adopted, and the angle of a camera can be adjusted according to actual requirements;

The two groups of the first detection devices 7 are symmetrically arranged on the two inner side surfaces of the support frame 4 and are oppositely arranged; in a specific implementation, for example, each set of said first detection means 7 comprises a plurality of grating sensors vertically aligned.

The two conveying devices 1 are symmetrically arranged at two outer sides of the supporting frame 4, so that the supporting frame 4 is positioned between the two conveying devices 1, and a space for accommodating a container is formed in the supporting frame 4. Realize carrying out the material loading simultaneously in container both sides, compare one side material loading, improve material loading efficiency.

The X-axis moving module 3 is connected to the ground in a sliding manner, or the X-axis moving module 3 is hoisted above the ground in a sliding manner. This can be installed according to the needs of the user and the structure of the support frame 4 is chosen.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that the specific embodiments described are illustrative only and not intended to limit the scope of the invention, and that equivalent modifications and variations of the invention in light of the spirit of the invention will be covered by the claims of the present invention.

Claims (15)

1. A cargo handling system for a quick-opening side curtain box, characterized by: comprising the following steps:

the conveying device is arranged in a straight line along the X axis;

The X-axis moving module is used for realizing X-axis linear motion;

the support frame is connected to the X-axis moving module;

the Y-axis moving module is movably connected with the supporting frame;

The Z-axis moving module is connected with the Y-axis moving module;

the fork is connected with the Z-axis moving module;

The first detection device comprises a plurality of grating sensors which are vertically arranged in a row, and is used for detecting whether articles exist in the container or not and detecting the height of the container, so that the first detection device feeds back to the controller to identify the size of the container, and then the controller calls a pre-stored movement track of the container for loading and unloading the goods;

The second detection device is used for detecting the parking position of the container or the truck;

An alarm device;

The controller is respectively in communication connection with the X-axis moving module, the Y-axis moving module, the Z-axis moving module, the alarm device, the conveying device, the second detection device and the first detection device.

2. A cargo handling system for a quick-opening side curtain box as defined in claim 1 wherein: the alarm device is arranged on the supporting frame.

3. A cargo handling system for a quick-opening side curtain box as defined in claim 1 wherein: the system also comprises a third detection device for collecting the license plate of the automobile, and the third detection device is in communication connection with the controller.

4. A cargo handling system for a quick-opening side curtain box as defined in claim 1 wherein: the X-axis sliding module comprises

The wheel seat is provided with a wheel groove at the bottom and is connected with the support frame;

the driving rail wheel is rotatably arranged in the wheel groove, and the rotation axis of the driving rail wheel is horizontally perpendicular to the X axis;

The output shaft of the first driving motor is fixedly connected to the driving rail wheel, and the first driving motor is arranged on the wheel seat; the first driving motor is also electrically connected to the controller.

5. A quick opening side curtain box cargo handling system as defined in claim 4 wherein: the device also comprises a rail horizontally arranged along the X axis, and the driving rail wheel is arranged on the rail.

6. A quick opening side curtain box cargo handling system as defined in claim 5 wherein: the X-axis sliding module further comprises a driven track wheel, the driven track wheel is rotatably installed in the wheel groove, the rotation axis of the driven track wheel is horizontally perpendicular to the X axis, and the driven track wheel is installed on the track.

7. A cargo handling system for a quick-opening side curtain box as defined in claim 1 wherein: the Y-axis sliding module comprises

The screw rod is rotatably arranged on the support frame along the Y axis;

The second driving motor is arranged on the supporting frame, and an output shaft of the second driving motor is fixedly connected with the screw rod; the second driving motor is also electrically connected to the controller;

the nut is sleeved on the screw rod through threads;

The fixing seat is fixedly connected to the nut, is connected to the support frame in a sliding mode, and is horizontally arranged along the Y axis.

8. A cargo handling system for a quick-opening side curtain box as defined in claim 1 or 7 wherein: the Z-axis sliding module comprises

The first lifting mechanism comprises a first fixing part and a first lifting part, and the first fixing part is fixedly connected to the Y-axis sliding module; the first lifting part is fixedly or rotatably connected to the fork; the first lifting mechanism is also communicatively connected to the controller.

9. A quick opening side curtain box cargo handling system as defined in claim 8 wherein: the lifting device further comprises a first fixing frame, wherein the first fixing frame is fixedly connected to the first lifting part; the fork is fixedly connected to the first fixing frame, and the fork is horizontally arranged along the Y axis.

10. A cargo handling system for a quick-open side curtain box as defined in claim 9 wherein: and also comprises

The third driving motor is fixedly connected to the first fixing frame, and an output shaft of the third driving motor is vertically arranged; the third driving motor is also electrically connected to the controller;

The second fixing frame is fixedly connected to the output shaft of the third driving motor, and the fork is fixedly connected to the second fixing frame.

11. A cargo handling system for a quick-open side curtain box as defined in claim 10 wherein: each conveying device comprises a conveying line body, and the conveying line body is in communication connection with the controller; a plurality of blocking devices are arranged on the conveying line body at intervals; each of the blocking devices is communicatively coupled to the controller;

The blocking device comprises a second lifting mechanism and a limiting piece;

The second lifting mechanism comprises a second fixed part and a second lifting part; the second fixing part is arranged in the conveying line body; the second lifting part is fixedly connected to the limiting part, the limiting part is higher than the top surface of the conveying line body after being lifted, and the limiting part is lower than the top surface of the conveying line body after being lowered.

12. A cargo handling system for a quick-opening side curtain box as claimed in any one of claims 1 to 7 wherein: the support frame is a portal frame.

13. A quick opening side curtain box cargo handling system as defined in claim 12 wherein:

the support frame is provided with one support frame;

the four X-axis moving modules are symmetrically arranged at the bottom of the supporting frame and are arranged in a rectangular shape;

The two Y-axis moving modules are symmetrically arranged at the top of the supporting frame;

The two Z-axis moving modules are symmetrically arranged on the two Y-axis moving modules in a one-to-one correspondence manner;

the two second detection devices are symmetrically arranged at the top of the support frame and are downwards arranged;

the two groups of the first detection devices are symmetrically arranged on the two inner side surfaces of the support frame and are oppositely arranged;

The two conveying devices are symmetrically arranged between the two inner side surfaces of the supporting frame, and a space for accommodating a container is arranged between the two conveying devices.

14. A quick opening side curtain box cargo handling system as defined in claim 12 wherein:

the support frame is provided with one support frame;

the four X-axis moving modules are symmetrically arranged at the bottom of the supporting frame and are arranged in a rectangular shape;

The two Y-axis moving modules are symmetrically arranged at the top of the supporting frame;

The two Z-axis moving modules are symmetrically arranged on the two Y-axis moving modules in a one-to-one correspondence manner;

the two second detection devices are symmetrically arranged at the top of the support frame and are downwards arranged;

the two groups of the first detection devices are symmetrically arranged on the two inner side surfaces of the support frame and are oppositely arranged;

The two conveying devices are symmetrically arranged at two outer sides of the supporting frame, and a space for accommodating a container is formed in the supporting frame.

15. A cargo handling system for a quick-opening side curtain box as defined in claim 1 wherein: the X-axis moving module is connected to the ground in a sliding manner, or is hoisted above the ground in a sliding manner.