Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The following detailed description is provided for the specific embodiments of the present invention. An automated home delivery system will be described herein since the package lifting device is used in conjunction with an automated home delivery system.
As shown in fig. 1, a structure diagram of an automatic home-entering distribution system provided by an embodiment of the present invention includes a parcel distribution point 1, a parcel conveying device 2 and a parcel lifting device 3, where the parcel distribution point 1 is used to store parcels to be distributed and parcels to be sent and returned by users; the parcel conveying device 2 is used for conveying parcels to a parcel lifting device 3 corresponding to the building position according to a path planned by the parcel information, or conveying the parcels from the parcel lifting device 3 to a parcel distribution point 1; the parcel lifting device 3 is used for lifting the parcel to a set floor of a building or receiving the parcel from the set floor, and the parcel is taken by a receiver or the parcel sent or returned by the receiver is received.
In practical application, the parcel distribution point 1 is provided with a bar code acquisition device, when a parcel passes through the bar code acquisition device, the bar code information on the parcel can be acquired, so as to obtain a corresponding delivery destination and addressee/addressee information and the like, a parcel operation path can be planned according to the delivery destination, namely, a corresponding parcel conveying device 2 and a parcel lifting device 3 are selected to cooperatively operate to ensure that the parcel can be conveyed to a corresponding destination, after the path is planned, the parcel is conveyed to the parcel lifting device 3 corresponding to a building position through the parcel conveying device 2, then the parcel lifting device 3 lifts the parcel to the corresponding floor, the addressee can take the parcel from the parcel lifting device 3 (or push information to a user to remind the user of taking the parcel when the parcel is lifted to the corresponding floor by the parcel lifting device 3; or a logistics box can be arranged at the corresponding floor position, when the parcel lifting device 3 drives the parcels to reach a set floor, the back door of the logistics box is opened, the parcels are sent into the logistics box by the parcel lifting device 3 to be stored (a conveyor belt or a mechanical arm and the like can be arranged on the parcel lifting device), then the back door of the logistics box is closed, the control of the logistics box needs to be accessed into a control part of a distribution system, and a control panel, an electric control lock and the like can be arranged on the logistics box, so that the parcels can be conveniently taken; similarly, for the parcel to be sent and the parcel to be returned, the principle is similar, the parcel of the user or the parcel to be returned is put into the logistics box through the front door of the logistics box, then the parcel lifting device 3 moves to the corresponding floor within the set time period, the rear door of the logistics box is opened, the parcel moves from the inside of the logistics box to the parcel lifting device 3 (a mechanical push handle and the like can be arranged on the parcel lifting device; a conveyor belt, a manipulator and the like can also be arranged in the logistics box), then the rear door of the logistics box is closed (the door opened and closed by the user is the front door, and the door opened and closed in the logistics transmission is the rear door; the relative position of the front door and the rear door can be front and back or left and right), and the opening and closing of the front door and the rear door of the logistics box are completely opposite; that is, the front door and the rear door cannot be opened simultaneously in the design, and the rear door can be opened only under the condition that the front door is closed; otherwise, the front door can be opened only under the condition that the rear door is closed. The parcel lifting device 3 sends the parcels back to the parcel distribution point 1, an automatic bar code labeling device is arranged at the parcel distribution point 1, and the collected parcels are automatically labeled with labels such as bar code information. The packages may also be placed on dedicated pallets if desired during shipping or lifting.
If the existing packages need to be conveyed to a certain logistics box and the logistics box has the packages to be retrieved, the conveying system defaults to the principle of first retrieval and then conveying, namely, the logistics box is started to deliver when the logistics box is empty; once delivery is initiated; the main door of the logistics box is locked at the same time; the user can not open the device for use; the system will display that the package is in delivery; only after the delivery and the taking of the parts are finished; the user can send a mail, etc. The system may also set different time periods, in which only package dispatching or sending service is performed, or a package recycling line may be specially set to specially transport packages that need to be returned to the package distribution point 1, and no specific limitation is made here.
As shown in fig. 1, as a preferred embodiment of the present invention, a lifting pipe 4 is disposed outside the parcel lifting device 3, the parcel lifting device 3 is enclosed inside, and a window is disposed at a position of the lifting pipe 4 corresponding to each floor.
Lifting pipe 4 and parcel hoisting device 3 can be according to building establishment, and main aim at protects, also can set up access hole etc. on lifting pipe 4, makes things convenient for personnel to overhaul. The parcel conveying device and the pipeline can be provided with a visual video monitoring system and an infrared microwave security alarm system; so as to ensure the safe, automatic and efficient operation of the system.
As shown in fig. 1, as another preferred embodiment of the present invention, a conveying pipeline 5 is provided outside the parcel conveying device 2, the parcel conveying device 2 is enclosed therein, and the parcel conveying device 2 and the conveying pipeline 5 are located above or below the ground and are communicated with the lifting pipeline 4.
Particularly when the parcel conveying device 2 and the conveying pipeline 5 are below the ground, the ground space can be better saved.
As shown in fig. 1-2, as another preferred embodiment of the present invention, the parcel conveying device 2 comprises a front end conveying assembly 201, a tail end conveying assembly 203 and a material transferring assembly 202, wherein the front end conveying assembly 201 is connected with the parcel distribution point 1; the end conveying assembly 203 corresponds to the parcel lifting device 3 and is used for receiving the parcels output by the parcel lifting device 3 or outputting the parcels thereon to the parcel lifting device 3; the material transferring assembly 202 is used for transferring the packages on the front end conveying assembly 201 to the corresponding tail end conveying assembly 203 or transferring the packages on the corresponding tail end conveying assembly 203 to the front end conveying assembly 201 according to the planned path.
In a case of this embodiment, the number of the parcel distribution point 1, the front end conveying component 201, the end conveying component 203 and the material transferring component 202 is multiple, and there is a connection relationship between the two components, because the number of the buildings and the number of the cells are multiple, each building has a parcel lifting device 3, therefore, in order to ensure that the parcels can reach each building, the number of the needed parcel distribution point 1, the number of the front end conveying component 201, the end conveying component 203 and the material transferring component 202 are also multiple, here, taking the piece dispatching process as an example, the material transferring component 202 mainly has a sorting function, and the parcels are respectively sent to the corresponding end conveying component 203.
As shown in fig. 1-2, as another preferred embodiment of the present invention, the material transferring assembly 202 includes a fixed frame 2021 and a movable frame 2022, wherein the movable frame 2022 is provided with a plurality of conveying rollers 2026, the conveying rollers 2026 are driven by a conveying motor 2025 mounted on the movable frame 2022 to rotate, a rotor 2024 is movably fitted in the fixed frame 2021, the rotor 2024 is fixedly connected to the movable frame 2022, and the rotor 2024 is driven to rotate by a driving member disposed on the fixed frame 2021, in this embodiment, the driving member is a rotor motor 2030 or an angle cylinder, etc., which is not limited specifically herein.
When the conveying motor 2025 acts, it can convey the parcels on the movable rack 2022 to other positions, and when the rotor motor 2030 outputs power, it can drive the rotor 2024 to rotate, and the angle of the movable rack 2022 can be changed here, and the parcels are sent to different terminal conveying assemblies 203, or the parcels are received from different terminal conveying assemblies 203, and then the parcels are sent back to the parcel distribution point 1.
Specifically, in this embodiment, the rotor 2024 and the fixed frame 2021 have a mounting surface 2027 with a stepped cross section, the mounting surface 2027 is provided with a plurality of rollers 2028, the rollers 2028 may be cylindrical rollers, and the like, which is not specifically limited herein, and the stepped mounting surface 2027 and the plurality of rollers 2028 thereon can ensure smooth relative movement between the fixed frame 2021 and the movable frame 2022.
In addition, the conveying motor 2025 is mounted on a mounting beam 2029 on the fixed frame 2021, the output end of the conveying motor 2025 is mounted with a driving bevel gear 2031, the driving bevel gear 2031 is in meshing transmission with a driven bevel gear 2032 fixed at the axis of the rotor 2024, in one case of the embodiment, the conveying motor 2025 is a stepping motor.
Preferably, the movable frame 2022 is further provided with a plurality of receiving rollers 2023, and the receiving rollers 2023 are located at two sides of the conveying roller 2026, i.e. power can be applied or no power can be applied, and the main purpose is to perform a transition function.
As shown in fig. 3, a parcel lifting device in an automatic home delivery system, the parcel lifting device 3 comprises a lifting frame 301, a track slider 304 and a lifting assembly 303, the track slider 304 is in sliding fit with the lifting frame 301 and conveys parcels horizontally outwards when the track slider 304 reaches a set floor; the lifting assembly 303 is connected to the track slider 304, and is configured to drive the track slider 304 to ascend and descend. In addition, the rail slider 304 is slidably engaged with the lifting rail 302 provided on the lifting frame 301, so that the rail slider 304 can be moved to different floors along the lifting rail 302.
In one aspect of this embodiment, the lifting assembly 303 is a conveyor belt or a lifting chain, which can be driven by a driving element (such as a motor) disposed on the lifting frame 301.
Specifically, the track sliding block 304 includes a main body 3041 and a bearing fork 3042 connected to the main body 3041, the bearing fork 3042 is used for bearing a package, a discharging belt 3043 is installed on the bearing fork 3042, and the discharging belt 3043 is used for driving the package to move horizontally. When lifting component 303 during operation, it can drive track slider 304 elevating movement, when track slider 304 moves to the floor of settlement, ejection of compact area 3043 began work this moment, outwards horizontally send out the parcel on ejection of compact area 3043, and the addressee directly take the parcel on the ejection of compact area 3043 this moment can, and is very convenient and safe.
The bearing forks 3042 are arranged in layers on the main body 3041, and the material outlet belts 3043 on the bearing forks 3042 on the same layer are driven by the same motor, and here, there is a gap between the bearing forks 3042 on the same layer, so as to be capable of staggering with the position of the transition roller mentioned later, and realize the transition of the wrapping.
As shown in fig. 1, as another preferred embodiment of the present invention, the end conveying assembly 203 further includes a transition assembly 204, and the transition assembly 204 includes a plurality of transition rollers having gaps, and the transition rollers are staggered with the bearing forks 3042.
The transition rolls are staggered from the load bearing forks 3042 so that the wraps on the transition rolls can be directly transferred onto the load bearing forks 3042 without interference from the separation and position crossing of the two.
The embodiment of the utility model provides an automatic distribution method of registering one's residence is still provided, including following step:
acquiring information contained in a bar code of a package, wherein the information at least comprises a package destination and recipient information, planning a movement path of the package according to the package destination, and acquiring the information contained in the bar code by a bar code acquisition device arranged at a corresponding position;
putting the packages into a conveying starting point, and conveying the packages to a building position corresponding to the receiver by a package conveying device 2 according to a planned path;
the parcel is lifted by the parcel lifting device corresponding to the building, so that the parcel is lifted to the corresponding floor position, the parcel is horizontally output outwards by the parcel lifting device, and a receiver can directly take the parcel.
In addition, a conveying pipeline 5 and a lifting pipeline 4 are respectively arranged outside the parcel conveying device 2 and the parcel lifting device 3, the conveying pipeline 5 and the lifting pipeline 4 are communicated, and the conveying pipeline 5 is on the ground or buried under the ground.
When sending a parcel, the sender puts the parcel on the parcel lifting device 3 (or can input the parcel information through a panel on the parcel lifting device 3, etc.), and the parcel is defaulted as a parcel due to the absence of barcode information on the parcel, and the parcel lifting device 3 and the parcel conveying device 2 send the parcel back to the parcel distribution point 1. However, it is inevitable that there are packages to be dispatched and sent out by the user on the package lifting device 3 and the package conveying device 2 at the same time, and different time periods may be set at this time, and only package dispatching or sending service is performed in this time period, or a package recycling conveying line may be specially set, and packages that need to be returned to the package collecting and distributing point 1 are specially transported, and no specific limitation is made here.
It should be noted that, in the embodiment of the present invention, the power supply, the controller, and the like are not specifically limited, but those skilled in the art will know or should know how to select the power supply, the controller, and the like in practical application. The controller mentioned here may be a PLC controller, and in addition, the controller needs to communicate with a cloud to obtain a path planning result, and the like, because the path planning needs to be calculated and planned by means of artificial intelligence, and here, how to plan the path and the like belongs to the prior art, and the embodiment of the present application does not specifically limit the path planning. In addition, the package in this embodiment may be an express package, a take-away package, a fresh package, or the like, and is not specifically limited herein.
It should be further described that, in the embodiment of the present invention, in order to simplify the technical solution, it is convenient to understand that the components such as the barcode collecting device and the photoelectric sensing device at the package distribution point 1, the package conveying device 2 and the package lifting device 3 are not illustrated, but those skilled in the art know or should know how to arrange or select the type in practical application.
The above-mentioned embodiment of the utility model provides an automatic distribution system of registering one's residence to based on this automatic distribution system of registering one's residence provides an automatic distribution method of registering one's residence, it can realize automatic distribution through the distribution pipe network of formation such as parcel conveyor 2 and parcel hoisting device 3, and is efficient, and the distribution process is confined moreover, and unmanned person contacts, and is comparatively safe. Can be used for a long time in one-time construction. The express delivery vehicle at present can also be reduced, the pressure of urban traffic is reduced, and express delivery staff, the reduction delivery human cost.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.