CN108001924B

CN108001924B - Multipath circulation goods supply system

Info

Publication number: CN108001924B
Application number: CN201711462737.5A
Authority: CN
Inventors: 刘宏庆; 王磊; 刘德超; 邵华; 潘拥军; 张洪元
Original assignee: HEFEI ZHONGDING INFORMATION TECHNOLOGY CO LTD
Current assignee: HEFEI ZHONGDING INFORMATION TECHNOLOGY CO LTD
Priority date: 2017-12-28
Filing date: 2017-12-28
Publication date: 2024-01-19
Anticipated expiration: 2037-12-28
Also published as: CN108001924A

Abstract

The invention provides a multipath circulating goods supply system which comprises a full-load material box conveying line, a goods supply public channel and an empty-load material box recycling channel, wherein the conveying directions of the empty-load material box recycling channel and the full-load material box conveying line and the goods supply public channel are opposite, the whole conveying line is divided into at least two independent goods outlet areas by at least one multi-port lifter, the full-load material box conveying lines of all the goods outlet areas are separated, the goods supply public channels of all the goods outlet areas are connected, and the empty-load material box recycling channels of all the goods outlet areas are connected. According to the invention, through separating the fully-loaded material box conveying lines, a private independent buffer area is formed for each delivery area, and the problem that the front and rear positions of the delivery in each delivery area are mutually restricted on a delivery conveying system is solved; and the common goods supply public channel and the empty-load material box recovery channel are designed, so that the problem that the front and rear positions of empty-load material boxes generated after goods are supplied in each goods outlet are limited with the front and rear positions of other full-load material boxes which do not reach the goods outlet on the conveying system is solved.

Description

Multipath circulation goods supply system

Technical Field

The invention relates to the technical field of cargo conveying lines, in particular to a multipath circulating cargo supply system.

Background

The existing goods supply conveying line is a two-layer system, the upper layer conveys full-load boxes, the lower layer conveys empty-load boxes, the upper layer is provided with a plurality of goods outlet points along the conveying line direction, but each goods outlet point shares one full-load box conveying line, when one goods outlet point needs to be delivered, the whole full-load box conveying line is stopped for waiting, if the goods outlet points positioned at the front section are more in goods outlet, a large number of empty-load boxes can appear at the goods outlet points at the rear section, the goods outlet quantity at the rear section is insufficient, goods cannot be quickly replenished, the next circulation can be only waited, and the design can cause the low utilization rate and the low efficiency of the conveying line.

Disclosure of Invention

The invention provides a multipath circulating goods supply system which is provided with three layers of conveying circuits and can convey goods at goods loading points to all goods outlet points smoothly and rapidly without obstruction.

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

a multiple circulation delivery system comprising:

the full-load material box conveying line, the material supply public channel and the empty material box recycling channel are sequentially overlapped up and down, wherein the conveying directions of the empty material box recycling channel and the full-load material box conveying line and the material supply public channel are opposite, the whole conveying line is divided into at least two independent material outlet areas by at least one multi-port lifter, the full-load material box conveying lines of all the material outlet areas are separated, the material supply public channels of all the material outlet areas are connected, and the empty material box recycling channels of all the material outlet areas are connected;

the delivery end of the full-load material box conveying line in the delivery area is connected with the delivery end of the empty material box recycling channel through a plurality of lifting machines, the delivery end of the full-load material box conveying line in the delivery area in the whole conveying line starting section is connected with the delivery end of the full-load material box recycling channel through a plurality of lifting machines, and the delivery ends of the full-load material box conveying lines in other delivery areas are connected with the delivery ends of the common supply channels in the connected delivery areas through a plurality of lifting machines.

Further, a loading point is arranged on an empty-load material box recycling channel positioned in the delivery area of the whole conveying line starting section, and the delivery end of the empty-load material box recycling channel is connected with the delivery end of the whole delivery public channel through a plurality of lifting machines.

Preferably, the multi-port elevator is a bottom-in, middle-out and top-out conveyor elevator device.

Preferably, the delivery zone located at the beginning of the entire delivery line is the main delivery zone, which has the longest delivery line length.

Preferably, a loop is formed between the full-load magazine conveying line of the main delivery area and the empty magazine recycling channel of the main delivery area through a multi-port lifter.

According to the technical scheme, the full-load material box conveying lines are separated to form the private independent buffer areas for each delivery area, so that the problem that the front and rear positions of the delivery areas on a delivery conveying system are mutually restricted is solved; and the common goods supply public channel and the empty-load material box recovery channel are designed, and the empty-load material boxes generated after the goods are supplied from each goods outlet are directly integrated into the empty-load material box recovery channel, so that the problem that the positions of the empty-load material boxes generated after the goods are supplied from each goods outlet and the full-load material boxes which do not reach the goods outlet on the conveying system are limited by each other is solved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Detailed Description

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the multi-path circulation supply system includes a full-load magazine conveyor line 10, a supply common path 20, and an empty magazine recovery path 30 stacked one on top of the other, wherein the empty magazine recovery path is opposite to the conveying direction of the full-load magazine conveyor line and the supply common path, and in this embodiment, the full-load magazine conveyor line and the supply common path carry out the goods conveying from right to left, and the empty magazine recovery path carries out the goods conveying from left to right, and a loading point 41 of this conveyor line is disposed on the rightmost side of the empty magazine recovery path.

In order to avoid the restriction of the front and back positions of cargoes on the conveying line, the areas of all the cargo discharging points on the conveying line are required to form private independent buffer areas and are in an independent cargo discharging area mode, the cargo supply and the cargo discharging of the independent cargo discharging area are independent from other cargo discharging areas, the cargo discharging of the cargo discharging area is matched without stopping the conveying lines of the other cargo discharging areas, the cargo supply of the cargo discharging area can be realized at any time, and the empty cargo box in the cargo discharging area can also directly enter the empty cargo box recycling channel.

In this embodiment, four independent delivery areas 50 are adopted, each delivery area is separated by a multi-port elevator 60, the delivery lines of the full-load material boxes of each delivery area are separated, the delivery public channels of each delivery area are connected, and the empty material box recovery channels of each delivery area are connected. The leftmost side of each delivery area is a delivery point, and for convenience of description, the delivery point is positioned as a delivery end in this embodiment, and the rightmost side of the delivery area is a delivery end.

The multi-port elevator 60 is a conveying elevator device with a bottom layer in, a middle layer and an upper layer out, both the left side and the right side of the elevator device can be in and out, and the three layers can be vertically conveyed up and down.

The delivery end of the full-load magazine conveyor line of the delivery area 50 is connected with the delivery end of the empty magazine recovery channel thereof through a multi-port elevator, so that the empty magazine in the delivery area can directly enter the empty magazine recovery channel.

The delivery area at the initial section (right side) of the whole delivery line is a main delivery area 51, the delivery line length of the main delivery area is longest, a loop is formed between the full-load box delivery line of the main delivery area and the empty-load box recovery channel thereof through a multi-port lifter, the loading point of the whole delivery line is positioned on the rightmost side of the empty-load box recovery channel of the main delivery area, and the delivery end of the empty-load box recovery channel is connected with the delivery end of the whole delivery public channel through the multi-port lifter.

The delivery ends of the full-load magazine delivery lines of the other three delivery areas are connected with the delivery ends of the common delivery channels of the delivery areas through a plurality of lifting machines. All the goods in the goods-out areas are independent and are not restricted.

In theory, more delivery ports can be infinitely connected, independent delivery of more delivery areas without mutual interference is realized, the process flow is clear, and the realization mechanism and the method are simple.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solution of the present invention should fall within the scope of protection defined by the claims of the present invention without departing from the spirit of the present invention.

Claims

1. A multiple circulation delivery system, comprising:

the full-load material box conveying line, the material supply public channel and the empty material box recycling channel which are overlapped up and down in sequence, wherein the empty material box recycling channel is opposite to the conveying direction of the full-load material box conveying line and the material supply public channel respectively, the whole conveying line is divided into at least two independent material outlet areas which are arranged front and back along the conveying direction by at least one multi-port lifter, each material outlet area shares the material supply public channel and the empty material box recycling channel, the full-load material box conveying lines of all material outlet areas are separated, the material supply public channels of all material outlet areas are connected, and the empty material box recycling channels of all material outlet areas are connected;

the delivery ends of the full-load magazine delivery lines in the delivery area are connected with the delivery ends of the empty magazine recovery channels through a plurality of elevators, so that the empty magazine in the delivery area can directly enter the empty magazine recovery channels, the delivery ends of the full-load magazine delivery lines in the delivery area in the initial section of the delivery area are connected with the delivery ends of the full-load magazine recovery channels through a plurality of elevators, the delivery ends of the full-load magazine delivery lines in other delivery areas are connected with the delivery ends of the delivery public channels in the connected delivery areas through a plurality of elevators, and the delivery of all delivery areas is independent;

the empty-load material box recycling channel positioned in the discharging area of the whole conveying line starting section is provided with a loading point, and the discharging end of the empty-load material box recycling channel is connected with the feeding end of the whole common conveying line through a plurality of lifting machines; the multi-port elevator is a conveying elevator device with a bottom layer entering, a middle layer exiting and a top layer exiting.

2. The multiple circulation supply system of claim 1, wherein the delivery area at the beginning of the entire delivery line is the main delivery area, the length of the delivery line being the longest.

3. The multiple circulation supply system of claim 2, wherein a loop is formed between the full magazine conveyor line of the main discharge area and its empty magazine recovery lane by a multi-port elevator.