CN110683300B

CN110683300B - Integrated system detector based on unprocessed food grains detection

Info

Publication number: CN110683300B
Application number: CN201910889012.7A
Authority: CN
Inventors: 苏玉珍
Original assignee: Taizhou Lace Agel Ecommerce Ltd
Current assignee: Taizhou lace Agel Ecommerce Ltd.
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2021-07-13
Anticipated expiration: 2039-09-19
Also published as: CN110683300A

Abstract

The invention discloses an integrated system detector based on raw grain detection, which comprises a top cover, a bin frame structure and a front bin structure, wherein the top cover is spliced and connected with the bin frame structure, the bin frame structure is connected with the front bin structure in an installing way, the top cover consists of an upper cover structure and an upper cover square frame, the upper cover structure is locked with the upper cover square frame, the bin frame structure consists of a side plate and a bottom frame, the side plate is connected with the bottom frame in an installing way, and the side plate is provided with a bin inlet and a bin outlet. High efficiency and accurate detection data.

Description

Integrated system detector based on unprocessed food grains detection

Technical Field

The invention relates to the field of Programmable Logic Controllers (PLC), in particular to an integrated system detector based on raw grain detection.

Background

In the grain purchasing process, the processes of factory filing, sampling, inspection, result confirmation, weighing, warehousing, settlement and the like need to be carried out, grain is inspected by related quality parameters to judge whether the grain can be warehoused, and in the process, an operator needs to operate an equipment controller to detect the grain;

staff and internet of things, automatic transmission equipment and inspection equipment are fused to form an intelligent dynamic detection platform, and during the intelligent dynamic detection platform, each piece of equipment is detected and operated through a plurality of controllers.

In the prior art, more workers are required to be distributed in the inspection process to control and control a plurality of devices, one person supervises and transmits the flow and the inspection data to one device constantly, a large amount of manpower is consumed in the whole grain receiving process, the time spent on detection and waiting in the detection process is long, the grain detection, conveying and distribution in one step cannot be realized, the grain receiving efficiency is low, and the accuracy of the detection data cannot be effectively guaranteed.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide an integrated system detector based on raw grain detection, so as to solve the problems that a large number of workers are required to be distributed to a plurality of devices for operation and control in the detection process, one person supervises the transmission process and detects data for one device at any time, a large amount of manpower is consumed in the whole grain receiving process, the detection waiting time is long in the detection process, the grain detection, conveying and distribution in one step cannot be realized, the grain receiving efficiency is low, and the accuracy of the detected data cannot be effectively ensured.

The invention is realized by adopting the following technical scheme: the utility model provides an integration system detector based on unprocessed food grains detects, its structure includes top cap, storehouse frame structure, preceding storehouse structure, the top cap is assembled with storehouse frame structure top and is connected, storehouse frame structure front end and preceding storehouse structure erection joint, the top cap comprises upper cover structure, upper cover square frame, upper cover structure anchor ring and upper cover square frame locking, storehouse frame structure comprises curb plate, underframe, curb plate bottom and underframe erection joint, the curb plate is equipped with into storehouse mouth, delivery port, the curb plate becomes the integrated structure with into storehouse mouth, delivery port group.

Further preferably, the upper cover structure comprises a top plate, a detection track and a data device, the upper surface of the top plate is connected with the detection track in an installing mode, and the data device is installed in the center of the top plate.

Further preferably, the bottom frame comprises a running track and a bottom frame plate, and the running track is mounted in the middle of the bottom frame plate.

Preferably, the front bin structure comprises an unqualified bin, a control box and a qualified bin, the front end of the unqualified bin is spliced with the control box, the unqualified bin and the control box are welded with the left end of the qualified bin, a controller is installed in the inner cavity of the control box, and an intelligent screen plate is installed on the front end face of the qualified bin.

Further preferably, the controller includes main control unit, assists the controller, main control unit and assist controller erection joint and the two is in same axle center, main control unit includes battery, master controller, detains the piece, both ends inlay the dress with battery, knot piece about the master controller and are connected, assist the controller and be equipped with one auxiliary control ware, two-position auxiliary control ware, one auxiliary control ware is the same with two-position auxiliary control ware structure and the two laminating.

Preferably, the one-position auxiliary controller comprises an outer replacement controller, an inner ring controller and a mounting mandrel, the outer replacement controller and the inner ring controller are connected in an embedded mode, the inner ring controller is provided with the mounting mandrel, and the outer replacement controller, the inner ring controller and the mounting mandrel are arranged from outside to inside and are positioned on the same axis.

Advantageous effects

The grain planting vehicle enters from the inlet, runs to the lower part of the upper cover structure and is fastened with the detection track, and then runs on the running track, namely the vehicle moves annularly along the detection track, grain detection is carried out in the moving process, the vehicle which completes detection is distributed to a qualified storage bin and a qualified storage bin according to detection data, or runs out from the outlet, and data control is carried out by workers in a control box and an intelligent screen board in the running process; when the controller is controlled, the main controller, the one-bit auxiliary controller and the two-bit auxiliary controller can be separately and independently controlled, different detection data requirements are set, the controller can also be uniformly controlled, uniform quality detection requirements are realized, and the setting is flexible.

Compared with the prior art, the invention has the beneficial effects that: plant the grain vehicle and get into and travel on the orbit after the inspection storehouse, the in-process that traveles detects the track and carries out grain detection, it distributes to qualified storage storehouse to plant the grain vehicle, qualified storage storehouse department, perhaps drive out from delivery opening department, set up the detection data through the controller during, to planting grain vehicle single control or many unified control, adopt to control programming controller distribution and independently control integrative design, realize the whole storehouse that detects of single control, on-vehicle grain is carried in order, carry out intelligent supervision in transportation process, data transmission, data inspection, need not to consume a large amount of manpowers and receive the grain operation, data wait for the output, the one step that has realized grain detection and carry the distribution targets in place, high efficiency, it is accurate to detect data.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 shows a schematic structural diagram of an integrated system detector based on raw grain detection in the invention.

Fig. 2 shows a schematic structure of the detection device of the present invention.

Fig. 3 shows a schematic structural diagram of the upper cover structure of the present invention.

Fig. 4 shows a schematic structural diagram of the bottom frame of the present invention.

Fig. 5 shows a schematic diagram of the structure of the auxiliary controller of the present invention.

Fig. 6 shows a split structural diagram of the auxiliary controller of the present invention.

FIG. 7 is a schematic diagram of a one-bit slave according to the present invention.

FIG. 8 is a schematic diagram of a single slave according to the present invention, which is also a schematic diagram of the internal ring controller moving out of the external switch.

In the figure: the device comprises a top cover 1, a bin frame structure 2, a front bin structure 3, an upper cover structure 10, an upper cover frame 11, side plates 20, a bottom frame 21, a bin inlet 200, a bin outlet 201, a top plate 100, a detection track 101, a data device 102, a running track 210, a bottom frame plate 211, an unqualified bin 30, a control box 31, a qualified bin 32, a controller 310, an intelligent screen plate 320, a main controller 50, an auxiliary controller 51, a battery 500, a main controller 501, a buckling block 502, a one-position auxiliary controller 510, a two-position auxiliary controller 511, an external replacement controller 60, an internal ring controller 61 and a mounting mandrel 62.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides an integrated system detector based on raw grain detection, which comprises: the structure of the grain inspection device comprises a top cover 1, a bin frame structure 2 and a front bin structure 3, wherein the top cover 1 is connected with the bin frame structure 2 in an assembling manner, the bin frame structure 2 is connected with the front bin structure 3 in an installing manner, the top cover 1 consists of an upper cover structure 10 and an upper cover square frame 11, the upper cover structure 10 is locked with the upper cover square frame 11, the bin frame structure 2 consists of a side plate 20 and a bottom frame 21, the side plate 20 is connected with the bottom frame 21 in an installing manner, the side plate 20 is provided with a bin inlet 200 and a bin outlet 201, grains can be stored after being detected, and can also be directly ejected from the bin outlet 201 as required, the distribution is flexible, the upper cover structure 10 comprises a top plate 100, a detection track 101 and a data device 102, the detection track 101 is used for carrying out grain inspection on a running vehicle, the data device 102 is used for collecting and transmitting inspection data to a control end, the top plate 100 is connected with the detection track 101, the data device 102 is installed on the top plate 100, the bottom frame 21 comprises a running track 210 and a bottom frame plate 211, the vehicle runs on the running track 210, the bottom frame 21 is opposite to the upper cover structure 10, the accuracy of the detection track 101 for detecting the vehicle grains is improved, the running track 210 is installed on the bottom frame plate 211, the front bin structure 3 comprises an unqualified bin 30, a control box 31 and a qualified bin 32, the unqualified bin 30 is used for storing unqualified grains, the qualified bin 32 is used for storing qualified grains, distribution is convenient, the unqualified bin 30 is connected with the control box 31 in an assembling mode, the unqualified bin 30, the control box 31 and the qualified bin 32 are welded, the control box 31 is provided with the controller 310, the qualified bin 32 is provided with an intelligent screen plate 320, a large-screen display screen is controlled, operation is convenient, data viewing is convenient, and the controller 310 comprises a main controller 50, a control panel, The auxiliary controller 51, the main controller 50 is connected with the auxiliary controller 51 in an installing manner, the main controller 50 comprises a battery 500, a main controller 501 and a buckle block 502, the main controller 501 is connected with the battery 500 and the buckle block 502 in an embedded manner, the auxiliary controller 51 is provided with a one-position auxiliary controller 510 and a two-position auxiliary controller 511, the one-position auxiliary controller 510 and the two-position auxiliary controller 511 have the same structure, the main controller 501, the one-position auxiliary controller 510 and the two-position auxiliary controller 511 can be separately and independently controlled to set different detection data requirements and can also be uniformly controlled to realize uniform quality detection requirements, the setting is flexible, the one-position auxiliary controller 510 comprises an outer replacement controller 60, an inner ring controller 61 and a mounting mandrel 62, the outer replacement controller 60 is connected with the inner ring controller 61 in an embedded manner, the inner ring controller 61 is provided with a mounting mandrel 62, the inner ring controller 61 can be moved out from the outer replacement controller 60 to, the structure design is simple and flexible.

Grain planting vehicles enter from the bin entrance 200, run to the lower part of the upper cover structure 10 and are buckled with the detection track 101, then run on the running track 210, namely the vehicles move annularly along the detection track 101, grain detection is carried out in the moving process, the detected vehicles are distributed to the qualified storage bin 30 and the qualified storage bin 32 according to detection data, or run out from the bin exit 201, and data control is carried out by workers in the control box 31 and the intelligent screen panel 320 in the running process; when the controller 310 is controlled, the main controller 501, the one-bit auxiliary controller 510 and the two-bit auxiliary controller 511 can be separately and independently controlled, different detection data requirements can be set, the controller 310 can be controlled in a unified mode, unified quality detection requirements can be achieved, and the setting is flexible.

Compared with the prior art, the invention has the technical progress that: grain-planting vehicles enter the inspection bin and then run on the running rail 210, grain detection is carried out on the detection rail 101 in the running process, the grain-planting vehicles are distributed to the qualified storage bin 30 and the qualified storage bin 32 or run out from the bin outlet 201, detection data are set through the controller 310 in the running process, the grain-planting vehicles are independently controlled or uniformly controlled, the integrated design of distributed control and independent control of the programming controllers is adopted, the single-person control of the whole detection bin is realized, vehicle-mounted grains are conveyed in order, intelligent supervision is carried out in the conveying process, data transmission and data inspection are carried out, the grain collecting operation is carried out without consuming a large amount of manpower, data waiting and outputting are realized, one-step in-place of grain detection, conveying and distribution is high in efficiency, and the detection data are accurate.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an integration system detector based on unprocessed food grains detects, its structure includes top cap (1), storehouse frame structure (2), preceding storehouse structure (3), top cap (1) is assembled with storehouse frame structure (2) and is connected, storehouse frame structure (2) and preceding storehouse structure (3) erection joint, its characterized in that: the top cover (1) consists of an upper cover structure (10) and an upper cover square frame (11), and the upper cover structure (10) is locked with the upper cover square frame (11); the bin frame structure (2) consists of a side plate (20) and a bottom frame (21), the side plate (20) is connected with the bottom frame (21) in an installing mode, and the side plate (20) is provided with a bin inlet (200) and a bin outlet (201);

the upper cover structure (10) comprises a top plate (100), a detection track (101) and a data device (102), wherein the top plate (100) is connected with the detection track (101) in an installing mode, and the data device (102) is installed on the top plate (100);

the underframe (21) comprises a running track (210) and an underframe frame plate (211), and the running track (210) is installed on the underframe frame plate (211);

the front bin structure (3) comprises an unqualified bin (30), a control box (31) and a qualified bin (32), the unqualified bin (30) is connected with the control box (31) in an assembled mode, the unqualified bin (30) and the control box (31) are welded with the qualified bin (32), the control box (31) is provided with a controller (310), and the qualified bin (32) is provided with an intelligent screen panel (320);

the controller (310) comprises a main controller (50) and an auxiliary controller (51), the main controller (50) is connected with the auxiliary controller (51) in an installing mode, the main controller (50) comprises a battery (500), a main controller (501) and a buckling block (502), the main controller (501) is connected with the battery (500) and the buckling block (502) in an embedding mode, the auxiliary controller (51) is provided with a one-position auxiliary controller (510) and a two-position auxiliary controller (511), and the one-position auxiliary controller (510) and the two-position auxiliary controller (511) are identical in structure;

the one-position auxiliary controller (510) comprises an outer change controller (60), an inner ring controller (61) and a mounting mandrel (62), the outer change controller (60) is connected with the inner ring controller (61) in an embedded mode, and the inner ring controller (61) is provided with the mounting mandrel (62);

grain planting vehicles enter from a bin entrance (200), run to the lower part of the upper cover structure (10) and are fastened with the detection track (101), then run on the running track (210), namely the vehicles move annularly along the detection track (101), grain detection is carried out in the moving process, the detected vehicles are distributed to a qualified storage bin (30) and a qualified storage bin (32) according to detection data or run out from a bin exit (201), and data control is carried out by workers in a control box (31) and an intelligent screen panel (320) in the running process; when the controller (310) is controlled, the main controller (501), the one-bit auxiliary controller (510) and the two-bit auxiliary controller (511) can be separately and independently controlled, different detection data requirements are set, the controller (310) can also be uniformly controlled, uniform quality detection requirements are realized, and the setting is flexible.