CN104070022A - Method for large-data reading of RFID production-line box body - Google Patents

Abstract

The invention relates to a method for large-data reading of an RFID production-line box body. The method comprises the following steps: (1) starting a production line L1, moving electricity meter boxes and a tray which are put on the production line L1 towards a production line L2 and starting the production line L2 in the stroke by a control host; (2) after the production line L2 is started, opening an RFID detection box door in the stroke and simultaneously reading RFID label data of the tray into the control host; (3) transferring the electricity meter boxes and the tray onto a production line L3 arranged in an RFID detection box, and scanning RFID label data of each electricity meter; (4) judging whether the data of each electricity meter is correct by using the control host; (5) transferring the electricity meter boxes and the tray onto a production line L4; and (6) controlling a production line L5 to be butted with a production line L6 or a production line L7 by using the control host according to the judged data. The method has the advantages that the warehousing speed of the electricity meters is greatly increased and the data is high-efficiency and accurate.

Description

A kind of large data read the method for RFID streamline casing

Technical field

The invention belongs to ammeter warehouse-in batch process technical field, especially a kind of large data read the method for RFID streamline casing.

Background technology

Newly enter at present ammeter warehouse-in and need to carry out the collection of quantity and RFID, present acquisition mode is slow and take very much manpower, and in this case, designing novel conveying equipment, to replace present acquisition mode be extremely urgent thing.

Summary of the invention

The object of the invention is for the deficiencies in the prior art, and propose a kind of method that large data read RFID streamline casing.

The present invention solves its technical problem and takes following technical scheme to realize:

Large data read a method for RFID streamline casing, comprise that step is as follows:

(1) start the streamline L1 in streamline L1, streamline L2, streamline L3, streamline L4, streamline L5, streamline L6 and the streamline L7 connecting successively, the pallet that is placed with four layers of ammeter box is positioned over to streamline L1 upward flow waterline L2 direction to be moved, after streamline L1 optoelectronic switch is triggered, pass the signal along to main control system, main control system sends enabling signal to streamline L2;

(2) streamline L2 is loaded onto streamline L2 by the pallet that is placed with four layers of ammeter box after starting and goes up and continue and move along streamline, after being triggered, streamline L2 optoelectronic switch passes the signal along to main control system, main control system sends instruction, open RFID and detect chamber door, meanwhile, the pallet RFID label antenna being arranged on streamline L2 is read into main control system by pallet RFID label data;

(3) streamline L2 is delivered to the pallet that is placed with four layers of ammeter box on the streamline L3 being arranged in RFID detection case 1, streamline L3 is the swing roller line that bottom is provided with electric rotating machine, swing roller Xian Kerao does at center 360 degree horizontal original place rotations, RFID detection case is the cube metal box with turnover freight house door, the streamline L3 that bottom is provided with electric rotating machine is placed in the bottom centre of casing, on four columns of RFID detection case, be separately installed with height and four layers of ground floor RFID antenna that ammeter box height is corresponding, second layer RFID antenna, the 3rd layer of RFID antenna and the 4th layer of RFID antenna,

When being placed with the pallet of four layers of ammeter box, be delivered to the center on streamline L3, streamline L3 optoelectronic switch starts, and triggering signal is passed to main control system, main control system sends instruction and closes the RFID detection case door of stocking up, start electric rotating machine, drive streamline L3 to rotate around central horizontal, simultaneously, start successively from low to high four layers of RFID label antenna in RFID detection case, read successively each the ammeter RFID label data in four layers of ground floors to the, and the RFID label data of each ammeter is transferred to main control system;

(4) main control system is compared with database Plays ammeter RFID label data after receiving each ammeter RFID label data, judges the correctness of each ammeter data;

(5) main control system has judged after ammeter RFID label data, sends instruction unpack RFID detection case and goes out cargo door, starts the streamline L4 docking with streamline L3 after rotation, and the pallet that is placed with four layers of ammeter box is delivered on streamline L4;

(6) streamline L4 is changeover portion streamline, be mainly used in regulating Azimuth & Range, streamline L4 optoelectronic switch passes to main control system by signal after triggering, by main control system, start streamline L5, streamline L5 is the streamline that bottom is provided with electric rotating machine and lifting motor, when being placed with the pallet of four layers of ammeter box and being sent to the fixed position of streamline L5, streamline L5 optoelectronic switch triggers, and triggering signal is sent to main control system, main control system is according to the data correctness of this pallet having judged in advance, control the direction and height of streamline L5, for being judged as correct ammeter, main control system docks streamline L5 according to its position with streamline L6, ammeter box is moved to streamline L6, by streamline L6 optoelectronic switch triggering signal, be again transferred to main control system, by main control system, this ammeter data is put on record in storehouse database, for being judged as wrong ammeter box, main control system docks streamline L5 according to its position with streamline L7, ammeter box is moved to streamline L7, by streamline L7 optoelectronic switch triggering signal, be again transferred to main control system, by main control system, these ammeter box data are put on record in storehouse database to be checked, and by manually processing on streamline L7.

And, described in described step (3), be arranged on four layers of RFID antenna on RFID detection case column, every layer of RFID antenna is two, be arranged on respectively on the column that RFID detection case is relative, the anglec of rotation that described drive streamline L3 rotates around central horizontal is 90 degree, meanwhile, the streamline L4 going out outside cargo door with RFID detection case after streamline L3 90-degree rotation docks;

And, ammeter RFID label data in described step (4) comprises this ammeter number and enciphered message, the method of each ammeter data correctness of described judgement is: the ammeter table number after deciphering exists for correctly in database, and the ammeter table number after deciphering is not incorrect in database.

And streamline L1, streamline L2, streamline L3, streamline L4, streamline L5, streamline L6 and streamline L7 in described step (1) to (6) are drum-type streamline.

Advantage of the present invention and good effect are:

1, the present invention adopts the rotation of box house streamline, and rapid batch reads RFID label;

2, the present invention adopts the rotation of streamline and lifting exports error in data respectively and data are correct;

3, to adopt the antenna at four angles of box house be that layering is installed in the present invention, in system identification process, and the antenna layered startup in diagonal angle, reading out data, streamline rotation, the antenna layered startup in other diagonal angle, antenna reading speed is spiral layering identification like this, and recognition efficiency increases greatly.

Accompanying drawing explanation

Fig. 1 is front view of the present invention;

Fig. 2 is the perspective view of RFID detection case of the present invention.

The specific embodiment

Below in conjunction with accompanying drawing, the invention process is further described, following examples are descriptive, are not determinate, can not limit protection scope of the present invention with this.

A kind of large data read the method for RFID streamline casing, as shown in Figure 1, the applied hardware system of the method comprises streamline L1, streamline L2, streamline L3, streamline L4, streamline L5, streamline L6, streamline L7, RFID detection case and the main control system connecting successively, corresponding optoelectronic switch is installed on every section of streamline, the method is for sentencing method for distinguishing at four layers of ammeter that RFID label is installed, each ammeter of described four layers of ammeter is all provided with RFID label, and the step of the method is as follows:

(1) start the streamline L1 in streamline L1, streamline L2, streamline L3, streamline L4, streamline L5, streamline L6 and the streamline L7 connecting successively, the pallet that is placed with four layers of ammeter box is positioned over to streamline L1 to be moved to streamline L2 direction, after streamline L1 optoelectronic switch is triggered, pass the signal along to main control system, main control system sends enabling signal to streamline L2;

(2) streamline L2 is loaded onto streamline L2 by the pallet that is placed with four layers of ammeter box after starting and goes up and continue and move along streamline, after being triggered, streamline L2 optoelectronic switch passes the signal along to main control system, main control system sends instruction, open RFID and detect chamber door, meanwhile, the pallet RFID label antenna being arranged on streamline L2 is read into main control system by pallet RFID label data;

(3) streamline L2 is delivered to the pallet that is placed with four layers of ammeter box on the streamline L3 being arranged in RFID detection case, streamline L3 is the swing roller line that bottom is provided with electric rotating machine, swing roller Xian Kerao does at center 360 degree horizontal original place rotations, RFID detection case is the cube metal box with turnover freight house door, as shown in Figure 2, the streamline L3 that bottom is provided with electric rotating machine is placed in the bottom centre of casing 1, on four columns of RFID detection case, be separately installed with height and four layers of ground floor RFID antenna 3 that ammeter box height is corresponding, second layer RFID antenna 5, the 3rd layer of RFID antenna 2 and the 4th layer of RFID antenna 4,

When being placed with the pallet of four layers of ammeter box, be delivered to the center on streamline L3, streamline L3 optoelectronic switch starts, and triggering signal is passed to main control system, main control system sends instruction and closes the RFID detection case door of stocking up, start electric rotating machine, drive streamline L3 to rotate around central horizontal, simultaneously, start successively from low to high four layers of RFID label antenna in RFID detection case, read successively each the ammeter RFID label data in four layers of ground floors to the, and the RFID label data of each ammeter is transferred to main control system;

In the concrete enforcement of invention, described four layers of RFID antenna that are arranged on RFID detection case column, every layer of RFID antenna is two, be arranged on respectively on the column that RFID detection case is relative, this installation method can reduce the anglec of rotation of streamline L3, whole streamline L3 90-degree rotation can read complete by all ammeter RFID label datas, save time, raise the efficiency, simultaneously, the streamline L4 going out outside cargo door with RFID detection case after streamline L3 90-degree rotation docks, and all ammeter box station-keeping datas are constant, and data processing is convenient;

(4) main control system is compared with database Plays ammeter RFID label data after receiving each ammeter RFID label data, judges the correctness of each ammeter data,

In the concrete enforcement of invention, each ammeter RFID label data comprises this ammeter number and enciphered message, the concrete grammar of each ammeter data correctness of concrete judgement is: the ammeter table number after deciphering exists for correctly in database, and the ammeter table number after deciphering is not incorrect in database;

(5) main control system has judged after ammeter RFID label data, sends instruction unpack RFID detection case and goes out cargo door, starts the streamline L4 docking with streamline L3 after rotation, and the pallet that is placed with four layers of ammeter box is delivered on streamline L4;

(6) streamline L4 is changeover portion streamline, be mainly used in regulating Azimuth & Range, streamline L4 optoelectronic switch passes to main control system by signal after triggering, by main control system, start streamline L5, streamline L5 is the streamline that bottom is provided with electric rotating machine and lifting motor, when being placed with the pallet of four layers of ammeter box and being sent to the fixed position of streamline L5, streamline L5 optoelectronic switch triggers, and triggering signal is sent to main control system, main control system is according to the data correctness of this pallet having judged in advance, control the direction and height of streamline L5, for being judged as correct ammeter, main control system docks streamline L5 according to its position with streamline L6, ammeter box is moved to streamline L6, by streamline L6 optoelectronic switch triggering signal, be again transferred to main control system, by main control system, this ammeter data is put on record in storehouse database, for being judged as wrong ammeter box, main control system docks streamline L5 according to its position with streamline L7, ammeter box is moved to streamline L7, by streamline L7 optoelectronic switch triggering signal, be again transferred to main control system, by main control system, these ammeter box data are put on record in storehouse database to be checked, and by manually processing on streamline L7.

In specific embodiment of the invention, described streamline L1, streamline L2, streamline L3, streamline L4, streamline L5, streamline L6 and streamline L7 are drum-type streamline.

Claims (4)

1. large data read a method for RFID streamline casing, it is characterized in that comprising that step is as follows:

(1) start the streamline L1 in streamline L1, streamline L2, streamline L3, streamline L4, streamline L5, streamline L6 and the streamline L7 connecting successively, the pallet that is placed with four layers of ammeter box is positioned over to streamline L1 upward flow waterline L2 direction to be moved, after streamline L1 optoelectronic switch is triggered, pass the signal along to main control system, main control system sends enabling signal to streamline L2;

(2) streamline L2 is loaded onto streamline L2 by the pallet that is placed with four layers of ammeter box after starting and goes up and continue and move along streamline, after being triggered, streamline L2 optoelectronic switch passes the signal along to main control system, main control system sends instruction, open RFID and detect chamber door, meanwhile, the pallet RFID label antenna being arranged on streamline L2 is read into main control system by pallet RFID label data;

(3) streamline L2 is delivered to the pallet that is placed with four layers of ammeter box on the streamline L3 being arranged in RFID detection case, streamline L3 is the swing roller line that bottom is provided with electric rotating machine, swing roller Xian Kerao does at center 360 degree horizontal original place rotations, RFID detection case is the cube metal box with turnover freight house door, the streamline L3 that bottom is provided with electric rotating machine is placed in the bottom centre of casing, on four columns of RFID detection case, be separately installed with height and four layers of ground floor RFID antenna that ammeter box height is corresponding, second layer RFID antenna, the 3rd layer of RFID antenna and the 4th layer of RFID antenna,

When being placed with the pallet of four layers of ammeter box, be delivered to the center on streamline L3, streamline L3 optoelectronic switch starts, and triggering signal is passed to main control system, main control system sends instruction and closes the RFID detection case door of stocking up, start electric rotating machine, drive streamline L3 to rotate around central horizontal, simultaneously, start successively from low to high four layers of RFID label antenna in RFID detection case, read successively each the ammeter RFID label data in four layers of ground floors to the, and the RFID label data of each ammeter is transferred to main control system;

(4) main control system is compared with database Plays ammeter RFID label data after receiving each ammeter RFID label data, judges the correctness of each ammeter data;

(5) main control system has judged after ammeter RFID label data, sends instruction unpack RFID detection case and goes out cargo door, starts the streamline L4 docking with streamline L3 after rotation, and the pallet that is placed with four layers of ammeter box is delivered on streamline L4;

(6) streamline L4 is changeover portion streamline, be mainly used in regulating Azimuth & Range, streamline L4 optoelectronic switch passes to main control system by signal after triggering, by main control system, start streamline L5, streamline L5 is the streamline that bottom is provided with electric rotating machine and lifting motor, when being placed with the pallet of four layers of ammeter box and being sent to the fixed position of streamline L5, streamline L5 optoelectronic switch triggers, and triggering signal is sent to main control system, main control system is according to the data correctness of this pallet having judged in advance, control the direction and height of streamline L5, for being judged as correct ammeter, main control system docks streamline L5 according to its position with streamline L6, ammeter box is moved to streamline L6, by streamline L6 optoelectronic switch triggering signal, be again transferred to main control system, by main control system, this ammeter data is put on record in storehouse database, for being judged as wrong ammeter box, main control system docks streamline L5 according to its position with streamline L7, ammeter box is moved to streamline L7, by streamline L7 optoelectronic switch triggering signal, be again transferred to main control system, by main control system, these ammeter box data are put on record in storehouse database to be checked, and by manually processing on streamline L7.

2. large data according to claim 1 read the method for RFID streamline casing, it is characterized in that: described in described step (3), be arranged on four layers of RFID antenna on RFID detection case column, every layer of RFID antenna is two, be arranged on respectively on the column that RFID detection case is relative, the anglec of rotation that described drive streamline L3 rotates around central horizontal is 90 degree, meanwhile, the streamline L4 going out outside cargo door with RFID detection case after streamline L3 90-degree rotation docks.

3. large data according to claim 1 read the method for RFID streamline casing, it is characterized in that: the ammeter RFID label data in described step (4) comprises this ammeter number and enciphered message, the method of each ammeter data correctness of described judgement is: the ammeter table number after deciphering exists for correctly in database, and the ammeter table number after deciphering is not incorrect in database.

4. large data according to claim 1 read the method for RFID streamline casing, it is characterized in that: streamline L1, streamline L2, streamline L3, streamline L4, streamline L5, streamline L6 and streamline L7 in described step (1) to (6) are drum-type streamline.