CN116902454B

CN116902454B - Warehouse logistics container sharing system suitable for various electric power supplies

Info

Publication number: CN116902454B
Application number: CN202310918351.XA
Authority: CN
Inventors: 常宏; 沈飞; 倪华豪; 陈琳; 张文梧; 李何爽
Original assignee: Taizhou Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Current assignee: Taizhou Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Priority date: 2023-07-25
Filing date: 2023-07-25
Publication date: 2024-03-15
Anticipated expiration: 2043-07-25
Also published as: CN116902454A

Abstract

The invention discloses a warehouse logistics container sharing system suitable for various electric power supplies, which belongs to the technical field of electric power supply storage and comprises a standardized base and a supply mould; the standardized base comprises a bottom plate and a plurality of hollow metal profiles arranged below the bottom plate, and jacks are respectively arranged at four corners of the bottom plate; the material molds are a plurality of molds respectively provided with accommodating cavities matched with different types of electric material appearance structures, and the bottoms of the molds are respectively provided with an inserting fixing structure matched with the sizes of jacks at four corners of the base plate of the standardized base; the standardized base and the material mould are connected with each other in a coupling way through the jack and the plug-in fixing structure. According to the invention, the detachable material mould is arranged on the standardized base to carry out modularized storage on different materials, and the radio frequency tag is coupled and connected between the jack and the plug-in fixed structure, so that the identification efficiency and accuracy of the warehousing system on various materials can be effectively improved.

Description

Warehouse logistics container sharing system suitable for various electric power supplies

Technical Field

The invention belongs to the technical field of electric power material storage, and particularly relates to a warehouse logistics container sharing system suitable for various electric power materials.

Background

The electric power supplies have the characteristics of multiple varieties, large quantity, different external dimensions, diversified packaging specifications and the like, and more difficulties are brought to the improvement of the warehousing and distribution operation efficiency. For example, the existing electric power material package has low protection capability, lacks uniform package design, is not beneficial to automatic loading and unloading operation and the like, particularly abnormal material represented by iron accessories and insulators, is usually made of fragile materials such as braided fabrics and thin bamboo strips, and the like, and scattered and abnormal bodies such as the iron accessories, insulators and cables, which exist in a large amount, are very easy to cause signal interference during tag identification, so that the identification accuracy is affected.

Disclosure of Invention

Aiming at the problems, the invention provides a warehouse logistics container sharing system suitable for various electric power supplies, which is characterized in that a material mould which is detachably matched with the storage requirements of different types of electric power supplies is arranged on a universal standardized base, so that the modular standard storage of different materials is realized, and the identification efficiency and the accuracy of the warehouse system on various materials can be effectively improved through the coupling connection of radio frequency tags between jacks and a plug-in fixed structure.

The technical scheme adopted for solving the technical problems is as follows:

a warehouse logistics container sharing system suitable for various electric power supplies comprises a standardized base and a detachable material mould borne on the standardized base; the standardized base comprises a bottom plate and a plurality of hollow metal sections arranged below the bottom plate, the four corners of the bottom plate are respectively provided with jacks for connecting different material molds to realize the support and fixation of electric power materials, steel plates are horizontally paved between the hollow metal sections for reinforcement, and hollow structures formed by connecting the steel plates between the hollow metal sections and the inner cavities of the adjacent hollow metal sections form a fork entering structure surrounding the periphery of the standardized base; the material molds are a plurality of molds respectively provided with accommodating cavities matched with different types of electric material appearance structures, and the bottoms of the molds are respectively provided with an inserting fixing structure matched with the sizes of jacks at four corners of the base plate of the standardized base; the standardized base and the material mould are connected with each other in a coupling way through the jack and the plug-in fixing structure.

Further, the bottom of each jack is provided with a feed coupling interface; a wireless interactive coil is arranged in the bottom plate of the standardized base and is electrically connected with the feed coupling interface, and a wireless signal in a warehouse is received through the wireless interactive coil to feed a gain auxiliary signal to the feed coupling interface; the bottom of the plugging fixing structure is provided with a radio frequency tag, the outer ring of the radio frequency tag is provided with a feed connection structure, the inner ring of the radio frequency tag is connected with an RFID chip, the feed connection structure receives a feed signal at the bottom of the jack, and the feed signal is modulated by the RFID chip and then radiates a radio frequency identification signal outwards.

Further, the feed coupling interface is a conductive metal sheet attached to the inner wall of the jack.

Further, the material mould includes that the rectangular of the cooperation electric power material length and width size cuts apart the disc mould, the snakelike of the cooperation column type porcelain insulator overall dimension of arranging cuts apart the disc mould, the transverse mould of arranging the transverse accommodation hole array, around the protective net that standardized base periphery set up, connect the separation net between the protective net of both sides, the vertical mould of the accommodation hole array of arranging vertically link up, the disc structure of arranging provides fixed disc mould for various different grade annular or spherical electric power material.

Further, the feed arm of the radio frequency tag is arranged in the feed connection structure and comprises at least one pair of feed arms which are arranged parallel to the long edge of the substrate, wherein one side of the feed arm is electrically connected with the feed connection structure at one side edge of the substrate, and the other side of the feed arm is electrically connected with the feed connection structure at the other side edge of the substrate; each feed arm is provided with a plurality of tuning arms which are matched with tuning zero points at intervals along the long axis direction, the tuning arms are vertically connected with the feed arms, and the tuning arms connected with the adjacent two feed arms are parallel to each other and are arranged in a staggered manner; the RFID chip is connected between tuning arms adjacently arranged in the feed arm and used for modulating radio frequency identification signals.

Further, the length of the tuning arm is 1/4 of the working wavelength of the chip; the width of the tuning arm near the end of the feed arm is smaller than the tuning arm near the center of the substrate.

Further, the substrate may be a PI material or an FPC flexible substrate.

The technical scheme of the invention can produce the following technical effects:

1. the warehouse logistics container sharing system suitable for various electric power supplies provided by the invention is suitable for the appearance structures of different electric power supplies by arranging the material molds with corresponding sizes, can realize sharing of the warehouse space and modularized standard storage of different materials, is convenient for flexibly arranging the warehouse space, and effectively avoids damage of the materials.

2. According to the invention, the radio frequency tag matched with the standardized base is arranged at the bottom of the material mould, and different radio frequency tags are arranged on the material mould for accommodating different electric power materials, so that the radio frequency tag identification equipment can conveniently read the material type information, and the identification of various electric power materials can be accurately realized; further through embedding wireless interactive coil in the bottom plate inside at each standardized base, make its and the feed coupling interface electricity that the jack bottom set up be connected to feed coupling interface feed in gain auxiliary signal, and then realize the reinforcing to radio frequency identification signal radiation intensity, can promote the discernment accuracy.

Drawings

FIG. 1 is a schematic diagram of a rectangular split disc die set-up in accordance with the present invention;

FIG. 2 is a schematic illustration of a serpentine divider disc mold installation provided by the present invention;

FIG. 3 is a schematic view of a lateral mold installation method according to the present invention;

FIG. 4 is a schematic view of the installation mode between the standardized base and the protection net provided by the invention;

FIG. 5 is a schematic illustration of the addition of a spacer mesh between the standardized base and the protective mesh provided by the present invention;

FIG. 6 is a schematic view of a vertical mold installation provided by the present invention;

FIG. 7 is a schematic view of a vertical mold mounting manner of an array-arranged disc structure according to the present invention;

FIG. 8 is a schematic diagram of a RFID tag and its mounting location used in an embodiment of the present application;

fig. 9 is a direction angle pattern of the radio frequency tag according to the embodiment of the present application.

Reference numerals: standardized base 1, material mould 2, radio frequency label 3, jack 10, grafting fixed knot constructs 20, snakelike partition dish mould 21, horizontal mould 22, protection net 23, partition net 24, perpendicular mould 25, feed connection structure 30, RFID chip 31, feed arm 32, tuning arm 33.

Description of the embodiments

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are some, but not all, embodiments of the invention.

The invention relates to a warehouse logistics container sharing system suitable for various electric power supplies, which comprises:

the standardized base 1, as shown in figure 1, comprises a bottom plate and a plurality of hollow metal sections arranged below the bottom plate, wherein steel plates can be laid between the hollow metal sections for reinforcement, and hollow structures formed by connecting the steel plates between the hollow metal sections and the adjacent hollow metal sections form a fork-entering structure surrounding the periphery of the standardized base 1; in order to avoid toppling or abrasion during electric power material storage, jacks 10 are respectively arranged at four corners of a bottom plate of the standardized base 1; the bottom of each jack 10 is provided with a feed coupling interface;

a material mold 2 on which accommodating chambers matched with different types of electric material outline structures are arranged in any manner as shown in fig. 1 to 7; the bottom of each material mould 2 is respectively provided with a plugging fixing structure 20 matched with the sizes of jacks at four corners of the bottom plate of the standardized base 1, the bottom of the plugging fixing structure 20 is provided with a radio frequency tag 3, and the radio frequency tag 3 is used for receiving feed signals at the bottom of the jack 10; specifically, in order to match different electric power supplies, the supply molds 2 are respectively set in any form as follows:

(1) Rectangular separation disc type mould with matched length and width dimensions of electric materials is arranged, which can horizontally accommodate semicircular flat iron hoops (U240), semicircular hoops (U18X 260) and T-shaped line clamps (TY-120) through the structure shown in figure 1, and the separation plates in the rectangular separation disc can respectively separate the materials to avoid collision in the transportation and storage processes;

(2) The serpentine separation disc type mold 21 matched with the outer diameter of the column type porcelain insulator is arranged, the circuit column type porcelain insulator can be horizontally accommodated through the structure shown in fig. 2, the serpentine separation plate can be matched with the width of the outer diameter of the insulator, the insulator can be tightly clamped and fixed in the serpentine separation disc type mold, and collision of the insulator in the transportation and storage processes is avoided;

(3) The transverse dies 22 with the transverse containing hole arrays are arranged, a plurality of layers can be arranged according to the structure of fig. 3, and the opening directions of the transverse dies of each layer can be staggered, so that each insulator is inserted and fixed in the horizontal strip-shaped containing cavities arranged in each layer of dies, and the containing and fixing of the line column type porcelain insulation are realized;

(4) The protective net 23 is arranged around the periphery of the standardized base 1, can be inserted and fixed around the standardized base through the upright posts positioned at the end parts of the protective net in fig. 4, and forms a relatively closed space around the standard base, so as to accommodate and fix cable branch boxes, disc-shaped cables and whole-support iron accessory materials, such as subway receiving, flat steel and galvanization;

(5) The separation net 24 connected between the two side protection nets 23 of the standardized base 1 can flexibly adjust the connection position with the peripheral protection net according to the size of the electric power materials, and the space in the protection net 23 is separated into a plurality of independent spaces matched with different sizes of the electric power materials in a mode shown in fig. 5 so as to realize the accommodation and fixation of small cable branch boxes, disc-shaped cables and whole-support iron accessory materials, such as subway connection, flat steel and galvanization;

(6) A vertical die 25 in which an array of longitudinally penetrating receiving holes is arranged, which may be provided in a vertical array structure as shown in fig. 6 to support and fix the structure of the distribution wire, the ac disc-shaped suspension porcelain insulator, etc. through each vertical receiving chamber;

the material mold can also be arranged in a disc structure arranged in an array as shown in fig. 7 to provide fixation for various annular or spherical electric materials of different types, so as to avoid rolling and falling in the process of carrying.

The dies of the types can be borne on the standardized base 1, and share of the storage space is realized through the universal standardized base 1, so that the storage space is conveniently and flexibly arranged.

The radio frequency tag 3 includes:

a back adhesive can be arranged on the back of the substrate to be fixedly adhered to the bottom end of the plug-in structure 20; the substrate can be made of PI material or FPC flexible substrate, and the length and width of the substrate are not smaller than the bottom dimension of the plug-in fixing structure 20, so that the feed connection mechanism 30 at the periphery of the substrate can be turned outwards to realize electric connection with the feed coupling interface;

the feed connection structure 30 is arranged on the periphery of the substrate, the feed connection structure 30 is arranged on the other surface of the substrate opposite to the back glue, the periphery of the feed connection structure 30 can be backwards folded to one side of the back glue along the plugging sliding direction of the plugging fixed structure 20 in a state that the plugging fixed structure 20 is plugged in the jack 10, so that the surface of the feed connection structure 30 is kept on the outer side of the plugging fixed structure 20 to realize electric connection with a feed coupling interface arranged in the jack 10, and a gain auxiliary signal is received;

the feed arm 32 is arranged on the other surface of the substrate opposite to the back adhesive and is positioned in the feed connecting structure 30, and the feed arm 32 extends from one side of the feed connecting structure 30 to the center of the substrate;

tuning arms 33 vertically connected with the feed arms 32, arranged on the other surface of the substrate opposite to the back adhesive, and the tuning arms 33 connected with the adjacent two feed arms 32 are parallel to each other and are arranged to be staggered with each other;

and a chip 31 connected between tuning arms 33 adjacently arranged in the feed arms 32 for modulating the radio frequency identification signal.

Meanwhile, in order to facilitate the radio frequency tag reading equipment to accurately read the electric power material types contained in different material molds 2 in a warehouse, a wireless interactive coil is embedded in a bottom plate in each standardized base 1, and the wireless interactive coil is electrically connected with a feed coupling interface arranged at the bottom of a jack 10 so as to receive wireless signals in the warehouse through the wireless interactive coil and feed gain auxiliary signals to the feed coupling interface; and then the gain auxiliary signal is fed into the radio frequency tag 3 attached to the inner wall of the jack 10 in the working state.

From this, through setting up the charging coil outside radiation electromagnetic gain signal on intelligent storage goods shelves, this electromagnetic gain signal is received by the inside wireless interactive coil of embedding bottom plate in standardized base 1, and then feeds in the radio frequency tag 3 of inserting on the material mould 2 in jack 10 through the feed coupling interface, feeds in gain auxiliary signal to feed arm 32 and tuning arm 33 through the feed connection structure 30 of radio frequency tag 3 periphery, realizes the enhancement to radio frequency identification signal radiation intensity.

As an example of the structure of the radio frequency tag 3 in fig. 8, the feeding arms 32 are arranged in one or more pairs parallel to the long side of the substrate, and the feeding arms 32 are symmetrically arranged with the center of the substrate as the center of rotational symmetry; in this embodiment, a pair of feeding arms 32 is taken as an example, one feeding arm of the pair of feeding arms 32 is electrically connected with the feeding connection structure 30 at the left side edge of the substrate, and the other feeding arm is electrically connected with the feeding connection structure 30 at the right side edge of the substrate; when two pairs of feed arms 32 are arranged, the two feed arms positioned at the upper part of the substrate are respectively and electrically connected with the feed connecting structure 30 at the left side edge of the substrate, and the two feed arms positioned at the lower part of the substrate are respectively and electrically connected with the feed connecting structure 30 at the right side edge of the substrate; a tuning arm 33 extending towards the center of the substrate is arranged between a pair of feed arms 32 closest to the center of the substrate, so that impedance matching with the radio frequency identification chip is realized through the electric connection between the tail end of the tuning arm 33 and the chip 31, modulation of the radiation characteristics of the radio frequency tag by the chip is realized, and the radio frequency tag is used for identifying the type of a material mold by superposition in a radio frequency signal radiated outwards by the radio frequency tag; meanwhile, each feed arm 32 can be respectively provided with a plurality of tuning arms 33 at intervals along the long axis direction of the feed arm according to the type of the material mould, so that a plurality of tuning zero points are introduced through impedance change generated between the tuning arms 33, and the modulation of the radiation characteristic of the radio frequency tag is realized. Therefore, the radio frequency tag reading equipment can recognize the type of the die through the tuning characteristic of the radiation signals of each radio frequency tag, accurately position the materials to be fetched further through the types of the electric power materials provided by the chip, and execute operations such as inserting, fetching, carrying and the like.

Further, in this embodiment, the length of the tuning arm 33 in the radio frequency tag 3 is set to 1/4 of the operating wavelength of the chip 31, so as to increase the modulation frequency of the radio frequency signal, in order to increase the radiation intensity of the radio frequency tag 3 signal, the tuning arm 33 near the end of the feeding arm 32 is set to be narrower, and the tuning arms 33 near the centers of several pairs are set to be wider. Therefore, the radio frequency tag 3 of the embodiment can obtain the lobe width shown in fig. 9, the direction angle lobe width 6dB is 158 degrees, the radio frequency tag identification angle can be effectively enlarged, and the radio frequency tag is suitable for complex positioning scenes such as a stereoscopic warehouse. In addition, through the feeding of the gain auxiliary signal, the maximum gain of the radio frequency tag 3 is also improved to 17dB, so that the receiving effect of the radio frequency tag reading equipment can be further improved, and the accurate positioning of electric power materials can be realized quickly.

The above detailed description of the preferred embodiments of the present invention does not provide any limitation to the present invention. Any person skilled in the art will make any equivalent substitution or modification to the technical solution and technical content disclosed in the invention without departing from the scope of the technical solution of the invention, and the technical solution of the invention is not departing from the scope of the invention.

Claims

1. A warehouse logistics container sharing system suitable for various electric power materials, which is characterized by comprising a standardized base (1) and a detachable material mould (2) carried on the standardized base (1); the standardized base (1) comprises a bottom plate and a plurality of hollow metal sections arranged below the bottom plate, jacks (10) are respectively arranged at four corners of the bottom plate to be connected with different material dies (2) to realize the bearing and fixing of electric power materials, steel plates are horizontally paved between the hollow metal sections for reinforcement, and hollow structures formed by connecting the steel plates between the hollow metal sections and the adjacent hollow metal sections form a fork inlet structure surrounding the periphery of the standardized base (1); the material dies (2) are a plurality of dies which are respectively provided with accommodating cavities matched with different types of electric material appearance structures, and the bottoms of the dies are respectively provided with an inserting fixing structure (20) matched with the sizes of jacks (10) at four corners of the bottom plate of the standardized base (1); the standardized base (1) and the material mould (2) are connected with the plug-in fixing structure (20) in a coupling way through the plug holes (10); a feed coupling interface is arranged at the bottom of the jack (10); a wireless interactive coil is arranged in the bottom plate of the standardized base (1) and is electrically connected with the feed coupling interface, and a wireless signal in a warehouse is received through the wireless interactive coil to feed a gain auxiliary signal to the feed coupling interface; the bottom of the plugging fixing structure (20) is provided with a radio frequency tag (3), the outer ring of the radio frequency tag (3) is provided with a feed connection structure (30), the inner ring of the radio frequency tag (3) is connected with an RFID chip, the feed connection structure (30) receives a feed signal at the bottom of the jack (10), and the feed signal is modulated by the RFID chip and then radiates a radio frequency identification signal outwards; the material mould (2) is including arranging the rectangle of the cooperation electric power material length and width size and cut apart disc mould, arrange the snakelike of cooperation column type porcelain insulator overall dimension and cut apart disc mould (21), arrange transverse mould (22) of transverse accommodation hole array, around standardized base periphery setting's protective net (23), connect separation net (24) between the protective net of both sides, arrange vertical mould (25) of longitudinal through accommodation hole array.

2. A warehouse logistics receptacle sharing system in accordance with claim 1, wherein the feed coupling interface is a conductive foil attached to an inner wall of the receptacle (10).

3. A warehouse logistics receptacle sharing system in accordance with claim 1, wherein the asset mold further comprises a disc mold in which a disc structure is arranged to provide a fixture for a variety of different types of annular or spherical electrical assets.

4. A warehouse logistics receptacle sharing system adapted for use with a plurality of electrical supplies as claimed in claim 1, wherein the feeding arms (32) of the radio frequency tag (3) are disposed within the feeding connection structure (30) comprising at least one pair disposed parallel to the long sides of the substrate of the radio frequency tag, wherein one side feeding arm (32) is electrically connected to the feeding connection structure (30) at one side edge of the substrate and the other side feeding arm (32) is electrically connected to the feeding connection structure (30) at the other side edge of the substrate; a plurality of tuning arms (33) matched with tuning zero points are arranged on each feed arm (32) at intervals along the long axis direction of the feed arms, the tuning arms (33) are vertically connected with the feed arms (32), and the tuning arms (33) connected with the adjacent two feed arms (32) are parallel to each other and are staggered with each other; the RFID chip (31) is connected between tuning arms (33) adjacently arranged in the feed arms (32) and used for modulating radio frequency identification signals.

5. A warehouse logistics receptacle sharing system in accordance with claim 4, wherein the tuning arm (33) has a length of 1/4 of the operating wavelength of the chip (31); a width of the tuning arm (33) near an end of the feed arm (32) is smaller than that of the tuning arm (33) near the center of the substrate.

6. The warehouse logistics receptacle sharing system of claim 5, wherein the substrate is a PI or FPC flexible substrate.