CN109388987A - Storage equipment, storage equipment control method, device, refrigerating equipment and system - Google Patents

Abstract

This application involves a kind of storage equipment, storage equipment control method, device, refrigerating equipment and systems, and wherein storage equipment includes: cabinet, and cabinet is used to store the article with corresponding RFID label tag；Cabinet includes bottom plate；Laminate, laminate are set in the cavity of cabinet, for dividing the cavity of cabinet；Mutiple antennas and at least two RFID modules, some antennas are set on bottom plate, and another part antenna is set on laminate；Any antenna is electrically connected a RFID module, and each RFID module is at least electrically connected an antenna；Wherein, each RFID module carries out frequency hopping scanning by corresponding antenna in turn, acquire the Item Information in each RFID label tag, i.e. a RFID module controls a part of antenna, after a RFID module is completed to the control of all antennas connected to it, next RFID module just enters working condition, to realize the antenna orderly controlled in storage equipment, a day problem for line traffic control confusion is avoided, and then efficiently utilizes antenna resources.

Description

Storage equipment, storage equipment control method, device, refrigerating equipment and system

Technical field

The present invention relates to technical field of electrical equipment, more particularly to a kind of storage equipment, storage equipment control method, dress It sets, refrigerating equipment and system.

Background technique

With the development of science and technology, all trades and professions intelligence degree is constantly deepened, all kinds of with calculation processing ability Smart machine also emerges one after another.For example, the Intelligent storage equipment for having function of containing articles has obtained significant progress, wherein for another example Have the refrigerating equipments such as intelligent refrigerator, the intelligent refrigerator-freezer of function of containing articles in terms of the retail business and food, drug storage in terms of All have been widely used.Such refrigerating equipment can be identified automatically and manage the article stored in it.

But during realization, inventor has found that at least there are the following problems: traditional storage equipment pair in traditional technology The control confusion of antenna identifies repetition, leads to the waste of antenna resources.

Summary of the invention

Based on this, it is necessary to repeat to identify for control confusion of traditional refrigerating equipment to antenna, antenna is caused to provide The problem of waste in source, provides a kind of storage equipment, storage equipment control method, device, refrigerating equipment and system.

To achieve the goals above, on the one hand, the embodiment of the present application provides a kind of storage equipment, comprising:

Cabinet, cabinet are used to store the article with corresponding RFID label tag；Cabinet includes bottom plate；

Laminate, laminate are set in the cavity of cabinet, for dividing the cavity of cabinet；

Mutiple antennas and at least two RFID modules, some antennas are set on bottom plate, and another part antenna is set to On laminate；Any antenna is electrically connected a RFID module, and each RFID module is at least electrically connected an antenna；

Wherein, each RFID module carries out frequency hopping scanning by corresponding antenna in turn, acquires the article in each RFID label tag Information.

Antenna is linear polarized antenna in one of the embodiments,.

Antenna is circular polarized antenna in one of the embodiments,.

Antenna is one-way radiation antenna or bidirectional radiation antenna in one of the embodiments,.

It in one of the embodiments, further include chamber door, chamber door is mounted on cabinet, and chamber door is made of electromagnetic shielding material Shield door；

Cabinet further includes the first side plate, the second side plate, third side plate and the 4th side plate；

First side plate, the second side plate, third side plate and the 4th side plate include two layers of first barricades and are sandwiched in two layers The first insulating layer between first barricade；

Bottom plate includes secondary shielding plate, transmission layer made of ABS material and is sandwiched in secondary shielding plate and ABS material is made Transmission layer between the second insulating layer；

First side plate, the second side plate, third side plate, the 4th side plate and bottom plate surround the cavity of cabinet.

On the other hand, the embodiment of the present application also provides a kind of storage equipment control methods, comprising the following steps:

If the corresponding antenna frequency hopping end of scan of the RFID module of current working status, sent to next RFID module Signal is controlled, so that next RFID module carries out frequency hopping scanning by corresponding antenna, acquires the article in each RFID label tag Information.

In another aspect, the embodiment of the present application also provides a kind of storage equipment control devices, comprising:

Whether poll judgment module, the corresponding antenna frequency hopping scanning of RFID module for judging current working status tie Beam；

Signal transmitting module, for sending control signal to next RFID module, so that next RFID module passes through Corresponding antenna carries out frequency hopping scanning, acquires the Item Information in each RFID label tag.

Another aspect, the embodiment of the present application also provides a kind of refrigerating equipments, including compressor, condenser pipe and institute as above The storage equipment stated；

Compressor is mechanically connected condenser pipe；Condenser pipe is set in the cabinet except storage equipment.

Another aspect, the embodiment of the present application also provides a kind of refrigerating system, including management equipment, equipment interface and more A refrigerating equipment as described above；

Management equipment is electrically connected the RFID module of refrigerating equipment by equipment interface.

Management equipment is computer, mobile terminal or cloud server in one of the embodiments,；Refrigerating equipment is RS232 interface, RS485 interface and/or USB interface.

A technical solution in above-mentioned technical proposal is had the following advantages and beneficial effects:

Storage equipment includes cabinet, laminate, mutiple antennas and at least two RFID modules, wherein cabinet is for storing Article with corresponding RFID label tag, cabinet include bottom plate；Laminate is set in the cavity of cabinet, for dividing the chamber of cabinet Body；Some antennas is set on bottom plate, and another part is set on laminate；Any antenna is electrically connected a RFID module, and each RFID module is at least electrically connected an antenna；Antenna specific work process in storage equipment are as follows: each RFID module passes through in turn Corresponding antenna carries out frequency hopping scanning, acquires the Item Information in each RFID label tag, i.e. a RFID module controls a part of day Line, after a RFID module is completed to the control of all antennas connected to it, next RFID module just enters work shape State avoids a day problem for line traffic control confusion, and then effective land productivity to realize the antenna orderly controlled in storage equipment With antenna resources.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the application storage equipment in one embodiment；

Fig. 2 is the aerial radiation direction schematic diagram in one embodiment in the application storage equipment；

Fig. 3 is the step flow chart of the application storage equipment control method in one embodiment；

Fig. 4 is the structural schematic diagram of the application storage equipment control device in one embodiment；

Fig. 5 is the structural schematic diagram of the application refrigerating equipment in one embodiment；

Fig. 6 is the structural schematic diagram of the application refrigerating system in one embodiment.

Specific embodiment

The application in order to facilitate understanding is described more fully the application below with reference to relevant drawings.In attached drawing Give the preferred embodiment of the application.But the application can realize in many different forms, however it is not limited to this paper institute The embodiment of description.On the contrary, purpose of providing these embodiments is make it is more thorough and comprehensive to disclosure of this application.

It should be noted that it can be directly to separately when an element is considered as " connection " another element One element and it is in combination be integrated, or may be simultaneously present centering elements.Term as used herein " being set to ", " installation " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein and the technical field for belonging to the application The normally understood meaning of technical staff is identical.The term used in the description of the present application is intended merely to description tool herein The purpose of the embodiment of body, it is not intended that in limitation the application.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

To repeat to identify to solve traditional storage equipment to the control confusion of antenna, leads to the waste of antenna resources Problem, in one embodiment, as shown in Figure 1, providing a kind of storage equipment, comprising:

Cabinet 12, cabinet 12 are used to store the article with corresponding RFID label tag 14；Cabinet 12 includes bottom plate 122；

Laminate 124, laminate 124 are set in the cavity of cabinet 12, for dividing the cavity of cabinet 12；

Mutiple antennas 16 and at least two RFID modules 18, some antennas 16 are set on bottom plate 122, another part day Line 16 is set on laminate 124；Any antenna 16 is electrically connected a RFID module 18, and each RFID module 18 is at least electrically connected one A antenna 16；

Wherein, each RFID module 18 carries out frequency hopping scanning by corresponding antenna 16 in turn, acquires in each RFID label tag 14 Item Information.

It should be noted that cabinet is used to store the article with corresponding RFID label tag.In one example, cabinet also wraps Include the first side plate, the second side plate, third side plate and the 4th side plate；First side plate, the second side plate, third side plate and the 4th side plate The first insulating layer for including two layers of first barricades and being sandwiched between two layers of first barricades；Bottom plate includes secondary shielding Transmission layer made of plate, ABS material and the second heat preservation being sandwiched between transmission layer made of secondary shielding plate and ABS material Layer；First side plate, the second side plate, third side plate, the 4th side plate and bottom plate surround the cavity of cabinet.In other words, the shell of cabinet (connected by the first barricade of the first side plate, the second side plate, third side plate and the 4th side plate and the secondary shielding trigger tool of bottom plate Connect) have shell made of the material of electromagnetic shielding performance to use, for example, the shell being made of metal material, case The inner casing of body is (by the first barricade of the first side plate, the second side plate, third side plate and the 4th side plate and the transmission layer machine of bottom plate Tool is formed by connecting) four sides be made of the material that has electromagnetic shielding performance, bottom surface is made of magnetic-permeable material, for example, thoroughly Magnetic material can use ABS material, and thermal insulation material is filled between the shell and inner casing of cabinet and forms insulating layer.Using electromagnetic screen The cabinet covered can avoid internal electromagnetism leaked wave, and the bottom plate of cabinet guarantees the first kind day for being mounted on bottom plate using magnetic-permeable material The electromagnetic wave of line transmitting can unhinderedly travel in the cavity of cabinet.

In yet another example, storage equipment further includes chamber door, and chamber door is mounted on cabinet, and chamber door is electromagnetic shielding material Manufactured shield door.Further, chamber door is using chamber door made of the glass with electromagnetic shielding performance.

RFID (Radio Frequency Identification, radio frequency identification) label is remembered based on Radio Frequency Identification Technology The electronic tag of certain information is carried, the relevant information of article, such as unit price, date of manufacture, shelf-life etc. are inside stored.Its In, radio frequency identification is a kind of contactless automatic identification technology, by the data in radiofrequency signal automatic identification RFID label tag, Or data are written to RFID label tag, Radio Frequency Identification Technology works without manual intervention, is operable with various adverse circumstances.One In a example, RFID label tag includes coupling element and chip, and coupling element is electrically connected chip.Further, RFID label tag is Active RFID tag, semi-active RFID label tag or passive RFID tags.Preferably, RFID label tag uses UHF (Ultra High Frequency, hyperfrequency) electronic tag, corresponding RFID module is using ultrahigh frequency RFID module.UHF electronic tag belongs to nothing Source electronic RFID tag, when RFID module is except induction range, UHF electronic tag is in passive states, when RFID module exists Within induction range, UHF electronic tag issues power supply needed for extraction work in electromagnetic wave from RFID module.UHF electronic tag Have the feature that identification distance is remote, resolution is high, anti-collision ability is strong, scalability is good so that storage equipment have it is good Recognition capability.

Laminate for dividing the cavity of cabinet up and down, so that the cavity of cabinet becomes multiple independent storage spaces.One In a example, laminate includes at least one laminate, and the particular number of laminate can be determined according to the size of cabinet.Show at another In example, laminate is the laminate being made of metal material, or using laminate made of the high plastic material of intensity, needs to illustrate , when laminate is the laminate being made of metal material, antenna is attached on laminate, when the laminate plastics high using intensity When laminate made of material (for example, laminate is laminate made of ABS material), antenna can be attached on laminate also embeddable laminate It is interior.Further, laminate is latticed laminate or hollow out laminate.In another example, storage equipment further includes multiple partitions, Partition is arranged on laminate, specifically, being provided at least one partition on each laminate, partition is used for the space on laminate Carry out horizontal segmentation.Further, partition is grid-shaped baffle plate, and metal partion (metp) or plastic septum can be used.

Antenna is receiving and transmitting signal medium between RFID label tag and RFID module.The property of antenna can be characterized by following parameter Can: gain, bandwidth, input impedance, reflecting system, voltage standing wave ratio, incident power/reflection power, lobe width, front and back compare with And polarization characteristic, wherein gain be for measure antenna towards a specific direction receiving and transmitting signal ability；Bandwidth refers to resonance point Frequency in neighbouring a certain range；Input impedance refers to the ratio between antenna input signal voltage and signal code；Reflection coefficient refers to The ratio of reflected voltage and incident voltage；Voltage standing wave ratio refers to the ratio of antinode voltage and node voltage；Lobe width refers to Main lobe greatest irradiation direction two sides；Radiation intensity reduces the angle between the two o'clock of 3dB, for describing antenna energy in master The intensity in valve direction, it should be noted that lobe width is bigger, and the quantity for the antenna for needing to be arranged in cabinet is fewer, has Conducive to the manufacturing cost for reducing storage equipment；The ratio of maximum radiant intensity of the front and back than referring to main lobe and back lobe；Polarization characteristic Indicate the mode for the Electromagnetic Wave Propagation that antenna issues, including linear polarization, circular polarisation and elliptic polarization.

In one example, antenna is linear polarized antenna.Correspondingly, RFID label tag uses linear polarization label, actually make With in the process, in order to enable antenna read-write efficiency maximizes, need to guarantee the polarization direction and RFID label tag of linear polarized antenna Polarization direction is consistent.

In yet another embodiment, antenna is circular polarized antenna.Correspondingly, RFID label tag uses circular polarisation label, into one Step, circular polarized antenna can be left-hand circular polarization antenna or right-handed circular polarization antenna.Specifically, the entelechy that circular polarized antenna generates Change wave be Equal amplitude rotation field, can be analyzed to the line polarization wave of two orthogonal constant amplitudes, 90 degree of phase phase difference, i.e., no matter the antenna of the number of collection of letters Polarization direction how, the signal received be all it is identical, using circular polarized antenna mode, so that RFID module is to antenna The sensibility in orientation and the orientation of label reduces.

Further, in actual application, the quantity of antenna can be depending on the size of cabinet, when the size of cabinet It is small, small number of class antenna is set, when the antenna of biggish quantity is then arranged greatly in the size of cabinet.Wherein, some antennas is set It sets on bottom plate, another part antenna is arranged on laminate, and further, antenna is one-way radiation antenna or bidirectional radiation day Line, it should be noted that as shown in Fig. 2, the RFID label tag carried towards article is arranged in the radiation direction of antenna, so that antenna Efficiency maximizes.Specifically, the antenna being arranged on bottom plate uses one-way radiation antenna, and the radiation direction of antenna is towards bottom plate On article carry RFID label tag.One-way radiation antenna, which can be used, in the antenna being arranged on laminate can also be used bidirectional radiation day Line, when antenna is one-way radiation antenna, RFID label tag that the direction of aerial radiation is carried towards the article on laminate；Work as antenna When for bidirectional radiation antenna, the RFID label tag that a direction of aerial radiation is carried towards the article on laminate, aerial radiation The RFID label tag that another direction is carried towards the article on bottom plate.

Further, in actual application, the quantity of antenna can be depending on the size of cabinet, when the size of cabinet It is small, small number of antenna is set, when the antenna of biggish quantity is then arranged greatly in the size of cabinet, for example, in a cabinet 10 antennas are set, wherein 2 antennas are arranged on bottom plate, 8 antennas are arranged on laminate.It is suitable according to the setting of the size of cabinet When the second class antenna of quantity can be such that the reading efficiency of antenna maximizes, reduce the time for repeating to read.

RFID module is equivalent to the transceiver of antenna, and the information in RFID label tag can be read by antenna, can also be passed through Information is written to RFID label tag in antenna.In one example, RFID module is multichannel RFID module, can be by connecting multiple days Line enhances the scalability of storage equipment, i.e. becoming large-sized with cabinet, can correspondingly increase the quantity of antenna, to protect Demonstrate,proving large-sized cabinet can be covered comprehensively by aerial radiation range, reduce identification blind area, improve recognition effect.

Each RFID module is electrically connected a part of antenna, and each antenna does not repeat electrical connection RFID module, and an antenna is only It is electrically connected a RFID module.

The specific course of work of storage equipment are as follows: each RFID module can in turn under the triggering of external control signal, Such as operation maintenance personnel triggers the control signal of the control signal provided or host computer output manually, initially enters working condition, Each antenna itself connected is driven to carry out frequency hopping scanning, successively to acquire each RFID label tag institute in radiofrequency signal coverage area The Item Information of addendum product.Such as in the work of any one RFID module, other RFID modules keep standby.The working condition RFID module 20 first drives connected any antenna in default frequency range, such as in 920MHz (megahertz) to 925MHz frequency range After carrying out frequency hopping scanning, then another antenna is driven to carry out frequency hopping scanning in aforementioned default frequency range, so successively drives each day Line 18 carries out frequency hopping scanning until traversing all antennas connected in the RFID module.It is traversed in the RFID module each thereon After antenna frequency sweep, next RFID module initially enters the RFID module after working condition, operating mode and previous work It is identical.

The storage equipment course of work in order to facilitate understanding, it is existing for example:

In one example, including 10 antennas, it is denoted as No. 1, No. 2, No. 3 to No. 10, wherein No. 1 to No. 8 antenna It is arranged on laminate, No. 9 antennas and 10 antennas are arranged on bottom plate.Including 2 RFID modules, it is denoted as the first RFID module With the second RFID module.Antenna marked as odd number is electrically connected the first RFID module, and the antenna marked as even number is electrically connected second RFID module.During the work time, the first RFID module is successively swept in default frequency range by No. 1, No. 3 to No. 9 antennas respectively The information read in RFID label tag is retouched, after the first RFID module completes work, the second RFID module successively passes through 2 respectively again Number, the scanning in default frequency range of No. 4 to No. 10 antennas read the information in RFID label tag, after the second RFID module completes work The work of the first RFID module is again returned to, is successively recycled in turn.The example be merely illustrative each RFID module successively in turn by pair The working method of the information in RFID label tag is read in the antenna answered scanning in default frequency range, does not constitute the number to RFID module The restriction of the job order of amount, the quantity of antenna, the job order of each RFID module and antenna.Further, frequency range is preset It can be determined according to actual needs, for example, default frequency range is 920MHz to 925MHz.

In each embodiment of the application storage equipment, storage equipment includes cabinet, laminate, mutiple antennas and at least two RFID module, wherein cabinet is used to store the article with corresponding RFID label tag, and cabinet includes bottom plate；Laminate is set to cabinet Cavity in, for dividing the cavity of cabinet；Some antennas is set on bottom plate, and another part is set on laminate；Any day Line is electrically connected a RFID module, and each RFID module is at least electrically connected an antenna；Storage equipment detailed process are as follows: each RFID Module carries out frequency hopping scanning by corresponding antenna in turn, acquires the Item Information in each RFID label tag, i.e. a RFID module A part of antenna is controlled, after a RFID module is completed to the control of all antennas connected to it, next RFID module Just enter working condition, to realize the antenna orderly controlled in storage equipment, avoid a day problem for line traffic control confusion, And then efficiently utilize antenna resources.

In one embodiment, as shown in figure 3, providing a kind of storage equipment control method, comprising the following steps:

Step S310, if the corresponding antenna frequency hopping end of scan of the RFID module of current working status, to next RFID module sends control signal and acquires each RFID so that next RFID module carries out frequency hopping scanning by corresponding antenna Item Information in label.

Wherein, controller, host computer, terminal etc. can be used and have the equipment of control function to control to RFID module System, does not limit the controlling party of RFID module as the control of which kind of equipment or which kind of mode, as long as realizing to RFID module Control.

Specifically, terminating namely the RFID of the working condition in the RFID module work for being currently at working condition When module has successively driven that all antennas have carried out frequency hopping scanning thereon, can be included by host computer or article-storage device Control system, such as the master controller of refrigerator-freezer send control signal to next RFID module, and control signal can be but unlimited In timing level signal.Next RFID module starts in setting frequency range, successively drive thereon each antenna carried out frequency hopping and swept It retouches.When next RFID module is started to work, any antenna carries out frequency hopping in 920MHz to 925MHz frequency range and sweeps thereon for driving It retouches.It is received to the antenna frequency sweep, that is, drives next antenna to carry out frequency hopping scanning in 920MHz to 925MHz frequency range, in this way, directly Each antenna on to next RFID module, which completes frequency hopping scanning, terminates the work of next RFID module.So It takes turns each RFID module of flow control and passes in and out working condition, when can be scanned in real time by each antenna frequency hopping, RFID mark on each article The radiofrequency signal of label feedback reads the Item Information of each article.

It should be noted that storage equipment control method is the hardware configuration based on storage equipment and the method realized.

The detailed process of storage equipment control method in order to facilitate understanding, it is existing for example:

In one example, including 12 antennas, it is denoted as No. 1, No. 2, No. 3 to No. 12, wherein No. 1 to No. 10 day Line is arranged on laminate, and No. 11 antennas and 12 antennas are arranged on bottom plate.Including 3 RFID modules, it is denoted as the first RFID Module, the second RFID module and third RFID module.No. 1 to No. 4 antenna is electrically connected the first RFID module, No. 5 to No. 8 antennas It is electrically connected the second RFID module, No. 9 to No. 12 antennas are electrically connected the second RFID module.In specific control flow, first Successively by No. 1 to No. 4 antenna, the information in RFID label tag is read in scanning to RFID module in default frequency range respectively, first After RFID module completes work, the second RFID module is successively scanned in default frequency range by No. 5 to No. 8 antennas respectively read again Information in RFID label tag, after the second RFID module completes work, third RFID module successively passes through No. 9 to No. 12 respectively again The information in RFID label tag is read in antenna scanning in default frequency range, returns again to first after third RFID module completes work RFID module work, successively recycles in turn.The example is merely illustrative each RFID module successively in turn by corresponding antenna pre- If the working method of the information in RFID label tag is read in scanning in frequency range, the number of quantity to RFID module, antenna is not constituted The restriction of the job order of amount, the job order of each RFID module and antenna.

In each embodiment of the application storage equipment control method, RIFD module for reading and writing can be reasonably controlled according to order Work, then it is scanned reading each by antenna connected to it by RIFD module for reading and writing, avoid day line traffic control confusion Problem also avoids repeating the problem of identifying, and then improves antenna recognition efficiency, has been effectively saved antenna resources.

It should be understood that although each step in the flow chart of Fig. 3 is successively shown according to the instruction of arrow, this A little steps are not that the inevitable sequence according to arrow instruction successively executes.Unless expressly state otherwise herein, these steps It executes there is no the limitation of stringent sequence, these steps can execute in other order.Moreover, at least part in Fig. 3 Step may include that perhaps these sub-steps of multiple stages or stage are executed in synchronization to multiple sub-steps It completes, but can execute at different times, the execution sequence in these sub-steps or stage, which is also not necessarily, successively to be carried out, But it can be executed in turn or alternately at least part of the sub-step or stage of other steps or other steps.

In one embodiment, as shown in figure 4, providing a kind of storage equipment control device, comprising:

Poll judgment module 410, whether the corresponding antenna frequency hopping scanning of RFID module for judging current working status Terminate；

Signal transmitting module 420, for sending control signal to next RFID module, so that next RFID module is logical It crosses corresponding antenna and carries out frequency hopping scanning, acquire the Item Information in each RFID label tag.

Specific about storage equipment control device limits the limit that may refer to above for storage equipment control method Fixed, details are not described herein.Modules in above-mentioned storage equipment control device can fully or partially through software, hardware and its Combination is to realize.Above-mentioned each module can be embedded in the form of hardware or independently of in the processor in computer equipment, can also be with It is stored in the memory in computer equipment in a software form, in order to which processor calls the above modules of execution corresponding Operation.

In one embodiment, as shown in figure 5, providing a kind of refrigerating equipment, including compressor 52, condenser pipe 54 and Such as storage equipment storage equipment as described in the examples；

Compressor 52 is mechanically connected condenser pipe 54；Condenser pipe 54 is set in the cabinet 12 of storage equipment.

Wherein, refrigerating equipment is used for the electrical equipment of cryo-conservation food, drug and other items.For example, refrigerating equipment packet Include refrigerator-freezer, refrigerator, freezer etc..Condenser pipe is arranged on the inner wall of cabinet.

In one example, refrigerating equipment further includes lighting apparatus, lighting apparatus.Specifically, lighting apparatus will not generate Electromagnetism leaked wave avoids the Electromagnetic Interference RFID module to leak from reading the information in RFID label tag by antenna.Refrigerating equipment It avoids that antenna is arranged in the position of installation condenser pipe, so that the frost on condenser pipe be avoided to destroy antenna.

In yet another example, refrigerating equipment further includes controller, and controller is electrically connected RFID module, compressor and photograph Bright equipment.Controller is the control centre of refrigerating equipment, the co-ordination of each section for controlling refrigerating equipment.

In each embodiment of the application refrigerating equipment, by the way that antenna to be arranged on the bottom plate and laminate of cabinet, effectively overcome The box house antenna footprint for solving traditional refrigerating equipment is inadequate, interference of the condensation frosting to antenna, cabinet in cabinet The problems such as aerial signal caused by metal inner surface and box house metallic support is decayed, and have by the way that antenna is reasonably arranged Effect ground reduces identification blind area, improves RFID module to the reliability of tag recognition, and it is sleeping finally to solve large capacity for a long time The problem of formula refrigerating equipment arrangement antenna.

In one embodiment, as shown in fig. 6, providing a kind of refrigerating system, including management equipment 62, equipment interface 64 And multiple refrigerating equipments as described above；

Management equipment 62 is electrically connected the RFID module 18 of refrigerating equipment by equipment interface 64.

Further, management equipment 62 is computer, mobile terminal or cloud server；Equipment interface 64 be RS232 interface, RJ45 interface, RS485 interface and/or USB interface.

Wherein, management equipment is used for the multiple refrigerating equipments of integrated management, realizes in big region that (such as large supermarket) is multiple The unified management of refrigerating equipment, specifically, each refrigerating equipment will collect the article stored in refrigerating equipment by RFID module For the information reportings such as type and quantity to management equipment, management equipment counts the information that each refrigerating equipment reports, and generates to each Refrigerating equipment matches the list of articles of goods, to supplement corresponding article to refrigerating equipment in time.In one example, management equipment For computer, mobile terminal or cloud server.

To connect, multiple refrigerating equipments provide scalability interface to equipment interface and to be that management equipment 62 provides wired Communication interface, function be summarize and transmit information, in one example, equipment interface include RS232 interface, RJ45 interface, RS485 interface and/or USB interface.

In each embodiment of the application refrigerating system, multiple refrigerating equipments are managed collectively using management equipment 62, improve equipment The efficiency of management and timeliness, also reduce the investment of the manpower and material resources of management.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.Those of ordinary skill in the art will appreciate that realizing above-mentioned implementation All or part of the steps in example method is relevant hardware can be instructed to complete by program, and the program can deposit It is stored in a computer-readable storage medium, which when being executed, includes the steps that described in above method, the storage Medium, such as: ROM/RAM, magnetic disk, CD.

The several embodiments of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the concept of this application, various modifications and improvements can be made, these belong to the protection of the application Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of storage equipment characterized by comprising

Cabinet, the cabinet are used to store the article with corresponding RFID label tag；The cabinet includes bottom plate；

Laminate, the laminate are set in the cavity of the cabinet, for dividing the cavity of the cabinet；

Mutiple antennas and at least two RFID modules, the part antenna are set on the bottom plate, day described in another part Line is set on the laminate；Any antenna is electrically connected a RFID module, and each RFID module is at least electric Connect an antenna；

Wherein, each RFID module passes through the corresponding antenna progress frequency hopping scanning in turn, acquires each RFID label tag Interior Item Information.

2. storage equipment according to claim 1, which is characterized in that the antenna is linear polarized antenna.

3. storage equipment according to claim 1, which is characterized in that the antenna is circular polarized antenna.

4. according to claim 1 to storage equipment described in 3 any one, which is characterized in that the antenna is one-way radiation day Line or bidirectional radiation antenna.

5. according to claim 1 to storage equipment described in 3 any one, which is characterized in that it further include chamber door, the chamber door peace On the cabinet, the chamber door is shield door made of electromagnetic shielding material；

The cabinet further includes the first side plate, the second side plate, third side plate and the 4th side plate；

First side plate, second side plate, the third side plate and the 4th side plate include two layers of first barricades And it is sandwiched in the first insulating layer between two layers of first barricade；

The bottom plate includes secondary shielding plate, transmission layer made of ABS material and is sandwiched in the secondary shielding plate and the ABS The second insulating layer between transmission layer made of material；

First side plate, second side plate, the third side plate, the 4th side plate and the bottom plate surround the cabinet Cavity.

6. a kind of storage equipment control method, which comprises the following steps:

If the corresponding antenna frequency hopping end of scan of the RFID module of current working status, sent to next RFID module Signal is controlled, so that next RFID module carries out frequency hopping scanning by the corresponding antenna, acquires each RFID Item Information in label.

7. a kind of storage equipment control device characterized by comprising

Whether poll judgment module, the corresponding antenna frequency hopping scanning of RFID module for judging current working status terminate；

Signal transmitting module, for sending control signal to next RFID module, so that next RFID module Frequency hopping scanning is carried out by the corresponding antenna, acquires the Item Information in each RFID label tag.

8. a kind of refrigerating equipment, which is characterized in that including compressor, condenser pipe and as described in claim 1 to 5 any one Storage equipment；

The compressor is mechanically connected the condenser pipe；The condenser pipe is set in the cabinet except storage equipment.

9. a kind of refrigerating system, which is characterized in that including management equipment, equipment interface and multiple as claimed in claim 8 Refrigerating equipment；

The management equipment is electrically connected the RFID module of the refrigerating equipment by the equipment interface.

10. refrigerating system according to claim 9, which is characterized in that the management equipment is computer, mobile terminal or cloud Hold server；The refrigerating equipment is RS232 interface, RS485 interface and/or USB interface.