CN100357494C - Anode pole identification system and anode pole for the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an anode pole identification system provided on a marine structure for preventing the sticking of marine organisms to the marine structure or the corrosion of the marine structure, and to provide an anode pole used therefor.

Description

The anode bar recognition system of marine structure

Technical field

The present invention relates generally to a kind of recognition system, and the anode bar that relates more specifically to a kind of marine structure anode bar recognition system and be used for this anode bar recognition system.

Background technology

Generally speaking, refrigerating unit for desalting treatment field, seawater magnesia manufactory and power station etc., need to flow into a large amount of seawater of using as water coolant, but the problem that the inflow of this seawater will inevitably bring the pipe arrangement inside of spore in cooling line such as mussel, barnacle, marine alga to adhere to and grow.In addition, thus the surface of pipeline etc. also can corrode with seawater reaction.

This problem is not only limited to land factory, also can betide boats and ships etc.Promptly,, salt water supply must be arranged, therefore just problem same as described above can take place at the seawater position of supply for carrying out engine cool and boats and ships balance (Ballast) for boats and ships.

For addressing this is that, traditional technology adopts antifouling with anode bar and corrosion protection anode bar simultaneously, is preventing by the ocean when the works that biology causes pollutes, prevents that the works that is caused by corrosion from polluting.

As the conventional art relevant with the present invention, disclosed have patent documentation 1 " seawater circulation system in marine organisms live prevent devices and methods therefor ", patent documentation 2 " marine organisms adhere to anti-locking apparatus " and a patent documentation 3 " marine biological polution reduce method " etc.

[patent documentation 1] korean patent application publication number 2001-0097221 specification sheets

No. 249437 specification sheets of [patent documentation 2] Korean Utility Model accession number

[patent documentation 3] international publication number WO87/03261 specification sheets

In conventional art, antifoulingly mainly adopt copper (Cu) with anode bar, corrosion protection is then adopted aluminium (Al) or iron (Fe) etc. with anode bar.

In addition, the corrosion protection that it is reported not only has corrosion protection result with electrode, but also has anti-fouling effect to a certain degree, generally uses jointly with electrode with antifouling.

Fig. 1 and Fig. 2 are the sketch chart of the antifouling and corrosion protective system of conventional art.

Among Fig. 1, seawater flows into water tank, be furnished with the antifouling corrosion protection anode bar of copper ion releasing in couples, accept AC power and provide the constant current self-commutation device of direct supply to be connected with anode bar with anode bar and corrosion protection with anode bar and corrosion protection with anode bar with antifouling to antifouling with anode bar and release aluminium or iron ion.

Fig. 2 relates to the antifouling and corrosion protective system that is used for flowing into as water coolant the seawater in the boats and ships, be a kind of fully and Fig. 1 have the technology of identity.

In this conventional art, antifouling with anode bar and corrosion protection with anode bar with the state of contact with sea water under use, antifoulingly be coupled with anode bar and stationary installation with anode bar and corrosion protection, and with marine structure fixed coupling such as hull and water tank.

On the other hand, because anode bar, stationary installation and power suppling part (such as constant current self-commutation device) are directly related with the quality of antifouling and corrosion protective system, thereby directly make by same factory integraty ground, because the anode bar persistence discharges positively charged ion, therefore should roughly change in addition by the cycle in 2 years.

When changing anode bar as mentioned above, the new anode bar of being changed is that this situation of product with the former factory that antifouling and corrosion protective system be provided different other factory's made occurs repeatedly.

Summary of the invention

Yet, if in antifouling and corrosion protective system, use the anode bar of other factory, then former antifouling and corrosion protective system factory just is difficult to keep the quality identity of our company's product, thereby has because of the destruction of this quality identity and suffer the greatly anxiety of strike of market credit.

Problem of the present invention for this reason is, a kind of marine structure anode bar recognition system is provided, wherein, can in the electrode part of forming by anode bar and stationary installation, sending module be set, and produce the signal of relevant identifying information by above-mentioned sending module, the receiver module of being located at power suppling part one side receives it, and the power supply supply of control power suppling part.

For solving above-mentioned problem, the invention provides a kind of marine structure anode bar recognition system, comprise: electrode part, it comprises and the anode bar of contact with sea water and the above-mentioned anode bar and be fixed in the stationary installation of marine structure of being coupled removably under state of insulation; Power suppling part, it provides power supply via power supply line to above-mentioned anode bar; Sending module, it is arranged at above-mentioned electrode part one side, and produces recognition signal; Receiver module, it is arranged at above-mentioned power suppling part one side, receives and analyze the above-mentioned recognition signal from above-mentioned sending module, and controls the power supply supply of above-mentioned power suppling part.

As above-mentioned recognition signal, can consider id information, life information and base period information etc.So-called id information can be to be stored in the enciphered data of sending module for indicating anode bar factory etc.Therefore receiver module can be analyzed above-mentioned id information, not detecting above-mentioned id information or detecting under the situation of different id informations, controls, thereby makes above-mentioned power suppling part interrupt the power supply supply.

So-called life information means the time power supply supply time summation that begins that begins to provide to the particularly above-mentioned anode bar of above-mentioned electrode part power supply from above-mentioned power suppling part.Therefore above-mentioned receiver module can be analyzed above-mentioned life information, if judge above-mentioned life information above during certain, then can control, and makes above-mentioned power suppling part interrupt the power supply supply.

So-called base period information means the date of built of relevant above-mentioned anode bar or the above-mentioned anode bar information from the specific dates such as date of factory's outbound.Therefore above-mentioned receiver module can be analyzed the said reference date and time information, if judge current date from the said reference date passed through certain during, then can control, make above-mentioned power suppling part interrupt the power supply supply.

In above-mentioned, be desirably above-mentioned sending module by producing above-mentioned recognition signal in above-mentioned power supply line inductive impulse, above-mentioned receiver module is surveyed the pulse of above-mentioned power supply line, and receives above-mentioned recognition signal.Transmit by the signal that carries out via above-mentioned power supply line between above-mentioned sending module and the above-mentioned receiver module, between above-mentioned power suppling part and above-mentioned sending module, only need a power supply line, can reduce the setup fee of antifouling and corrosion protective system uses, and in existing antifouling and corrosion protective system, import under the situation of the present invention, also can utilize existing power supply line, and electric wire needn't be set in addition, thereby be easy to its setting.

In above-mentioned, above-mentioned recognition signal also can be made up of the data of being distinguished according to the pulse height conversion of above-mentioned pulsed voltage.

In above-mentioned, above-mentioned sending module also can be by the identification marking that is arranged at above-mentioned anode bar, form for discerning the means of identification that above-mentioned identification marking is arranged at the said fixing device and produces above-mentioned recognition signal.

In above-mentioned, identification marking and means of identification are paired mutually, as this example, can enumerate barcode and scanner or wireless identification label (RFID Tag, Radio FrequencyIdentification Tag, Transponder) and wireless identification reader (RFID ReaderRadio Frequency Identification Reader).

In above-mentioned, be desirably between above-mentioned anode bar and said fixing device and insert insulation spacer, and above-mentioned identification marking be arranged at the position that contacts with above-mentioned insulation spacer.Owing to As time goes on anode bar consumes, and by the passing of this time, the final part that consumes is the position that anode bar contacts with insulation spacer, thereby be necessary at the position that anode bar contacts with insulation spacer identification marking to be set as far as possible, to prevent that identification marking from coming off from anode bar, till anode bar is changed.

In above-mentioned, being desirably above-mentioned identification marking is wireless identification label, and above-mentioned means of identification is the wireless identification reader.As the automatization means of identification, the known technology that barcode is arranged and utilized scanner, if but considered the insulation spacer that between anode bar and stationary installation, inserts, then preferably would be chosen in also spendable wireless identification (RFID) system under the state of contactless and non-visible rays frequency band.

In above-mentioned, consider above-mentioned power supply line as the signal transmission path between above-mentioned means of identification and the above-mentioned receiver module.Although for carrying out the signal transmission of means of identification and receiver module, the also consideration scheme of appending other order wire, this scheme are for the boats and ships that now have been provided with antifouling and corrosion protective system etc., and the operation itself of preparing order wire again will become bigger burden.

In above-mentioned, above-mentioned means of identification is arranged at the position that the said fixing device contacts with above-mentioned insulation spacer, and for accepting the power supply supply via above-mentioned anode bar, above-mentioned means of identification is electrically connected with above-mentioned anode bar.By this structure, means of identification and identification marking are set to immediate distance, thereby become very simple to this structure of means of identification supply power supply.

For solving above-mentioned problem, the invention provides a kind of anode bar, it is for preventing that oneself biology of ocean from adhering to or marine structure corrodes on marine structure, and with the contact with sea water setting, and to being fixed in the stationary installation of above-mentioned marine structure, it is coupled removably with the said fixing device under state of insulation, to accept the power supply supply from power suppling part, wherein, the identification marking that is used to control above-mentioned power supply supply is set at above-mentioned anode bar.

In above-mentioned, being desirably above-mentioned identification marking is wireless identification label.

In above-mentioned, be desirably above-mentioned identification marking and be provided with towards the said fixing device.

According to the present invention, sending module can be set in electrode part, and produce the signal of relevant identifying information by above-mentioned sending module, receive the signal of these identifying informations by the receiver module of being located at power suppling part one side, the power supply supply of controllable power supply department, and can could control the action of antifouling and corrosion protective system, thereby can keep the quality identity of antifouling and corrosion protective system by the true and false of anode bar.

Description of drawings

Fig. 1 is the sketch chart of the antifouling and corrosion protective system of conventional art.

Fig. 2 is the sketch chart of the antifouling and corrosion protective system of conventional art.

Fig. 3 is the total system pie graph of the present invention's the 1st embodiment.

Fig. 4 is the schematic circuit of the sending module of Fig. 3.

Fig. 5 is the schematic circuit of the receiver module of Fig. 3.

Fig. 6 a is the accompanying drawing of the voltage of system of the power supply line when normally providing power supply in presentation graphs 3 embodiments.

Fig. 6 b is the accompanying drawing of the voltage of system of the power supply line when data transmit in presentation graphs 3 embodiments.

Fig. 7 is the data processing sequence figure of sending module and receiver module in Fig. 3 embodiment.

Fig. 8 is the summary section of electrode part in the present invention's the 1st embodiment.

Fig. 9 is by the 2nd embodiment of the present invention, and the summary longitudinal sectional drawing of the state of anode bar has been installed on hull.

Figure 10 is the system block diagrams of the present invention's the 2nd embodiment.

Figure 11 is the system block diagrams of the present invention's the 3rd embodiment.

[nomenclature]

100 electrode part

120 anode bars

150 stationary installations

200 sending modules

300 power suppling parts

400 receiver modules

500 power supply lines

Embodiment

Below based on the 1st embodiment of the present invention, describe formation of the present invention and effect in detail.

Fig. 3 is the total system pie graph of the present invention's the 1st embodiment.

Power suppling part 300 is connected with No. 1 splicing ear of sending module 200 via power supply line 500.Power suppling part 300 is connected with No. 2 splicing ears of receiver module 400 via power supply line 500 in addition.Therefore, sending module 200 just is connected via power supply line 500 with receiver module 400.

Power suppling part 300 is supplied power supply via sending module 200, continuous current specifically, and anode bar 120 is connected with No. 2 splicing ears of sending module 200 via threaded stud 110, thereby accepts the power supply supply from power suppling part 300.Structural relation about anode bar 120 and threaded stud 110 specifies based on Fig. 8.

On the other hand, power suppling part 300 is connected with No. 1 splicing ear of receiver module 400, and with the power supply of the action that is provided for receiver module 400, specifically 12V decides voltage.

Sending module 200 is located at electrode part 100, and electrode part 100 comprises anode bar 120, above-mentioned anode bar 120 and be fixed in the stationary installation 150 of marine structure removably is coupled under state of insulation.Sending module 200 periodically makes the signal of relevant id information, the signal of relevant life information and the recognition signals such as signal of relevant base period information be taken place, and in above-mentioned power supply line 500 pulse voltage of reaction.The installation site of relevant sending module 200 specifies based on Fig. 8.

Receiver module 400 is located at power suppling part 300 sides, detection is the induced pulsed voltage in above-mentioned power supply line 500, and receives the signal of the relevant id information that above-mentioned sending module 200 makes it to take place, the signal of relevant life information and the recognition signals such as signal of relevant base period information.Receiver module 400 preferably is set to the inside of power suppling part 300.

The signal of the signal of 400 pairs of relevant id informations that received of receiver module, relevant life information and the recognition signals such as signal of relevant base period information are analyzed, when judging anode bar and being not genuine piece, via No. 4 splicing ears, transmit the signal that is used to block the power supply that above-mentioned power suppling part 300 provides via power supply line 500.

Fig. 4 is the schematic circuit of the sending module of Fig. 3.

No. 1 splicing ear of splicing ear J4 is connected with power supply line 500, and the power supply that offers No. 1 splicing ear of splicing ear J4 provides circuit via the constant voltage that D4, C3, U4, C4, D5, C5 formed, and provides 5V driving voltage to sending module.

In addition, the power supply that offers No. 1 splicing ear of splicing ear J4 is connected with No. 2 splicing ears of splicing ear J4 via switching element Q1 and IRF9540, No. 2 splicing ears of splicing ear J4 are connected with the threaded stud 110 of Fig. 3, and anode rod 120 provides continuous current.

No. 21 legs of IC chip (U5, PIC16F873) are periodically exported the signal of relevant id information, the signal of relevant life information and the signal of relevant base period information, when signal is exported, transistor Q3 path, transistor Q2 then opens circuit, switching element Q1 also opens circuit, the power supply that offers No. 2 splicing ears of splicing ear J4 is blocked, and boosts to 12V with No. 1 splicing ear of power supply line 500 connection terminals J4.

Like this, do not have at No. 21 legs under the situation of signal output from IC chip (U5, PIC16F873), transistor Q3 opens circuit, transistor Q2 is path then, switching element Q1 is path also, thereby No. 2 splicing ears to splicing ear J4 provide power supply, maintain 5V with No. 1 splicing ear of power supply line 500 connection terminals J4.

Fig. 5 is the schematic circuit of the receiver module of Fig. 3.

The 12V power supply that offers No. 1 splicing ear of splicing ear J1 provides circuit to provide 5V driving voltage to receiver module via the constant voltage that C1, U1, C2 formed.

The power supply line 500 that connects between No. 2 splicing ears of splicing ear J1 is connected with the non-counter-rotating terminal of operational amplifier U3A via R2, operational amplifier U3A compares No. 3 terminals being input to non-counter-rotating terminal votage reference with No. 2 terminals of counter-rotating terminal, and to No. 21 leg output+5V or the 0V of IC chip (U2, PIC16F873).That is, exporting 0V at power supply line 500 under the situation of 5V, is output+5V under the situation of 12V at power supply line 500.

IC chip (U2, PIC16F873) is accepted the data input from No. 21 legs, the signal of relevant id information, the signal and the base period information of relevant life information is analyzed, and controlled the signal of the power supply supply of power suppling parts 300 to No. 11 leg output.

IC chip U6 is configured for generating the frequency dividing circuit of current date.

Fig. 6 a is the accompanying drawing of the voltage of system of power supply line when normally providing power supply in presentation graphs 3 embodiments, and Fig. 6 b is the accompanying drawing of the voltage of system of power supply line when data transmit in presentation graphs 3 embodiments.

The voltage of system of power supply line when Fig. 6 a represents that the anode rod normally provides power supply, it is maintained to 5V.

Fig. 6 b represents the voltage of system of sending module power supply line when receiver module transmits data, and the part that forms the 12V pulse is data, differentiates data class by pulse height.Such as, as data class, can adopt from 0 to 18 till totally 19, can be defined as this moment: mean 16 carry data till from 0 to 15,16 mean and begin to transmit base period information, and 17 mean and begin to transmit life information, and 18 mean and begin to transmit id information.

Fig. 7 is the data processing sequence figure of sending module and receiver module in Fig. 3 embodiment.

Have id information and base period information in sending module at first, life information is set as 0.

After sending module provided power supply, sending module just sent the id information of storing in the sending module to receiver module (S101).

So-called id information is the enciphered data that is stored in sending module for expression anode bar factory etc.

At S102, sending module transmits life information to receiver module.

So-called life information means from power suppling part to begin to provide temporal summation to the power supply that above-mentioned anode bar provides the time point of power supply to begin.Therefore at S104, life information increases one by one.

At S103, sending module transmits base period information to receiver module.

So-called base period means the date of manufacturing anode bar etc.

At S104, life information increases one by one.Therefore in the present embodiment, the numeral of life information is consistent to the number of times that receiver module transmits life information with sending module.

At S105, life information is stored in the EEPROM of sending module.This is that when supplying power supply once more, sending module reads in the life information of storing among the EEPROM at the acknowledgment copy when sending module provides power supply not, thereby continues counting.

At S106, sending module repeats the step that begins from S101 once more after being in the holding state of certain hour.

On the other hand, receiver module is at S201, judges whether the id information of storing in the id information that transmitted and the receiver module is consistent, if the two is inconsistent, then sends the signal that the power supply of blocking power suppling part is supplied.

At S202, the size of the useful life of storing in life information that judgement is transmitted and the receiver module is if the life information that is transmitted, then sends the signal of the power supply supply of blocking-up power suppling part greater than useful life.The useful life of anode bar was approximately about 2 years.

At S203, current date and the base period that is transmitted are compared, gone through 1500 if judge, then send the signal of the power supply supply of blocking-up power suppling part.

Fig. 8 is the summary section of electrode part in the present invention's the 1st embodiment.

Electrode part 100 roughly is made of anode bar 120 and stationary installation 150.

Stationary installation 150 is made up of mounting flange (Mounting Flange) 151 and installation sleeve (Mounting Sleeve) 152.

Be provided with hanger (Lifting Lug) 151a on the top of mounting flange 151,, on mounting flange 151, form a plurality of bolt hole 151b in order to fix marine structure B with bolt.

Mounting flange 151 and installation sleeve 152 are formed one by welding.

Be provided with threaded stud 110 in the inside of installation sleeve 152, anode bar 120 is turned round the bottom that is affixed to above-mentioned threaded stud 110.

For making insulation between threaded stud 110 and the installation sleeve 152, be provided with insulation spacer 153 on top, at the fixing dual nut 111 in the top of insulation spacer 153, and the peripheral part of threaded stud 110 is insulated covering.

For making insulation between anode bar 120 and the installation sleeve 152, between it, be inserted with insulation spacer 154 in addition.

Therefore, installation sleeve 152, mounting flange 151 and hull B are electrically connected, thereby form ground state, and dual in addition nut 111, threaded stud 110 and anode bar 120 are electrically connected.

Sending module 200 the inside of installation sleeve 152 be set at dual nut 111 around, after being provided with sending module 200, with the FRP resin wait the dual nut 111 of filling around, thereby bury sending module 200 underground.

Therefore, if for the anode bar that uses other company is removed dual nut 111, the sending module 200 that then is embedded in the FRP resin etc. just can be together damaged, and receiver module 400 just can not receive the signal of relevant id information after this etc., thus the power supply supply of blocking-up power suppling part 200.

Below based on the 2nd embodiment example of the present invention, describe structure of the present invention and effect in detail.

Fig. 9 is by the 2nd embodiment of the present invention, and the summary longitudinal sectional drawing of the state of anode bar has been installed on hull.For the formation identical,, omit its detailed description with reference to the 1st embodiment with the 1st embodiment.

Threaded stud 110 is accepted the power supply supply via power supply line 500 from power suppling part (not shown).

Therefore, installation sleeve 152, mounting flange 151 and hull B are electrically connected, thereby form ground state, and power supply line 500, threaded stud 110 and anode bar 120 are electrically connected in addition.Thereby come anode rod 300 that power supply is provided via power supply line 500 and threaded stud 110.

In the upper side of anode bar 120, promptly, be provided with wireless identification label 510 with the inboard of the contact surface of insulation spacer 154.

The bottom surfaces of this external installation sleeve 152 promptly with the inboard of the contact surface of insulation spacer 154, is provided with wireless identification reader 520.

Wireless identification reader 520 is electrically connected with installation sleeve 152 by contacting with installation sleeve 152 to come, promptly be grounded, and, accept the power supply supply from anode bar 120 via the spring-like power supply line 521 that from the communicating pores 154a that in insulation spacer 154, forms, connects.

Figure 10 is the system block diagrams of the present invention's the 2nd embodiment.

In power suppling part 300, will be transformed into direct current from the current and power supply that generator (not shown) provides, and provide power supply, but also provide power supply to receiver module 600 via power supply line 500 anode rod 120a, 120b.

On the other hand, wireless identification reader 520a, 520b can directly accept the power supply supply via power supply line 500, also can be connected and accept the power supply supply with threaded stud 110, but in the present embodiment, accept the power supply supply via the power supply line 521a, the 521b that are connected with anode bar 120a, 120b.

Whether wireless identification reader 520a, 520b be to respectively corresponding wireless identification label 510a, 510b output electric wave, and read in the data of wireless identification label 510a, 510b from the electric wave that returns, be the information of this product such as relevant anode bar.

The data of being read in by wireless identification reader 520a, 520b is converted into AC information via AC signal maker (ACSignal Generator) 522a, 522b, and via anode bar 120a, 120b and power supply line 500, sends receiver module 600 to.

After the traffic filter (Signal Filter) 610 that is provided with had from here been removed direct current signal contained in the power supply line 500, receiver module 600 was extracted the signal that sends from wireless identification reader 520a, 520b out.

Receiver module 600 is according to the signal that sends from wireless identification reader 520a, 520b, and the signal that will be used to control the power supply supply of power suppling part 300 sends power suppling part 300 to.

Promptly, be under the situation of this product only at anode bar 120 by wireless identification reader 520a, 520b interpretation, just provide power supply from power suppling part 300 anode rods 120, if and be the product that other factory produces by the anode bar 120 of wireless identification reader 520a, 520b interpretation, then do not provide power supply from power suppling part 600 anode rods 300.

In addition, even be under the situation of genuine piece,, then do not provide power supply from power suppling part 300 anode rods 120 if this anode bar 120 has surpassed certain time limit of service at anode bar 120 by wireless identification reader 520a, 520b interpretation yet.That is, the time limit of service of same wireless identification label can not surpass certain during such as 2 years.Constitute: receiver module 600 not only receives from wireless identification reader 520a, 520b whether relevant anode bar 120 is the information of genuine piece for this reason, and receiver module 600 judges also how long the time point of bringing into use for the first time from anode bar 120 has been gone through.

Ground connection among Figure 10, being and making hull is the state of marine structure benchmark ground connection.

Figure 11 is the system block diagrams of the present invention's the 3rd embodiment.

In the present embodiment, wireless identification reader 520a, 520b directly are connected with power supply line 500, to accept the power supply supply, also can transmit signal simultaneously, and rest part is identical with Figure 10.

Above-mentioned embodiment only is the desirable exemplifying embodiment of the present invention, and technological thought of the present invention can carry out various distortion and even adjustment by the insider, and this distortion and even adjustment are only limited to adopts technological thought of the present invention, and this also belongs to scope of the present invention.

[utilizability on the industry]

The present invention is applicable to adhering to or the ocean knot at marine structure for preventing that the ocean is certainly biological Structure thing corrosion, and be arranged at the anode stub recognition system of marine structure and be used for wherein sun Extremely excellent.

Claims (5)

1. a marine structure anode bar recognition system is characterized in that: comprise

Electrode part, it comprises and the anode bar of contact with sea water and the above-mentioned anode bar and make it be fixed in the stationary installation of marine structure of being coupled removably under state of insulation;

Power suppling part, it provides power supply via power supply line to above-mentioned anode bar;

Sending module, it is arranged at above-mentioned electrode part one side, and produces recognition signal;

Receiver module, it is arranged at above-mentioned power suppling part one side, receives and analyze the above-mentioned recognition signal from above-mentioned sending module, and controls the power supply supply of above-mentioned power suppling part.

In the claim 1 record marine structure anode bar recognition system, it is characterized in that:

Above-mentioned sending module, by the generation of above-mentioned recognition signal, inductive impulse in above-mentioned power supply line, above-mentioned receiver module is surveyed the pulse of above-mentioned power supply line, and receives above-mentioned recognition signal.

In the claim 2 record marine structure anode bar recognition system, it is characterized in that:

Above-mentioned recognition signal is made of the data of being distinguished according to the pulse height conversion of above-mentioned pulsed voltage.

In the claim 1 record marine structure anode bar recognition system, it is characterized in that:

Above-mentioned sending module is by the identification marking that is arranged at above-mentioned anode bar, constitute for discerning the means of identification that above-mentioned identification marking is arranged at the said fixing device and produces above-mentioned recognition signal.

In the claim 4 record marine structure anode bar recognition system, it is characterized in that:

Above-mentioned identification marking is a wireless identification label, and above-mentioned means of identification is the wireless identification reader.

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