CN112233288A - Dosimeter locker linkage distribution method - Google Patents

Abstract

A dosimeter locker linkage distribution method belongs to the field of radiation protection. The distribution method comprises the following steps: and step S01, after receiving the identity information of the staff, the dosimeter distribution cabinet opens a cabinet door of a dosimeter storage position which is not issued, and dosimeters with NFC labels are stored in the dosimeter storage position. Step S02, after receiving the NFC label information of the unbound dosimeter, the NFC card reader on the unused locker position in the locker opens the locker door of the locker position, and the locker position is bound with the dosimeter storage position and the dosimeter with the NFC label therein. The wardrobe can be selected freely, the problem that the wardrobe position cannot be redistributed due to the fact that a person does not close the wardrobe door after walking does not exist, and the utilization rate of the wardrobe is high.

Description

Dosimeter locker linkage distribution method

Technical Field

The invention belongs to the field of radiation protection, and particularly relates to a dosimeter wardrobe linkage distribution method.

Background

According to the basic standard of ionizing radiation protection and radiation source safety (GB 18871-2002), the nuclear facility is provided with a sanitary access in an access of a radiation control area, and the functions comprise protective clothing distribution, personal monitoring equipment distribution and pollution monitoring, so that the nuclear facility relates to the need of a power station for distributing a locker and an EPD (electronic personal dose meter) to workers. Before introducing the self-service/machine distribution system, each nuclear facility such as a nuclear power plant uses a specially-assigned person to issue/retrieve EPD and locker keys. However, the labor cost is high, people need to be on duty all the time, and the freedom degree of selecting a wardrobe is low.

In recent years, in order to solve the problem of the distribution of the personnel, a self-service distribution cabinet is introduced into a part of power stations. The conventional scheme is similar to a bag storage cabinet of a supermarket. Two schemes are derived from automatic distribution, one scheme is that the distribution of dosimeters and the distribution of dressing cabinets are separated, and the two schemes are two sets of distribution devices. For the distribution of dosimeters and follow-up wardrobes, a mode of randomly distributing dosimeters after identity verification by one host is adopted. The other method is that the dosimeter and the locker are bound together, and after the identity is verified, the dosimeter can be taken up and the locker can be used. The two schemes have the same problem, and workers still cannot freely select a wardrobe position. The first scheme still has personnel and does not close the cabinet door after walking and lead to the unable redistribution problem that the cabinet position is occupied.

For example, the invention patent application publication No. CN110827480A, publication No. 2020, 2, 21, the name of the invention is an allocation method of an intelligent locker, the application discloses an allocation method of an intelligent locker, a server divides a cabinet into a high cabinet, a middle cabinet and a low cabinet, proper allocation is carried out according to the recorded height of a person, the height is more beneficial to the person with lower height and inconvenient action and the disabled, two modes of fixed allocation and random allocation are compatible, the interaction pressure between a locker terminal and the server during random allocation can be reduced, simultaneously, a one-to-many mode is adopted between the server and the locker terminal, namely, the server manages a plurality of locker terminals, the terminals interact with the server in real time, the information of the person is recorded by the server, the plurality of locker terminals share data, the work of a manager is reduced, and when the timeliness and the accuracy of the data are achieved, the use of the changing system is more effective and convenient. Although the wardrobe solves the problems that some people can be distributed to a convenient wardrobe when the cabinet cannot be freely selected due to the height problem, the freedom degree is still low, and the cabinet position cannot be redistributed when the people do not close the wardrobe after walking.

Disclosure of Invention

The invention overcomes the problems that the wardrobe distribution freedom degree is not high in the prior art, and the cabinet positions are occupied and cannot be redistributed due to the fact that people do not close the cabinet doors after walking, and provides the dosimeter wardrobe linkage distribution method which is bound with the wardrobe distribution, can freely select the wardrobe and does not have the problem that the cabinet positions are occupied and cannot be redistributed due to the fact that the people do not close the cabinet doors after walking.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

a chain distribution method of a dosimeter locker comprises the following steps:

step S01, after receiving identity information of workers, the dosimeter distribution cabinet opens a cabinet door of a dosimeter storage position which is not distributed, and dosimeters with NFC labels are stored in the dosimeter storage position;

step S02, after receiving the NFC label information of the unbound dosimeter, the NFC card reader on the unused locker position in the locker opens the locker door of the locker position, and the locker position is bound with the dosimeter storage position and the dosimeter with the NFC label therein.

NFC, Near Field Communication, is known as Near Field Communication technology in chinese. The NFC card reader is connected with electricity to generate a radio frequency field, the NFC label converts the radio frequency field generated by the NFC card reader into electric energy to supply power to a circuit of the NFC label, receives data sent by the NFC card reader, and transmits the data of the NFC label back to the NFC card reader at the same speed by using a load modulation technology. Like this NFC card reader can discern NFC label information and bind, only need set up on the dosimeter not connect the NFC label of electricity can like this, it is more convenient to set up. And when selecting the wardrobe, the staff can freely select, satisfies different staff's demand better than random distribution, and privacy protection nature is good.

Preferably, when the bound dosimeter is returned for timing, the dosimeter distribution cabinet receives the NFC tag information of the bound dosimeter and receives a signal that a locker bit bound by the bound dosimeter is closed, and then opens a cabinet door of the dosimeter storage bit corresponding to the bound dosimeter, and the bound dosimeter becomes an unbound dosimeter.

Make the wardrobe position just can return the dose meter after closing like this, prevent that personnel from not closing the cabinet door after walking and leading to the condition emergence that the cabinet position was occupied unable redistribution, guaranteed the utilization ratio of wardrobe.

Preferably, the dosimeter distribution cabinet is provided with a reminding device, and when the dosimeter distribution cabinet receives the label information of the bound dosimeter but does not receive a signal for closing the locker position bound by the bound dosimeter, a locker closing reminding voice is sent.

Remind pronunciation can remind the staff to carry out closing of wardrobe position, prevent that personnel from not closing the cabinet door after walking and leading to the condition emergence that the cabinet position is occupied unable reallocation, guaranteed the utilization ratio of wardrobe.

Preferably, the dosimeter distribution cabinet is provided with a multifunctional card reader, and the step of receiving the identity information of the staff by the dosimeter distribution cabinet specifically comprises the step of reading the identity card of the staff by the multifunctional card reader of the dosimeter distribution cabinet and receiving the identity information of the staff; the step of receiving the NFC label information of the bound dosimeter by the dosimeter distribution cabinet specifically comprises the step of reading the NFC label information received by the NFC label of the bound dosimeter by a multifunctional card reader of the dosimeter distribution cabinet.

The multifunctional card reader distributes the dosimeter storage bit through the identity information of the staff, and opens the dosimeter storage bit corresponding to the dosimeter through the NFC label information bound with the dosimeter, so that the dosimeter is convenient to distribute and return and convenient to overhaul and trace to the source.

Preferably, each cabinet door of the locker position of the locker is provided with an indicating device, and the indicating device is used for displaying whether the locker position is idle or not; the indication device displays that the NFC card reader of the idle wardrobe position receives NFC label information on the unbound dosimeter and then opens the wardrobe door of the wardrobe position; and the indicating device displays that the NFC card reader of the unoccupied wardrobe position does not open the wardrobe door of the wardrobe position after receiving the NFC label information on the unbound dosimeter.

Therefore, the wardrobe can be conveniently selected by the staff, and the occupied wardrobe can not be selected.

Preferably, the indicating device is an indicating lamp, and the NFC card reader of the wardrobe position with the indicating lamp turned on receives the NFC label information on the unbound dosimeter and then opens the wardrobe door of the wardrobe position; and the NFC card reader of the wardrobe position with the indicating lamp not turned on does not open the wardrobe door of the wardrobe position after receiving the NFC label information on the unbound dosimeter.

The indicator light has relatively high reliability, low cost and low complexity.

Preferably, the indicating device is a display screen, and the NFC card reader of the wardrobe position with the display screen displaying the idle characters receives the NFC label information on the unbound dosimeter and then opens the wardrobe door of the wardrobe position; the display screen displays that the NFC card reader of the wardrobe position using the word does not open the wardrobe door of the wardrobe position after receiving the NFC label information on the unbound dosimeter.

The display screen displays more clear and clear information, and is convenient for workers to distinguish.

Preferably, after the NFC card reader of the locker position receives the NFC tag information on the bound dosimeter that is not bound to the locker position, the display screen of the locker position displays the number of the locker position corresponding to the bound dosimeter. .

Therefore, the staff can conveniently find the selected cabinet position in time when forgetting the selected cabinet position, and the display screen is utilized to the maximum extent.

Preferably, the locker is provided with an inquiry machine, and the inquiry machine displays the number of the locker position bound by the dosimeter after receiving the NFC label information of the dosimeter.

Therefore, the staff can conveniently find the selected cabinet position in time when forgetting the selected cabinet position, and the searching time is shortened.

Preferably, after the locker location is bound with the dose meter storage location and the dose meter with the NFC tag therein, before the dose meter is returned, the locker location is used for receiving the NFC tag information on the bound dose meter for unlimited times and opening the locker door of the locker location.

Therefore, the wardrobe can be opened and used for multiple times, and is more convenient and practical.

The invention has the advantages that:

(1) near field communication technology is used. The NFC card reader is connected with electricity to generate a radio frequency field, the NFC label converts the radio frequency field generated by the NFC card reader into electric energy to supply power to a circuit of the NFC label, receives data sent by the NFC card reader, and transmits the data of the NFC label back to the NFC card reader at the same speed by using a load modulation technology. Like this NFC card reader can discern NFC label information and bind, only need set up on the dosimeter not connect the NFC label of electricity can like this, it is more convenient to set up.

(2) The dosage meter can be returned after the wardrobe is closed, the wardrobe can be reminded when the wardrobe is not closed, the situation that the wardrobe position is occupied and cannot be redistributed due to the fact that a person does not close the wardrobe door after walking is prevented, and the utilization rate of the wardrobe is guaranteed.

(3) And each cabinet door of the locker position of the locker is provided with an indicating device, and the cabinet door of the locker position can be opened only after the NFC card reader for displaying the idle cabinet position receives the NFC label information on the unbound dosimeter. Therefore, the wardrobe can be conveniently selected by the staff, and the occupied wardrobe can not be selected.

(4) The staff can in time look for the serial number of the wardrobe position of binding when forgetting the cabinet position of selection, reduces the seek time.

(5) Before the dosimeter returns, the wardrobe position is used for receiving NFC label information on the bound dosimeter without limit times and opening a wardrobe door of the wardrobe position. The wardrobe can be opened for multiple times, and is more convenient and practical.

Drawings

FIG. 1 is a flow chart of the present invention.

FIG. 2 is a schematic view of a dosimeter dispensing cabinet of the invention.

Fig. 3 is a schematic view of the wardrobe of the present invention.

In the figure: 1-dosimeter storage position, 2-multifunctional card reader, 3-camera, 4-bulletin screen, 5-fingerprint identification device, 6-wardrobe position, 7-NFC card reader and 8-indicating device.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

The first embodiment is as follows:

a chain distribution method of a dosimeter locker comprises the following steps:

step S01, after receiving the identity information of the staff, the dosimeter distribution cabinet opens a cabinet door of the dosimeter storage position 1 which is not distributed, and dosimeters with NFC labels are stored in the dosimeter storage position 1.

The dosimeter distribution cabinet is provided with a multifunctional card reader 2, and the step of receiving the identity information of the staff by the dosimeter distribution cabinet specifically comprises the step of reading the identity card of the staff by the multifunctional card reader 2 of the dosimeter distribution cabinet and receiving the identity information of the staff.

The dosimeter distribution cabinet can also be provided with a camera 3, a bulletin screen 4 and a fingerprint identification device 5. The camera 3 can carry out real-time monitoring, and the display screen can show distribution information and some daily bulletin. The fingerprint identification device 5 can verify the identity of a person and can also perform daily card punching.

Step S02, after receiving the NFC tag information on the unbound dosimeter, the NFC card reader 7 on the locker position 6 that is not used in the locker opens the locker door of the locker position 6, and the locker position 6 is bound to the dosimeter storage position 1 and the dosimeter with the NFC tag therein.

Each cabinet door of the locker position 6 of the locker is provided with an indicating device 8, and the indicating device 8 is used for displaying whether the locker position 6 is idle; the indicating device 8 displays that the NFC card reader 7 of the idle locker position 6 receives the NFC label information on the unbound dosimeter and then opens the locker door of the locker position 6; the indicating device 8 displays that the NFC card reader 7 of the unoccupied wardrobe position 6 does not open the wardrobe door of the wardrobe position 6 after receiving the NFC label information on the unbound dosimeter. Therefore, the staff can select the wardrobe position 6 more conveniently, and the occupied wardrobe position 6 can not be selected. The indicating device 8 is an indicating lamp, and the NFC card reader 7 of the wardrobe position 6 with the indicating lamp turned on opens the cabinet door of the wardrobe position 6 after receiving the NFC label information on the unbound dosimeter; and after the NFC card reader 7 of the wardrobe position 6 with the indicating lamp not turned on receives the NFC label information on the unbound dosimeter, the cabinet door of the wardrobe position 6 is not opened. The indicator light has relatively high reliability, low cost and low complexity.

The indicating device 8 on the cabinet door of the wardrobe position 6 and the electronic device of the NFC card reader 7 can be arranged on the cabinet door, and an independent electronic device arrangement area in the cabinet position can also be arranged, so that the indicating device 8 and the electronic device of the NFC card reader 7 do not need to be moved when working normally, the reliability is higher during operation, and the wiring is simpler.

After one wardrobe position 6 and one dosimeter storage position 1 and the dosimeter with the NFC label therein are bound, before the dosimeter returns, the wardrobe position 6 is used for receiving NFC label information on the bound dosimeter without limit times and opening a cabinet door of the wardrobe position 6. Therefore, the wardrobe position 6 can be opened for use for many times, and is more convenient and practical.

NFC, Near Field Communication, is known as Near Field Communication technology in chinese. The NFC card reader 7 is connected with electricity to generate a radio frequency field, the NFC label is converted into electric energy by the aid of the radio frequency field generated by the NFC card reader 7, power is supplied to a circuit of the NFC label, data sent by the NFC card reader 7 are received, and the data of the NFC label are transmitted back to the NFC card reader 7 at the same speed by the aid of a load modulation technology. Like this NFC card reader 7 can discern NFC label information and bind, only need set up on the dosimeter not connect the NFC label of electricity can like this, it is more convenient to set up. And when selecting the wardrobe, the staff can freely select, satisfies different staff's demand better than random distribution, and privacy protection nature is good.

And returning the bound dose for timing, after the dose distribution cabinet receives the NFC label information of the bound dose and receives a signal that the locker position 6 bound by the bound dose is closed, opening the cabinet door of the dose storage position 1 corresponding to the bound dose, and then changing the bound dose into an unbound dose. Make the wardrobe position 6 close the back just can return the dose meter like this, prevent that personnel from not closing the cabinet door after walking and leading to the condition emergence that the cabinet position was occupied unable redistribution, guaranteed the utilization ratio of wardrobe.

The dosimeter distribution cabinet is provided with a multifunctional card reader 2, and the step of receiving the NFC label information of the bound dosimeter by the dosimeter distribution cabinet specifically comprises the step of reading the NFC label information of the bound dosimeter by the multifunctional card reader 2 of the dosimeter distribution cabinet.

Preferably, the dosimeter distribution cabinet is provided with a reminding device, and when the dosimeter distribution cabinet receives the label information of the bound dosimeter but does not receive a signal for closing the locker position 6 bound by the bound dosimeter, a locker closing reminding voice is sent. Remind pronunciation can remind the staff to carry out closing of wardrobe position 6, prevent that personnel from not closing the cabinet door after walking and leading to the condition emergence that the cabinet position is occupied unable redistribution, guaranteed the utilization ratio of wardrobe.

Preferably, the locker is provided with an inquiry machine, and the inquiry machine displays the number of the locker position 6 bound with the dosimeter after receiving the NFC label information of the dosimeter. Therefore, the staff can conveniently find the selected cabinet position in time when forgetting the selected cabinet position, and the searching time is shortened.

Specifically, the picking process before the staff enters the radiation control area is as follows: staff m comes to the dosimeter cabinet of distributing, the authentication identity, swipes the identity card on multi-functional card reader 2 promptly, then distributes a number and is m 1's the dosimeter storage bit 1 that does not distribute, and the dosimeter NFC label number of storing in this dosimeter storage bit 1 is m2, and the dosimeter storage bit 1 cabinet door of numbering m1 is opened in the bullet, and staff takes away the dosimeter that dosimeter NFC label number is m2, closes the cabinet door. At this point, staff member m binds with dosimeter storage bit 1 numbered m1 and with dosimeter numbered m 2.

Staff m finds the locker position that arbitrary one locker cabinet position pilot lamp is lighted, assumes this locker cabinet position serial number to be m3, and staff m uses the serial number of getting to be the NFC card reader 7 of m2 dosage NFC label touching locker cabinet position, and this cabinet position cabinet door bullet is opened, and locker cabinet position pilot lamp goes out, and staff can use this locker storage family clothes, then closes the cabinet door. The staff enters the radiation control area by replacing the special protective clothing for the radiation control area. At this time, staff member m is bound with dosimeter storage bit 1 numbered m1, dosimeter numbered m2, and locker bit numbered m 3. Before staff m returns the dosimeter numbered m2, the staff can open the locker cabinet position numbered m3 for unlimited times using the dosimeter numbered m 2.

The process after the staff quit the radiation control area is as follows: staff m finds a locker room numbered m3 where personal clothing is stored. If the staff m forgets the number of the wardrobe cabinet position, the inquiry machine can be used for inquiring the number of the occupied wardrobe cabinet position. The staff uses the dose meter NFC label of drawing to touch the NFC card reader 7 of serial number for m3 locker position, and this cabinet position cabinet door is popped open, and the staff can take back domestic clothes, then closes the cabinet door.

Staff m comes to the dosimeter distribution cabinet, and the identity is authenticated, namely, the NFC label with the number m2 dosimeter is brushed on the multifunctional card reader 2. If the locker cabinet position door with the number m3 is not closed, the staff returns the dose timing to carry out voice reminding, and the staff is required to close the locker cabinet position door with the number m3 to return the dose. Suppose that a worker m closes the locker cabinet position with the number m3, the dosimeter distribution cabinet pops open the dosimeter storage position 1 with the number m1 after verifying the identity of the worker m, and the worker puts the dosimeter with the number m2 into the dosimeter storage position 1 with the number m1 and closes the cabinet door of the dosimeter storage position 1. The wardrobe position indicator lamp with the number m3 is turned on to be in an idle state. At this time, the worker m is unbound with the dosimeter storage bit 1 with the number m1, the dosimeter with the number m2 and the locker bit with the number m3, and the process is ended.

Example two:

step S01, after receiving the identity information of the staff, the dosimeter distribution cabinet opens a cabinet door of the dosimeter storage position 1 which is not distributed, and dosimeters with NFC labels are stored in the dosimeter storage position 1.

The dosimeter distribution cabinet is provided with a multifunctional card reader 2, and the step of receiving the identity information of the staff by the dosimeter distribution cabinet specifically comprises the step of reading the identity card of the staff by the multifunctional card reader 2 of the dosimeter distribution cabinet and receiving the identity information of the staff.

The dosimeter distribution cabinet can also be provided with a camera 3, a bulletin screen 4 and a fingerprint identification device 5. The camera 3 can carry out real-time monitoring, and the display screen can show distribution information and some daily bulletin. The fingerprint identification device 5 can verify the identity of a person and can also perform daily card punching.

Step S02, after receiving the NFC tag information on the unbound dosimeter, the NFC card reader 7 on the locker position 6 that is not used in the locker opens the locker door of the locker position 6, and the locker position 6 is bound to the dosimeter storage position 1 and the dosimeter with the NFC tag therein.

Each cabinet door of the locker position 6 of the locker is provided with an indicating device 8, and the indicating device 8 is used for displaying whether the locker position 6 is idle; the indicating device 8 displays that the NFC card reader 7 of the idle locker position 6 receives the NFC label information on the unbound dosimeter and then opens the locker door of the locker position 6; the indicating device 8 displays that the NFC card reader 7 of the unoccupied wardrobe position 6 does not open the wardrobe door of the wardrobe position 6 after receiving the NFC label information on the unbound dosimeter. Therefore, the staff can select the wardrobe position 6 more conveniently, and the occupied wardrobe position 6 can not be selected. The indicating device 8 is a display screen, and the NFC card reader 7 of the wardrobe position 6 with the display of the idle characters receives the NFC label information on the unbound dosimeter and then opens the wardrobe door of the wardrobe position 6. The display screen displays that the NFC card reader 7 of the wardrobe position 6 using the characters does not open the cabinet door of the wardrobe position 6 after receiving the NFC label information on the unbound dosimeter. The display screen displays more clear and clear information, and is convenient for workers to distinguish.

Preferably, after the NFC card reader 7 of the locker position 6 receives the NFC tag information on the bound dosimeter that is not bound to the locker position 6, the display screen of the locker position 6 displays the number of the locker position 6 corresponding to the bound dosimeter. . Therefore, the staff can conveniently find the selected cabinet position in time when forgetting the selected cabinet position, and the display screen is utilized to the maximum extent.

The indicating device 8 on the cabinet door of the wardrobe position 6 and the electronic device of the NFC card reader 7 can be arranged on the cabinet door, and an independent electronic device arrangement area in the cabinet position can also be arranged, so that the indicating device 8 and the electronic device of the NFC card reader 7 do not need to be moved when working normally, the reliability is higher during operation, and the wiring is simpler.

After one wardrobe position 6 and one dosimeter storage position 1 and the dosimeter with the NFC label therein are bound, before the dosimeter returns, the wardrobe position 6 is used for receiving NFC label information on the bound dosimeter without limit times and opening a cabinet door of the wardrobe position 6. Therefore, the wardrobe position 6 can be opened for use for many times, and is more convenient and practical.

NFC, Near Field Communication, is known as Near Field Communication technology in chinese. The NFC card reader 7 is connected with electricity to generate a radio frequency field, the NFC label is converted into electric energy by the aid of the radio frequency field generated by the NFC card reader 7, power is supplied to a circuit of the NFC label, data sent by the NFC card reader 7 are received, and the data of the NFC label are transmitted back to the NFC card reader 7 at the same speed by the aid of a load modulation technology. Like this NFC card reader 7 can discern NFC label information and bind, only need set up on the dosimeter not connect the NFC label of electricity can like this, it is more convenient to set up. And when selecting the wardrobe, the staff can freely select, satisfies different staff's demand better than random distribution, and privacy protection nature is good.

And returning the bound dose for timing, after the dose distribution cabinet receives the NFC label information of the bound dose and receives a signal that the locker position 6 bound by the bound dose is closed, opening the cabinet door of the dose storage position 1 corresponding to the bound dose, and then changing the bound dose into an unbound dose. Make the wardrobe position 6 close the back just can return the dose meter like this, prevent that personnel from not closing the cabinet door after walking and leading to the condition emergence that the cabinet position was occupied unable redistribution, guaranteed the utilization ratio of wardrobe.

The dosimeter distribution cabinet is provided with a multifunctional card reader 2, and the step of receiving the NFC label information of the bound dosimeter by the dosimeter distribution cabinet specifically comprises the step of reading the NFC label information of the bound dosimeter by the multifunctional card reader 2 of the dosimeter distribution cabinet.

Preferably, the dosimeter distribution cabinet is provided with a reminding device, and when the dosimeter distribution cabinet receives the label information of the bound dosimeter but does not receive a signal for closing the locker position 6 bound by the bound dosimeter, a locker closing reminding voice is sent. Remind pronunciation can remind the staff to carry out closing of wardrobe position 6, prevent that personnel from not closing the cabinet door after walking and leading to the condition emergence that the cabinet position is occupied unable redistribution, guaranteed the utilization ratio of wardrobe.

Specifically, the picking process before the staff enters the radiation control area is as follows: staff m comes to the dosimeter cabinet of distributing, the authentication identity, swipes the identity card on multi-functional card reader 2 promptly, then distributes a number and is m 1's the dosimeter storage bit 1 that does not distribute, and the dosimeter NFC label number of storing in this dosimeter storage bit 1 is m2, and the dosimeter storage bit 1 cabinet door of numbering m1 is opened in the bullet, and staff takes away the dosimeter that dosimeter NFC label number is m2, closes the cabinet door. At this point, staff member m binds with dosimeter storage bit 1 numbered m1 and with dosimeter numbered m 2.

Staff m finds the locker cabinet position of arbitrary one locker cabinet position display screen display idle word, assumes this locker cabinet position serial number to be m3, and staff m uses the serial number of getting to be the NFC card reader 7 of m2 dosimeter NFC label touching locker cabinet position, and this cabinet position cabinet door bullet is opened, and locker cabinet position display screen display shows to use the word, and staff can use this locker storage domestic clothes, then closes the cabinet door. The staff enters the radiation control area by replacing the special protective clothing for the radiation control area. At this time, staff member m is bound with dosimeter storage bit 1 numbered m1, dosimeter numbered m2, and locker bit numbered m 3. Before staff m returns the dosimeter numbered m2, the staff can open the locker cabinet position numbered m3 for unlimited times using the dosimeter numbered m 2.

The process after the staff quit the radiation control area is as follows: staff m finds a locker room numbered m3 where personal clothing is stored. If the staff m forgets the numbering of the locker cabinet position, the dosimeter can be brushed by any NFC card reader 7, and the display screen can display the numbering of the locker cabinet position occupied. The staff uses the dose meter NFC label of drawing to touch the NFC card reader 7 of serial number for m3 locker position, and this cabinet position cabinet door is popped open, and the staff can take back domestic clothes, then closes the cabinet door.

Staff m comes to the dosimeter distribution cabinet, and the identity is authenticated, namely, the NFC label with the number m2 dosimeter is brushed on the multifunctional card reader 2. If the locker cabinet position door with the number m3 is not closed, the staff returns the dose timing to carry out voice reminding, and the staff is required to close the locker cabinet position door with the number m3 to return the dose. Suppose that a worker m closes the locker cabinet position with the number m3, the dosimeter distribution cabinet pops open the dosimeter storage position 1 with the number m1 after verifying the identity of the worker m, and the worker puts the dosimeter with the number m2 into the dosimeter storage position 1 with the number m1 and closes the cabinet door of the dosimeter storage position 1. The locker room display screen numbered m3 displays free characters. At this time, the worker m is unbound with the dosimeter storage bit 1 with the number m1, the dosimeter with the number m2 and the locker bit with the number m3, and the process is ended.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. A chain distribution method of a dosimeter wardrobe is characterized by comprising the following steps:

step S01, after receiving identity information of workers, the dosimeter distribution cabinet opens a cabinet door of a dosimeter storage position which is not distributed, and dosimeters with NFC labels are stored in the dosimeter storage position;

step S02, after receiving the NFC label information of the unbound dosimeter, the NFC card reader on the unused locker position in the locker opens the locker door of the locker position, and the locker position is bound with the dosimeter storage position and the dosimeter with the NFC label therein.

2. The chain distribution method for dosimeter lockers according to claim 1, wherein the bound doses are returned and timed, the dosimeter distribution cabinet receives the NFC tag information of the bound dosimeters and receives a signal that the locker location bound by the bound dosimeters is closed, and then opens the cabinet door of the dosimeter storage location corresponding to the bound dosimeters, and the bound dosimeters become unbound dosimeters.

3. The chain distribution method for the dosimeter wardrobe according to claim 2, wherein the dosimeter distribution cabinet is provided with a reminding device, and the dosimeter distribution cabinet sends out a wardrobe closing reminding voice when receiving the label information of the bound dosimeter but not receiving a wardrobe position closing signal bound by the bound dosimeter.

4. The chain distribution method for the dosimeter wardrobe according to claim 2, wherein the dosimeter distribution cabinet is provided with a multifunctional card reader, and the dosimeter distribution cabinet receiving the identity information of the staff specifically comprises reading the identity card of the staff by the multifunctional card reader of the dosimeter distribution cabinet and receiving the identity information of the staff; the step of receiving the NFC label information of the bound dosimeter by the dosimeter distribution cabinet specifically comprises the step of reading the NFC label information received by the NFC label of the bound dosimeter by a multifunctional card reader of the dosimeter distribution cabinet.

5. The chain distribution method for the dosimeter wardrobe according to claim 1, wherein an indicating device is arranged on each cabinet door of the wardrobe positions of the wardrobe, and the indicating device is used for displaying whether the wardrobe positions are idle; the indication device displays that the NFC card reader of the idle wardrobe position receives NFC label information on the unbound dosimeter and then opens the wardrobe door of the wardrobe position; and the indicating device displays that the NFC card reader of the unoccupied wardrobe position does not open the wardrobe door of the wardrobe position after receiving the NFC label information on the unbound dosimeter.

6. The chain distribution method for dosimeter lockers according to claim 5, wherein the indicating device is an indicating lamp, and the NFC card reader at the locker position with the indicating lamp turned on opens the cabinet door at the locker position after receiving the NFC label information on the unbound dosimeter; and the NFC card reader of the wardrobe position with the indicating lamp not turned on does not open the wardrobe door of the wardrobe position after receiving the NFC label information on the unbound dosimeter.

7. The chain distribution method for the dosimeter wardrobe according to claim 5, wherein the indicating device is a display screen, and the display screen displays that the NFC card reader of the wardrobe position in the free typeface opens the cabinet door of the wardrobe position after receiving the NFC label information on the unbound dosimeter; the display screen displays that the NFC card reader of the wardrobe position using the word does not open the wardrobe door of the wardrobe position after receiving the NFC label information on the unbound dosimeter.

8. The chain distribution method for dosimeter lockers according to claim 7, wherein after the NFC card reader at the locker position receives the NFC label information on the bound dosimeter which is not bound with the locker position, the display screen at the locker position displays the number of the locker position corresponding to the bound dosimeter.

9. The chain distribution method for the dosimeter wardrobe according to claim 1, wherein an inquiry machine is arranged on the wardrobe, and the inquiry machine displays the number of the wardrobe position bound by the dosimeter after receiving the NFC label information of the dosimeter.

10. The chain distribution method for the dosimeter wardrobe according to claim 1, wherein after the locker location is bound with the dosimeter storage location and the dosimeter with the NFC tag therein, the locker location is used for receiving NFC tag information on the bound dosimeter for unlimited times and opening the locker door of the locker location before returning the dosimeter.

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