KR102285338B1 - Remote management system to prevent reuse of laser fiber optic cables - Google Patents

Abstract

The present invention relates to a remote management system to prevent reuse of laser fiber optic cables, and more particularly, to a remote management system to prevent reuse of laser fiber optic cables to stop the laser beam generation of a laser module when a used optical cable connector is connected to the optical fiber coupler of a laser module. The present invention exhibits the following effects. That is, according to the present invention, there is an effect that can prevent reuse of a laser optical cable by stopping the laser light generation of a laser module when the connector of a used laser optical cable is connected to the optical fiber coupler of the laser module.

Description

{Remote management system to prevent reuse of laser fiber optic cables}

The present invention relates to a remote management system for preventing the reuse of optical cables for lasers, and more particularly, to a laser optical cable that stops the laser beam generation of a laser module when a connector of a used optical cable is connected to an optical fiber coupler of a laser module. It relates to a remote management system to prevent reuse.

An optical cable refers to a cable that converts an electrical signal into a light signal and transmits it through glass fiber, also called an optical fiber cable. Optical cables are made of core, clad, and jacket.

The core is an optical fiber made of very thin glass or plastic. The clad is a Kevlar fiber to withstand strong forces around the glass fiber, and the main component is a light pulse of glass fiber. The jacket is the outermost layer around the optical fiber bundle and is made of a material such as plastic to prevent moisture, abrasion, and damage.

Laser (LASER) means optical amplification by stimulated emission of radiation, and since it emits light with a constant wavelength and consistent texture, the laser beam has a strong intensity and one color, and there is little change in diameter. It has the property of being transmitted far away.

Recently, devices or instruments using such a laser have been in the spotlight as medical equipment for treatment or cosmetic purposes. It is used as a surgical cutting device instead of a scalpel or electric scalpel when cutting a small part of the body or delicately cutting a sensitive part such as the retina in ophthalmic surgery. It is also widely used as a destructive mechanism for dragons.

On the other hand, if the part to be treated is inside the human body, laser treatment can be performed by inserting a laser optical cable inside the human body. It is preferable to do

However, since it is difficult to determine with the naked eye whether an optical cable has been used once, there is a problem that it may be reused by mistake if management of the optical cable is neglected without immediately discarding the optical cable used once.

In order to overcome the above problems, the applicant of the present application provides a laser that can prevent the reuse of an optical cable for a laser in advance by stopping the laser light generation of the laser module when the connector of the used optical cable is connected to the optical coupler of the laser module. Research and development of a remote management system to prevent reuse of optical cables.

Registered Patent No. 10-1948188 (2019.02.08.)

An object of the present invention is to provide a remote management system for preventing reuse of an optical cable for a laser that stops the laser light generation of a laser module when a connector of an used optical cable is connected to an optical fiber coupler of a laser module.

In order to achieve the above object, in the present invention, it is formed at the end of the optical cable (1) through which the laser light is transmitted, is detachably connected to the optical fiber coupler 211, and a unique number (SN) of the optical cable (1). A connector 100 with a built-in RFID tag to store; When the connector 100 is connected to the optical fiber coupler 211, the RFID tag embedded in the connector 100 is read and the unique number (SN) of the optical cable 1 is transmitted to the management server 300, and the management server 300 ) by receiving the first control signal (C1) or the second control signal (C2) from the laser device 200 to control the laser light generation; By comparing the unique number (SN) of the optical cable (1) received from the laser device (200) with the unique number (SN') of the optical cable (1) stored in the DB unit 330, and determining whether the unique number matches, a management server 300 for transmitting a first control signal C1 or a second control signal C2 to the laser device 200; When the connector 100 is connected to the laser module 210 for concentrating laser light through ) and outputting it to the outside, and the optical fiber coupler 211, the RFID tag embedded in the connector 100 is read and the read optical cable (1) Transmitting the unique number (SN) of the optical cable (1) transmitted from the read module 220 and the read module 220 to the communication module 230 to the management server 300, A communication module 230 that receives the first control signal C1 or the second control signal C2 transmitted from the management server 300 and transmits it to the control module 240 and the alarm module 250, and the communication module ( The control module 240 for controlling the laser light generation of the laser module 210 by receiving the first control signal C1 or the second control signal C2 transmitted from the 230, and the communication module 230 transmitted from the and an alarm module 250 for generating an alarm signal by receiving the first control signal C1 or the second control signal C2, wherein the control module 240 includes: i) a first control from the communication module 230 When the signal C1 is received, the laser module 210 controls to generate the laser light, ii) when the second control signal C2 is received from the communication module 230, the laser module 210 generates the laser light is controlled to stop, the alarm module 250 includes a speaker 251 for outputting a predetermined voice content according to a first control signal (C1) or a second control signal (C2), and a first control signal (C1) or a second control signal (C2) including a lamp 252 that emits light in a predetermined color, the management server 300 is a unique number (SN) of the optical cable (1) transmitted from the communication module (230) ) to the determination unit 320, and the determination unit 3 After receiving the first control signal (C1) or the second control signal (C1) transmitted from 20) and transmitting it to the communication module 230, the unique number (SN) of the optical cable 1 transmitted from the communication module 230 ) of the communication unit 310 for transmitting the DB unit 330, and receiving the unique number (SN) of the optical cable 1 transmitted from the communication unit 310, the unique number of the optical cable 1 stored in the DB unit 330 (SN '), the determination unit 320 for transmitting the first control signal (C1) or the second control signal (C2) to the communication unit 310 to determine whether the unique number matches, and the communication unit 310 includes a DB unit 330 for receiving, storing and updating the unique number (SN) of the optical cable 1 transmitted from When the unique number (SN) does not match any one of the unique number (SN') of the optical cable 1 stored in the DB unit 330 , the first control signal C1 for generating a laser light from the laser module 210 ) to the communication unit 310, but ii) the unique number (SN) of the optical cable (1) transmitted from the communication unit 310 is stored in the DB unit 330, any of the unique number (SN') of the optical cable (1) We present a remote management system for preventing reuse of an optical cable for laser, characterized in that it transmits a second control signal (C2) for stopping the generation of laser light in the laser module 210 to the communication unit 310 when it matches one .

According to the present invention, when the connector of the used optical cable is connected to the optical fiber coupler of the laser module, it is possible to prevent the reuse of the optical cable for laser in advance by stopping the laser light generation of the laser module.

1 is a configuration diagram of a remote management system for preventing reuse of an optical cable for laser according to the present invention.
2 is a diagram schematically illustrating a state in which a connector of an optical cable is connected to an optical fiber coupler of a laser module. Figure 2 (a) shows before connection, Figure 2 (b) shows after connection.

Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings. However, the scope of the present invention should be understood by the description of the claims. Also, descriptions of known technologies that obscure the gist of the present invention will be omitted.

However, since the size and thickness of each component shown in the drawings are arbitrarily indicated for convenience of explanation, the present invention is not necessarily limited to the bar shown in the drawings, and the thickness is enlarged to clearly express various parts and regions. It was.

In addition, in the description of the present invention, direction limitation such as "upper" and "lower" is only indicated based on the form of FIG. put

The present invention relates to a remote management system for preventing the reuse of optical cables for lasers, and more particularly, to a laser optical cable that stops the laser beam generation of a laser module when a connector of a used optical cable is connected to an optical fiber coupler of a laser module. It relates to a remote management system to prevent reuse.

1 is a block diagram of a remote management system for preventing reuse of an optical cable for a laser according to the present invention, and FIG. 2 is a diagram schematically illustrating a state in which a connector of an optical cable is connected to an optical fiber coupler of a laser module. Figure 2 (a) shows before connection, Figure 2 (b) shows after connection.

As shown in FIG. 1 , the remote management system for preventing reuse of the optical cable for laser according to the present invention may include a connector 100 , a laser device 200 , and a management server 300 .

The connector 100 will be described. The connector 100 is a part formed at the end of the optical cable 1 through which the laser light is transmitted, and is a part detachably connected to the optical fiber coupler 211 of the laser module 210 .

The connector 100 is characterized in that the RFID tag for storing the unique number (SN) of the optical cable (1) is embedded. Here, the RFID (Radio-Frequency Identification) technology refers to a technology for recognizing information from a long distance using radio waves, and communicates in an electromagnetic induction method. An RFID system requires an RFID tag and an RFID reader.

An RFID tag consists of an antenna and an integrated circuit, which records information in the integrated circuit and transmits the information to an RFID reader through the antenna, and this information is used to identify the target to which the tag is attached.

The laser device 200 will be described. The laser device 200 reads the RFID tag embedded in the connector 100 when the connector 100 is connected to the optical fiber coupler 211 and transmits the unique number (SN) of the optical cable 1 to the management server 300 . And, as a part in which laser light generation is controlled by receiving the first control signal (C1) or the second control signal (C2) from the management server 300, the laser module 210, the reading module 220, and communication It may be configured to include a module 230 , a control module 240 , and an alarm module 250 .

The laser module 210 will be described. The laser module 210 is a part for generating laser light and concentrating the laser light through the optical fiber coupler 211 and outputting it to the outside, and the generation of the laser light is controlled by the control module 240 .

2 is a diagram schematically illustrating a state in which the connector 100 of the optical cable 1 is connected to the optical fiber coupler 211 of the laser module 210 . Figure 2 (a) shows before connection, Figure 2 (b) shows after connection. A reading module 220 to be described later may be formed around the optical fiber coupler 211 .

The reading module 220 will be described. The reading module 220 reads the RFID tag embedded in the connector 100 when the connector 100 is connected to the optical fiber coupler 211, and transmits the unique number (SN) of the read optical cable 1 to the communication module 230 The part that is sent to

The communication module 230 will be described. The communication module 230 transmits the unique number (SN) of the optical cable 1 transmitted from the read module 220 to the management server 300, and the first control signal C1 transmitted from the management server 300 or A part that receives the second control signal C2 and transmits it to the control module 240 and the alarm module 250 .

Here, the first control signal C1 is a control signal transmitted when the optical cable 1 is used for the first time, and the second control signal C2 is a control signal transmitted when the optical cable 1 is reused. Details of this will be described later in the description of the determination unit 320 .

The control module 240 will be described. The control module 240 receives the first control signal C1 or the second control signal C2 transmitted from the communication module 230 to control the laser light generation of the laser module 210 .

Specifically, the control module 240 controls to generate a laser light from the laser module 210 when i) receives the first control signal C1 from the communication module 230, ii) the communication module 230 When receiving the second control signal (C2) from the laser module 210 is characterized in that the control to stop the generation of the laser light.

As described above, when the first control signal C1 is received from the control module 240, the optical cable 1 is used for the first time. In this case, the laser light is generated from the laser module 210 and the optical cable It is output through (1).

Conversely, when the second control signal C2 is received from the control module 240, the optical cable 1 is reused. It is not output through

In conclusion, the user can determine whether the optical cable 1 is used for the first time by checking whether the laser light is output through the optical cable 1 .

However, when the laser light output from the optical cable 1 is a laser light that cannot be identified with the naked eye, there is a problem in that it cannot be determined whether the optical cable 1 is used for the first time in the above manner. An alarm module 250, which will be described later, is a component for supplementing this problem.

The alarm module 250 will be described. The alarm module 250 receives the first control signal C1 or the second control signal C2 transmitted from the communication module 230 and generates an alarm signal, and includes a speaker 251 and a lamp 252. It may be composed of

The speaker 251 is a part that outputs a predetermined voice content according to the first control signal C1 or the second control signal C2. For example, i) When the first control signal (C1) is received, the speaker 251 says "Available to use an optical cable." can be configured to output the voice content, ii) When the second control signal (C2) is received, the speaker 251 says "The use of optical cables is not possible." It can be configured so that the voice content is output.

The lamp 252 is a portion that emits light with a predetermined color according to the first control signal C1 or the second control signal C2. For example, i) when receiving the first control signal (C1), the lamp 252 can be configured to emit light in 'green', and ii) when receiving the second control signal (C2), the lamp 252 ' It can be configured to emit light in 'red'.

That is, even when the laser light output from the optical cable 1 is a laser light that cannot be identified with the naked eye, the user can determine whether the optical cable 1 is used for the first time by the alarm signal by the alarm module 250. there will be

The management server 300 will be described. The management server 300 compares the unique number (SN) of the optical cable (1) received from the laser device (200) with the unique number (SN') of the optical cable (1) stored in the DB unit 330, and the unique number A part for transmitting the first control signal C1 or the second control signal C2 to the laser device 200 by determining whether the ) may be included.

The communication unit 310 will be described. The communication unit 310 transmits the unique number (SN) of the optical cable 1 transmitted from the communication module 230 to the determination unit 320, and the first control signal C1 or the first control signal transmitted from the determination unit 320 2 After receiving and transmitting the control signal C1 to the communication module 230 , it is a part that transmits the unique number (SN) of the optical cable 1 transmitted from the communication module 230 to the DB unit 330 .

The determination unit 320 will be described. The determination unit 320 receives the unique number (SN) of the optical cable 1 transmitted from the communication unit 310 and compares it with the unique number (SN') of the optical cable 1 stored in the DB unit 330, and the unique number It is a part for transmitting the first control signal (C1) or the second control signal (C2) to the communication unit 310 by determining whether or not the

The determination unit 320 determines whether i) the unique number (SN) of the optical cable 1 transmitted from the communication unit 310 is with any one of the unique number (SN′) of the optical cable 1 stored in the DB unit 330 . If they do not match, the laser module 210 transmits the first control signal C1 for generating laser light to the communication unit 310, ii) the unique number (SN) of the optical cable 1 transmitted from the communication unit 310 When the DB unit 330 matches any one of the unique numbers (SN') of the optical cable 1 stored in the communication unit 310, the second control signal C2 for stopping the generation of laser light in the laser module 210 is transmitted to the communication unit 310. It is characterized in that it is transmitted to

That is, when the optical cable 1 is used for the first time, the first control signal C1 is transmitted because the respective unique numbers SN and SN' do not match, and when the optical cable 1 is reused, each unique number is not identical. Since the numbers SN and SN' coincide, the second control signal C2 is transmitted.

The DB unit 330 will be described. The DB unit 330 receives, stores and updates the unique number SN of the optical cable 1 transmitted from the communication unit 310 . That is, the unique number (SN) of the optical cable 1 used even once is stored and updated in the DB unit 330 to prevent reuse of the optical cable 1 .

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the art to which the present invention pertains that various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention. It will be clear to those who have knowledge.

100: connector
200: laser device
210: laser module
211: optical fiber coupler
220: read module
230: communication module
240: control module
250: alarm module
251 : speaker
252 : lamp
300: management server
310: communication department
320: judgment unit
330: DB part
1: optical cable

Claims (4)

It is formed at the end of the optical cable (1) through which the laser light is transmitted, is detachably connected to the optical fiber coupler 211, and a connector 100 having a built-in RFID tag for storing the unique number (SN) of the optical cable (1);
When the connector 100 is connected to the optical fiber coupler 211, the RFID tag embedded in the connector 100 is read and the unique number (SN) of the optical cable 1 is transmitted to the management server 300, and the management server 300 ) by receiving the first control signal (C1) or the second control signal (C2) from the laser device 200 to control the laser light generation;
By comparing the unique number (SN) of the optical cable (1) received from the laser device (200) with the unique number (SN') of the optical cable (1) stored in the DB unit 330, and determining whether the unique number matches, Includes; management server 300 for transmitting the first control signal (C1) or the second control signal (C2) to the laser device 200;

The laser device 200 is
A laser module 210 for generating laser light and concentrating the laser light through the optical fiber coupler 211 and outputting it to the outside;
When the connector 100 is connected to the optical fiber coupler 211, a reading module ( 220) and
Transmitting the unique number (SN) of the optical cable (1) transmitted from the reading module 220 to the management server 300, the first control signal (C1) or the second control signal (C2) transmitted from the management server 300 ) and a communication module 230 for receiving and transmitting to the control module 240,
And a control module 240 for receiving the first control signal (C1) or the second control signal (C2) transmitted from the communication module 230 to control the laser light generation of the laser module 210,

The control module 240 is
i) When the first control signal C1 is received from the communication module 230, the laser module 210 is controlled to generate a laser light, ii) the second control signal C2 is received from the communication module 230 In one case, it is characterized in that the laser module 210 controls to stop the generation of laser light,

The management server 300 is
Transmitting the unique number (SN) of the optical cable (1) transmitted from the communication module 230 to the determination unit 320, the first control signal (C1) or the second control signal (C1) transmitted from the determination unit 320 ) after receiving and transmitting to the communication module 230, the communication unit 310 for transmitting the unique number (SN) of the optical cable (1) transmitted from the communication module 230 to the DB unit 330;
Receives the unique number (SN) of the optical cable (1) transmitted from the communication unit 310, compares it with the unique number (SN') of the optical cable (1) stored in the DB unit 330, and determines whether the unique number matches a determination unit 320 for transmitting the first control signal C1 or the second control signal C2 to the communication unit 310;
Includes a DB unit 330 for receiving, storing and updating the unique number (SN) of the optical cable (1) transmitted from the communication unit 310,

The determination unit 320 is
i) When the unique number (SN) of the optical cable (1) transmitted from the communication unit 310 does not match any one of the unique numbers (SN') of the optical cable 1 stored in the DB unit 330, the laser module ( 210) transmits the first control signal C1 for generating laser light to the communication unit 310, ii) the unique number (SN) of the optical cable 1 transmitted from the communication unit 310 is transmitted to the DB unit 330 In the case of matching any one of the unique numbers (SN') of the stored optical cable (1), the second control signal (C2) for stopping the generation of laser light in the laser module (210) is transmitted to the communication unit (310)
A remote management system to prevent reuse of optical cables for lasers.
According to claim 1,
The laser device 200 is
Further comprising an alarm module 250 for generating an alarm signal by receiving the first control signal (C1) or the second control signal (C2) transmitted from the communication module 230,

The communication module 230 is
Receiving the first control signal (C1) or the second control signal (C2) transmitted from the management server 300, characterized in that for transmitting to the alarm module (250)
A remote management system to prevent reuse of optical cables for lasers.
3. The method of claim 2,
The alarm module 250 is
characterized in that it comprises a speaker 251 for outputting a predetermined voice content according to the first control signal (C1) or the second control signal (C2)
A remote management system to prevent reuse of optical cables for lasers.
4. The method of claim 3,
The alarm module 250 is
According to the first control signal (C1) or the second control signal (C2) characterized in that it further comprises a lamp 252 to emit light in a predetermined color
A remote management system to prevent reuse of optical cables for lasers.

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