KR101608140B1 - Laser device and fiber for medical device - Google Patents

Abstract

A fixture of a fiber provided with a handpiece side groove on the side of the main body of the medical laser generator, a fiber fixture provided with a handpiece side rivet, the ∩ groove and the ∪ groove are primarily engaged, And a thread provided on the inner side of the fiber fixing holder is fastened to a screw thread provided on the outer side of the fiber fixing tool on the side of the laser generating device so that the laser is irradiated securely. A fiber fastened by a short-range wireless communication method is recognized on one side of a fiber fixture on the handpiece side and around a circumference of a fiber fixture on the main body side of the laser generator, and the laser is transmitted. If the connection is not recognized by the short-range wireless communication system, the laser generator will not operate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a laser generator for a medical device,

Medical laser treatment machines are used for various purposes such as cosmetics, wound healing, skin irritation, and hair removal. Especially for cosmetic use, it is used for various purposes such as skin peeling, acne treatment and scar removal. The present invention relates to a method capable of controlling fiber laser irradiation by recognizing a fiber in a medical device for delivering a laser beam to a fiber.

Recently, the use of lasers in dermatology and surgery has been a common trend. In medical practice, laser procedures are performed in various ways, such as incision of the skin tissue, hemostasis, pain relief, tattoo removal, and skin peeling. As described above, the laser beam used in the medical treatment is generated in the laser generating apparatus as a high output laser. A fiber for transmitting a high output laser beam generated by a laser generator to a handpiece is often used. A fiber is fastened and fastened between a laser generator and a handpiece, and a high output laser beam A laser delivery device that can deliver to the patient's treatment site is needed and it needs to be specialized for each treatment site.

First, in the case of the lower limb varicose vein laser procedure, the limbs are divided into a vein, which is a vein right below the skin, and a deep vein, which is a vein within the leg muscle. These veins are connected to each other by a vein connected to various parts of the leg, 90% of the blood coming from the heart comes from the arrhythmia, and only the remaining 10% comes through the superficial vein. However, due to various causes, the amount of blood in the superficial vein can be increased. In this case, the pressure in the vein is increased, and the vein is stretched to become swollen. The varicose veins are a part of the superficial veins. . In this way, the venous vein between the cardiac arrhythmia and the superficial venous valve is destroyed, the blood flow is reversed and the disease is caused. A fiber inserted into a blood vessel and irradiated to a blood vessel in which a reflux occurs is damaged by a laser beam.

As a different example, in the field of performing dermal tissue, a laser-based medical device inserts a fiber into the body and irradiates the laser light to the body tissue, thereby removing the body tissue, destroying the abnormal tissue, or removing the fat tissue It can be applied to a procedure. One example of a method using such a laser is a method using a fiber. Specifically, a method of inserting a fiber into a fat layer and emitting a laser through the fiber is a method of irradiating a laser to the fat layer.

However, there are frequent cases of reuse of the fiber once disinfected by the patient, which is very serious.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a medical device for delivering a laser beam to a fiber, And to provide a method and an apparatus for enabling a control to recognize a fiber and irradiate a laser beam.

A fixture for a fiber provided with a groove formed in a main body of the medical laser generator, a fiber fixture having a U groove formed on the handpiece side, The fiber fixture holder and the thread provided inside the fiber fixture holder are fastened to the thread provided on the outside of the fiber fixture on the side of the laser generator to securely irradiate the laser.

A fiber fastened by a proximity communication method is recognized on one side of a fiber fixture on the handpiece side and around the circumference of a fiber fixture on the main body side of the laser generator, and the laser is transmitted. If the connection is not recognized by the proximity communication method, the laser generating apparatus will not operate.

In the medical laser equipment, the fiber is suitably connected to the equipment by the combination of the ∩ groove and the ∪ groove, and the fiber for conveying the laser beam, which is coupled in the secondary, is recognized to judge whether or not the fiber is reused. The present invention relates to a medical laser generating apparatus and method for controlling whether or not to irradiate a laser beam, and it is possible to eliminate the concern of a secondary infection that may occur due to neglect of fiber fouling or disinfection.

1 is a view showing a fastening structure of a fiber fastener and a handpiece-side fiber fastener provided on the side of the medical laser generator;
Fig. 2 is a view showing the fastened structure of Fig. 1
Fig. 3 is a cross-sectional view showing a state in which the laser generator side and the handpiece side are provided with the 棺 groove and the 慣 groove,
4 is a diagram showing an embodiment of a near field communication (near field communication) method provided on the laser generator side and the handpiece side
5 is a block diagram for recognizing a fiber by Near Field Communication (near field communication) and controlling the laser generating device

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Techniques called Radio Frequency Identification (RFID) and radio wave identification used to achieve the above-mentioned problems include a reader for transmitting and receiving radio waves, and a receiver for transmitting and receiving radio waves transmitted from a reader And the tag is divided into two parts.

Radio frequency identification technology is an identification method that reads and decodes information stored in an IC chip attached to a tag through a reader in a noncontact manner using radio frequency. The operation principle of the radio frequency recognition technology is to generate and propagate a radio signal configured in a radio frequency field from an antenna of a reader so that a tag passing through a radio frequency field or within a field receives a suitable radio signal through its antenna, The chip receives energy from the received radio frequency and echoes the information (data) on the chip to the reader as a modulated signal at the frequency generated by the tag. The reader thus decodes the echoed signal, . The configuration of such a system consists of a reader, a tag, an antenna, and software.

The radio frequency field used in the radio frequency identification technology is composed of a magnetic field area or an electromagnetic field area. The magnetic field area uses a frequency in a low frequency band and is widely used for a near field (within 50 cm) (UHF) band has been used at distant (1-10 m)

In general, RFID (Radio Frequency Identification) is a technology for recognizing or recording information held by a tag using a radio frequency in a non-contact manner. The RFID tag recognizes and tracks tagged objects, animals, , And technology that can be managed. The RFID system has a unique identification information, and includes a tag (a tag or a transponder) attached to an object or an animal, a reader (reader or interrogator) for reading or recording the identification information held by the tag, Computer.

1, the laser beam generated from the medical laser generator is connected to an external terminal via a fiber fixture 112 installed on one side of the laser generator, and the corresponding handpiece-side fiber 110 is connected to a fiber fixture 116 ), And is fastened by the fiber fastener holder 114. 2 is a view showing a state in which a thread 113 provided on the outside of the fiber fixture 112 provided on the side of the laser generator and a thread 115 provided inside the handpiece-side fiber fixture holder 114 are engaged.

3, only the handpiece-side fiber provided with the U groove 302 is completely coupled with the fiber fixture 112 provided with the U groove 301 on the side of the laser generator, and the fiber without the U groove 302 The fastening will not be achieved. When the push button switch 303 is provided on the U groove 302 side, the button switch is turned on when the fiber fixture 301 equipped with the ∩ groove 301 is engaged, If the fastening is unsafe, the button switch can be turned off. On / off of the switch can be controlled with the laser generator to control the generation of laser.

 In the medical laser apparatus according to the present invention, a fiber suitable for the equipment is clamped by a combination of ∩ groove and ∪ groove. Secondly, the fiber laser for conveying the laser beam is recognized and it is judged whether or not the fiber is reused (Near field communication), in particular, a radio frequency identification (RFID) method, as shown in FIGS. 4 and 5, by controlling the irradiation of the laser beam, And a RFID tag chip 402 is provided on one side of the handpiece-side fiber fixture 116. The RFID tag chip 402 is provided with a radio frequency identification (RFID) antenna on the outer circumferential surface of the fiber fixture 112, A radio frequency identification (RFID) antenna 401 on the laser generator side receives the data stored in the tag chip 402 incorporated in the handpiece side fiber, analyzes the information of the fiber in the reader 501 for RF recognition, Control the operation of the device

The present invention relates to a medical laser apparatus, in which a suitable fiber optimized for equipment is coupled by a combination of ∩ groove and ∪ groove, thereby preventing a medical accident caused by using an improper fiber, and secondly, The present invention relates to a device and a method for generating a medical laser that recognize whether a fiber is reused or not and irradiate a laser beam by recognizing the fiber for delivering the laser beam. It is destroyed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. It will be possible. The scope of the present invention is defined by the appended claims, and all differences within the scope of the claims are to be construed as being included in the present invention.

110: Fiber 111: Clad (Clad)
112: Laser generator side fiber fixture
113, 115: threads to be fastened
114: Handpiece-side fiber holder holder
116: Handpiece-side fiber fixture
301, 302: ∩ groove and ∪ groove provided in the fiber fixture
303: Push botton switch
401: RFID receiving antenna
402: RFID tag chip
501: Reader for RF recognition

Claims (3)

delete delete A medical laser generator comprising:
Fixture of fiber provided with ∩ groove on the main body side of laser generator:
An RFID antenna on the outer circumference of the fiber fixture of the laser generator:
Fiber fastener with U groove on handpiece side:
An RF tag chip embedded in one side of a fiber fixture on the handpiece side:
A fiber fastener holder for coupling and fixing completely the ∩ groove and the ∪ groove; and
Wherein a thread is provided on the inside of the fiber fixture holder and is tightened with a thread provided on the outside of the fiber fixture on the side of the laser generator to control the laser generation.

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