KR20040027152A - Laser handpiece for control pressure sense - Google Patents

Abstract

PURPOSE: A laser handpiece is provided to achieve improved effectiveness of surgery operation by controlling the power of laser and flow of refrigerant in accordance with the state of organ of a patient. CONSTITUTION: A laser handpiece comprises a main body(10) having a pressure sensor(12) for controlling the power of laser and flow of refrigerant in accordance with the state of organ of a patient; an electrical signal converting unit(20) for converting the signal transmitted from the pressure sensor of the main body into an electrical signal; and a control unit(30) for controlling the power of the laser generated from a laser generating unit(40) in accordance with the signal output from the electrical signal converting unit, and controlling the flow of the refrigerant generated from the refrigerant generating unit(50).

Description

LASER HANDPIECE FOR CONTROL PRESSURE SENSE}

The present invention relates to a laser handpiece by pressure sensor control, and more particularly, by mounting a pressure sensor on the handpiece and controlling the laser power and the amount of refrigerant according to the state of living tissue during laser treatment. The present invention relates to a laser handpiece.

In general, a laser handpiece is for performing a predetermined task by a user precisely irradiating a laser beam outputted from a laser beam output device to a specific object by using a hand. In particular, a medical laser handpiece irradiates a laser beam to an affected part. It is used to perform procedures such as cutting and coagulation of the affected area.

Figure 1 shows the configuration of a conventional laser handpiece used to treat tissues of the body, such as gums or flesh.

The conventional laser handpiece shown in FIG. 1 includes a laser fiber 2 made of an optical fiber which irradiates a affected area through the interior of the handpiece main body part 1 with the laser beam output from the laser generating part 5, and In order to cool the affected part heated by the laser, the cooling tube 3 which supplies the refrigerant output from the refrigerant generating part 6 to the affected part through the inside of the handpiece main body part 1, and the power source are turned on. The power switch 4 which turns ON / OFF is provided.

Here, the laser generator 5 is provided with an adjusting device (not shown) for adjusting the laser power, the coolant generator 6 is an adjusting device (not shown) for adjusting the amount of the coolant. Equipped with. At this time, the laser generating unit 5 and the refrigerant generating unit 6 are provided in a laser main body (not shown) separately from the handpiece main body 1.

As described above, the conventional laser handpiece has a device for adjusting the laser power and the amount of refrigerant in the laser body, and the handpiece main body 1 is equipped with only a power switch 4 for turning on / off the power. It is.

Therefore, the conventional laser handpiece is inconvenient for the doctor to control the laser power and the amount of refrigerant during the laser treatment, and there is a problem that can damage the tissue because a constant laser is generated regardless of the state of the tissue.

Therefore, the present invention has been made to solve the above problems, and an object of the present invention is to control the laser power and refrigerant amount by the pressure sensor attached to the handpiece body according to the tissue state of the patient To provide a handpiece.

1 is a configuration of the laser handpiece by the pressure sensor control according to the prior art

2 is a configuration of the laser handpiece by the pressure sensor control of the present invention

Figure 3 is a waveform diagram showing the laser power and the amount of refrigerant over time

<Explanation of symbols for the main parts of the drawings>

10 handpiece body 12 pressure sensor

14 optical fiber or laser fiber 16 cooling tube

16a: nozzle 18: power switch

20: electric signal conversion unit 30: control unit

40: laser generating unit 50: refrigerant generating unit

Laser handpiece by the pressure sensor control according to the present invention for achieving the above object,

A handpiece main body having a pressure sensor operable to adjust the power of the laser and the amount of refrigerant according to the tissue state of the patient;

An electrical signal conversion unit for converting a signal transmitted from the pressure sensor of the handpiece main body into an electrical signal; And

It characterized in that it comprises a control unit for controlling the power of the laser generated in the laser generating unit by the signal from the electrical signal conversion unit, and also controls the amount of the refrigerant generated in the refrigerant generating unit.

The handpiece main body may include: a laser fiber for irradiating the affected area through the inside of the handpiece main body with a laser beam output from the laser generator; A cooling tube for supplying a coolant output from the coolant generator to the affected part through the inside of the handpiece main body to cool the affected part heated by the laser; And a pressure sensor operable to adjust the power of the laser and the amount of refrigerant according to the tissue state of the patient.

The handpiece main body portion further comprises a power switch 4 for turning on / off the power.

The refrigerant is characterized in that it is generated between the pulse and the pulse that does not generate a laser.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of the laser handpiece by the pressure sensor control of the present invention, Figure 3 is a waveform diagram showing the laser power and the amount of refrigerant over time.

The laser handpiece according to the pressure sensor control of the present invention shown in FIG. 2 includes a handpiece main body 10, an electric signal converter 20, a controller 30, a laser generator 40, and a refrigerant generator ( 50).

The handpiece main body 10 includes a laser fiber 14 made of an optical fiber that irradiates the affected area through the inside of the handpiece main body 10 with the laser beam output from the laser generator 40, and the laser. Cooling tube 16 for supplying the refrigerant output from the refrigerant generating unit 50 to the affected part through the interior of the handpiece main body 10 to cool the affected part heated by the laser, and the laser according to the tissue state of the patient Pressure sensor 12 for adjusting the amount of power and the amount of refrigerant, and a power switch 18 for turning on / off the power supply.

The electrical signal converter 20 converts a signal transmitted from the pressure sensor 12 of the handpiece main body 10 into an electrical signal.

The controller 30 adjusts the power of the laser generated by the laser generator 40 according to the signal output from the electrical signal converter 20, and further controls the power of the refrigerant generated by the coolant generator 50. Adjust the amount.

The laser generator 40 adjusts the laser power according to the signal received from the controller 30 and supplies the laser power to the laser fiber 14 of the handpiece main body 10.

The coolant generator 50 adjusts the amount of coolant according to the signal received from the controller 30 and supplies the coolant to the cooling tube 16 of the handpiece main body 10.

Therefore, the power of the laser irradiated through the laser fiber 14 of the handpiece main body 10 is controlled by the pressure sensor 12, and the cooling tube 16 of the handpiece main body 10 The amount of refrigerant supplied through) is also controlled by the pressure sensor 12.

Therefore, the power and refrigerant amount of the laser can be adjusted by adjusting the pressure sensor 12 attached to the handpiece body 12 according to the tissue state of the patient.

That is, if a lot of energy is required to treat the tissue of the affected area, the pressure sensor 12 may be pressed hard with a finger. At this time, the laser power increases and the amount of refrigerant increases.

In addition, treatment of tissues such as soft tissues requires less laser power than hard tissues. At this time, if the pressure sensor 12 is lightly pressed with a finger, the laser power and the amount of refrigerant are reduced.

A dental drill using the basic principles of the present invention in dentistry will now be described.

In the case of the dental drill, since the drill contacts the tissue, the state of the tissue is detected in the hand and the speed and power of the drill are adjusted according to the detected amount. Therefore, the speed and power of the drill are adjusted according to the condition of the tissue. This is a very important factor in treating tissue.

However, since the laser is used in a non-contact state, the state of the tissue is not transmitted to the hand through the handpiece. Therefore, in the case of using a laser handpiece, the treatment is performed while observing the state of the tissue with the eye.

Therefore, the laser handpiece according to the present invention controls the laser power and the amount of refrigerant by adjusting the pressure sensor 12 with a finger according to the state of the tissue observed by the eye.

The role of the refrigerant causes heat to be generated in the tissue by the energy of the laser. This heat not only causes pain but also burns. Therefore, the refrigerant is injected to prevent heat from being generated in the tissue. At this time, the refrigerant generally uses water.

In addition, the refrigerant interferes with the progress of the laser and the transfer of energy to the tissue. Therefore, the amount of refrigerant and the generation time of the refrigerant are important.

Therefore, the present invention, as shown in Figure 3, by generating a refrigerant between the pulse and the pulse does not generate a laser, to prevent the heat generated in the tissue, and also so that the laser energy can be delivered to the tissue without loss Implemented.

Preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art will be able to make various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and changes belong to the following claims Should be seen.

As described above, the laser handpiece according to the pressure sensor control according to the present invention can simply adjust the power of the laser and the amount of refrigerant according to the tissue state of the patient by the pressure sensor attached to the body of the handpiece. Therefore, there is an effect that can perform an effective operation.

Claims (4)

In the laser handpiece by pressure sensor control, A handpiece main body having a pressure sensor operable to adjust the power of the laser and the amount of refrigerant according to the tissue state of the patient; An electrical signal conversion unit for converting a signal transmitted from the pressure sensor of the handpiece main body into an electrical signal; And And a control unit for adjusting the power of the laser generated in the laser generator by the signal from the electrical signal converter and controlling the amount of the refrigerant generated in the coolant generator. Handpiece. The method of claim 1, wherein the handpiece body portion, A laser fiber that irradiates the affected area through the inside of the handpiece body part with the laser beam output from the laser generation part; A cooling tube for supplying a refrigerant output from the refrigerant generator to the affected part through the inside of the handpiece main body part to cool the affected part heated by the laser; And And a pressure sensor operable to adjust the power of the laser and the amount of refrigerant according to the tissue state of the patient. According to claim 2, The handpiece body portion, A laser handpiece under pressure sensor control, further comprising a power switch 4 for turning the power on and off. The method of claim 1, The coolant is a laser handpiece by the pressure sensor control, characterized in that generated between the pulse and the pulse does not generate a laser.