JP2003225313A - Laser treatment equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide laser treatment equipment capable of simultaneously treating a plurarity of treatment zones within the respective regions of the front, the occiput, the posterior region of neck and an ear part becoming the foundation of medical operation by a laser. <P>SOLUTION: The laser treatment equipment is equipped with a plurality of treatment probes having the light emitting elements of a semiconductor laser to emit laser beams from the tips of the light emitting elements and constituted so that the leading ends of a plurality of the treatment probes are protruded to the required positions inside bands mounted on the head to bring the respective regions of the front, the occiput, the posterior region of neck and the ear part to an integrated structure and brought into contact with the treatment zones of the respective regions under pressure through the expansion and contraction mechanisms in the bands when the bands are mounted on the head. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

2. Description of the Related Art Conventionally, in the treatment with a laser treatment apparatus, an operator mainly selects one of treatment zones of the body and manually adjusts the output and irradiation time of a laser emitted from a single treatment probe. While doing it.
Further, there are those in which a suction cup is arranged at the base of each single probe to be adsorbed to the skin, and a plurality of places are irradiated under the same conditions, or one in which light is diffused and a wide range is irradiated.

[0002]

However, in the case of a single therapeutic probe that irradiates a laser, the treatment efficiency is poor because it takes time-series treatment, and the treatment efficiency is poor, and the treatment zone selection, the wavelength of the laser to be radiated, and the like. Treatments that make full use of technologies such as adjustment of output and irradiation time required a high degree of skill and required a specific practitioner. In addition, the simultaneous treatment at multiple sites with the probe with a suction cup cannot be used for a head with hair, and the acupressure effect due to pressing cannot be obtained. Further, in the case of irradiating a wide range, the irradiation point cannot be narrowed, so that the energy efficiency is poor and the effect is thin. The head treatment by the device of the present invention is based on the central priority theory (PPT) in low response level laser treatment, because of the activation of the brain,
It has a very important effect in enhancing blood flow in the blood vessels of the head and normalizing nerves. Therefore, the present invention solves the above-mentioned problems, and provides a laser treatment apparatus that can perform treatment more efficiently and that can be easily treated even by a specific practitioner.

[0003]

In view of the above, the inventors of the present application have solved this problem by the following means as a result of earnest experiment research. (1) A plurality of therapeutic probes each having a light emitting element of a semiconductor laser and irradiating a laser beam from the tip, and a tip of each of the plurality of probes, a front head, a back head, a back neck, and an ear. When the head mounting band is mounted by projecting at a predetermined position inside the head mounting band having an integrated structure, the tips of the plurality of therapeutic probes are inserted through the elastic mechanism in the band. A laser treatment device, wherein the laser treatment device is configured so as to be pressed against the treatment zone of each region. (2) A band for the crown that is detachably connected to the band for wearing the head, and when the band is worn, the tips of the plurality of therapeutic probes are attached to the top of the crown via an expansion / contraction mechanism in the band. The laser treatment apparatus according to item (1), which is configured to be in pressure contact with the treatment zone. (3) A temporal band that is detachably connected to the head mounting band, and when the band is mounted, the tips of the plurality of therapeutic probes are temporal bands via an expansion / contraction mechanism in the band. The laser treatment apparatus according to (1) or (2), which is configured so as to be in pressure contact with the treatment zone of the part. (4) The nose band that is detachably connected to the head wearing band, and the laser light from the tips of the two therapeutic probes when the bands are worn, is used to treat the inside of the nostril via the expansion mechanism. The laser treatment apparatus according to any one of items (1) to (3), which is configured to irradiate the zone.

(5) The laser described in any one of (1) to (4), wherein the wavelength band of the laser emitted from the therapeutic probe is in the visible to infrared range. Treatment device. (6) The laser according to any one of (1) to (5), wherein the treatment zone of each region is a zone corresponding to the nervous system, lymphatic system, blood circulation system, etc. of the body. Treatment device. (7) A CPU connected to a treatment probe disposed in each treatment zone of each area, and an operating device such as a display and a keyboard and a mouse connected to the CPU are provided, and display is performed by operating the operating device. (1) to (6) characterized in that it is possible to select an area displayed on the container and each treatment position of a plurality of treatment zones within the area, and to specify the output and irradiation time of the laser that irradiates each treatment position. ) The laser treatment apparatus according to any one of paragraphs. (8) The laser treatment apparatus according to any one of (1) to (7), wherein the wavelength band of the laser to be irradiated can be switched by exchanging the wearing band in each region. (9) Each therapeutic probe is provided with a plurality of laser light emitters having different wavelengths, and the wavelength band to be irradiated can be switched by an operating device via the CPU (1) to
The laser treatment apparatus according to any one of (7).

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION The required treatment region of the human head is roughly classified into each region, and the treatment region in the treatment region is covered at a required position.
A mounting tool provided with a plurality of laser treatment probes is mounted on a patient and pressure-contacted to a required zone (the ear canal and nostril are set at the entrance), and the practitioner separates a region roughly classified by an external CPU, individually or in plural. By combining and displaying the locations of the treatment zones within the area, and selecting and controlling the laser output, treatment time, wavelength band, etc. according to the locations of the multiple treatment zones that are distributed, treatment can be performed efficiently. can do. Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is an external view of a laser treatment apparatus according to the present invention, in which (a) is a right side view, (b) is a plan view, and (c) is a plan view.
The figure is a front view, and (d) is a rear view. In the figure, 1
Is a head wear band, 2 is a nose band, 3 is a forehead,
4 is a band for the top of the head, 5 is the back of the head, 6 is the back of the neck, 7 is the ear, 8 is goggles, 9 is a band for the temporal region, 10 is a fastening band for the jaw, 11 is a band for fastening the head, 51 Is a patient's head, and 30 is a control signal cable. In addition, in FIG.
The mounting appearance view of is an example in which all the therapeutic bands applied to each area are attached. The mounting method will be described below. , The head 51 of the patient to be treated, the frontal region 3 and the occipital region 5
Then, the head mounting band 1 in which the respective regions of the back neck portion 6 and the ear portion 7 are integrally structured is attached. The wearing is set around the treatment zone (both ear holes) of the ear portion 7. Since the ear canal is deep, it is set at the entrance of the ear canal to illuminate the back. , Connector 12a for connecting the front and rear ends of the band 4 for the crown
2 ((a) in FIG. 2) is inserted and fixed to the front and rear end portions of the upper side of the head mounting band 1. , A plurality of connectors 12b (FIG. 2 (A) in FIG. 2) at the lower peripheral end of the temporal band 9 are inserted and fixed in the center of the upper side of the head mounting band 1 as shown in the figure (left side surface). Is also the same).

In the above-mentioned state, the head-mounting band 1 and the jaw-fixing band 10 are fastened and fixed to the upper and lower sides of the head-mounting band 1 as shown in FIG. At this time, the distal end of the therapeutic probe 13 is moved by the expansion / contraction mechanism (FIGS. 3 and 4) described below which is provided for each therapeutic probe 13 (FIG. 2A and FIG. 5A). , Automatically adapts to the size and irregularities of the head and presses against the skin of the patient's head 51. , Next, the connectors 12 at both ends of the nose band 2
c is inserted and fixed as shown in FIG. 2 (a), and the tips of two independent nostril probes 13a for treating the nose at the center upper part of the nose band 2 are inserted into each nostril. Set to. Further, the expansion and contraction of the nostril probe 13a (FIG. 2A) is performed by the expansion and contraction of the cord connected to the base. Then, finally, the goggle connectors 12d at both ends of the goggles 8 for protecting the eyes from the laser light are inserted and fixed below the front head base of the head mounting band 1. The size of the goggles 8 is adjusted by the goggle expansion / contraction part 8a (FIG. 2C) connecting both eyes. The above is the case where all the laser treatment devices are mounted. Further, based on the head mounting band 1, selection of other bands can be easily made by attaching and detaching the connector.

Next, the structure and function of each band will be described. FIG. 2 is an external view of the laser treatment device mounting portion of the present invention.
(A) is a left side view, (B) is a plan view, (C) is a front view, and (D) is a rear view. In the figure, 7a is an ear canal probe, 8a is a goggle expansion / contraction part, 12a is a connector for the crown, 12b is a connector for the temporal region, 12c is a connector for the nose, 12d is a connector for the goggles, 13 is a therapeutic probe, 13a. Is a nostril probe, and 30a is a signal connector. FIG. 2 shows that the patient's head 51 is removed from FIG.
The therapeutic probe and the connecting connector portion arranged in the above are indicated by dotted lines. Of these, the ear canal probe 7a used for the ear part 7 is designed to have a long protruding portion and be inserted shallowly into the ear canal when set. Further, the nostril probe 13a of the nose portion 2 also has an independent long cylindrical irradiation portion so as to be shallowly inserted into the nostril, and the expandable portion makes the cord connected to the base portion flexible.

As described in the previous section, each of the illustrated connectors has a band (insertion side) inserted into the band in each region.
The receiving side is arranged at the target position of the basic head-mounted band 1, and the selection and combination of the large-sized areas can be easily performed. When the connector is inserted, the position of the insertion side is fixed and the control signal of each probe input to each receiving side connector of the head mounting band 1 is supplied to the insertion side. Then, the control signal (described later) from the CPU is converged, input from the lower rear portion of the head mounting band 1 through the control signal line 30 and the signal connector 30a, and branched to the receiving side of each connector. There is.

FIG. 3 is an expansion / contraction mechanism diagram of the inner surface of the laser treatment apparatus mounting portion of FIG. 2, and FIG. 3 (a) is a longitudinal sectional view showing the treatment probe of a part of the band and the disposition of the cushion material. (A) is a plan view of the band in (a) viewed from the inner surface side, and (c) is a vertical cross section taken along the line AA 'in (b) showing the therapeutic probe alone. In the figure, 33 is a condenser lens, 34 is a semiconductor laser light emitting element, 35 is an oscillation control circuit board, 36 is a signal line, 37 is an outer cylinder, 38 is a housing case, 39 is a cushion material surface, and 39 'is a distance. , 40 are cushion materials, 41,
42 is an expansion / contraction distance, 43 is an expansion / contraction direction, 44 is an outer cover,
53 and 54 are initial positions, and 55 and 56 are next positions. As an example, the therapeutic probe 13 is basically composed of a condenser lens 33, a semiconductor laser light emitting element 34, an oscillation control circuit board 35, and a signal line 36, as shown in FIG. It is housed in the outer cylinder 37 and the housing 38 made of removable synthetic resin,
It is one. Then, the tip of the condenser lens 33 is exposed, and the skin of the patient is pressed against it. Further, the output of the laser can be changed by sending a signal to the circuit of the control circuit board 35 via the signal line 36. Furthermore, since the signal line 36 also moves, it can be buffered by providing a loop, for example.

In the case of the above therapeutic probe alone, the semiconductor laser light emitting element 34 and the oscillation control circuit board 35 are each one, but a plurality of semiconductor light emitting elements of different types and a plurality of oscillation control circuits are provided. Lasers having different wavelength bands may be emitted by being built in the housing and being switched and selected by a control signal (not shown).

As shown in FIG. 3A, a cushion material 40 having a predetermined thickness is fixed to the inner surface of the outer cover 44 of each band.
Is cut so that the treatment probe 13 can be buried at a certain depth according to the position of each treatment zone.
The cushion material 40 is a non-metallic spring, and is preferably made of rubber foam, plastic foam including polystyrene, polyethylene, urethane, or the like, which is elastic and flexible.

The therapeutic probe 13 is embedded in the cut portion of the cushion member 40. At this time,
As shown by the dotted line, the bottom surface is at the initial position 53 by the cushion material 40, and the tip of the condenser lens 33 is at the initial position 54. The side surface of the housing 38 of the therapeutic probe 13 is fixed to the side surface of the cut portion with, for example, an adhesive agent.

In this state, it is assumed that the tip of the condenser lens 33, which was at the initial position 54, is pushed outward by the patient wearing the band, and the position moves to the next position 55 by the distance 42. The bottom surface of the therapeutic probe 13 moves from the initial position 53 to the next position 56 by a distance 41.
Therefore, the cushion material 40 between the inner surface of the outer cover 44 and the bottom surface of the therapeutic probe 13 is also compressed by the distance 41. The surface 39 of the cushion material adhered to the side surface of the housing 38 is also compressed by the distance 39 'as the housing moves. Since the cushioning material 40 has elasticity and flexibility, a restoring force is always exerted on the therapeutic probe 13, and the skin of the patient's head and the condenser lens 3 are always present.
The tip of 3 abuts with a constant pressure. Therefore, it is possible to satisfy the laser irradiation condition corresponding to the size of the patient's head and the unevenness of the treatment zone position due to individual differences.

The therapeutic probe 1 is provided on the inner surface of the band.
3, the surface 39 of the cushion material 40 and the signal line 36
Therefore, a net having elasticity may be continuously applied except for the tip of the condenser lens 33. further,
Since the heat generated in the therapeutic probe 13 is released through the cushion material 40, a plurality of heat dissipation holes may be provided in the outer cover 44 (not shown).

4A and 4B are other examples of the expansion / contraction mechanism of the inner surface of the laser treatment apparatus mounting portion of FIG. 2, and FIG. 4A is a top view of a part of the band seen from the outer surface of the outer cover 44, and FIG. Is (a)
BB 'bottom sectional view of the figure, (c) figure is a longitudinal sectional view showing the arrangement of the therapeutic probe 13, rubber back 61, and spring material of a part of the band, (d) figure of (c) figure. It is the top view which looked at the band from the inner surface side. In the figure, 53 ', 54'
Is the next position, 55 ', 56' is the initial position, 61 is the rubber back, 61 'is the tubular connecting pipe, 62 is the compressed air inlet / outlet, 63 is the air direction, and 64 is the sliding metal spring.

As an example, the therapeutic probe 13 is basically the same as that shown in FIG. 3C. However, a radiation fin is wound around the semiconductor light emitting element 34, and the jacket cylinder 3 is formed.
7 and the housing 38 are made of metal with good thermal conductivity. The outer cover 44 is also made of a metal that has good heat conduction and is lightweight, such as aluminum. 4 (a)-
(C) As shown in the figure, the bottom of the sliding metal spring 64 is fixed between the inner surface of the outer cover 44 of each band and the treatment probe 13, and the oscillation control of the treatment probe 13 is performed. A rubber back 61 having a predetermined volume is disposed between the bottom surface of the circuit board 35 and the outer cover 44, with the bottom surface fixed to the inner surface of the outer cover 44.

The rubber back 61 has a shape in which both outer sides of the bottom of the sliding metal spring 64 are tubular and are connected to the left and right (tubular connecting pipe 61 ') to form a bag shape as a whole. The compressed air inlet / outlet 62 is moved in and out in the air direction 63 to expand and contract. As shown, the substrate 3 of the therapeutic probe 13
The bottom surface of 5 is initially at the position 56 ', but when air is injected, the rubber back expands and is pushed up to the next position 53'. When the air is removed, it contracts and returns to its original position. Along with this, the tip of the condenser lens 33 also extends / contracts a distance 42 between the initial position 55 ′ and the next position 54 ′.
Just move. Accordingly, the skin of the patient's head and the tip of the condenser lens 33 can be brought into contact with each other by a constant pressure by adjusting the flow of the compressed air.
The above-mentioned adjustment may be automatically controlled by the user by determining the numerical value of the pressure contact. Therefore, it is possible to satisfy the laser irradiation condition corresponding to the size of the patient's head and the unevenness of the treatment zone position due to individual differences.

Next, the operation of the sliding metal spring 64 will be described.
As shown, the bottom of the U-shaped sliding metal spring 64 is fixed to the inner surface of the outer cover 44, and both sides of the U-shaped sliding metal spring 64 are free to the housing 38 of the therapeutic probe 13 and outside the spring. They are in contact with each other due to their elasticity. Then, the housing 38 moves up and down due to the expansion and contraction of the airbag 61 as described above, but both sides of the sliding metal spring 64 do not move, and each time, the sliding housing contacts the side surface of the housing 38 while sliding. There is.
Therefore, the heat mainly generated from the semiconductor laser light-emitting element 34 is transmitted from the side surface of the housing 38 via the fins to both sides of the sliding metal spring 64, passes through the fixed bottom portion, and reaches the outer cover 44. Since it is conducted and released to the outside, it has a great cooling effect. The sliding metal spring 64 fixes the position of the therapeutic probe 13 on the airbag 61.

Next, another structural example of the laser treatment device mounting portion will be described. FIG. 5 is an external view of a laser treatment device mounting portion using a metal thin leaf spring for an expansion / contraction mechanism, in which (a) is a left side view, (b) is a plan view, and (c) is a front view.
(D) The figure shows a rear view. In the figure, reference numeral 45 indicates a thin leaf spring. This device is different from the laser treatment device mounting portion of FIG. 2 described above in the expansion and contraction mechanism of each band, and the treatment effect is the same. However, in appearance, there is no particular fixed outer cover, and the basic head mounting band 1 has a plurality of area mountings with the base fixed around the fixing plate of the ear 7. And a plurality of other bands that are attached to and detached from the fixed plate by a connector. The expansion and contraction mechanism of each band connects a plurality of therapeutic probes with a thin leaf spring and expands and contracts between the left and right due to its elasticity, so that it corresponds to the size of the patient's head and the unevenness of the treatment zone position due to individual differences. Then, the laser irradiation condition can be satisfied.

FIG. 6 is an expansion / contraction mechanism diagram of the band for mounting the laser treatment device of FIG. 5 by means of a thin leaf spring. FIG. 6A shows a part of the band, and the treatment probe and the thin leaf spring are opened to the left and right. A vertical cross-sectional view of the band, (b) is a cross-sectional view taken along the line AA ′ of the band in the normal state showing the arrangement of the therapeutic probe and the thin leaf spring,
FIG. 3C is a plan view of the band shown in FIG. In the figure, 45 is a thin leaf spring, 46 is the distance between the tips of the condenser lenses, 47 is the distance between the inner leaf springs, 48 is the distance between the inner leaf springs when opened, and 49 is the distance between the tips of the condenser lenses when opened. Intervals, 57 and 58 are initial positions of the condenser lens tip, 58 'is a next position, and 59 is a distance. The thin leaf spring is composed of a plurality of leaf spring layers having both ends alternately fixed, and the minimum number of leaf springs is N-shaped (the figure shows an M-shaped one). And, as shown in the figure, the outside of the left and right end springs is
The treatment probe 13 is fixed to the side surface of the housing 38. In this state, the initial positions 57 and 58 of the tip of the condenser lens 33 in (b) are enlarged left and right when the patient wears the band, as shown in (a). Has a distance of 59 to the next position 58 '.
Just move.

Further, when the above state is viewed from the whole band, the whole is in the direction of being contracted inward due to the restoring force of the thin leaf spring 45 fixed to the side surface of the housing 38. Therefore, the skin of the patient's head and the therapeutic probe 1
The tip of the condenser lens 33 of No. 3 is always in pressure contact with a constant pressure. Therefore, it is possible to satisfy the laser irradiation condition corresponding to the size of the patient's head and the unevenness of the treatment zone position due to individual differences.

Since the upper and lower surfaces and side surfaces of the connected therapeutic probe 13 and the outer surface of the thin leaf spring 45 are exposed on the inner and outer peripheries of the band, for example, an elastic mesh except for the tip of the condenser lens 33 is used. , May be continuously applied. The expansion and contraction mechanism using the metal thin leaf spring has high durability, heat dissipation, and chemical resistance.

Next, the control and operation of the laser treatment apparatus will be described. FIG. 7 is a block diagram of the laser treatment apparatus circuit of the present invention, and FIG. 8 is an external view of the display and control operation unit of the treatment zone and irradiation condition of each treatment probe in the area of the display unit. In the figure, 2 to 7 and 9 are blocks of a plurality of therapeutic probes each having a light emission irradiation and control receiving circuit in each region band shown in (FIG. 1) ((c) of FIG. 3).
21 to 27 are blocks of respective control unit circuits corresponding to the above, 14 is a CPU, 15 is an operation plate, 16 is a mouse, 1
7 is an indicator, 18 is a left side, 19 is a front, 20 is a back,
21 to 27 are blocks of corresponding control unit circuits, 28 is an arithmetic processing unit, 29 is a signal line, 30 is a control signal cable, 31 is a region band selection switch, 32 is a power supply, 60
Indicates a marker of the selection zone, and 65 indicates the upper surface.

The oscillation control circuit board 35 (FIG. 3C) of the plurality of therapeutic probes disposed on the band for each area of 2 to 7 and 9 which is attached to the patient is provided with an external device. C
The control signal is transmitted from the arithmetic processing unit 28 of the PU 14 to the control units 21 to 27 by the control signal cable 30. First, the head wearing band 1 (front head 3, occipital region 5, occipital region 6) which is a basic part. , Is input from the lower rear part of the ear portion 7), and is distributed to the therapeutic probes 13 in the respective portions 3, 5, 6, 7 described above. Then, above the fixing plate of the ear part of the head mounting band 1, a receiving connector for connection for selectively supplying a control signal to each band of the crown part 4, the temporal part 9, and the nose part 2. The side is arranged (FIG. 2A), and the signal line is connected to the terminal of the connector (FIG. 6 shows only the signal system). As described above, each treatment probe performs treatment while setting the output of the laser to be irradiated, the irradiation time, and the wavelength band. Therefore, as a means for that, the arithmetic processing unit 28 of the CPU 14 controls each control unit. 21-2
7, a command is sent by the control signal cable 30, and the command is to display the treatment zone of each treatment probe 13 as a pattern based on the real thing in order to make the operation easy and easy to understand. Is desirable.

FIG. 8 is a pattern diagram of the treatment condition based on the mounted product. As for the command, a region is selected and designated by the operation plate 15 (for example, keyboard) (ON / OFF of the region band selection switch 31 (FIG. 7)), and further, a treatment zone is designated by the mouse 16 (for example, the C zone by the marker 60). Then, the operation plate 15 is used to specify the output, the treatment time, the wavelength band, and the like. Similarly, A, B, ... Zones are sequentially designated. It is easy to use these data if they are displayed on a part of the display board. Further, the above designation can be easily changed even during treatment.

[0027]

According to the present invention, the following excellent effects can be exhibited. According to the first aspect of the present invention, a plurality of therapeutic probes each having a light emitting element of a semiconductor laser and irradiating a laser beam from the tip, and the tips of the plurality of probes are a frontal region. And a plurality of therapeutic probes when the head mounting band is mounted by projecting the respective regions of the occipital region, the back neck, and the ears into a required position inside the head mounting band having an integrated structure. Since the distal end of the medical instrument is configured to come into pressure contact with the treatment zones of the respective regions via the expansion / contraction mechanism in the band, it is possible to simultaneously treat a plurality of treatment zones in the region which is the basis of the treatment. According to the second aspect of the present invention, the head band that is detachably connected to the basic head mounting band and the tips of the plurality of therapeutic probes when the band is mounted are the bands. Since it is configured to come into pressure contact with the treatment zone on the parietal region through the internal expansion / contraction mechanism, the treatment region can be expanded in combination with the head band. According to the invention of claim 3, the temporal band that is detachably connected to the basic head mounting band, and the tips of the plurality of therapeutic probes when the band is mounted, Since it is configured to be pressed into contact with the treatment zone of the temporal region via the expansion / contraction mechanism in the band, it is possible to expand the treatment area by combining with the band for the crown. According to the invention of claim 4, the nose band detachably connected to the basic head band and the tips of the two therapeutic probes expand and contract when the band is worn. Since it is configured to press the treatment zone in the nostril via the mechanism, the treatment area can be expanded by combining the parietal band and the temporal band together.

According to the fifth and fifth aspects of the invention, since the wavelength band of the laser emitted from the therapeutic probe is in the visible light to infrared region, it is necessary to select an appropriate wavelength band according to the symptom. You can According to the invention of claim 6, the treatment zone of each region is
Since it is a zone corresponding to the nervous system, lymphatic system, blood circulation system, etc. of the body, it is possible to select and treat a treatment zone of a system related to symptoms. 7. According to the invention of claim 7, a CPU connected to a treatment probe disposed in each treatment zone of each region, and the CP
A display unit connected to U and an operating unit such as a keyboard and a mouse are provided, and by operating the operating unit, a region displayed on the display unit and treatment positions of a plurality of treatment zones in the region are selected, and each treatment is performed. Since it is possible to specify the output of the laser and the irradiation time for irradiating the position, it is easy to set the treatment condition. Further, since the operation can be performed based on the mounting pattern by the display device, it is possible to perform the treatment even if the operator is not a specific skilled operator. According to the invention of claim 8 and claim 8, the wavelength band of the laser to be irradiated can be switched by exchanging the mounting band in each region, so that the device can be downsized. According to the ninth and ninth aspects of the present invention, each treatment probe includes a plurality of laser light emitters having different wavelengths, and the irradiation wavelength band can be switched by the operating device via the CPU. Can be set only by.

[Brief description of drawings]

FIG. 1 is an external view of mounting a laser treatment apparatus according to the present invention.

FIG. 2 is an external view of a laser treatment device mounting portion of the present invention.

FIG. 3 is a view of the expansion and contraction mechanism of the inner surface of the laser treatment device mounting portion of FIG.

FIG. 4 is another example diagram of the expansion / contraction mechanism of the inner surface of the laser treatment device mounting portion of FIG.

FIG. 5 is an external view of a laser treatment device mounting portion using a metal thin leaf spring for an expansion / contraction mechanism.

6 is an expansion / contraction mechanism diagram of a thin band spring of the band for mounting the laser treatment device of FIG.

FIG. 7 is a block diagram of a laser treatment apparatus circuit according to the present invention.

FIG. 8 is a view showing the treatment zone and irradiation condition of each treatment probe in the area of the display, and an external view of the control operator.

[Explanation of symbols]

1: Band for wearing on head 2: Band for nose 3: Frontal region 4: Band for crown 5: Occipital region 6: Back of neck 7: Ear 7a: Probe for ear canal 8: Goggles 8a: Goggle expansion / contraction part 9 : Temporal band 10: Jaw fastening band 11: Head fastening band 12a: Top connector 12b: Temporal connector 12c: Nose connector 12d: Goggle connector 13: Treatment probe 13a: Nostril probe 14: CPU 15: Operation plate 16: Mouse 17: Display 18: Left side 19: Front 20: Back 21-27: Corresponding control unit circuit block 28: Arithmetic processing unit 29: Signal line 30: Control signal cable 30a: Signal connector 31: Area band selection switch 32: Power supply 33: Condensing lens 34: Semiconductor laser light emitting element 35: Oscillation control circuit board 36: Signal line 3 : Outer cylinder 38: Storage case 39: Cushion material surface 39 ': Distance 40: Cushion material 41, 42: Stretching distance 43: Stretching direction 44: Sheath cover 45: Thin leaf spring 46: Spacing of condensing lens tip 47 : Distance between inner thin leaf springs 48: Distance between tips of condenser lenses when opened 49: Distance between inner thin leaf springs when opened 51: Head of patient 53, 54: Initial position 53 ', 54': Next Position 55, 56: next position 55 ', 56': initial position 57, 58: position of the tip of the condenser lens 58 ': next position 59: distance 60: marker of selected zone 61: rubber back 61' tubular Connection pipe 62: Compressed air inlet / outlet 63: Air direction 64: Sliding metal spring 65: Top surface

Claims (9)

[Claims] 1. A plurality of therapeutic probes each having a light emitting element of a semiconductor laser and irradiating a laser beam from a tip, and tips of the plurality of probes are a frontal part, a occipital part, a back neck, and an ear part. When the head mounting band is mounted, the tips of the plurality of therapeutic probes are extended and contracted in the band when the head mounting band is mounted by projecting each region of A laser treatment apparatus, wherein the laser treatment apparatus is configured to be in pressure contact with the treatment zone of each region via the. 2. A head band that is detachably connected to the head mounting band, and when the bands are mounted, the tips of the plurality of therapeutic probes are heads via an expansion / contraction mechanism in the band. The laser treatment apparatus according to claim 1, wherein the laser treatment apparatus is configured to be in pressure contact with the treatment zone at the top. 3. A temporal band that is detachably connected to the head-mounting band, and tips of the plurality of therapeutic probes when the band is mounted, through a telescopic mechanism in the band. The laser treatment apparatus according to claim 1 or 2, wherein the laser treatment apparatus is configured to be pressed against the treatment zone of the temporal region. 4. A nose band removably connected to a head mounting band, and when the bands are mounted, laser light from the tips of the two therapeutic probes is inserted into the nostril via an expansion / contraction mechanism. The laser treatment apparatus according to any one of claims 1 to 3, wherein the laser treatment apparatus is configured to irradiate the treatment zone. 5. The laser treatment apparatus according to claim 1, wherein the wavelength band of the laser emitted from the treatment probe is in the visible to infrared region. 6. The laser treatment according to claim 1, wherein the treatment zone of each region is a zone corresponding to the nervous system, lymphatic system, blood circulation system, etc. of the body. apparatus. 7. A CPU connected to a treatment probe arranged in each treatment zone of each area, and an operation device such as a display and a keyboard and a mouse connected to the CPU, which are operated by the operation device. The region displayed on the display and each treatment position of a plurality of treatment zones in the region can be selected, and the output of the laser and the irradiation time for irradiating each treatment position can be designated. 6. The laser treatment apparatus according to any one of 6 above. 8. The laser treatment apparatus according to claim 1, wherein the wavelength band of the laser to be irradiated can be switched by exchanging the wearing band in each region. 9. Each of the therapeutic probes is provided with a plurality of laser light emitters having different wavelengths, and the wavelength band for irradiation can be switched by an operating device via the CPU. A laser treatment apparatus according to item.