CN219000554U - Adjustable continuous energy output light guide arm - Google Patents

Abstract

The utility model provides an adjustable continuous energy output light guide arm, which comprises a plurality of light guide arms, a plurality of angle adjusting devices, a reflecting lens group, a first plano-concave lens and a second plano-concave lens, wherein the light guide arms comprise light inlets and light outlets; the light guide arms are connected with the angle adjusting device at intervals, and two adjacent light guide arms are respectively connected with two ends of the angle adjusting device; the reflecting lens group is arranged in the angle adjusting device and is used for guiding laser injected along the light inlet of one light guide arm to pass through the angle adjusting device and be injected along the light outlet of the other adjacent light guide arm; the first plano-concave lens is arranged in the angle adjusting device at the head end; the second plano-concave lens is arranged in the angle adjusting device at the tail end. Through the arrangement of the structure, the first plano-concave lens and the second plano-concave lens are respectively arranged at the angle adjusting devices at the head end and the tail end, incident laser and emergent laser can be dispersed and continuously and uniformly spread, the laser energy in unit area is reduced, the human body part is repaired and treated, and the safety is improved.

Description

Adjustable continuous energy output light guide arm

Technical Field

The utility model relates to the technical field of light guide arms, in particular to an adjustable continuous energy output light guide arm.

Background

The laser technology is one of the great utility models in the twentieth century, and is widely used in various fields of industrial production, communication, information processing, medical and health, military, cultural education, scientific research and the like. With the major breakthrough of semiconductor laser diode technology, solid-state lasers have been strongly developed, and the application fields thereof are continuously expanding. Solid state lasers have become one of the key developments in the laser disciplines, which hold promise for the treatment of diseases, such as ocular diseases in humans, by laser light. The laser therapeutic machine is a mechanical-electrical integrated medical device which uses the thermal effect and controllability of laser to cut and ablate human tissues, and uses the selective heat absorption principle of the human tissues to the laser, so that the laser therapeutic machine is widely applied to beauty projects such as mole removal, freckle removal, scar removal, face-lift repair and the like. However, since the laser beam output by the laser has a large energy per unit area and high energy loss during propagation, there are some safety problems, and therefore, how to improve the laser beam transmission efficiency and reduce the energy per unit area becomes a critical issue to be solved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides the adjustable continuous energy output light guide arm which can disperse laser, reduce the laser energy in unit area, improve the propagation efficiency, reduce the laser energy in unit area, better repair and treat human body parts and improve the safety.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides an adjustable continuous energy output light guide arm, comprising:

the light guide arms comprise light inlets and light outlets;

the light guide arms are connected with the angle adjusting devices at intervals, and two adjacent light guide arms are respectively connected with two ends of the angle adjusting devices;

the reflecting lens group is arranged in the angle adjusting device and is used for guiding laser injected along the light inlet of one light guide arm to pass through the angle adjusting device and to be emitted along the light outlet of the other adjacent light guide arm;

the first plano-concave lens is arranged in the angle adjusting device at the head end;

the second plano-concave lens is arranged in the angle adjusting device at the tail end.

As an improvement of the utility model, the light guide arm comprises a first light guide arm unit and a second light guide arm unit, the angle adjusting device comprises a first angle adjusting unit, the first light guide arm unit is provided with a first light inlet, the second light guide arm unit is provided with a first light outlet, and the reflecting lens group is used for guiding laser to sequentially pass through the first light inlet, the first light guide arm unit, the first angle adjusting unit, the second light guide arm unit and the first light outlet.

As an improvement of the utility model, the first angle adjusting unit comprises a hollow first shell, a hollow second shell and a hollow third shell, wherein one end of the first shell is provided with a first opening, the side wall of the first shell is provided with a second opening, and the axial direction of the first opening is arranged at a right angle or an obtuse angle or an acute angle with the axial direction of the second opening; a third opening is formed in one end of the second shell, a fourth opening is formed in the side wall of the second shell, and the axial direction of the third opening and the axial direction of the fourth opening are arranged at right angles or obtuse angles or acute angles; the first light guide arm is rotatably sleeved on the first opening, one end of the third shell is rotatably sleeved on the second opening, the other end of the third shell is rotatably sleeved on the third opening, and the second light guide arm is rotatably sleeved on the fourth opening.

As an improvement of the present utility model, the laser light injection device further comprises a second angle adjusting unit, wherein the second angle adjusting unit comprises a hollow fourth shell, a hollow fifth shell and a hollow sixth shell, one end of the fourth shell is provided with a fifth opening, the side wall of the fourth shell is provided with a sixth opening, and the axial direction of the fifth opening is arranged at a right angle or an obtuse angle or an acute angle with the axial direction of the sixth opening; a seventh opening is formed in one end of the fifth shell, an eighth opening is formed in the side wall of the fifth shell, and the axial direction of the seventh opening and the axial direction of the eighth opening are arranged at right angles or obtuse angles or acute angles; the laser injection device is rotatably sleeved on the fifth opening, one end of the sixth shell is rotatably sleeved on the sixth opening, the other end of the sixth shell is rotatably sleeved on the seventh opening, and the first light guide arm is rotatably sleeved on the eighth opening.

As an improvement of the utility model, the laser injection device further comprises a third angle adjusting unit, wherein the third angle adjusting unit comprises a hollow seventh shell, a hollow eighth shell and a hollow ninth shell, one end of the seventh shell is provided with a first mounting opening, the side wall of the seventh shell is provided with a second mounting opening, and the axial direction of the first mounting opening and the axial direction of the second mounting opening are arranged at right angles or obtuse angles or acute angles; a third mounting opening is formed in one end of the eighth shell, a fourth mounting opening is formed in the side wall of the eighth shell, and the axial direction of the third mounting opening and the axial direction of the fourth mounting opening are arranged at right angles or obtuse angles or acute angles; the first mounting opening is rotatably sleeved with the second light guide arm, the second mounting opening is rotatably sleeved with one end of the ninth shell, the third mounting opening is rotatably sleeved with the other end of the ninth shell, and the fourth mounting opening is rotatably sleeved with the laser emitting device.

As an improvement of the utility model, the reflection lens group comprises a first reflection lens and a second reflection lens, wherein the first reflection lens and the second reflection lens are both arranged on the first angle adjusting unit, an included angle of 135 degrees is formed between the first reflection lens and the axial direction of the first light guide arm unit, and an included angle of 135 degrees is formed between the second reflection lens and the axial direction of the second light guide arm unit.

As an improvement of the present utility model, the reflection lens group further includes a third reflection lens and a fourth reflection lens, the third reflection lens and the fourth reflection lens are both disposed on the second angle adjusting unit, an included angle of 135 degrees is formed between the third reflection lens and the axial direction of the laser incident device, and an included angle of 135 degrees is formed between the fourth reflection lens and the axial direction of the first light guiding arm unit.

As an improvement of the present utility model, the reflection lens group further includes a fifth reflection lens and a sixth reflection lens, where the fifth reflection lens and the sixth reflection lens are both disposed on the third angle adjusting unit, an included angle of 135 degrees is formed between the fifth reflection lens and the axial direction of the second light guiding arm unit, and an included angle of 135 degrees is formed between the sixth reflection lens and the axial direction of the laser emitting device.

As an improvement of the utility model, the laser emitting device comprises a fifth mounting opening and a sixth mounting opening, the reflector plate group further comprises a seventh reflector plate, the fifth mounting opening is rotatably sleeved on the fourth mounting opening, and the seventh reflector plate is used for guiding the laser emitted along the fifth mounting opening to emit along the sixth mounting opening.

As an improvement of the present utility model, the optical lens further comprises a first plano-convex lens and a second plano-convex lens, wherein the first plano-convex lens is arranged at the second opening, and the second plano-convex lens is arranged at the sixth opening.

The beneficial effects of the utility model are as follows: through the arrangement of the structure, the light guide arms and the angle adjusting devices are connected at intervals, so that two adjacent light guide arms can rotate relatively, and the emission lens group arranged in the angle adjusting devices is matched, so that the rotation of the light guide arms is realized, the angles between the light guide arms are adjusted, and meanwhile, the laser can be ensured to propagate along the light guide arms; the first plano-concave lens is arranged in the angle adjusting device at the head end, the collected incident laser can be dispersed through refraction and continuously and uniformly spread along the light guide arm, the second plano-concave lens is arranged in the angle adjusting device at the tail end, the laser can be further dispersed, the laser energy in unit area is reduced, the spreading efficiency can be improved, the energy of the laser in unit area is reduced, the human body part is better repaired and treated, the harm of the laser to the human body is reduced, and the safety of laser treatment is greatly improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

fig. 4 is a cross-sectional view of the present utility model and an optical path diagram of a laser.

Detailed Description

Referring to fig. 1 to 4, an adjustable continuous energy output light guiding arm, comprising:

the light guide arms 10 comprise light inlets and light outlets;

the light guide arms 10 are connected with the angle adjusting devices 20 at intervals, and two adjacent light guide arms 10 are respectively connected with two ends of the angle adjusting devices 20;

the reflection lens group 30 is disposed in the angle adjusting device 20, and the reflection lens group 30 is used for guiding the laser incident along the light inlet of one light guiding arm 10 to pass through the angle adjusting device 20 and to be emitted along the light outlet of the adjacent other light guiding arm 10;

a first plano-concave lens 40, wherein the first plano-concave lens 40 is disposed in the angle adjusting device 20 at the head end;

a second plano-concave lens 50, the second plano-concave lens 50 being disposed in the angle adjusting device 20 at the trailing end.

Through the arrangement of the structure, the light guide arms and the angle adjusting devices are connected at intervals, so that two adjacent light guide arms can rotate relatively, and the emission lens group arranged in the angle adjusting devices is matched, so that the rotation of the light guide arms is realized, the angles between the light guide arms are adjusted, and meanwhile, the laser can be ensured to propagate along the light guide arms; the first plano-concave lens is arranged in the angle adjusting device at the head end, the collected incident laser can be dispersed through refraction and continuously and uniformly spread along the light guide arm, the second plano-concave lens is arranged in the angle adjusting device at the tail end, the laser can be further dispersed, the laser energy in unit area is reduced, the spreading efficiency can be improved, the energy of the laser in unit area is reduced, the human body part is better repaired and treated, the harm of the laser to the human body is reduced, and the safety of laser treatment is greatly improved.

In this embodiment, the light guiding arm 10 includes a first light guiding arm unit 110 and a second light guiding arm unit 120, the angle adjusting device 20 includes a first angle adjusting unit 210, the first light guiding arm unit 110 has a first light inlet 111, the second light guiding arm unit 120 has a first light outlet 121, and the reflective lens set 30 is configured to guide the laser light to sequentially pass through the first light inlet 111, the first light guiding arm unit 110, the first angle adjusting unit 210, the second light guiding arm unit 120, and the first light outlet 121. By the arrangement of the structure, the first light guide arm is connected with the second light guide arm through the first angle adjusting unit due to the fact that the first light guide arm unit, the second light guide arm unit and the first angle adjusting device are included; the first light guide arm is provided with a first light inlet, the second light guide arm is provided with a first light outlet, the reflection lens group is used for guiding laser to sequentially pass through the first light inlet, the first light guide arm unit, the first angle adjusting unit, the second light guide arm unit and the first light outlet, so that a user can rapidly and accurately adjust the angle between the first light guide arm and the second light guide arm from the directions of an X axis, a Y axis and a Z axis through the first angle adjusting unit, the user can conveniently and accurately guide the laser to the surface of a human body, the damage of the laser to the human body can be quickly and accurately repaired and treated, the damage of the laser to the human body can be reduced, the safety and the accuracy of laser treatment can be greatly improved, the user operation can be greatly facilitated, and the convenience of a product can be improved.

In this embodiment, the first angle adjusting unit 210 includes a hollow first housing 211, a hollow second housing 212, and a hollow third housing 213, wherein one end of the first housing 211 has a first opening 2111, a side wall of the first housing 211 is provided with a second opening 2112, and an axial direction of the first opening 2111 is disposed at a right angle or an obtuse angle or an acute angle with an axial direction of the second opening 2112; a third opening 2121 is formed at one end of the second housing 212, a fourth opening 2122 is formed on a side wall of the second housing 212, and an axial direction of the third opening 2121 is set at a right angle or an obtuse angle or an acute angle with an axial direction of the fourth opening 2122; the first light guiding arm 10 is rotatably sleeved on the first opening 2111, one end of the third housing 213 is rotatably sleeved on the second opening 2112, the other end of the third housing 213 is rotatably sleeved on the third opening 2121, and the second light guiding arm 10 is rotatably sleeved on the fourth opening 2122. Through the structure, the function of quickly and accurately adjusting the angles between the first light guide arm unit and the second light guide arm unit from the directions of the X axis, the Y axis and the Z axis through the first angle adjusting unit is effectively realized, the design is reasonable, the structure is simple, and the connection is stable; and the first shell, the second shell and the third shell are arranged separately, so that the production and the assembly are convenient, and the yield of products is improved.

In this embodiment, the laser light injection device 60 is further included, the angle adjustment device 20 further includes a second angle adjustment unit 220, the second angle adjustment unit 220 includes a hollow fourth housing 221, a hollow fifth housing 222, and a hollow sixth housing 223, one end of the fourth housing 221 has a fifth opening 2211, a side wall of the fourth housing 221 is provided with a sixth opening 2212, and an axial direction of the fifth opening 2211 is set at a right angle or an obtuse angle or an acute angle with an axial direction of the sixth opening 2212; a seventh opening 2221 is provided at one end of the fifth housing 222, an eighth opening 2222 is provided on a side wall of the fifth housing 222, and an axial direction of the seventh opening 2221 is disposed at a right angle or an obtuse angle or an acute angle with an axial direction of the eighth opening 2222; the laser injection device 60 is rotatably sleeved in the fifth opening 2211, one end of the sixth housing 223 is rotatably sleeved in the sixth opening 2212, the other end of the sixth housing 223 is rotatably sleeved in the seventh opening 2221, and the first light guiding arm 10 is rotatably sleeved in the eighth opening 2222. Through the structure, the function of quickly and accurately adjusting the angle between the first light guide arm unit and the laser injection device from the directions of the X axis, the Y axis and the Z axis through the second angle adjusting unit is effectively realized, the design is reasonable, the structure is simple, and the connection is stable; and the fourth shell, the fifth shell and the sixth shell are arranged in a split manner, so that the production and the assembly are convenient, and the yield of products is improved.

In this embodiment, the laser emitting device 70 is further included, the angle adjusting device 20 further includes a third angle adjusting unit 230, the third angle adjusting unit 230 includes a hollow seventh housing 231, a hollow eighth housing 232, and a hollow ninth housing 233, one end of the seventh housing 231 has a first mounting opening 2311, a second mounting opening 2312 is disposed on a sidewall of the seventh housing 231, and an axial direction of the first mounting opening 2311 is disposed at a right angle or an obtuse angle or an acute angle with an axial direction of the second mounting opening 2312; a third mounting opening 2321 is provided at one end of the eighth housing 232, a fourth mounting opening 2322 is provided on a side wall of the eighth housing 232, and an axial direction of the third mounting opening 2321 is set at a right angle or an obtuse angle or an acute angle with an axial direction of the fourth mounting opening 2322; the second light guiding arm 10 is rotatably sleeved at the first mounting opening 2311, one end of the ninth housing 233 is rotatably sleeved at the second mounting opening 2312, the other end of the ninth housing 233 is rotatably sleeved at the third mounting opening 2321, and the laser emitting device 70 is rotatably sleeved at the fourth mounting opening 2322. Through the structure, the function of quickly and accurately adjusting the angle between the second light guide arm unit and the laser emitting device from the directions of the X axis, the Y axis and the Z axis through the third angle adjusting unit is effectively realized, and the device has the advantages of reasonable design, simple structure and stable connection; and the seventh shell, the eighth shell and the ninth shell are arranged in a split manner, so that the production and the assembly are convenient, and the yield of products is improved.

In this embodiment, the reflection lens assembly 30 includes a first reflection lens 31 and a second reflection lens 32, the first reflection lens 31 and the second reflection lens 32 are disposed in the first angle adjusting unit 210, an included angle of 135 degrees is formed between the first reflection lens 31 and the axial direction of the first light guiding arm unit 110, and an included angle of 135 degrees is formed between the second reflection lens 32 and the axial direction of the second light guiding arm unit 120. Wherein, first casing is located to first reflector plate, and second casing is located to the second reflector plate, and effectual realization guide laser loops through first inlet, first leaded light arm unit, first angle adjustment unit, second leaded light arm unit and the function of first light outlet.

In this embodiment, the reflection lens set 30 further includes a third reflection lens 33 and a fourth reflection lens 34, the third reflection lens 33 and the fourth reflection lens 34 are both disposed on the second angle adjusting unit 220, an included angle between the third reflection lens 33 and the axial direction of the laser incident device 60 is 135 degrees, and an included angle between the fourth reflection lens 34 and the axial direction of the first light guiding arm unit 110 is 135 degrees. Wherein, fourth casing is located to the third reflection lens, and fifth casing is located to the fourth reflection lens, and effectual realization guide laser loops through laser entry device, second angle adjustment unit, first inlet, first leaded light arm unit, first angle adjustment unit, second leaded light arm unit and first outlet's function.

In this embodiment, the lens assembly 30 further includes a fifth lens 35 and a sixth lens 36, the fifth lens 35 and the sixth lens 36 are disposed in the third angle adjusting unit 230, an included angle of 135 degrees is formed between the fifth lens 35 and the axial direction of the second light guiding arm unit 120, and an included angle of 135 degrees is formed between the sixth lens 36 and the axial direction of the laser emitting device 70. The fifth reflecting mirror plate is arranged on the seventh shell, the sixth reflecting mirror plate is arranged on the eighth shell, and functions of guiding laser to sequentially pass through the laser injection device, the second angle adjusting unit, the first light inlet, the first light guide arm unit, the first angle adjusting unit, the second light guide arm unit, the first light outlet, the third angle adjusting unit and the laser injection device are effectively achieved.

In this embodiment, the laser emitting device 70 includes a fifth mounting opening 71 and a sixth mounting opening 72, the mirror assembly 30 further includes a seventh mirror 37, the fifth mounting opening 71 is rotatably sleeved on the fourth mounting opening 2322, and the seventh mirror 37 is configured to guide the laser light incident along the fifth mounting opening 71 to emit along the sixth mounting opening 72. The seventh reflecting lens is arranged on the laser emitting device, and effectively achieves the function of guiding laser to sequentially pass through the laser emitting device, the second angle adjusting unit, the first light inlet, the first light guide arm unit, the first angle adjusting unit, the second light guide arm unit, the first light outlet, the third angle adjusting unit, the fifth mounting opening, the laser emitting device and the sixth mounting opening.

In this embodiment, the optical lens further includes a first plano-convex lens 80 and a second plano-convex lens 90, where the first plano-convex lens 80 is disposed at the second opening 2112, and the second plano-convex lens 90 is disposed at the sixth opening 2212. Through the arrangement of the structure, the first plano-convex lens and the second plano-convex lens are respectively arranged at the second opening and the sixth opening, so that laser passing through the first plano-convex lens and the second plano-convex lens is concentrated, loss in the laser propagation process is reduced, laser is diverged through the first plano-concave lens and the second plano-concave lens before reaching a focus, the laser can be continuously propagated in the light guide arm and the adjusting device, energy consumption is reduced, and the utilization rate of the laser is improved.

The above description of one or more embodiments provided in connection with the detailed description is not intended to limit the utility model to the particular form or form disclosed. The method, structure, etc. similar to or identical to those of the present utility model, or some technical deductions or substitutions are made on the premise of the inventive concept, should be regarded as the protection scope of the present utility model.

Claims (10)

1. An adjustable continuous energy output light guide arm, comprising:

the light guide arms (10) comprise light inlets and light outlets;

the light guide arms (10) are connected with the angle adjusting devices (20) at intervals, and two adjacent light guide arms (10) are respectively connected with two ends of the angle adjusting devices (20);

the reflection lens group (30), the reflection lens group (30) is set up in the said angle adjusting device (20), the said reflection lens group (30) is used for guiding the laser that is launched along the light inlet of a said light guiding arm (10) to pass the said angle adjusting device (20), launch along the light outlet of another said adjacent light guiding arm (10);

a first plano-concave lens (40), the first plano-concave lens (40) being disposed in the angle adjusting device (20) at the head end;

and the second plano-concave lens (50) is arranged in the angle adjusting device (20) at the tail end.

2. The adjustable continuous energy output light guide arm according to claim 1, wherein the light guide arm (10) comprises a first light guide arm unit (110) and a second light guide arm unit (120), the angle adjusting device (20) comprises a first angle adjusting unit (210), the first light guide arm unit (110) is provided with a first light inlet (111), the second light guide arm unit (120) is provided with a first light outlet (121), and the reflecting lens group (30) is used for guiding laser light to sequentially pass through the first light inlet (111), the first light guide arm unit (110), the first angle adjusting unit (210), the second light guide arm unit (120) and the first light outlet (121).

3. The adjustable continuous energy output light guide arm according to claim 2, wherein the first angle adjustment unit (210) comprises a hollow first housing (211), a hollow second housing (212) and a hollow third housing (213), one end of the first housing (211) is provided with a first opening (2111), a side wall of the first housing (211) is provided with a second opening (2112), and an axial direction of the first opening (2111) is arranged at a right angle or an obtuse angle or an acute angle with an axial direction of the second opening (2112); a third opening (2121) is formed in one end of the second shell (212), a fourth opening (2122) is formed in the side wall of the second shell (212), and the axial direction of the third opening (2121) and the axial direction of the fourth opening (2122) are arranged at right angles or obtuse angles or acute angles; the first light guide arm (10) is rotatably sleeved on the first opening (2111), one end of the third shell (213) is rotatably sleeved on the second opening (2112), the other end of the third shell (213) is rotatably sleeved on the third opening (2121), and the second light guide arm (10) is rotatably sleeved on the fourth opening (2122).

4. A light guiding arm for adjustable sustained energy output according to claim 3, further comprising a laser light incidence device (60), the angle adjustment device (20) further comprising a second angle adjustment unit (220), the second angle adjustment unit (220) comprising a hollow fourth housing (221), a hollow fifth housing (222) and a hollow sixth housing (223), one end of the fourth housing (221) having a fifth opening (2211), a side wall of the fourth housing (221) being provided with a sixth opening (2212), an axial direction of the fifth opening (2211) being arranged at right or obtuse or acute angle to an axial direction of the sixth opening (2212); a seventh opening (2221) is formed in one end of the fifth casing (222), an eighth opening (2222) is formed in the side wall of the fifth casing (222), and the axial direction of the seventh opening (2221) is arranged at a right angle or an obtuse angle or an acute angle with the axial direction of the eighth opening (2222); the laser injection device (60) is rotatably sleeved at the fifth opening (2211), one end of the sixth shell (223) is rotatably sleeved at the sixth opening (2212), the other end of the sixth shell (223) is rotatably sleeved at the seventh opening (2221), and the first light guide arm (10) is rotatably sleeved at the eighth opening (2222).

5. The adjustable continuous energy output light guide arm according to claim 2, further comprising a laser emitting device (70), wherein the angle adjusting device (20) further comprises a third angle adjusting unit (230), the third angle adjusting unit (230) comprises a hollow seventh housing (231), a hollow eighth housing (232) and a hollow ninth housing (233), one end of the seventh housing (231) is provided with a first mounting opening (2311), a side wall of the seventh housing (231) is provided with a second mounting opening (2312), and an axial direction of the first mounting opening (2311) is arranged at a right angle or an obtuse angle or an acute angle with an axial direction of the second mounting opening (2312); a third mounting opening (2321) is formed in one end of the eighth shell (232), a fourth mounting opening (2322) is formed in the side wall of the eighth shell (232), and the axis direction of the third mounting opening (2321) and the axis direction of the fourth mounting opening (2322) form a right angle or an obtuse angle or an acute angle; the second light guide arm (10) is rotatably sleeved at the first installation opening (2311), one end of the ninth shell (233) is rotatably sleeved at the second installation opening (2312), the other end of the ninth shell (233) is rotatably sleeved at the third installation opening (2321), and the laser emitting device (70) is rotatably sleeved at the fourth installation opening (2322).

6. The adjustable continuous energy output light guide arm according to claim 2, wherein the reflector plate set (30) comprises a first reflector plate (31) and a second reflector plate (32), the first reflector plate (31) and the second reflector plate (32) are both disposed on the first angle adjusting unit (210), an included angle of 135 degrees is formed between the first reflector plate (31) and the axial direction of the first light guide arm unit (110), and an included angle of 135 degrees is formed between the second reflector plate (32) and the axial direction of the second light guide arm unit (120).

7. The adjustable continuous energy output light guide arm according to claim 4, wherein the reflection lens group (30) further comprises a third reflection lens (33) and a fourth reflection lens (34), the third reflection lens (33) and the fourth reflection lens (34) are both disposed on the second angle adjusting unit (220), an included angle of 135 degrees is formed between the third reflection lens (33) and the axial direction of the laser injection device (60), and an included angle of 135 degrees is formed between the fourth reflection lens (34) and the axial direction of the first light guide arm unit (110).

8. The adjustable continuous energy output light guide arm according to claim 5, wherein the reflector plate set (30) further comprises a fifth reflector plate (35) and a sixth reflector plate (36), the fifth reflector plate (35) and the sixth reflector plate (36) are both disposed on the third angle adjusting unit (230), an included angle of 135 degrees is formed between the fifth reflector plate (35) and the axial direction of the second light guide arm unit (120), and an included angle of 135 degrees is formed between the sixth reflector plate (36) and the axial direction of the laser emitting device (70).

9. The adjustable sustained energy output light guide arm of claim 5, wherein the laser emitting device (70) comprises a fifth mounting opening (71) and a sixth mounting opening (72), the reflector plate set (30) further comprises a seventh reflector plate (37), the fifth mounting opening (71) is rotatably sleeved on the fourth mounting opening (2322), and the seventh reflector plate (37) is used for guiding the laser emitted along the fifth mounting opening (71) to emit along the sixth mounting opening (72).

10. The adjustable sustained energy output light guide arm of claim 4, further comprising a first plano-convex lens (80) and a second plano-convex lens (90), wherein the first plano-convex lens (80) is disposed at the second opening (2112), and wherein the second plano-convex lens (90) is disposed at the sixth opening (2212).

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