阅读说明：本技术 一种光辐温度调节内热针灸针 (Light radiation temperature regulation internal heat acupuncture needle ) 是由 赵升 于 2021-10-14 设计创作，主要内容包括：本发明公开了一种光辐温度调节内热针灸针,包括针柄、激光输入端、第一屏蔽层、第二屏蔽层、光纤体、准直镜、聚焦镜、集热片、导热针、温度传感器、针尖、针杆和温度显示；本发明采用了光辐加热的方法,通过第一屏蔽层和第二屏蔽层进行光线屏蔽,分为三档光线输入光纤体,相当于三种不同直径的光纤体进行光线导入,同时针杆可以进行位移调节,改变集热片的行动轨迹,从而使得集热片产生区间温度,也可以改变激光输入端的激光输入,多种方式调节以改变针尖的温度,同时设置有温度传感器和温度显示,可以很好的反馈针尖的实时温度,从而达到最佳温度进行精准施针,本方案主要采用多种方式对针尖的温度进行干预和控制,提高治疗效果和安全性。(The invention discloses a light radiation temperature regulation internal heat acupuncture needle, which comprises a needle handle, a laser input end, a first shielding layer, a second shielding layer, an optical fiber body, a collimating mirror, a focusing mirror, a heat collecting sheet, a heat conducting needle, a temperature sensor, a needle point, a needle rod and a temperature display; the invention adopts a light radiation heating method, carries out light shielding through a first shielding layer and a second shielding layer, is divided into three grades of light input optical fiber bodies, is equivalent to three optical fiber bodies with different diameters for light introduction, and simultaneously, a needle rod can carry out displacement adjustment to change the action track of a heat collecting sheet, so that the heat collecting sheet generates interval temperature, and can also change laser input of a laser input end, the temperature of a needle point can be changed by various adjustment modes, and meanwhile, a temperature sensor and temperature display are arranged, so that the real-time temperature of the needle point can be well fed back, and the optimal temperature can be reached for accurate needle application.)

1. A light radiation temperature regulation internal heat acupuncture needle comprises a needle handle (1), a laser input end (2), a first shielding layer (3), a second shielding layer (4), an optical fiber body (5), a collimating mirror (6), a focusing mirror (7), a first limiting bayonet (8), a heat collecting sheet (9), a silica gel pad (10), a second limiting bayonet (11), a heat conducting needle (12), a temperature sensor (13), a needle point (14), a long bright area (15), a first area (16), a second area (17), a needle rod (18), a temperature display (19), a first regulating switch (20) and a second regulating switch (21), wherein the left side of the needle handle (1) is connected with the laser input end (2), and the inner side of the needle body (1) is sequentially and fixedly provided with the first shielding layer (3), the second shielding layer (4), the optical fiber body (5), the focusing mirror (6) and the focusing mirror (7) from left to right, first shield layer (3) connect first regulating switch (20) second shield layer (4) are connected the second and are adjusted and turn on light (21), needle handle (1) rightmost side opening is connected with needle bar (18), needle handle (1) rightmost side opening inboard is equipped with silica gel pad (10), needle bar (18) are from a left side right side fixed first spacing bayonet socket (8), heat collection piece (9), the spacing bayonet socket of second (11) and needle point (14) of being equipped with in proper order, needle bar (18) inboard is equipped with heat conduction needle (12), needle point (14) are connected with temperature sensor (13).

2. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: the temperature sensor (13) is matched with the temperature display (19) to display the temperature of the needle point (14) in real time.

3. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: the longitudinal multimode laser is connected to the outside of the laser input end (2), the use of multiple frequencies can be switched, the long bright area (15) is not shielded, and a light source always irradiates under the condition that the laser input end (2) provides the light source.

4. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: the first shielding layer (3) is adjusted through a first adjusting switch (20), and the first adjusting switch (20) is used for adjusting the first area (16) to have or not have light source irradiation.

5. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: the second shielding layer (4) passes through a second adjusting switch-on light (21), and the second adjusting switch-on light (21) is used for adjusting the second area (17) to have or not have light source irradiation.

6. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: the heat collecting sheet (9) is composed of a plurality of titanium thin film sheets.

7. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: first spacing bayonet socket (8), silica gel pad (10) and second spacing bayonet socket (11) cooperate for needle bar (18) remove in needle handle (1), and silica gel pad (10) are used for buffering reducing wear, play to remove simultaneously and fix.

8. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: when the heat collection sheet (9) is located at the leftmost side of the movable position, the heat collection sheet (9) is located at the focus of the focusing mirror (7), the displacement of the heat collection sheet (9) is D2, the width D1 of the heat collection sheet (9) is the same as the width D3 of the silica gel pad (10), and the silica gel pad (10) is made of a high-temperature-resistant silica gel strip.

9. A light irradiation temperature regulated internal heat acupuncture needle as claimed in claim 1, wherein: the optical fiber body (5) is a multimode all-plastic optical fiber.

Technical Field

The invention relates to the field of internal heating type acupuncture treatment equipment, in particular to an internal heating acupuncture needle capable of regulating light radiation temperature.

Background

Clinical application proves that the hot moxibustion has better treatment effect on acute and chronic shoulder, neck, chest, waist and sacrospinous muscle strain, intervertebral disc and interspinous ligament injury, joint inflammation, joint injury, pain and dysfunction of soft tissue aseptic inflammation and the like.

Most of the above-mentioned thermal moxibustion treatments are the moxa moxibustion method, the traditional moxa moxibustion method cannot control the temperature of the needle body because it has no precise heating structure, and the actual measurement shows that no matter the needle is a gold needle, a silver needle or a stainless steel needle, when the moxa on the handle part is burnt, the temperature of the needle handle can be as high as 400-450 ℃, the temperature of the contact point of the needle body and the skin can be as high as 128-150 ℃, and the temperature of the needle body about 1 cm under the skin can be only kept at 37-37.5 ℃, therefore, even if the skin surface of the patient has burning sensation, the temperature at the deep layer is still at the normal state of 37 ℃, and the iatrogenic damage phenomenon of the skin surface layer caused by high heat often occurs.

At present, the internal heating type acupuncture needle appearing in China has an internal heating function, the internal heating type acupuncture needle adopts an electric heating structure at present, if an internal loop is short-circuited, the internal heating type acupuncture needle is easy to burn subcutaneous tissues and epidermal tissues of a human body, there is also a danger to the needle administering staff who operates the acupuncture needle, and if the internal circuit is broken, the maintenance cannot be performed, in addition, the temperature of the human body can be heated to 42-55 ℃ deeply, but because the temperature measuring function is not realized, for different patients, the treatment temperature and the heating depth of the needle body of the internal heating needle in the human body can not be accurately controlled due to factors such as the needle inserting depth, the needle inserting position, the different physiques of the patients and the like, meanwhile, the temperature of the needle body of the needle handle is overheated, which causes the treatment burden of the needle applier, so that the improvement of the traditional internal heating type acupuncture needle and the like is needed to overcome the above disadvantages and improve the curative effect.

In addition, the general temperature of the acupuncture needle on the market is difficult to control at present, so that potential safety hazards exist on one hand, and the preset treatment temperature cannot be reached on the other hand, so that the treatment effect is influenced.

Disclosure of Invention

The invention aims to provide a light radiation temperature adjustment internal heat acupuncture needle, which solves the defects that the prior art adopts electric heating short circuit or open circuit, the needle handle is overheated and the needle point cannot be controlled, adopts a light radiation heating method, carries out light shielding through a first shielding layer and a second shielding layer, is divided into three grades of light input optical fiber bodies, is equivalent to the light introduction of the optical fiber bodies with three different diameters, can carry out displacement adjustment on a needle rod, changes the action track of a heat collecting sheet so as to ensure that the heat collecting sheet generates interval temperature, can also change the laser input of a laser input end, is adjusted in various ways to change the temperature of the needle point, is provided with a temperature sensor and temperature display, can well feed back the real-time temperature of the needle point so as to achieve the optimal temperature for precise needle application, the scheme mainly adopts multiple modes to intervene and control the temperature of the needle point, and improves the treatment effect and the safety.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a light irradiation temperature regulation internal heat acupuncture needle, includes needle handle, laser input end, first shielding layer, second shielding layer, the optical fiber body, collimating mirror, focusing mirror, first spacing bayonet socket, thermal-arrest piece, silica gel pad, the spacing bayonet socket of second, heat conduction needle, temperature sensor, needle point, the bright region of length, first region, second region, needle bar, temperature display, first regulating switch and the second regulation light of opening, the laser input end is connected in the needle handle left side, and the needle body inboard is from left to right fixed being equipped with first shielding layer, second shielding layer, the optical fiber body, collimating mirror and focusing mirror in proper order, first shielding layer first regulating switch, second shielding layer connection second regulation light of opening, the rightmost side opening of needle handle is connected with the needle bar, the rightmost side opening inboard of needle handle is equipped with the silica gel pad, the needle bar is from left to right fixed being equipped with first spacing bayonet socket in proper order, The needle comprises a heat collecting sheet, a second limiting bayonet and a needle tip, wherein a heat conducting needle is arranged on the inner side of a needle rod, and the needle tip is connected with a temperature sensor.

Preferably, the temperature sensor is matched with the temperature display to display the temperature of the needle tip in real time.

Preferably, longitudinal multimode laser is connected to the outside of the laser input end, multiple frequencies can be switched for use, the long bright area is not blocked, and a light source always irradiates the laser input end under the condition that the light source is provided by the laser input end.

Preferably, the first shielding layer is adjusted by a first adjusting switch, and the first adjusting switch is used for adjusting whether the first area is irradiated by the light source.

Preferably, the second shielding layer switches light through second adjustment, and the second adjustment is used for adjusting whether the second area is irradiated by the light source.

Preferably, the heat collecting plate is composed of a plurality of titanium thin film plates.

Preferably, first spacing bayonet socket, silica gel pad and the spacing bayonet socket of second cooperate for the needle bar is at needle handle round trip movement, and the silica gel pad is used for buffering reducing wear, plays to remove simultaneously and fixes.

Preferably, when the heat collecting sheet is located at the leftmost side of the movable position, the heat collecting sheet is located at the focus of the focusing mirror, the displacement of the heat collecting sheet is D2, the width D1 of the heat collecting sheet is the same as the width D3 of the silica gel pad, and the silica gel pad is made of a high-temperature-resistant silica gel strip.

Preferably, the optical fiber body is a multimode all-plastic optical fiber.

The invention has the beneficial effects that: provides a light radiation temperature regulation internal heating acupuncture needle, changes the traditional electric heating method, avoids the condition of burning or tool scrapping caused by short circuit of an internal loop, adopts the light radiation heating method, the first shielding layer and the second shielding layer are used for shielding light, the light is input into the optical fiber body in three grades, which is equivalent to the light input of three optical fiber bodies with different diameters, meanwhile, the needle rod can be used for displacement adjustment, the action track of the heat collecting sheet is changed, thereby leading the heat collecting sheet to generate the interval temperature, changing the laser input of the laser input end, adjusting in various ways to change the temperature of the needle point, meanwhile, the temperature sensor and the temperature display are arranged, so that the real-time temperature of the needle point can be well fed back, therefore, the optimal temperature is achieved for accurate needle application, the scheme mainly adopts multiple modes to intervene and control the temperature of the needle point, and the treatment effect and the safety are improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of an optical transmission analysis structure according to the present invention;

in the figure: 1. the laser probe comprises a probe handle, 2, a laser input end, 3, a first shielding layer, 4, a second shielding layer, 5, an optical fiber body, 6, a collimating mirror, 7, a focusing mirror, 8, a first limiting bayonet, 9, a heat collecting sheet, 10, a silica gel pad, 11, a second limiting bayonet, 12, a heat conducting probe, 13, a temperature sensor, 14, a probe tip, 15, a long and bright area, 16, a first area, 17, a second area, 18, a probe rod, 19, a temperature display, 20, a first adjusting switch, 21 and a second adjusting switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a light radiation temperature regulation internal heat acupuncture needle comprises a needle handle 1, a laser input end 2, a first shielding layer 3, a second shielding layer 4, an optical fiber body 5, a collimating mirror 6, a focusing mirror 7, a first limiting bayonet 8, a heat collecting sheet 9, a silica gel pad 10, a second limiting bayonet 11, a heat conducting needle 12, a temperature sensor 13, a needle point 14, a long and bright area 15, a first area 16, a second area 17, a needle rod 18, a temperature display 19, a first regulating switch 20 and a second regulating switch 21, wherein the left side of the needle handle 1 is connected with the laser input end 2, the inner side of the needle body 1 is sequentially and fixedly provided with the first shielding layer 3, the second shielding layer 4, the optical fiber body 5, the collimating mirror 6 and the focusing mirror 7 from left to right, the first shielding layer 3 is connected with the first regulating switch 20, the second shielding layer 4 is connected with the second regulating switch 21, the rightmost opening of the needle handle 1 is connected with the needle rod 18, the silica gel pad 10 is arranged on the inner side of the rightmost opening of the needle handle 1, the needle rod 18 is fixedly provided with a first limiting bayonet 8, a heat collecting sheet 9, a second limiting bayonet 11 and a needle tip 14 from left to right in sequence, the inner side of the needle rod 18 is provided with a heat conducting needle 12, and the needle tip 14 is connected with a temperature sensor 13.

As a further scheme of the invention, the temperature sensor 13 is matched with the temperature display 19 to display the temperature of the needle point 14 in real time; as a further scheme of the invention, longitudinal multimode laser is accessed outside the laser input end 2, multiple frequencies can be switched for use, the long bright area 15 is not shielded, and a light source always illuminates under the condition that the laser input end 2 provides the light source; as a further aspect of the present invention, the first shielding layer 3 is adjusted by a first adjusting switch 20, and the first adjusting switch 20 is used to adjust whether the first area 16 is illuminated by a light source; as a further aspect of the present invention, the second shielding layer 4 is provided with a second adjusting switch 21, and the second adjusting switch 21 is used for adjusting the second area 17 to have or not to be irradiated by the light source; as a further proposal of the invention, the heat collecting sheet 9 is composed of a plurality of titanium thin film sheets; as a further scheme of the invention, the first limiting bayonet 8, the silica gel pad 10 and the second limiting bayonet 11 are matched, so that the needle rod 18 moves back and forth on the needle handle 1, and the silica gel pad 10 is used for buffering to reduce abrasion and plays a role in moving and fixing at the same time; as a further scheme of the present invention, when the heat collecting plate 9 is located at the leftmost side of the movable position, the heat collecting plate 9 is located at the focus of the focusing mirror 7, the displacement of the heat collecting plate 9 is D2, the width D1 of the heat collecting plate 9 is the same as the width D3 of the silicone rubber pad 10, and the silicone rubber pad 10 is made of a high temperature resistant silicone rubber strip; in a further embodiment of the present invention, the optical fiber body 5 is a multimode all-plastic optical fiber.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.