CN213212107U - Excimer lamp - Google Patents

Abstract

The utility model discloses a belong to light therapy instrument subassembly technical field, specifically be an excimer lamp, including positive pole end, fine stick of glass, electrode bar, quartz capsule, cathode end and glass fluorescent tube, the circumference inner wall integrated into one piece of glass fluorescent tube is connected with the annular hole, the circumference inner wall of annular hole cup joints the electrode bar, the right side wall threaded connection of glass fluorescent tube has the connection port, the inside clamp of connection port is adorned fine stick of glass, the right side wall of electrode bar passes through the mode electric connection of electroplating the positive pole end, this kind of excimer lamp, the glass fluorescent tube is inside to be full of chlorine and xenon, under the effect of fixed high frequency electric field, can become xenon chloride excimer, and xenon chloride excimer is extremely unstable, and xenon chloride excimer can send the light of wavelength 308nm in becoming chlorine atom and xenon atomic process again, and the ultraviolet ray of formation is the best wavelength of treatment vitiligo and psoriasis, can prevent light from radiating everywhere and enhance the treatment effect.

Description

Excimer lamp

Technical Field

The utility model relates to a light therapy instrument subassembly technical field specifically is an excimer lamp.

Background

The therapeutic apparatus is a health care machine which has certain health care function and is matched with medicines and regular medical treatment.

The phototherapeutic apparatuses are classified as therapeutic apparatuses, and are methods for preventing and treating diseases and promoting body rehabilitation by using sunlight or artificial light (infrared rays, ultraviolet rays, visible light and laser). The light therapy in physiotherapy utilizes artificial light radiation, and the light therapy utilizes the spectrum of 0.4-3.6 μm wave band to irradiate human body surface or cavity surface, and can effectively kill pathological cell tissue by means of photo-thermal composite effect, so that the mucous membrane tissue can be coagulated, and the blood vessel can be coagulated and occluded to attain the goal of curing.

The existing light therapeutic apparatus for treating vitiligo and psoriasis on the market at present has the following problems: the problems of low luminous power, unstable luminous power, overhigh temperature of a lamp tube in the working process and the like of the quality 308nm excimer lamp also exist, and the market demand on the 308nm excimer lamp is continuously increased, so that the performance of the lamp is urgently needed to be improved to meet the market demand.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an excimer lamp to there is the following problem in the current light therapy instrument for treating vitiligo and psoriasis on the market that proposes in solving above-mentioned background art: the problems of low luminous power, unstable luminous power, overhigh temperature of a lamp tube in the working process and the like of a quality 308nm excimer lamp exist, and the market demand for the 308nm excimer lamp is continuously increased, so that the performance of the lamp needs to be improved urgently to meet the market demand.

In order to achieve the above object, the utility model provides a following technical scheme: an excimer lamp comprises an anode end, a glass fiber rod, an electrode rod, a quartz tube, a cathode end and a glass lamp tube, the circumferential inner wall of the glass lamp tube is integrally connected with an annular hole, the circumferential inner wall of the annular hole is sleeved with the electrode rod, the right side wall of the glass lamp tube is connected with a connecting port in a threaded manner, the glass fiber rod is clamped in the connecting port, the right side wall of the electrode bar is electrically connected with the anode end in an electroplating mode, the right side wall of the anode end penetrates through the right side wall of the glass lamp tube and the input end of the connection port, the right side wall of the glass lamp tube is bonded with the quartz tube, the circumferential outer wall of the glass lamp tube is sleeved with a reflecting plate, the circumference outer wall winding of reflector panel has the wire, the back lateral wall electric connection of negative pole end has the power cord, the power cord welding is in the preceding lateral wall of reflector panel.

Preferably, the anode end is made of a high-temperature-resistant power line, and the outer circumferential wall of the anode end is sleeved with an insulating rubber sheet.

Preferably, the glass fiber rod is made of a high-temperature-resistant glass fiber material for fixing the electrode rod.

Preferably, the electrode rod is made of aluminum parts which are subjected to electroplating treatment and have a good light reflection effect.

Preferably, the quartz tube is filled with chlorine gas and xenon gas, and a port for injecting the gas is provided at an end portion of the glass lamp tube.

Preferably, the cathode end is the reflecting plate uniformly wound with the metal wire and a high-temperature-resistant power line.

Compared with the prior art, the beneficial effects of the utility model are that: the excimer lamp is miniaturized by the combined application of accessories, wherein a glass lamp tube is filled with chlorine and xenon, atoms (chlorine element Cl and inert element Xe) of the two gases can generate chemical change under the action of a fixed high-frequency electric field and become xenon chloride excimer molecules which are extremely unstable, the xenon chloride excimer molecules can emit light with the wavelength of 308nm in the process of changing into chlorine atoms and xenon atoms again, the formed ultraviolet light is the optimal wavelength for treating leucoderma and psoriasis, and the reflector plate at the cathode end is utilized, so that the radiation of all around light can be prevented, and the internal temperature of the device is overhigh; in addition, the light is reflected to the direction of the treatment window, so that the intensity of the light is increased, the treatment effect is enhanced, the treatment time is shortened, the excimer light is fully utilized, the electric light source has higher application and conversion market, and can be widely used for medical treatment.

Drawings

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

FIG. 2 is a schematic sectional view of the present invention;

fig. 3 is a schematic side view of the present invention.

In the figure: 100 anode ends, 200 glass fiber rods, 300 electrode rods, 400 quartz tubes, 500 cathode ends and 600 glass lamp tubes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides an excimer lamp, which can be used for improving the treatment effect and speed of light treatment by combining and applying accessories, please refer to fig. 1-3, comprising an anode end 100, a glass fiber rod 200, an electrode rod 300, a quartz tube 400, a cathode end 500 and a glass lamp tube 600;

referring to fig. 2 again, the bottom of the glass fiber rod 200 has an anode terminal 100, specifically, the anode terminal 100 penetrates through the glass fiber rod 200 and is fixedly connected to the electrode rod 300;

referring to fig. 2 again, the right side wall of the electrode rod 300 is fixedly connected to the glass fiber rod 200, specifically, the right side wall of the glass lamp 600 is connected to a connection port in a threaded manner, the glass fiber rod 200 is clamped inside the connection port, and the right side wall of the electrode rod 300 is electrically connected to the anode terminal 100 in an electroplating manner;

referring to fig. 2 again, the left sidewall of the quartz tube 400 is fixedly connected to the right sidewall of the housing 600, specifically, the right sidewall of the glass lamp tube 600 is bonded to the quartz tube 400, the circumferential outer wall of the glass lamp tube 600 is sleeved with a reflector, and the circumferential outer wall of the reflector is wound with metal wires;

referring to fig. 2 again, the top of the cathode terminal 500 is fixedly connected to the bottom of the glass lamp 600, specifically, the rear sidewall of the cathode terminal 500 is electrically connected to a power line, and the power line is welded to the front sidewall of the reflector;

referring to fig. 2 again, the inside of the glass lamp 600 is fixedly connected to the electrode rod 300, specifically, the circumferential inner wall of the glass lamp 600 is integrally connected to an annular hole, the circumferential inner wall of the annular hole is sleeved with the electrode rod 300, and the right sidewall of the anode end 100 penetrates through the right sidewall of the glass lamp 600 and the input end of the connection port;

when the lamp is used specifically, the quartz tube 400 is vacuumized, then chlorine and xenon are filled into the glass lamp tube, the gas filling port is sealed, and the port for injecting gas is designed on the end face instead of the middle of the lamp body, so that the lamp is convenient to wind; does not block the irradiation of the 308nm excimer laser. Secondly, metal wires made of special materials are uniformly wound on a reflecting plate of the glass lamp tube 600 in parallel, the reflecting plate is locked on an outer ring of the glass lamp tube 600 through the special metal wires, then a power line of a cathode end 500 is welded on the reflecting plate, then an anode end 100 and an electrode rod 300 (subjected to electroplating treatment) are connected together and fixed on a glass fiber rod 200, and finally the three are plugged into an annular hole in the middle of the glass lamp tube 600 together, the gas emits 308nm light through a fixed high-frequency electric field, the temperature of the equipment is reduced in an air cooling mode, and the temperature standard during treatment is met.

Referring to fig. 2 again, in order to increase the durability of the use, specifically, the anode terminal 100 is made of a high temperature resistant power line, the outer circumferential wall of the anode terminal 100 is sleeved with an insulating rubber skin, the glass fiber rod 200 is made of a high temperature resistant glass fiber material for fixing the electrode rod, and the cathode terminal 500 is a reflector plate uniformly wound with metal wires and a high temperature resistant power line.

Referring to fig. 2 again, in order to improve the light reflectivity of the electrode rod 300, specifically, the electrode rod 300 is made of an aluminum part that is plated and has a good light reflectivity.

Referring to fig. 2 again, in order to ensure the characteristics of the quartz tube 400, specifically, the inside of the quartz tube 400 is filled with chlorine gas and xenon gas, and a port for injecting the gas is provided at an end portion of the glass lamp tube 600.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of such combinations is not exhaustive in the present specification only for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. An excimer lamp, characterized in that: the glass lamp comprises an anode end (100), a glass fiber rod (200), an electrode rod (300), a quartz tube (400), a cathode end (500) and a glass lamp tube (600), wherein the inner circumferential wall of the glass lamp tube (600) is integrally formed and connected with a ring-shaped hole, the inner circumferential wall of the ring-shaped hole is sleeved with the electrode rod (300), the right side wall of the glass lamp tube (600) is in threaded connection with a connection port, the glass fiber rod (200) is clamped inside the connection port, the right side wall of the electrode rod (300) is electrically connected with the anode end (100) in an electroplating mode, the right side wall of the anode end (100) penetrates through the right side wall of the glass lamp tube (600) and the input end of the connection port, the right side wall of the glass lamp tube (600) is bonded with the quartz tube (400), the outer circumferential wall of the glass lamp tube (600) is sleeved with a reflecting plate, and the outer circumferential wall of, the rear side wall of the cathode end (500) is electrically connected with a power line, and the power line is welded on the front side wall of the reflector.

2. An excimer lamp as claimed in claim 1, wherein: the material of positive pole end (100) is can be high temperature resistant power cord, the circumference outer wall of positive pole end (100) has cup jointed insulating rubber skin.

3. An excimer lamp as claimed in claim 1, wherein: the glass fiber rod (200) is made of a high-temperature-resistant glass fiber material for fixing the electrode rod.

4. An excimer lamp as claimed in claim 1, wherein: the electrode bar (300) is made of aluminum parts which are subjected to electroplating treatment and have a good light reflection effect.

5. An excimer lamp as claimed in claim 1, wherein: the quartz tube (400) is filled with chlorine gas and xenon gas, and a port for injecting the gas is provided at an end of the glass lamp tube (600).

6. An excimer lamp as claimed in claim 1, wherein: the cathode end (500) is the reflecting plate and the high-temperature-resistant power line which are uniformly wound on the metal wire.

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