CN218922766U - Strong pulse light therapeutic instrument - Google Patents

Abstract

The application relates to a strong pulse light therapeutic apparatus, which belongs to the technical field of cervical disease therapeutic apparatus, and comprises an apparatus body, a heat insulation light pipe and a light source; the light source is electrically connected with the instrument body, one end of the heat-insulating light pipe is fixedly arranged on the instrument body, the other end of the heat-insulating light pipe extends to the direction away from the instrument body, and the light source is arranged in the heat-insulating light pipe. The application has the effect of relieving discomfort of a patient when the low-temperature electrocoagulation treatment instrument is used for treatment.

Description

Strong pulse light therapeutic instrument

Technical Field

The application relates to the field of cervical disease treatment instruments, in particular to a strong pulse light therapeutic instrument.

Background

At present, a low-temperature electrocoagulation treatment technology is generally adopted for treating cervical lesions of CIN3 and below clinically, and the treatment principle is that the affected part of the cervical orifice is burnt through a heat source, so that lesion tissues of the affected part are coagulated and carbonized in a short time, and the aim of treatment is fulfilled.

When a patient is treated by using the related low-temperature electrocoagulation instrument, the vaginal orifice is required to be opened by an auxiliary tool, a heat source of the low-temperature electrocoagulation instrument is stretched into the vagina of the patient, and the heat source is attached to an affected part of the cervical orifice to burn and treat the affected part.

In view of the above-mentioned related art, the inventors believe that the therapeutic heat source of the cryoelectric therapeutic apparatus generates a large amount of heat during operation, and that the patient is liable to cause discomfort to the non-affected part due to excessive temperature during the course of the treatment.

Disclosure of Invention

In order to alleviate discomfort of a patient who is not affected when using a low-temperature electrocoagulation therapeutic apparatus for treatment, the present application provides a high-pulse phototherapy apparatus.

The application provides a strong pulse light therapeutic instrument adopts following technical scheme:

a strong pulse light therapeutic apparatus comprises an apparatus body, a heat insulation light pipe and a light source; the light source is electrically connected with the instrument body; the light source is used for emitting light rays to burn and treat the affected part through a photo-thermal effect; one end of the heat-insulating light pipe is fixedly arranged on the instrument body, the other end of the heat-insulating light pipe extends to the direction away from the instrument body, and the light source is arranged in the heat-insulating light pipe.

By adopting the technical scheme, on one hand, the light source is arranged in the heat-insulating light pipe, and the heat-consuming heat generated by the light source during working is isolated in the heat-insulating light pipe by the heat-insulating light pipe, so that uncomfortable feeling of a patient on a non-affected part during treatment can be effectively relieved; in the second aspect, the heat-insulating light pipe can support the vaginal orifice and guide the light source, so that other auxiliary tools for supporting and guiding can be omitted in the treatment process, and the treatment is convenient and quick; in the third aspect, the burning treatment is carried out on the affected part by the photo-thermal effect generated by light irradiation, so that the direct contact between the light source and the affected part can be avoided as much as possible, and the safety during low-temperature electrocoagulation treatment is improved.

Optionally, the light source is disposed at an end of the thermally insulated light pipe remote from the instrument body.

By adopting the technical scheme, when in treatment, the light source arranged at one end of the heat-insulating light guide pipe far away from the instrument body can be closer to the affected part of the cervical orifice, so that the propagation distance of treatment light is shortened, and the loss of light energy is reduced.

Optionally, a heat insulation protective sleeve is sleeved and fixed on the outer side of the heat insulation light pipe.

Through adopting above-mentioned technical scheme, on the one hand, thermal-insulated protective sheath can promote the thermal-insulated light pipe inside thermal isolated effect, on the other hand, because thermal-insulated protective sheath cover is established and is fixed in the light pipe outside, can take off and discard after once treatment is accomplished, reduces the cross infection risk in the treatment.

Optionally, a heat dissipation system is arranged in the instrument body, and the heat dissipation system is used for discharging heat dissipation of the therapeutic light source inside the heat insulation light pipe.

Through adopting above-mentioned technical scheme, the heat consumption that the light source in the thermal-insulated light pipe produced at the during operation can gather in the thermal-insulated light pipe, and cooling system's setting can be at the light source during operation, discharges the heat consumption of the inside treatment light source of thermal-insulated light pipe, is difficult for because the higher electric elements damage in the thermal-insulated light pipe that leads to of temperature in the thermal-insulated light pipe.

Optionally, a plurality of heat dissipation holes are formed in the instrument body, and the heat dissipation holes are communicated with the inner space and the outer space of the instrument body.

Through adopting above-mentioned technical feature, the setting of louvre makes the inside heat of instrument body distribute the instrument body external space through the louvre, and the inside electrical component of instrument body can not reduce life because of the high temperature.

Optionally, the instrument body comprises a holding part and a control part, one end of the holding part is fixedly arranged on the control part, the heat insulation light pipe is fixedly arranged on the control part, and the holding part is arranged adjacent to the heat insulation light pipe; the hand-held part is gradually contracted from one end close to the control part to one end far away from the control part.

Through adopting above-mentioned technical scheme, the setting of handheld portion makes at the instrument body convenient the holding when carrying out the treatment, and handheld portion is from being close to the one end of control portion to keeping away from the one end of control portion is the gradual shrinkage state and can improve the comfort level when holding.

Optionally, a start-stop button for controlling the light source to work and stop is arranged on the instrument body, the start-stop button is arranged at one end of the handheld portion close to the control portion, and the start-stop button is arranged at one side of the handheld portion close to the heat insulation light pipe.

By adopting the technical scheme, the starting and stopping button is arranged at one end of the hand-held part close to the control part, and when a person holds the hand-held part, the starting and stopping button is positioned close to the index finger, so that the starting and stopping button can be pressed when the person holds the hand-held part conveniently; the start-stop button is arranged on one side of the hand-held part, which is close to the heat-insulation light pipe, and the heat-insulation light pipe extends in a direction away from an operator when in use, so that the operation is convenient.

Optionally, the control part is provided with a main control display area.

By adopting the technical scheme, the temperature, the mode, the working state and the like of the instrument body and the light source can be conveniently controlled and monitored by the arrangement of the main control display area, so that the overall safety is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

the heat insulation heat conduction pipe can isolate heat generated by the light source during working;

the heat insulation protection sleeve can improve the heat insulation effect in the heat insulation light pipe, is convenient to replace, and can reduce the risk of cross infection in the treatment process;

the heat dissipation system is arranged to prevent the temperature in the heat-insulating light pipe from being too high.

Drawings

Fig. 1 is a schematic structural view of a strong pulse light therapeutic apparatus according to the present application.

Fig. 2 is a schematic structural view of an internal structure of the intense pulsed light therapeutic apparatus of the present application.

Fig. 3 is an enlarged partial sectional view of the heat-insulating light pipe orifice of the intense pulsed light therapeutic apparatus of the present application.

Reference numerals illustrate: 1. an instrument body; 11. a control unit; 111. a heat dissipation area; 112. a main control display area; 12. a hand-held part; 121. a start-stop button; 122. a capacitor bin; 2. a treatment end; 21. a heat insulating light pipe; 22. a light source; 221. a heat-radiating metal pipe; 222. a lamp tube; 23. a metal heat sink; 24. a light filter; 25. a thermal insulation protective sleeve; 3. a heat dissipation system; 31. an air-cooled radiator; 32. and a radiating pipe.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a strong pulse light therapeutic instrument. Referring to fig. 1, the intense pulse light therapeutic apparatus includes an apparatus body 1 and a therapeutic end 2, the therapeutic end 2 is in the shape of an overall long cylinder, one end of the therapeutic end 2 is fixed and electrically connected to the apparatus body 1, and the apparatus body 1 is used for controlling and monitoring the working state of the therapeutic end 2.

Referring to fig. 2 and 3, the treatment end 2 includes a heat-insulating light pipe 21 fixedly disposed on the instrument body 1, a light source 22 fixedly disposed inside the heat-insulating light pipe 21, and a metal heat sink 23 fixedly connected to the light source 22, the light source 22 being electrically connected to the instrument body 1 through a wire (not shown); in this embodiment, the light source 22 is a high-energy pulsed xenon light source which can produce an effect closest to sunlight, and a broad spectrum (260-1100 nm) high energy; the high-energy pulse xenon light source treats the affected part through a non-contact photo-thermal effect, and the treatment depth can reach 15mm and is deeper than that of other light sources; the treatment temperature is between 44 ℃ and 70 ℃, so that the elastic damage to human tissues is small, and the postoperative recovery is easy.

Referring to fig. 2 and 3, a light source 22 is inserted and fixed at one end of a thermal insulation light guide tube 21 far away from the instrument body 1, a light outlet of the light source 22 far away from the instrument body 1 is provided with a light filter 24, and light emitted by the light source 22 through the light filter 24 in the treatment process can be set according to a spectrum range suitable for different treatment requirements of a human body.

Referring to fig. 2 and 3, the light source 22 includes a metal radiating pipe 221 and a lamp tube 222 disposed in the metal radiating pipe 221, and heat generated by the lamp tube 222 during operation can be conducted to the metal radiating pipe 221 sleeved outside the lamp tube 222, so that heat generated by the lamp tube 222 during operation can be rapidly dissipated, and the service life of the lamp tube 222 is prolonged; one end of the metal radiating piece 23 is welded and fixed with one end of the metal radiating pipe 221, which is close to the instrument body 1, through a semiconductor refrigerating sheet, the other end of the metal radiating piece 23 extends to one end of the heat insulation light pipe 21, which is close to the instrument body 1, heat conducted to the metal radiating piece 23 by the lamp tube 222 can be conducted to the metal radiating piece 23 through heat conduction, and the heat can be dispersed in the whole inner space of the heat insulation light pipe 21 on the metal radiating piece 23, so that the damage to the light source 22 caused by the fact that the heat is concentrated at the position of the light source 22 is effectively avoided.

Referring to fig. 2 and 3, a heat insulation protection sleeve 25 is wrapped and sleeved on the outer side of the heat insulation light pipe 21, on one hand, the heat insulation protection sleeve 25 can promote the heat insulation effect inside the heat insulation light pipe 21, on the other hand, as the heat insulation protection sleeve 25 is sleeved and fixed on the outer side of the light pipe, the heat insulation protection sleeve can be taken down and discarded after one treatment is completed, and the cross infection risk in the treatment process is reduced; on the other hand, the heat-insulating protective sleeve 25 can also be made of a material with a filtering property, and is sleeved on the heat-insulating light pipe 21 to replace the optical filter 24 arranged at the light outlet of the light source 22, so that the heat-insulating protective sleeve is convenient to replace.

Referring to fig. 2, the instrument body 1 includes a control portion 11 and a hand-held portion 12 fixedly connected to the control portion 11, the hand-held portion 12 is cylindrical, and one end of the hand-held portion 12 close to the control portion 11 gradually contracts toward one end far away from the control portion 11, one end of a heat insulation light pipe 21 is fixedly connected to the control portion 11, the length direction of the heat insulation light pipe 21 is perpendicular to the length direction of the hand-held portion 12, and the hand-held portion 12 is arranged to facilitate holding of the instrument body 1 in use; one end of the hand-held part 12, which is close to the control part 11, is provided with a start-stop button 121 for controlling the light source 22 to work and stop, the start-stop button 121 is arranged on one side of the hand-held part 12, which is close to the heat insulation light pipe 21, and the hand-held part 12 is held while the start-stop button 121 is conveniently pressed; a capacitor compartment 122 is provided within the hand-held portion 12, and an actuation capacitor may be mounted within the capacitor compartment 122 for actuation of the light source 22.

Referring to fig. 1 and 2, a heat dissipation system 3 is disposed in a control portion 11, the heat dissipation system 3 includes an air-cooled radiator 31 and a heat dissipation tube 32 disposed in the control portion 11, one end of the heat dissipation tube 32 is communicated with an air suction port of the air-cooled radiator 31, the other end of the heat dissipation tube 32 extends into a heat insulation light guide tube 21, heat dissipation areas 111 are disposed on two opposite side walls of the control portion 11 and the air-cooled radiator 31, the heat dissipation areas 111 include a plurality of heat dissipation holes penetrating through the control portion 11, and the heat dissipation holes are communicated with a space between the interior and the exterior of the control portion 11; the air-cooled radiator 31 works to suck the hot air in the heat-insulating light pipe 21 into the control part 11 to reduce the temperature in the heat-insulating light pipe 21, and simultaneously, the heat in the control part 11 can be radiated to the outside of the control part 11 through the heat radiation area 111, thereby realizing the whole heat radiation.

Referring to fig. 2, a main control display area 112 is disposed on a side surface of the control portion 11 away from the hand-held portion 12, and in this embodiment, the main control display area 112 controls and monitors the temperature, mode, working state, and the like of the instrument body 1 and the light source 22 by adopting a display lamp and a key, and in other embodiments, may also be implemented by adopting a touch screen.

The implementation principle of the strong pulse light therapeutic apparatus in the embodiment of the application is as follows: the heat insulation protective sleeve 25 is sleeved outside the heat insulation light guide tube 21, the heat insulation light guide tube 21 extends into an affected part of the cervical orifice from the vaginal orifice of a patient, the start-stop button 121 is pressed to enable the light source 22 to work, and the affected part is burnt and treated through the photo-thermal effect; the heat-insulating light pipe 21 concentrates the heat generated by the light source 22 into the interior, and the heat dissipation system 3 works to absorb the heat generated by the light source 22; after the treatment is completed, the heat-insulating light pipe 21 is taken out, and the heat-insulating protective sleeve 25 is taken down for pollution-free treatment.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A high pulse light therapeutic apparatus, characterized in that: comprises an instrument body (1), a heat-insulating light pipe (21) and a light source (22); the light source (22) is electrically connected with the instrument body (1), one end of the heat-insulating light pipe (21) is fixedly arranged on the instrument body (1), the other end of the heat-insulating light pipe (21) extends in a direction away from the instrument body (1), and the light source (22) is arranged in the heat-insulating light pipe (21).

2. The intense pulsed light therapeutic apparatus of claim 1 wherein: the light source (22) is arranged at one end of the heat-insulating light pipe (21) far away from the instrument body (1).

3. The intense pulsed light therapeutic apparatus of claim 1 wherein: the outer side of the heat-insulating light pipe (21) is sleeved and fixed with a heat-insulating protective sleeve (25).

4. The intense pulsed light therapeutic apparatus of claim 1 wherein: the heat radiation device is characterized in that a heat radiation system (3) is arranged in the instrument body (1), and the heat radiation system (3) is used for discharging heat generated when the heat insulation light guide tube (21) works as a treatment light source.

5. The intense pulsed light therapeutic apparatus of claim 4 wherein: the instrument body (1) is provided with a plurality of radiating holes, and the radiating holes are communicated with the inner space and the outer space of the instrument body (1).

6. The intense pulsed light therapeutic apparatus of claim 1 wherein: the instrument body (1) comprises a handheld part (12) and a control part (11), one end of the handheld part (12) is fixedly arranged on the control part (11), the heat-insulating light pipe (21) is fixedly arranged on the control part (11), and the handheld part (12) is adjacently arranged with the heat-insulating light pipe (21); the hand-held part (12) is gradually contracted from one end close to the control part (11) to one end far away from the control part (11).

7. The intense pulsed light therapeutic apparatus of claim 6 wherein: the device is characterized in that a start-stop button (121) for controlling the light source (22) to work and stop is arranged on the device body (1), the start-stop button (121) is arranged at one end of the hand-held part (12) close to the control part (11), and the start-stop button (121) is arranged at one side of the hand-held part (12) close to the heat insulation light guide tube (21).

8. The intense pulsed light therapeutic apparatus of claim 6 wherein: the control part (11) is provided with a main control display area (112).

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