CN111905272A - Special interventional therapy instrument for ears, noses and throats - Google Patents

Abstract

The invention discloses a special interventional therapy instrument for ear, nose and throat, which relates to the technical field of medical instruments, and particularly relates to a special interventional therapy instrument for ear, nose and throat. Through the cooperation use of red light irradiation lamp stand and red light irradiation lamp holder, when detecting the treatment to ear-nose-throat, can link together red light irradiation lamp stand and the red light irradiation lamp holder of difference according to the difference of detection site, avoid causing cross infection, adopt the mode that red light irradiation lamp stand and red light irradiation lamp holder cooperation are connected simultaneously, need not set up the red light lamp to duct, nasal cavity and throat alone, the space of having saved equipment, the cost of equipment has been reduced simultaneously.

Description

Special interventional therapy instrument for ears, noses and throats

Technical Field

The invention relates to the technical field of medical instruments, in particular to an ear-nose-throat special interventional therapeutic apparatus.

Background

The otorhinolaryngological department is a surgical department that diagnoses and treats the ear, nose, pharynx, larynx, and their related head and neck regions. With the progress and development of science and technology, medical departments mutually permeate and promote, and the scope of the otolaryngological department, the ear microsurgery, the ear neurosurgery, the lateral craniofacial department, the audiology and balance science, the nose endoscopic surgery, the nose neurosurgery (the nose craniofacial department), the head and neck surgery, the throat microsurgery, the voice and speech disease department, the otorhinolaryngological department of children and the like are expanded, and the content of the otolaryngological department is greatly enriched.

Otolaryngology intervenes therapeutic instrument is the equipment that is used for detecting the treatment to otolaryngology disease, ruddiness therapeutic instrument and ultrasonic therapeutic instrument are common equipment in the otolaryngology treatment, current ruddiness therapeutic instrument is provided with three ruddiness lamp to the difference of otolaryngology treatment position, great volume has been occupied, the cost of production has been increased, ruddiness therapeutic instrument is two independent instruments with ultrasonic therapeutic instrument simultaneously, detect the trouble of comparison, we provide a special intervention therapeutic instrument of otolaryngology for this reason.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a special interventional therapy instrument for ears, noses and throats, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: an interventional therapy instrument special for ear, nose and throat comprises a body, wherein a connecting wire is fixedly connected to the left side of the body, a red light irradiating lamp holder is fixedly connected to the top of the connecting wire, a placing groove is arranged on the left side of the top of the body, a red light irradiating lamp holder is placed in the placing groove, a metal lamp pole is fixedly connected to the top of the body, an illuminating lamp is fixedly connected to the top of the metal lamp pole, a telescopic rod is fixedly connected to the top of the body, a steering block is movably sleeved on the top of the telescopic rod, a supporting frame is hinged inside the steering block, an ultrasonic emitting head is hinged to one end, away from the steering block, of the supporting frame, an ultrasonic control line is fixedly connected to the top of the ultrasonic emitting head, an ultrasonic generator is fixedly connected to one end, away from the ultrasonic, the controller is respectively and electrically connected with the red light irradiation lamp holder, the illuminating lamp and the ultrasonic generator.

Optionally, the bottom fixed mounting of body has the universal wheel, the quantity of universal wheel has four and is located four corners of body bottom respectively.

Optionally, the top of the red light irradiation lamp holder is provided with a connecting thread, and the top of the red light irradiation lamp holder is provided with a conductive electrode.

Optionally, the left side fixedly connected with snap ring of body, the joint is in the bottom of red light irradiation lamp stand.

Optionally, a top plate is arranged at the top of the placing groove, the red light irradiation lamp head is movably sleeved inside the top plate, an ultraviolet disinfection lamp is fixedly mounted on the side surface of the placing groove, and a preheating heater is arranged at the bottom of the placing groove.

Optionally, the inside of red light irradiation lamp holder is provided with the ruddiness emission lamp, the top of red light irradiation lamp holder and the top screw thread of red light irradiation lamp stand pair, the quantity of red light irradiation lamp holder has three to correspond duct, nasal cavity, throat respectively.

Optionally, the telescopic link is including outer loop bar, the lead screw has been cup jointed in outer loop bar's inside activity, the external fixation of lead screw has cup jointed umbelliform wheel, the right side meshing of umbelliform wheel has the hand wheel, the hand wheel cup joints together with outer loop bar activity, the top screw thread of lead screw has cup jointed interior loop bar, interior loop bar joint is in the inside of outer loop bar, the top of interior loop bar cup joints together with the bottom activity that turns to the piece.

Optionally, the support frame includes an outer support rod, the inner support rod is clamped inside the outer support rod, a fixing bolt is sleeved on the top of the outer support rod through a thread, and the bottom of the fixing bolt contacts with the top of the inner support rod.

Optionally, the method further includes: an infrared sensor, a cloud server;

the infrared sensor is arranged at the upper end of the red light irradiation lamp holder;

the cloud server is placed at the upper end of the top plate;

the infrared sensor is connected with the cloud server;

the infrared sensor is used for acquiring an infrared signal of a target body part of the patient before the controller controls the red light illuminating lamp head to be opened to carry out red light treatment on the patient, and meanwhile, the focus range of the patient is determined based on the infrared signal, and the specific working process comprises the following steps:

the infrared sensor is used for acquiring an infrared signal of a target body part of the patient;

the cloud server is used for amplifying and filtering the infrared signal to obtain an infrared detection signal;

the cloud server is further used for marking the infrared detection signals, simultaneously carrying out signal tracking on the marked infrared detection signals and acquiring a signal tracking route;

meanwhile, comparing the tracking route with a standard route preset in the cloud server;

if the tracking route deviates from the standard route, controlling the red light to irradiate the lamp holder to flicker;

the cloud server is further used for performing heavy marking on a deviation position when the tracking route deviates from the standard route, and surrounding the position of the heavy marking so as to determine a focus range.

Optionally, the method further includes: an ultrasonic transducer, a frequency generator;

the ultrasonic transducer is placed on the left side of the metal lamp post

The frequency generator is arranged at the upper end of the ultrasonic generator;

the ultrasonic control line is connected with the ultrasonic transducer and the frequency generator;

the ultrasonic transducer is used for converting an ultrasonic signal of the ultrasonic generator based on the ultrasonic control line and the frequency generator when the ultrasonic generator carries out ultrasonic treatment on a patient, and the specific working process comprises the following steps:

the frequency generator is used for acquiring the frequency of the ultrasonic signal sent by the ultrasonic generator to obtain the frequency of the ultrasonic signal;

wherein f represents the frequency of the ultrasonic signal, θ represents the initial phase of the ultrasonic signal, and w_nRepresenting the angular frequency of the ultrasonic signal at time n, n representing the nth time, q representing the intensity value of the ultrasonic signal, T representing the frequency period of the ultrasonic signal, ln2 representing a logarithmic function with e as base 2;

the ultrasonic transducer is also used for matching the frequency of the ultrasonic signal with a preset standard signal frequency band;

if the ultrasonic signal frequency is matched with a preset standard signal frequency segment, acquiring the energy converted by the ultrasonic signal based on the ultrasonic signal frequency;

wherein C represents the energy of the ultrasonic signal conversion, τ represents the sound pressure projection coefficient of the ultrasonic wave, μ represents the sensitivity of the ultrasonic transducer, Z represents the acoustic characteristic impedance of a piezoelectric wafer in the ultrasonic transducer, f represents the ultrasonic signal frequency, v represents the ultrasonic signal conversion rate, t represents the time required for the ultrasonic signal conversion, d represents the thickness of a matching layer inside the ultrasonic transducer, and λ represents the acoustic wave wavelength of the ultrasonic signal in the matching layer inside the ultrasonic transducer;

the ultrasonic control line is used for controlling the ultrasonic transducer to complete the conversion of the ultrasonic signal of the ultrasonic generator according to the energy converted by the ultrasonic signal;

and if the frequency of the ultrasonic signal is not matched with a preset standard signal frequency segment, shielding and deleting the ultrasonic signal.

The invention provides a special interventional therapy instrument for ears, noses and throats, which has the following beneficial effects:

1. this therapeutic instrument is intervene in otolaryngology special use, cooperation through red light irradiation lamp stand and red light irradiation lamp holder is used, when detecting the treatment to otolaryngology, can link together red light irradiation lamp stand and the ruddiness irradiation lamp holder of difference according to the difference of detection site, avoid causing cross infection, adopt the mode that red light irradiation lamp stand and red light irradiation lamp holder cooperation are connected simultaneously, need not set up the red light lamp to the duct alone, nasal cavity and throat, the space of equipment has been saved, the cost of equipment has been reduced simultaneously.

2. This therapeutic instrument is intervene in otolaryngology special use, through setting up the standing groove, utilize the inside ultraviolet disinfection lamp transmitting ultraviolet of standing groove to disinfect to red light irradiation lamp holder, avoid the outside of red light irradiation lamp holder to breed the bacterium, the security when having improved red light irradiation lamp holder and using, the preheating heater of standing groove bottom portion can preheat red light irradiation lamp holder simultaneously, the temperature that makes red light irradiation lamp holder risees, because the temperature is lower when avoiding red light irradiation lamp holder to detect the treatment to the human body causes the stimulus, the travelling comfort of treatment has been improved.

3. This therapeutic instrument is intervene in otolaryngology special use, through setting up the telescopic link, rotatory hand wheel drives umbelliform wheel and rotates, and it is rotatory to be taken turns to the drive lead screw by umbelliform again, makes the inner loop pole reciprocate, conveniently adjusts the height of ultrasonic emission head, is convenient for carry out ultrasonic therapy to different patients, through the length of slip inner support pole in the outer support pole, then uses fixing bolt to fix the inner support pole, conveniently adjusts the distance of ultrasonic emission head, flexibility when having improved ultrasonic therapy.

4. Acquire the infrared signal of patient's target health position through infrared sensor, and simultaneously, through the high in the clouds server, amplify infrared signal and filtering process, obtain infrared detection signal, and then be favorable to marking infrared detection signal, carry out signal tracking with the infrared detection signal that marks, thereby the accurate tracking route that obtains, and will track the route and compare with the standard route that sets up well in advance, thereby confirm the focus scope more efficiently, shine the probe through ruddiness and flash, audio-visual to the observer in order to remind the effect, thereby greatly increased the work efficiency of this therapeutic instrument, and the work accuracy is improved.

5. The ultrasonic signal is sent out by the frequency generator to the ultrasonic generator, the frequency is acquired to obtain the frequency of the ultrasonic signal, the frequency of the ultrasonic signal is matched with a preset standard signal frequency band through the ultrasonic transducer, so that the ultrasonic signal frequency matched with the standard signal frequency band is determined to be more efficient and the energy of ultrasonic signal conversion is required, and then the ultrasonic transducer is controlled according to the energy of the ultrasonic signal conversion to complete the conversion of the ultrasonic signal of the ultrasonic generator through an ultrasonic control line, thereby greatly improving the efficiency and the practicability of the therapeutic instrument.

Drawings

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

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

fig. 3 is a schematic sectional view of the standing groove of the present invention;

FIG. 4 is a schematic structural view of the telescopic rod of the present invention;

FIG. 5 is a schematic structural view of the stand according to the present invention;

FIG. 6 is a schematic diagram of a cloud server control connection according to the present invention;

FIG. 7 is a schematic view of the ultrasonic control wire control connection of the present invention.

In the figure: 1. a body; 2. a universal wheel; 3. connecting a lead; 4. irradiating the lamp holder with red light; 5. a snap ring; 6. a placement groove; 7. a top plate; 8. irradiating the lamp holder with red light; 9. an ultraviolet disinfection lamp; 10. preheating a heater; 11. a metal lamp post; 12. an illuminating lamp; 13. a telescopic rod; 131. an outer loop bar; 132. a lead screw; 133. an umbrella-shaped wheel; 134. a hand wheel; 135. an inner loop bar; 14. a turning block; 15. a support frame; 151. an outer support bar; 152. an inner support bar; 153. fixing the bolt; 16. an ultrasonic wave emitting head; 17. controlling a line by ultrasonic waves; 18. an ultrasonic generator; 19. and a controller.

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.

Referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides a special intervention therapeutic instrument of otolaryngology, includes body 1, and the bottom fixed mounting of body 1 has universal wheel 2, and the quantity of universal wheel 2 has four and is located four corners of body 1 bottom respectively, sets up universal wheel 2 through the bottom at body 1, conveniently promotes body 1 and removes, is convenient for promote body 1 to patient's bedside, has improved the flexibility of equipment.

Body 1's left side fixedly connected with connecting wire 3, connecting wire 3's top fixedly connected with red light irradiation lamp stand 4, red light irradiation lamp stand 4's top is provided with connecting thread, red light irradiation lamp stand 4's top sets up conductive electrode, use through the cooperation of red light irradiation lamp stand 4 and red light irradiation lamp holder 8, when detecting the treatment to otolaryngology, can link together red light irradiation lamp stand 4 and different red light irradiation lamp holder 8 according to the difference at detection position, avoid causing cross infection, adopt the mode that red light irradiation lamp stand 4 and red light irradiation lamp holder 8 cooperation are connected simultaneously, need not set up alone to the duct, the red light lamp of nasal cavity and throat, the space of equipment has been saved, the cost of equipment has been reduced simultaneously.

The left side of the body 1 is fixedly connected with a snap ring 5 which is clamped at the bottom of a red light irradiation lamp holder 4, the left side of the top of the body 1 is provided with a placing groove 6, a red light irradiation lamp holder 8 is placed in the placing groove 6, a red light emission lamp is arranged in the red light irradiation lamp holder 8, the top of the red light irradiation lamp holder 8 is matched with the top of the red light irradiation lamp holder 4 in a threaded manner, three red light irradiation lamp holders 8 are respectively corresponding to an auditory canal, a nasal cavity and a throat, the top of the placing groove 6 is provided with a top plate 7, the red light irradiation lamp holder 8 is movably sleeved in the top plate 7, the side surface of the placing groove 6 is fixedly provided with an ultraviolet disinfection lamp 9, the bottom of the placing groove 6 is provided with a preheating heater 10, the ultraviolet disinfection lamp 9 is arranged in the placing groove 6, the ultraviolet disinfection lamp holder 8 is disinfected by the ultraviolet disinfection lamp 9 in the placing, the safety of ruddiness illumination lamp holder 8 when using has been improved, through set up preheating heater 10 in the bottom of standing groove 6, utilizes preheating heater 10 of standing groove 6 bottom can preheat ruddiness illumination lamp holder 8, makes the temperature of ruddiness illumination lamp holder 8 rise, because the temperature is lower when avoiding the red light illumination lamp holder 8 to detect the treatment the human body causes the amazing, has improved the travelling comfort of treatment.

The top of the body 1 is fixedly connected with a metal lamp post 11, the top of the metal lamp post 11 is fixedly connected with a lighting lamp 12, the top of the body 1 is fixedly connected with a telescopic rod 13, the telescopic rod 13 comprises an outer sleeve rod 131, a lead screw 132 is movably sleeved in the outer sleeve rod 131, an umbrella-shaped wheel 133 is fixedly sleeved outside the lead screw 132, a hand wheel 134 is meshed on the right side of the umbrella-shaped wheel 133, the hand wheel 134 is movably sleeved with the outer sleeve rod 131, an inner sleeve rod 135 is sleeved on the top thread of the lead screw 132, the inner sleeve rod 135 is clamped in the outer sleeve rod 131, the top of the inner sleeve rod 135 is movably sleeved with the bottom of the steering block 14, through setting up telescopic link 13, rotatory hand wheel 134 drives umbelliform wheel 133 and rotates, drives the lead screw 132 rotation by umbelliform wheel 133 again, makes inner loop pole 135 reciprocate, conveniently adjusts the height of ultrasonic emission head 16, is convenient for carry out ultrasonic therapy to different patients.

The top of the telescopic rod 13 is movably sleeved with a steering block 14, the inside of the steering block 14 is hinged with a support frame 15, the support frame 15 comprises an outer support rod 151, an inner support rod 152 is clamped inside the outer support rod 151, a fixing bolt 153 is sleeved on the top thread of the outer support rod 151, the bottom of the fixing bolt 153 is in contact with the top of the inner support rod 152, the inner support rod 152 is fixed by sliding the length of the inner support rod 152 in the outer support rod 151 and then using the fixing bolt 153 to fix the inner support rod 152, the distance of the ultrasonic transmitting head 16 is conveniently adjusted, and the flexibility during ultrasonic therapy is improved.

One end of the support frame 15 far away from the steering block 14 is hinged with an ultrasonic emitter 16, the top of the ultrasonic emitter 16 is fixedly connected with an ultrasonic control line 17, the ultrasonic control line 17 is far away from one end of the ultrasonic emitter 18 which is fixedly connected with an ultrasonic generator 18, the right side of the top of the body 1 is fixedly connected with a controller 19, the controller 19 is respectively connected with the red light irradiation lamp holder 4, the illuminating lamp 12 and the ultrasonic generator 18 are electrically connected, the ultrasonic emitter 16 and the ultrasonic generator 18 are matched for use, ultrasonic waves are generated by the ultrasonic generator 18, then the ultrasonic frequencies are transmitted to the ultrasonic emitter 16 through the ultrasonic control line 17, and finally the ultrasonic frequencies are amplified and transmitted by the ultrasonic emitter 16, so that ultrasonic treatment is conveniently carried out on affected parts of patients.

In conclusion, when the special interventional therapy apparatus for ear, nose and throat is used, the illuminating lamp 12 is turned on to illuminate, then the ultraviolet disinfection lamp 9 and the preheating heater 10 are started to disinfect and preheat the red light irradiation lamp holder 8, then the red light irradiation lamp holder 8 corresponding to the ear canal, the nasal cavity and the throat is selected according to the part to be examined, the red light irradiation lamp holder 8 is connected with the red light irradiation lamp holder 4, then the controller 19 is used for controlling the red light irradiation lamp holder 8 to be turned on to perform red light therapy on a patient, the red light irradiation lamp holder 8 is placed back into the placing groove 6 after the red light therapy is completed, then the hand wheel 134 is rotated to adjust the height of the telescopic rod 13, the inner support rod 152 is slid to adjust the length of the support frame 15, and the controller 19 is used for controlling the ultrasonic generator 18 and the ultrasonic emitting head 16.

The invention provides a special interventional therapy instrument for ear, nose and throat, as shown in fig. 6, further comprising: an infrared sensor, a cloud server;

the infrared sensor is arranged at the upper end of the red light irradiation lamp holder 8;

the cloud server is placed at the upper end of the top plate 7;

the infrared sensor is connected with the cloud server;

the infrared sensor is configured to acquire an infrared signal of a target body part of the patient before the controller 19 controls the red light irradiation lamp head 8 to be turned on to perform red light therapy on the patient, and determine a focus range of the patient based on the infrared signal, and the specific working process includes:

the infrared sensor is used for acquiring an infrared signal of a target body part of the patient;

the cloud server is used for amplifying and filtering the infrared signal to obtain an infrared detection signal;

the cloud server is further used for marking the infrared detection signals, simultaneously carrying out signal tracking on the marked infrared detection signals and acquiring a signal tracking route;

meanwhile, comparing the tracking route with a standard route preset in the cloud server;

if the tracking route deviates from the standard route, controlling the red light irradiating lamp holder (8) to flicker;

the cloud server is further used for performing heavy marking on a deviation position when the tracking route deviates from the standard route, and surrounding the position of the heavy marking so as to determine a focus range.

In this embodiment, the standard route may be a pre-divided route based on the health target area by the cloud server.

The working principle and the beneficial effects of the technical scheme are as follows: acquire the infrared signal of patient's target health position through infrared sensor, and simultaneously, through the high in the clouds server, amplify infrared signal and filtering process, obtain infrared detection signal, and then be favorable to marking infrared detection signal, carry out signal tracking with the infrared detection signal that marks, thereby the accurate tracking route that obtains, and will track the route and compare with the standard route that sets up well in advance, thereby confirm the focus scope more efficiently, shine probe 8 through ruddiness and flash, audio-visual to the observer in order to remind the effect, thereby greatly increased the work efficiency of this therapeutic instrument, and the work accuracy is improved.

The invention provides a special interventional therapy instrument for ear, nose and throat, as shown in fig. 7, further comprising: an ultrasonic transducer, a frequency generator;

the ultrasonic transducer is arranged on the left side of the metal lamp post 11

The frequency generator is arranged at the upper end of the ultrasonic generator 18;

wherein the ultrasonic control line 17 is connected with the ultrasonic transducer and the frequency generator;

the ultrasonic transducer is used for converting an ultrasonic signal of the ultrasonic generator 18 based on the ultrasonic control line 17 and the frequency generator when the ultrasonic generator 18 performs ultrasonic therapy on a patient, and the specific working process comprises the following steps:

the frequency generator is used for acquiring the frequency of the ultrasonic signal sent by the ultrasonic generator 18 to obtain the frequency of the ultrasonic signal;

wherein f represents the frequency of the ultrasonic signal, θ represents the initial phase of the ultrasonic signal, and w_nRepresenting the angular frequency of the ultrasonic signal at time n, n representing the nth time, q representing the intensity value of the ultrasonic signal, T representing the frequency period of the ultrasonic signal, ln2 representing a logarithmic function with e as base 2;

the ultrasonic transducer is also used for matching the frequency of the ultrasonic signal with a preset standard signal frequency band;

if the ultrasonic signal frequency is matched with a preset standard signal frequency segment, acquiring the energy converted by the ultrasonic signal based on the ultrasonic signal frequency;

wherein C represents the energy of the ultrasonic signal conversion, τ represents the sound pressure projection coefficient of the ultrasonic wave, μ represents the sensitivity of the ultrasonic transducer, Z represents the acoustic characteristic impedance of a piezoelectric wafer in the ultrasonic transducer, f represents the ultrasonic signal frequency, v represents the ultrasonic signal conversion rate, t represents the time required for the ultrasonic signal conversion, d represents the thickness of a matching layer inside the ultrasonic transducer, and λ represents the acoustic wave wavelength of the ultrasonic signal in the matching layer inside the ultrasonic transducer;

the ultrasonic control line 17 is used for controlling the ultrasonic transducer to complete the conversion of the ultrasonic signal of the ultrasonic generator 18 according to the energy converted by the ultrasonic signal;

and if the frequency of the ultrasonic signal is not matched with a preset standard signal frequency segment, shielding and deleting the ultrasonic signal.

In this embodiment, the standard signal frequency band may be a frequency band converted in conformity with the ultrasonic signal.

In this embodiment, the shielding of the ultrasonic signal may be performed by completing the transmission of data and sound through radio waves at a certain baud rate and modulation mode within a certain frequency range, so as to interfere with the transmission of the signal.

The working principle and the beneficial effects of the technical scheme are as follows: the ultrasonic signal is sent out by the frequency generator to the ultrasonic generator 18, the frequency is acquired to obtain the frequency of the ultrasonic signal, the frequency of the ultrasonic signal is matched with a preset standard signal frequency band through the ultrasonic transducer, so that the ultrasonic signal frequency matched with the standard signal frequency band is determined to be more efficient and the energy of ultrasonic signal conversion is required, further, through the ultrasonic control line 17, the ultrasonic transducer is controlled according to the energy of the ultrasonic signal conversion to complete the conversion of the ultrasonic signal of the ultrasonic generator 18, and the high efficiency and the practicability of the therapeutic instrument are greatly improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a special intervention therapeutic instrument of otolaryngology, includes body (1), its characterized in that: the lamp comprises a body (1), a connecting wire (3) is fixedly connected to the left side of the body (1), a red light irradiation lamp holder (4) is fixedly connected to the top of the connecting wire (3), a placing groove (6) is arranged on the left side of the top of the body (1), a red light irradiation lamp holder (8) is placed inside the placing groove (6), a metal lamp post (11) is fixedly connected to the top of the body (1), an illuminating lamp (12) is fixedly connected to the top of the metal lamp post (11), an expansion link (13) is fixedly connected to the top of the body (1), a steering block (14) is movably sleeved on the top of the expansion link (13), a support frame (15) is hinged inside the steering block (14), an ultrasonic emitting head (16) is hinged to one end, far away from the steering block (14), of the support frame (15), and an ultrasonic control line (17), one end fixedly connected with supersonic generator (18) of ultrasonic wave emission head (16) is kept away from in ultrasonic control line (17), right side fixedly connected with controller (19) at body (1) top, controller (19) respectively with red light irradiation lamp stand (4), light (12), supersonic generator (18) electric connection.

2. The otolaryngological interventional therapy device of claim 1, wherein: the bottom fixed mounting of body (1) has universal wheel (2), the quantity of universal wheel (2) has four and is located four corners of body (1) bottom respectively.

3. The otolaryngological interventional therapy device of claim 1, wherein: the top of the red light irradiation lamp holder (4) is provided with connecting threads, and the top of the red light irradiation lamp holder (4) is provided with a conductive electrode.

4. The otolaryngological interventional therapy device of claim 1, wherein: the left side fixedly connected with snap ring (5) of body (1), the joint is in the bottom of red light irradiation lamp stand (4).

5. The otolaryngological interventional therapy device of claim 1, wherein: the infrared lamp is characterized in that a top plate (7) is arranged at the top of the placing groove (6), the red light irradiating lamp holder (8) is movably sleeved inside the top plate (7), an ultraviolet disinfection lamp (9) is fixedly mounted on the side surface of the placing groove (6), and a preheating heater (10) is arranged at the bottom of the placing groove (6).

6. The otolaryngological interventional therapy device of claim 1, wherein: the inside of red light irradiation lamp holder (8) is provided with the ruddiness and launches the lamp, the top of red light irradiation lamp holder (8) pairs with the top screw thread of red light irradiation lamp stand (4), the quantity of red light irradiation lamp holder (8) has three to correspond duct, nasal cavity, throat respectively.

7. The otolaryngological interventional therapy device of claim 1, wherein: telescopic link (13) including outer loop bar (131), lead screw (132) have been cup jointed in the inside activity of outer loop bar (131), umbrella wheel (133) have been cup jointed to the external fixation of lead screw (132), the right side meshing of umbrella wheel (133) has hand wheel (134), hand wheel (134) cup joint together with outer loop bar (131) activity, inner loop bar (135) have been cup jointed to the top screw thread of lead screw (132), inner loop bar (135) joint is in the inside of outer loop bar (131), the top of inner loop bar (135) cup joints together with the bottom activity that turns to piece (14).

8. The otolaryngological interventional therapy device of claim 1, wherein: the supporting frame (15) comprises an outer supporting rod (151), the inner supporting rod (152) is clamped inside the outer supporting rod (151), a fixing bolt (153) is sleeved on the top of the outer supporting rod (151) in a threaded mode, and the bottom of the fixing bolt (153) is in contact with the top of the inner supporting rod (152).

9. The otolaryngological interventional therapy device of claim 1, further comprising: an infrared sensor, a cloud server;

the infrared sensor is arranged at the upper end of the red light irradiation lamp holder (8);

the cloud server is placed at the upper end of the top plate (7);

the infrared sensor is connected with the cloud server;

the infrared sensor is used for acquiring an infrared signal of a target body part of a patient before the controller (19) controls the red light illuminating lamp head (8) to be opened to perform red light treatment on the patient, and meanwhile, the focus range of the patient is determined based on the infrared signal, and the specific working process comprises the following steps:

the infrared sensor is used for acquiring an infrared signal of a target body part of the patient;

the cloud server is used for amplifying and filtering the infrared signal to obtain an infrared detection signal;

the cloud server is further used for marking the infrared detection signals, simultaneously carrying out signal tracking on the marked infrared detection signals and acquiring a signal tracking route;

meanwhile, comparing the tracking route with a standard route preset in the cloud server;

if the tracking route deviates from the standard route, controlling the red light irradiating lamp holder (8) to flicker;

the cloud server is further used for performing heavy marking on a deviation position when the tracking route deviates from the standard route, and surrounding the position of the heavy marking so as to determine a focus range.

10. The otolaryngological interventional therapy device of claim 1, further comprising: an ultrasonic transducer, a frequency generator;

the ultrasonic transducer is arranged on the left side of the metal lamp post (11)

The frequency generator is arranged at the upper end of the ultrasonic generator (18);

wherein the ultrasonic control line (17) is connected with the ultrasonic transducer and the frequency generator;

the ultrasonic transducer is used for converting an ultrasonic signal of the ultrasonic generator (18) based on the ultrasonic control line (17) and the frequency generator when the ultrasonic generator (18) carries out ultrasonic treatment on a patient, and the specific working process comprises the following steps:

the frequency generator is used for acquiring the frequency of the ultrasonic signal sent by the ultrasonic generator (18) to obtain the frequency of the ultrasonic signal;

wherein f represents the frequency of the ultrasonic signal, θ represents the initial phase of the ultrasonic signal, and w_nRepresenting the angular frequency of the ultrasonic signal at time n, n representing the nth time, q representing the intensity value of the ultrasonic signal, T representing the frequency period of the ultrasonic signal, ln2 representing a logarithmic function with e as base 2;

the ultrasonic transducer is also used for matching the frequency of the ultrasonic signal with a preset standard signal frequency band;

if the ultrasonic signal frequency is matched with a preset standard signal frequency segment, acquiring the energy converted by the ultrasonic signal based on the ultrasonic signal frequency;

wherein C represents the energy of the ultrasonic signal conversion, τ represents the sound pressure projection coefficient of the ultrasonic wave, μ represents the sensitivity of the ultrasonic transducer, Z represents the acoustic characteristic impedance of a piezoelectric wafer in the ultrasonic transducer, f represents the ultrasonic signal frequency, v represents the ultrasonic signal conversion rate, t represents the time required for the ultrasonic signal conversion, d represents the thickness of a matching layer inside the ultrasonic transducer, and λ represents the acoustic wave wavelength of the ultrasonic signal in the matching layer inside the ultrasonic transducer;

the ultrasonic control line (17) is used for controlling the ultrasonic transducer to complete the conversion of the ultrasonic signal of the ultrasonic generator (18) according to the energy converted by the ultrasonic signal;

and if the frequency of the ultrasonic signal is not matched with a preset standard signal frequency segment, shielding and deleting the ultrasonic signal.

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