CN201912042U - Electronic oviduct mirror system with infrared thermal scanning function - Google Patents

Abstract

The utility model belongs to the technical field of medical appliances, and particularly discloses an electronic oviduct mirror system with an infrared thermal scanning function, which comprises an electronic oviduct mirror, and a cold light source host, a video host and an endoscope monitor which are connected with the electronic oviduct mirror, wherein an infrared thermal scanning system is also arranged on the electronic oviduct mirror, and comprises an infrared thermal scanning probe, an infrared thermal canning processing system host and an infrared thermal scanning system monitor. An infrared thermal scanning technology is introduced to the electronic oviduct mirror system on the basis of the traditional electronic oviduct mirror, the infrared thermal scanning probe is utilized to do linear and annular movement, the static image of the oviduct three-dimensional vessel can be clearly displayed, so reliable objective basis is provided for doctors to judge the lesion and functional state of the oviduct. In addition, the infrared thermal scanning processing system provides multiple work modes, such as a common display mode and a night vision display mode, so the doctors can make correct diagnosis by analyzing and comparing different display modes. The electronic oviduct mirror system greatly increases the diagnosis methods of oviduct disease, and effectively improves the diagnosis accuracy.

Description

Electronics fallopian tube mirror system with infrared heat scan function

Technical field

This utility model belongs to field of medical appliances, is specifically related to have the electronics fallopian tube mirror system with noctovisor scan function of infrared heat scan function.

Prior art

Medical infrared imaging derives from military industrial technology, use the history in existing more than 40 year, along with medical science, infrared imaging, and the development of multiple technologies such as Sun Ji multimedia, the temperature resolution of infrared imaging has reached 0.05 degree, spatial resolving power has reached 1.5mrad, image definition is greatly improved, the interpretation of result intuitive and convenient, and its range of application clinically enlarges.Infrared imaging diagnosis at present demonstrates certain advantage in the following areas: 1, judge position, character, the pain of organizing pain; 2, judge position, scope, the degree of acute and chronic inflammation; 3, the blood supply functional status of monitoring vascular lesions; 4, tumor early warning indication, the omnidistance supervision and the curative effect assessment.This shows, during infrared imaging to the important supplement of other morphology diagnostic methods such as B ultrasonic, CT, MR.

Do not occur still at present that both are incorporated into the endoscopic system of exercising usefulness in conjunction with electronics fallopian tube mirror with the infrared heat scanheads.Therefore, a kind of electronics fallopian tube mirror system technology with infrared heat scan function that the infrared heat scanning technique is used in combination with electronics fallopian tube mirror of design is extremely urgent.

The utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of electronics fallopian tube mirror system with infrared heat scan function is provided, this electronics fallopian tube mirror system is that the infrared heat scanning system is introduced in the electronics fallopian tube mirror system, probe by the infrared heat scanning system carries out spatial scanning to fallopian tube and tissue thereof, transfer of data to the infrared heat scanning system main frame that the continuous crosscut scanning in many planes obtains carries out Flame Image Process, the three-dimensional blood vessel still image of clear demonstration tubal wall provides the infrared heat scanogram of a width of cloth fallopian tube and tissue thereof for the doctor.

In order to realize above-mentioned technical purpose, this utility model is achieved through the following technical solutions:

Electronics fallopian tube mirror system with infrared heat scan function described in the utility model, comprise electronics fallopian tube mirror and the cold light source main frame that is connected with electronics fallopian tube mirror, shooting main frame, scope monitor, also be provided with the infrared heat scanning system on the described electronics fallopian tube mirror, described infrared heat scanning system comprises infrared heat scanheads, infrared heat scan process system host and infrared heat scanning system monitor.

In this utility model, described electronics fallopian tube mirror adopts the CCD electron-optical system, and this electronics fallopian tube mirror comprises soft scope end, data-interface, cold light source joint, instrument channel, water flowing passage.The electronic CCD optical system of this kind form, be mounted in the first end of soft scope end, adopting diameter is the CCD optical system of 1.5～3.0mm optical lens, and the CCD chip that is adopted adopts≤1/4 "; the CCD of at least 48 universal effect pixels, 100 ° of the angles of view or more than.The diameter of soft scope end is smaller or equal to 5mm, and this soft scope end is to use micro-flexible material manufacturing to form, and its first end has crooked function.Described instrument channel diameter is more than or equal to 3.0mm.

In this utility model, described infrared heat scanheads comprises probe work end, operator handle and data wire, described probe work end is passed the instrument channel of electronics fallopian tube mirror and is stretched out from the front end of soft scope end, described data wire is connected with infrared heat scan process system host by joint, and described infrared heat scanning system monitor is connected with infrared heat scan process system host.

Infrared heat scanheads described in the utility model, its probe work tip lengths scope is 500～2000mm, the external diameter of this probe work end is smaller or equal to 3.0mm, the probe tip minister degree of described probe work end front end is less than 50mm, and design has ultrared in the first end of described probe, and ultrared is equipped with infrared facility, infrared facility comprises the infrared light supply emitter, infrared reception camera lens; Infrared light supply emitter and infrared reception camera lens are formed one group of infrared facility, and the ultrared the inside of the first end of popping one's head in is integrated with three groups of identical infrared facilitys, and three groups of infrared facilitys are mutually 60 degree designs; Ultrared can be rotated by the driving of motor, and does linear and annular moving, thereby does linear and annular scanning to being scanned body.

The operator handle of infrared heat scanheads described in the utility model, its structure comprises gauge tap, mode selection switch, inching switch etc.Described data wire is connected with infrared heat processing system main frame by joint.

Infrared heat processing system main frame described in the utility model, its guidance panel and operation keyboard or hand-held equipment provide abundant control knob, buttons such as switch, model selection, infrared intensity fine setting, monitor menu.Model selection can be switched different display modes, comprise common display pattern and night vision display mode, the common display pattern is meant the display mode that infrared scan carries out under the irradiation of endoscopic cold light source and infrared light supply, the night vision display mode is meant under the irradiation that does not have endoscopic cold light source and infrared light supply, rely on self different radiant intensity of tissue substance to come imaging, the doctor can obtain the better diagnosis effect of another one angle to the image comparison analysis under two kinds of patterns.

Infrared heat processing system main frame described in the utility model, the external operation keyboard of the output port of its rear board or hand-held equipment, monitor etc., the scanning of monitor is consistent with the scanning of infrared heat scanheads, realizes synchronous scanning.

Infrared heat scanning system described in the utility model, its operation principle: oviduct tissue is covered with abundant blood vessel, the arterial blood temperature is higher, the venous blood temperature is lower, there is certain heat exchange mechanism in both, the both is to the infrared ray of external radiation different wave length, the temperature of palace oviduct tissue self is not only received the influence of blood flow in the blood vessel, influenced by the metabolic of self, so the temperature of oviduct tissue can owing to rich blood vessel whether with the different diversityes that show of metabolic active degree, extraradial ultrared wavelength is also had nothing in common with each other, can be for pathological changes such as the inflammation of oviduct tissue or tumors because its metabolism is active, its temperature is apparently higher than normally.Studies show that, the absorption of composition in the blood (serum, blood plasma, hemoglobin, albumin, erythrocyte, lymphocyte, platelet) to infrared light in spectrum is minimum, mean that blood is except external infrared radiation, also the ultrared inhalation effects to surrounding tissue is very little, the precision of infrared heat scanning system is smaller or equal to 0.05 degree, spatial resolving power reaches 0.8mrad at least, the infrared heat scan module scans in fallopian tube inner near distance, obtains meticulous accurate infrared image.

Infrared heat scanning system described in the utility model, its work process: the radiating infrared ray of blood flow and oviduct tissue in the blood vessel, after the accurate Infrared Detectors-infrared reception camera lens reception that enters intratubal infrared heat scan module, process chip converts optical signal to the signal of telecommunication, through pretreatment (as amplification, filtering etc.), enter the infra red treatment system host afterwards just be amplified to certain level by preamplifier and main amplifier.The signal of importing main frame simultaneously also has synchronizing signal, with reference to black matrix signal etc.Transfer of data to the infrared heat scanning system main frame that the continuous crosscut scanning in many planes obtains carries out Flame Image Process, output to the infrared system monitor, the three-dimensional blood vessel still image of clear demonstration fallopian tube, the doctor can analyze by image, can find that aberrant angiogenesis is abundant in the fallopian tube, aberrant angiogenesis is sparse or exist blood vessel to lack abnormal conditions such as zone, perhaps, instant diagnosis basis in time is provided for the doctor owing to salpingemphraxis causes oviducal inflammation etc.

The electronics fallopian tube mirror system of band infrared heat scanheads described in the utility model, its clinical operation method is as described below: after the patient gets calculi position sterilization anesthesia, after the doctor inserts the position of hysteroscope observation fallopian tube opening, the electronics fallopian tube mirror conduit that seal wire is equipped with in placement enters the fallopian tube opening, before conduit mouth is positioned at the fallopian tube mouth, withdraw from seal wire, insert electronics fallopian tube mirror, entering fallopian tube observes, the fallopian tube mirror can be imported the full fallopian tube of liquid by passage, does conventional gynecologial examination and treatment; The work end of infrared heat scanheads enters through instrument channel and does infrared heat scanning in the fallopian tube, conduit is withdrawed from the scan edge electronics fallopian tube mirror limit, work end of infrared heat scanheads, obtain continuously infrared heat scanogram clearly, provide foundation for the doctor does diagnosis.

Compared with prior art, the beneficial effects of the utility model are:

The precision of the infrared resolution rate of present medical infrared imagery technique is very high, and has been widely used in a lot of fields gradually.Fallopian tube mirror with infrared heat scanheads described in the utility model, with hard fallopian tube mirror is platform, introducing the infrared heat scanheads enters in the fallopian tube, utilize the infrared heat scanheads to do linear and annular moving, the temperature contrast that fallopian tube blood vessel motion is produced and linearity carried out in the infrared radiation that forms and annular scanning is monitored, to obtain the continuous crosscut scanning imagery in many planes, transfer of data to the infrared heat scanning system main frame that the continuous crosscut scanning in many planes is obtained carries out Flame Image Process then, the three-dimensional blood vessel still image of clear demonstration fallopian tube provides reliable objective basis for the doctor judges fallopian tube pathological changes and functional status.In addition, this utility model infrared heat scan process system provides multiple mode of operation, comprises common display pattern and night vision display mode, and the doctor can make correct diagnosis by analyzing and compare the diagnostic image of different display modes.This utility model greatly enriches the diagnostic means of fallopian tube disease, improves the accuracy of diagnosis effectively.

Description of drawings

Fig. 1 is the electronics fallopian tube mirror system sketch map with noctovisor scan function of the present utility model.

Fig. 2 is the surface structure sketch map of electronics fallopian tube mirror of the present utility model.

Fig. 3 is the soft scope end construction sketch map of electronics fallopian tube mirror of the present utility model.

Fig. 4 is an infrared heat scanheads surface structure sketch map of the present utility model.

Fig. 5 is the work end view of infrared heat scanheads of the present utility model.

Fig. 6 is three groups of infrared facility distribution schematic diagrams in this utility model.

Fig. 7 is the operation method sketch map with electronics fallopian tube mirror system of infrared heat scanheads function described in the utility model.

The specific embodiment

Below in conjunction with accompanying drawing this utility model is described in further detail:

As shown in Figure 1, electronics fallopian tube mirror system with noctovisor scan function described in the utility model comprises electronics fallopian tube mirror 1, cold light source main frame 3, shooting main frame 4 and scope monitor 8, infrared heat scanheads 2, infrared heat processing system main frame 5, operation keyboard or hand-held equipment 6, infrared heat scanning system monitor 7.

Fig. 2 is the surface structure sketch map of the electronics fallopian tube mirror 1 in this utility model.Soft scope end 11, cold light source joint 12, water flowing passage 13, data-interface 14, instrument channel 15 that described electronics fallopian tube mirror 1 comprises, described soft scope end 11 is the manufacturing of soft fibre material, has flexible, diameter is less than 5mm, and these soft scope end 11 length are smaller or equal to 1000mm, the internal diameter of described instrument channel 15 is smaller or equal to 3.0mm, data-interface 14 external shooting main frames 4.

Be illustrated in figure 3 as first end 111 sketch maps of the soft scope of electronics fallopian tube mirror end 11 front ends described in this utility model.The first end 111 of electronics fallopian tube mirror 1 is integrated has designed following various piece: optical lens 141, light-conductive optic fibre 121,13 outlets 131 of water flowing passage, instrument channel outlet 141.The ccd optical system of electronics fallopian tube mirror 1 is installed in soft scope end 11 front ends, adopt the electronic CCD optical system of diameter at 1.5～3.0mm optical lens, its CCD chip adopts≤1/4 ", the CCD of at least 48 universal effect pixels, 100 ° of the angles of view or more than.

As shown in Figure 4, infrared heat scanheads 2 infrared heat scanheadss 2 structures described in this utility model comprise probe work end 21, and operator is 22 and data wire 23.Described probe work end 21 long 500～2000mm, external diameter is smaller or equal to 3.0mm; Described operator comprises gauge tap to 22 design control knobs 221, mode selection switch, inching switch etc.; Described data wire 23 is connected with infrared heat processing system main frame 5 by joint.

Fig. 5 is probe elder generation end 211 structural representations of probe work end 21 front ends in this utility model.The 211 li designs in the first end of described probe have ultrared 212, and ultrared is equipped with infrared facility 213 for 212 li, and infrared facility 213 comprises the infrared light supply emitter, infrared reception camera lens; Infrared light supply emitter and infrared structure camera lens are formed one group of infrared facility 213, and ultrared 212 the insides of the first end 211 of described probe are integrated with 213, three groups of infrared facilitys 213 of three groups of identical infrared facilitys and are mutually 60 degree designs; Ultrared 212 can be rotated by the driving of motor, and does linear and annular moving, thereby does linear and annular scanning (as shown in Figure 6) to being scanned body.

Fig. 7 is the clinical operation sketch map with electronics fallopian tube mirror of infrared heat scan function described in the utility model.Its clinical operation method is as described below: after the patient gets calculi position sterilization anesthesia, after the doctor inserts the position of hysteroscope observation fallopian tube opening 91, the electronics fallopian tube mirror conduit 10 that seal wire is equipped with in placement enters fallopian tube opening 91, before conduit mouth is positioned at the fallopian tube mouth, withdraw from seal wire, insert electronics fallopian tube mirror 1, enter fallopian tube 9 and observe, electronics fallopian tube mirror 1 can be imported the full fallopian tube 9 of liquid by passage, does conventional gynecologial examination and treatment; The probe work end 21 of infrared heat scanheads 2 enters through instrument channel 14 and does infrared heat scanning in the fallopian tube 9, conduit 10 is withdrawed from 21 scan edge electronics fallopian tube mirrors, 1 limit, work end of infrared heat scanheads 2, obtain continuously infrared heat scanogram clearly, provide foundation for the doctor does diagnosis.

Fig. 1 this utility model is made described infra red treatment main frame 5, and its guidance panel and operation keyboard or hand-held equipment 6 provide abundant control knob, buttons such as switch, model selection, infrared intensity fine setting, monitor menu.Model selection can be switched different display modes, comprise common display pattern and night vision display mode, the common display pattern is meant the display mode that infrared scan carries out under the irradiation of endoscopic cold light source 3 and infrared light supply, the night vision display mode is meant under the irradiation that does not have endoscopic cold light source and infrared light supply, rely on self different radiant intensity of tissue substance to come imaging, the doctor can obtain the better diagnosis effect of another one angle to the image comparison analysis under two kinds of patterns.

Claims (8)

1. the electronics fallopian tube mirror system that has the infrared heat scan function, comprise electronics fallopian tube mirror and the cold light source main frame that is connected with electronics fallopian tube mirror, shooting main frame, scope monitor, it is characterized in that: also be provided with the infrared heat scanning system on the described electronics fallopian tube mirror, described infrared heat scanning system comprises infrared heat scanheads, infrared heat scan process system host and infrared heat scanning system monitor.

2. the electronics fallopian tube mirror system with infrared heat scan function according to claim 1, its characteristics are: described electronics fallopian tube mirror adopts the CCD electron-optical system, and described electronics fallopian tube mirror comprises soft scope end, data-interface, cold light source joint, instrument channel, water flowing passage.

3. the electronics fallopian tube mirror system with infrared heat scan function according to claim 2, it is characterized in that: described infrared heat scanheads comprises probe work end, operator handle and data wire, described probe work end is passed the instrument channel of electronics fallopian tube mirror and is stretched out from the front end of soft scope end, described data wire is connected with infrared heat scan process system host by joint, and described infrared heat scanning system monitor is connected with infrared heat scan process system host.

4. the electronics fallopian tube mirror system with infrared heat scan function according to claim 3, it is characterized in that: the front end of described probe work end is the first end of probe, pop one's head in and be provided with ultrared in the first end, one group of infrared facility is installed in the ultrared at least, and described infrared facility comprises infrared light supply emitter and infrared reception camera lens.

5. the electronics fallopian tube mirror system with infrared heat scan function according to claim 4, it is characterized in that: the infrared facility of described ultrared is three groups, these three groups of infrared facilitys are mutually 60 degree designs, and these three groups of infrared facilitys are hidden in the inside of the first end of probe.

6. the electronics fallopian tube mirror system with infrared heat scan function according to claim 3, it is characterized in that: described probe working end minister 500～2000mm, described probe work outer end diameter is smaller or equal to 3.0mm, and described probe tip minister degree is less than 50mm.

7. the electronics fallopian tube mirror system with infrared heat scan function according to claim 3 is characterized in that: the operator of described infrared heat scanheads is comprising gauge tap, mode selection switch and inching switch.

8. the electronics fallopian tube mirror system with infrared heat scan function according to claim 1, it is characterized in that: described infrared heat scan process system host also comprises connected guidance panel, operation keyboard or hand-held equipment, and described guidance panel, operation keyboard or hand-held equipment are provided with control knob, shift knob, have the model selection button of common display pattern and night vision display mode, infrared intensity fine adjustment function button and monitor menu button.

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