CN104825117B - A kind of wireless endoscope - Google Patents
A kind of wireless endoscope Download PDFInfo
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- CN104825117B CN104825117B CN201510219662.2A CN201510219662A CN104825117B CN 104825117 B CN104825117 B CN 104825117B CN 201510219662 A CN201510219662 A CN 201510219662A CN 104825117 B CN104825117 B CN 104825117B
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/00002—Operational features of endoscopes
- A61B1/00011—Operational features of endoscopes characterised by signal transmission
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/00002—Operational features of endoscopes
- A61B1/00011—Operational features of endoscopes characterised by signal transmission
- A61B1/00016—Operational features of endoscopes characterised by signal transmission using wireless means
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/00002—Operational features of endoscopes
- A61B1/00025—Operational features of endoscopes characterised by power management
- A61B1/00027—Operational features of endoscopes characterised by power management characterised by power supply
- A61B1/00032—Operational features of endoscopes characterised by power management characterised by power supply internally powered
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/06—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor with illuminating arrangements
- A61B1/0661—Endoscope light sources
- A61B1/0684—Endoscope light sources using light emitting diodes [LED]
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- Life Sciences & Earth Sciences (AREA)
- Surgery (AREA)
- Engineering & Computer Science (AREA)
- Optics & Photonics (AREA)
- Physics & Mathematics (AREA)
- Biophysics (AREA)
- General Health & Medical Sciences (AREA)
- Pathology (AREA)
- Radiology & Medical Imaging (AREA)
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- Heart & Thoracic Surgery (AREA)
- Medical Informatics (AREA)
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- Animal Behavior & Ethology (AREA)
- Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
- Public Health (AREA)
- Computer Networks & Wireless Communication (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Endoscopes (AREA)
Abstract
The present invention discloses a kind of wireless endoscope, including an electronic installation, receiving terminal, the electronic installation includes wireless transmission system, power supply management system and control unit, wherein power supply management system provides voltage for wireless transmission system, the wireless transmission system includes transmitting terminal, the receiving terminal includes signal receiving part and the display device linked together by cable, it is characterised in that:The wireless transmission system further comprises an interface portion, the interface portion is PCI E buses or USB3.0, the control unit connects the transmitting terminal by the interface portion data transfer, and the transmitting terminal is communicated using IEEE802.11ac wireless communication standards or WIHD wireless high-definition videos host-host protocol with the signal receiving part of the receiving terminal.The wireless endoscope improves the data transmission bauds of wireless endoscope by the interfacing and communication standard of a new generation to a certain extent.
Description
Technical field
The present invention relates to a kind of endoscope, more particularly to a kind of wireless endoscope.
Background technology
Endoscopy is a kind of technology for allowing to check the internal features of patient body in minimally invasive mode.
Medically, endoscopy allows the high quality image for gathering the internal features of human body without invasive surgery.
The basic tool of endoscopy is endoscope, and it is inserted into the patient body that will be checked.
In traditional endoscope, wired connection (for example, cable) is used to camera being physically connected to video prison
Visual organ or processing system.Image observed by endoscope is converted to either statically or dynamically view data and by having by camera
Line connection, which is transferred to video-frequency monitor, to be used to show.Can be in actual use, doctor has found wired company present on camera
Moving freely for interference endoscope is connect often, and this data transfer mode compares appearance because being analog signal transmission
Easily disturbed by extraneous signal, and the cable life-span, also than relatively limited, it is easily snapped off.Meanwhile, endoscope also needs to progress must
The cold sterilization wanted, wired situation is comparatively laborious, because disinfecting process is aoxidized to rear end wire rod, exacerbates the aging of cable.
The problem of in order to solve above, manufacturers start to produce a kind of wireless endoscope dress of use wireless transmission method
Put.However, this causes various new problems, various types of electromagnetic interferences are subjected to during radio communication, are easier to cause figure
The distortion of data, by taking the wireless endoscopic lens device for being operated in 2.4GHz as an example, because the ISM band (Industrial
Scientific Medical Band) be the common frequency range in various countries, so many equipment all with it, antijamming capability ratio
It is weaker.In addition, wireless data transmission speed is limited in relatively low data transmission rate always, thus also limits higher
The transmission of the high-fidelity digital vision signal of bandwidth occupancy.
The content of the invention
In order to overcome the shortcomings of that wireless endoscope message transmission rate is slow in the prior art and antijamming capability is weak, the present invention
Purpose be to provide a kind of strong antijamming capability and the fast wireless endoscope of message transmission rate.
To solve the above problems, the technical solution adopted in the present invention is as follows:It includes an electronic installation, receiving terminal, institute
Stating electronic installation includes wireless transmission system, power supply management system and control unit, and wherein power supply management system is wireless transmission
System provides voltage, and the wireless transmission system includes transmitting terminal, and the receiving terminal includes the letter linked together by cable
Number acceptance division and display device, it is theed improvement is that:The wireless transmission system further comprises an interface portion, the interface
Portion is PCI-E buses or USB3.0, and the control unit connects the transmitting terminal, the transmission by the interface portion data transfer
End is using IEEE802.11ac wireless communication standards or the signal of WIHD wireless high-definition videos host-host protocol and the receiving terminal
Acceptance division is communicated;
The electronic installation also includes mode of operation control system, and the mode of operation control system includes state model,
The state model includes operative model, focusing patterns and visual field mode;
The wireless endoscope also includes light supply apparatus, tumbler, and the tumbler includes one first revolving part, one
Second revolving part, the light supply apparatus connects first revolving part and the second revolving part, and the light supply apparatus includes light source, anti-
Electro-optical device, optical fiber and insertion section, the insertion section include fixing pipe and light path pipe, and the fixing pipe is located at behind light path pipe axial direction
Hold and both are mutually communicated, the side of the fixing pipe front end of the insertion section is provided with a slotted eye, and second revolving part is enclosed on solid
On fixed tube and by the slotted eye insertion fixing pipe, the light source is embedded at the first revolving part and opened at the side bottom of light supply apparatus one
What is be provided with crosses in groove, and it connects reflex reflector by optical fiber, and the reflex reflector connects described insert by second revolving part
Enter portion;
The reflex reflector includes integrally formed guiding piece, bridgeware and installed part, the guiding piece and bridgeware
The second revolving part bottom is installed to by installed part, the guiding piece is provided with a thang-kng groove close to optical fiber one side, described
Optical fiber is connected by the thang-kng groove with the guiding piece.
Preferably, the wireless transmission system includes an induction part and an image processing part, and the induction part passes through image
Processing unit is connected with control unit.
Preferably, the induction part uses cmos sensor.
Preferably, the control unit and the transmitting terminal are provided with the interface being adapted with interface portion.
Preferably, the wireless endoscope further comprises a mode switch, and the mode switch is self-lock switch, described
Mode switch is used to input control signal to control unit, to control the wireless endoscope to enter corresponding mode of operation.
Preferably, the wireless endoscope further comprises hand-hold device, and the electronic installation is embedded in the hand-held device
Top rear portion.
Preferably, the hand-held device includes the first handle shell, the second handle shell and bottom, wherein first handle
Shell, the second handle shell and bottom surround a closed cavity jointly.
Preferably, the power supply management system includes electrical power monitoring device and supply unit, and the supply unit is electronics
Device provides operating voltage, and the electrical power monitoring device monitors supply unit working condition in real time, and feeds back to control unit.
Preferably, the supply unit includes the first power supply and second source, and first power supply and second source connect
Connect the electronic installation.
Preferably, first power supply and second source are rechargeable batteries.
Compared with prior art, the beneficial effects of the present invention are:
PCI-E bus or USB3.0 setting of the present invention by interface portion so that control unit to communication unit has higher
Message transmission rate, improve transmission speed of the data in transmitting terminal, at the same also use IEEE802.11ac channel radio beacons
Accurate or WIHD wireless high-definition videos host-host protocol carries out radio communication so that the bandwidth of wireless information transfer is increased, and enters
And the digital data transmission ability of the wireless endoscope is greatly enhanced, while improving its jamproof ability to a certain extent.
The present invention also by supply unit the first power supply and second source double cell powered operation mode so that should
Wireless endoscope is more stable in use, at the same also ensure that the wireless endoscope in work can quick-replaceable electricity
Pond, to a certain extent, it is to avoid use the generation for the adverse consequences such as interrupting.
Brief description of the drawings
Fig. 1 is a kind of overall structure diagram of wireless endoscope 1 of the invention.
Fig. 2 is a kind of configuration schematic diagram of wireless endoscope 1 of the invention.
Fig. 3 is a kind of structured flowchart of the control system of wireless endoscope 1 of the invention.
Fig. 4 is the fit structure of the motor, bearing and focusing screw of a kind of tumbler of wireless endoscope 1 of the invention
Schematic diagram.
Fig. 5 is a kind of structural representation of the part light supply apparatus of wireless endoscope 1 of the invention.
Description of reference numerals:1st, wireless endoscope;10th, hand-held device;20th, electronic installation;50th, light supply apparatus;70th, power supply
Device;90th, tumbler;101st, the first handle shell;103rd, the second handle shell;1011st, projection;1013rd, trigger;1031st, pattern
Switch;201st, induction part;202nd, image processing part;203rd, input port;2030th, detection module is rotated;204th, state model;205、
Control unit;206th, transmitting terminal;207th, interface portion;208th, drive division;209th, enforcement division;210th, storage part;2041st, operative model;
2043rd, focusing patterns;2045th, visual field mode;2001st, receiving terminal;2002nd, signal receiving part;2003rd, display device;701st,
One power supply;702nd, electrical power monitoring device;703rd, second source;901st, motor;9011st, rotating shaft;903rd, coupling piece;905th, bearing;
902nd, the first revolving part;904th, the second revolving part;906th, connector;501st, light source;503rd, brightness regulator;505th, optical fiber;
507th, installed part;504th, guiding piece;506th, bridgeware;508th, lens assembly;5081st, eyepiece;5082nd, focusing screw;509th, light
Lu Guan.
Embodiment
The present invention is described in further detail with reference to the accompanying drawings and detailed description.
Fig. 1 and Fig. 2 are referred to, a kind of wireless endoscope 1 of the invention includes hand-held device 10, electronic installation 20, light source dress
50, supply unit 70 and tumbler 90 are put, wherein tumbler 90 is located at the front portion of hand-held device 10, light supply apparatus 50
In the positive bottom of tumbler 90, supply unit 70 includes the first power supply 701 and second source 703.
Hand-held device 10 is the handheld terminal of the wireless endoscope 1, and it is in integrally streamline shape, and section is in inverted " L " shape, and inside is
One cavity, the first power supply 701 for accommodating supply unit 70.The hand-held device 10 includes the first handle shell 101, the second handle
Shell 103 and bottom, wherein, the first handle shell 101, the second handle shell 103 and bottom surround the closed cavity, the first handle jointly
Shell 101, the mutual clamping of the second handle shell 103 constitute the handle casing part of the hand-held device 10.
First handle shell 101 is first-class wire casing body, and section is in inverted " L " shape, and it includes a projection 1011 and a trigger 1013,
Wherein projection 1011 is located on the madial wall of the cell body front end.The section of trigger 1013 is in round, and its top is provided with a through slot
Hole, for coordinating with projection 1011, the trigger 1013 is fastened on the first handle shell 101.Before coordinating with the trigger 1013
There are two functors afterwards, when trigger 1013 is moved forwards or backwards, different functional circuits will be connected, realized different
Function.
Second handle shell 103 is also first-class wire casing body, and section is also in inverted " L " shape, and it includes a mode switch 1031, the mould
Formula switch 1031 is a band lamp self-lock switch, crossing in groove for the tail end of the second handle shell 103 is embedded in, for starting and indicating
The relevant operation modes of the electronic installation 20 or tumbler 90.
Referring to Fig. 3, electronic installation 20 is the control device of the wireless endoscope 1, including data-storage system, wireless hair
System, power supply management system, mode of operation control system and control unit 205 are sent, wherein control unit 205 is the electronic installation 20
Central processing unit, for carrying out various controls, power supply management system is then for the electric energy needed for the electronic installation 20 is provided.
Data-storage system is the data memory module of the electronic installation 20, and it includes a storage part 210, and it is used for basis
The instruction of control unit 205 is stored in and taken out information, the original number that specific storage information includes but is not limited to input or gathered
According to, the required firmware of control unit 205, middle operation result and final operation result etc..
Wireless transmission system is the wireless endoscope 1 and the extraneous communication module for carrying out data exchange, it is to be understood that
The described external world is primarily referred to as receiving terminal 2001 herein, and the receiving terminal 2001 includes signal receiving part 2002 and display device
2003, wherein signal receiving part 2002 is sent to the aerial electricity with certain message for receiving and handling wireless transmission system
Magnetostatic wave signal, the electromagnetic wave signal preferentially selects 5GHz or 60GHz frequency ranges, i.e., using IEEE802.11ac wireless communication standards or
Person's WIHD wireless high-definition video host-host protocols are communicated with wireless transmission system, without using international public 2.4GHz frequency ranges,
The ability of the anti-external device of wireless endoscope 1 interference is improved to a certain extent.Display device 2003 is mainly used in display letter
The information that number acceptance division 2002 is received or treated.
Wireless transmission system includes induction part 201, the interface portion 207 of image processing part 202 and transmitting terminal 206.Wherein, feel
It is an imaging sensor to answer portion 201, preferentially using cmos sensor, and it is used to convert optical signals into electronic signal.Image
Processing unit 202 is an image processing module, and it is used to handle the raw image data that induction part 201 is gathered, for example
Say defect correction, AWB, remove fixed pattern noise, color difference, image sharpening difference, aperture amendment etc..
It is noted that interface is provided with above-mentioned control unit 205, and the preferred PCI-E interface of the interface.
Interface portion 207 is the bus of data cube computation control unit 205 and transmitting terminal 206, its preferred PCI-E bus.Transmitting terminal
206 be used for by the transmission of the wireless messages of the wireless endoscope 1 to spatially, be also equipped with thereon and PCI-E buses coordinate
PCI-E interface, forms a complete PCI-E bus run so that information is between control unit 205 and transmitting terminal 206 just
Transmission rate up to 8GB/s even more highs, compared with conventionally employed USB 2.0 480MB/s, this kind is arranged on to a certain degree
On greatly improve transfer rate, then by the wireless transmission system and receiving terminal 2001 be wireless using IEEE802.11ac
What communication standard or WIHD wireless high-definition video host-host protocols were communicated, thus fully ensure that whole data flow from control
Portion 205 processed comes out to the speed of the display of display device 2003, and the speed of data transfer is improved to a certain extent.
Certainly, it is contemplated that the factor such as actual cost, the interface portion 207 can also use USB 3.0.Adapt to, transmitting terminal
206 and control unit 205 simultaneously be set to the interfaces of USB 3.0.In other words, transmitting terminal 206 and control unit 205 are provided with connecing all the time
The adaptable interface of oral area 207.
Power supply management system is the supply of electric power management module of wireless endoscope 1, and it includes electrical power monitoring device 702 and electricity
Source device 70, wherein electrical power monitoring device 702 are used for the working condition for monitoring supply unit 70 in real time, and feed back in control unit
205。
Supply unit 70 includes the first power supply 701 and second source 703, wherein the first power supply 701 and second source 703 are equal
Connect the electronic installation, and preferably rechargeable battery.
First power supply 701 is the main supplying cell of the wireless endoscope 1, and it is generally used for the control unit of electronic installation 20
205 and the supply of electric power of auxiliary function circuit, its not excessive electric power also provides light supply apparatus 50 electricity of a part when sufficient
Energy.
Second source 703 is mainly used in the power supply of light supply apparatus 50.When electrical power monitoring device 702 monitors the first power supply
When 701 electric power are not enough or change battery, it can provide necessary work energy to wireless transmission system.With the first power supply 701
Power supply difference is, when electrical power monitoring device 702 monitors that the electric power of the first power supply 701 is not enough or changes battery, control
The meeting adjust automatically of portion 205 electronic installation 20 processed closes the transmission of some big power digital circuits, for example data of transmitting terminal 206, so that
Pattern is consumed into optimal work, it is ensured that the benign low consumption operation of the electronic installation 20.
Mode of operation control system is the schema control system of the wireless endoscope 1, as it was previously stated, trigger 1013 forward or
When moving backward, different functional circuits will be connected, different functions are realized.
Mode of operation control system include input port 203, rotate detection module 2030, state model 204, drive division 208,
Enforcement division 209 and the control unit 205 as central processing unit, wherein input port 203 are common data input/output interface,
It, which is used to connect, rotates detection module 2030 and control unit 205.
The above-mentioned mode switch 1031 of the correspondence of state model 204, in actual use, medical personnel can be by being embedded in second
The mode switch 1031 of the tail end of handle shell 103 selects corresponding operator scheme, i.e., the mode switch 1031 is used for control unit
205 input control signals, to control the wireless endoscope 1 to enter corresponding mode of operation.
Above-mentioned state model 204 mainly has three functional modes to select, i.e. operative model 2041, focusing patterns 2043
With visual field mode 2045.
Operative model 2041 is pattern when being operated, when starting the pattern, above-mentioned trigger 1013 it is front and rear
Movable signal will connect the control model related to taking pictures or recording a video.
Focusing patterns 2043 adjust focal length mode, and when starting the pattern, the movable signal of trigger 1013 will
Into the control model for increaseing or decreasing focal length.
Visual field mode 2045 is that the visual field changes control model, when starting the pattern, the movable signal of trigger 1013
Tumbler 90 will be controlled and rotating clockwise or rotating counterclockwise for its light supply apparatus 50 is depended on.
It is noted that under above-mentioned all kinds of state models 204, when rotate detection module 2030 detect this it is wireless in
Sight glass 1 will send automatic rotating signal to control unit 205, pass through the drive of drive division 208 when attempting significantly to be rotated
Action is with so that enforcement division 209 performs related rotating signal.Certainly, when rotating by a small margin, it can also be detected without rotating
The detection of module 2030, direct manual rotation.
Drive division 208 is the device for converting electrical energy into mechanical energy, and enforcement division 209 is the part for performing the drive division 208.
Referring to Fig. 4, being motor 901 with the corresponding mechanical component of above-mentioned enforcement division 209, it is one of tumbler 90
Point, the tumbler 90 also includes the first revolving part 902, coupling piece 903, bearing 905, the revolving part of connector 906 and second
904, wherein, the section of the first revolving part 902 is in " recessed " word, and its top is hollow cylinder, and second revolving part 904 is one " T "
Word pipe, the hollow cylinder of first revolving part 902, the second revolving part 904, connector 906 and bearing 905 it is coaxial setting and
They are rotated freely around this coaxial 360 degree.
Motor 901 is a common electric machine, and it is used to the electric impulse signal that drive division 208 is transmitted being changed into angular displacement
Or displacement of the lines, and then drive whole tumbler 90 to be rotated freely around above-mentioned coaxial 360 degree, it includes a rotating shaft 9011, its with
The socket connection of coupling piece 903.Coupling piece 903 is a cylinder, and there is a groove its inner side, just for the rotating shaft 9011
It is close to bearing 905 in grafting, the outside of the coupling piece 903.The bearing 905 is preferably rolling bearing, the inner side of the rolling bearing
Wall is mutually close to the above-mentioned outer surface of coupling piece 903, transmits the rotation formula of motor 901 by the linkage effect of coupling piece 903
To the madial wall of the bearing 905, its outside provides support for the rotation of the madial wall.
What is matched with above-mentioned coupling piece 903 is the first revolving part 902, as it has been observed that first revolving part 902 is overall
In " recessed " shape, it offers a cell body close to a upper lateral part of light supply apparatus 50, for placing second source 703, simultaneously should
The bottom of cell body then offered groove, for connection light supply apparatus 50.What is be connected with above-mentioned light supply apparatus 50 also has second
Revolving part 904, second revolving part 904 is " T " word pipe, and it coaxial can also do 360 degree and rotate freely around above-mentioned.
Referring to Fig. 5, light supply apparatus 50 is the light path system of the fujinon electronic video endoscope 1, it is in integrally the ¬ of Daoing " " shape, including light
Source 501, brightness regulator 503, optical fiber 505, reflex reflector, lens assembly 508 and insertion section, wherein reflex reflector are by one
The guiding piece 504 and bridgeware 506 and installed part 507 of body formed making are constituted.
The preferred LED/light source of light source 501, it is embedded at the first revolving part 902 and opened up at the side bottom of light supply apparatus 50 1
Some to cross in groove, it connects reflex reflector by optical fiber 505.Brightness regulator 503 is a cylinder, and it can be in the cylinder
Heart axle does rotation clockwise, counterclockwise, and the light sent for strengthening or weakening by light source 501 enters bright in light path pipe 509
Degree.What is be connected with the brightness regulator 503 with inserting mode is optical fiber 505, and the optical fiber 505 is common optical fiber, by glass
Glass or plastic material are made, and the light for light source 501 to be sent is conducted to guiding piece 504.
Reflex reflector section is in " convex " shape, and it includes guiding piece 504, bridgeware 506 and installed part 507.It is described to draw
Guiding element 504 is cylinder, and its section is isosceles right triangle, and it is provided with a thang-kng groove on the side of optical fiber 505, and this is reflective
Device is connected by the thang-kng groove with optical fiber 505.Bridgeware 506 is as the shape of guiding piece 504, and it is a total reflection rib
Mirror, will can be radiated at light thereon it is fully reflective enter installed part 507 in.Installed part 507 is an attachment means, its top and the
Two revolving parts 904 are connected.
Insertion section is in strip column, and it includes a fixing pipe and light path pipe 509, and wherein fixing pipe is located at the axle of light path pipe 509
To the back-end and both be mutually communicated.The fixing pipe front end is provided with a slotted eye, and second revolving part 904 is enclosed in fixing pipe and logical
The slotted eye insertion fixing pipe is crossed, the reflex reflector connects the insertion section by second revolving part 904.I.e. this second
Revolving part 904 and light path pipe 509 are directly communicated so that the light for entering reflex reflector is transmitted directly in light path pipe 509.
Above-mentioned light path pipe 509 is common fiberglass pipe, and its end is the shape of a hoof, adds up to two, and one is used for drawing
The light that guide-lighting source 501 is sent enters the place for needing to illuminate, and another Guan Ze is used for and lens assembly 508 or electronic installation 20
Induction part 201 coordinate for medical personnel observe use.The lens assembly 508 includes an eyepiece 5081 and a focusing screw
5082, wherein eyepiece 5081 is common eyepiece, and focusing screw 5082 is located in the groove of first revolving part 902, and and its
It is coaxial and can be rotated freely with 360 degree.In actual use, the light path pipe 509 is inserted directly into patient's body, and is close to its
Two revolving parts 904 and light supply apparatus 50 need not then be inserted.
Above-mentioned embodiment is only the preferred embodiment of the present invention, it is impossible to limit the scope of protection of the invention with this,
The change and replacement for any unsubstantiality that those skilled in the art is done on the basis of the present invention belong to institute of the present invention
Claimed scope.
Claims (10)
1. a kind of wireless endoscope, it includes an electronic installation, receiving terminal, and the electronic installation includes wireless transmission system, supplied
Electric management system and control unit, wherein power supply management system provide voltage, the wireless transmission system for wireless transmission system
Including transmitting terminal, the receiving terminal includes signal receiving part and the display device linked together by cable, it is characterised in that:
The wireless transmission system further comprises an interface portion, and the interface portion is PCI-E buses or USB3.0, the control unit
The transmitting terminal is connected by the interface portion data transfer, the transmitting terminal using IEEE802.11ac wireless communication standards or
WIHD wireless high-definition videos host-host protocol is communicated with the signal receiving part of the receiving terminal;
The electronic installation also includes mode of operation control system, and the mode of operation control system includes state model, described
State model includes operative model, focusing patterns and visual field mode;
The wireless endoscope also includes light supply apparatus, tumbler, and the tumbler includes one first revolving part, one second
Revolving part, the light supply apparatus connects first revolving part and the second revolving part, and the light supply apparatus includes light source, reflective dress
Put, optical fiber and insertion section, the insertion section includes fixing pipe and light path pipe, the fixing pipe be located at light path pipe axial rearward end and
Both are mutually communicated, and the side of the fixing pipe front end of the insertion section is provided with a slotted eye, and second revolving part is enclosed on fixing pipe
Above and by the slotted eye insertion fixing pipe, the light source is embedded at the first revolving part and offered at the side bottom of light supply apparatus one
Cross in groove, it connects reflex reflector by optical fiber, and the reflex reflector passes through second revolving part and connects the insertion section;
The reflex reflector includes integrally formed guiding piece, bridgeware and installed part, and the guiding piece and bridgeware pass through
Installed part is installed to the second revolving part bottom, and the guiding piece is provided with a thang-kng groove, the optical fiber close to optical fiber one side
It is connected by the thang-kng groove with the guiding piece.
2. wireless endoscope as claimed in claim 1, it is characterised in that:The wireless transmission system includes an induction part and one
Image processing part, the induction part is connected by image processing part with control unit.
3. wireless endoscope as claimed in claim 2, it is characterised in that:The induction part uses cmos sensor.
4. wireless endoscope as claimed in claim 1, it is characterised in that:The control unit and the transmitting terminal are provided with connecing
The adaptable interface of oral area.
5. wireless endoscope as claimed in claim 1, it is characterised in that:The wireless endoscope further comprises that a pattern is opened
Close, the mode switch is self-lock switch, the mode switch is used to input control signal to control unit, described wireless to control
Endoscope enters corresponding mode of operation.
6. wireless endoscope as claimed in claim 1, it is characterised in that:The wireless endoscope further comprises a hand-held dress
Put, the electronic installation is embedded in the top rear portion of the hand-held device.
7. wireless endoscope as claimed in claim 6, it is characterised in that:The hand-held device includes the first handle shell, second
Handle shell and bottom, wherein the first handle shell, the second handle shell and bottom surround a closed cavity jointly.
8. wireless endoscope as claimed in claim 1, it is characterised in that:The power supply management system includes electrical power monitoring device
And supply unit, the supply unit provides operating voltage for electronic installation, and the electrical power monitoring device monitors power supply dress in real time
Working condition is put, and feeds back to control unit.
9. wireless endoscope as claimed in claim 8, it is characterised in that:The supply unit includes the first power supply and the second electricity
Source, first power supply and second source are all connected with the electronic installation.
10. wireless endoscope as claimed in claim 9, it is characterised in that:First power supply and second source are charging electricity
Pond.
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CN201510219662.2A CN104825117B (en) | 2015-04-30 | 2015-04-30 | A kind of wireless endoscope |
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CN201510219662.2A CN104825117B (en) | 2015-04-30 | 2015-04-30 | A kind of wireless endoscope |
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