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33 results about "Sextant" patented technology

A sextant is a doubly reflecting navigation instrument that measures the angular distance between two visible objects. The primary use of a sextant is to measure the angle between an astronomical object and the horizon for the purposes of celestial navigation. The estimation of this angle, the altitude, is known as sighting or shooting the object, or taking a sight. The angle, and the time when it was measured, can be used to calculate a position line on a nautical or aeronautical chart—for example, sighting the Sun at noon or Polaris at night (in the Northern Hemisphere) to estimate latitude. Sighting the height of a landmark can give a measure of distance off and, held horizontally, a sextant can measure angles between objects for a position on a chart. A sextant can also be used to measure the lunar distance between the moon and another celestial object (such as a star or planet) in order to determine Greenwich Mean Time and hence longitude. The principle of the instrument was first implemented around 1731 by John Hadley (1682–1744) and Thomas Godfrey (1704–1749), but it was also found later in the unpublished writings of Isaac Newton (1643–1727). Additional links can be found to Bartholomew Gosnold (1571–1607) indicating that the use of a sextant for nautical navigation predates Hadley's implementation. (This reference to Gosnold's use of a sextant, in a popular British travel magazine article, rather than in a nautical history journal, does not cite sources, and is very probably inaccurate.) In 1922, it was modified for aeronautical navigation by Portuguese navigator and naval officer Gago Coutinho.

Anterior sextant dental bite tray apparatus

InactiveUS20050241650A1Thin materialInhibit orthodontic tooth movementOthrodonticsTeeth fillingTemporomandibular joint painTeeth grinding
Anterior sextant dental bite tray apparatus
Anterior sextant dental bite tray apparatus
Anterior sextant dental bite tray apparatus
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Owner:LBB ENTERPRISES

Anterior sextant dental bite tray apparatus

InactiveUS7404404B2Not inhibit orthodontic tooth movement and correctionThin materialOthrodonticsTeeth fillingTemporomandibular joint painTeeth grinding
Anterior sextant dental bite tray apparatus
Anterior sextant dental bite tray apparatus
Anterior sextant dental bite tray apparatus
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Owner:LBB ENTERPRISES

System and method for a digital image sextant

ActiveUS20190043211A1Image enhancementTelevision system detailsDigital imagingHorizon
Disclosed is a system of navigation that is not dependent on man-made satellites. Disclosed is a digital imaging system that may be calibrated using known angular distances and then used to determine unknown angular distances, including the angular distance of celestial bodies above the user's horizon. The digital imaging system may be used in conjunction with a celestial database to determine lines of position and establish a fix revealing the geographic location of the user. The system is expected to be most useful when employed on vessels at sea, including aircraft, and may also be useful on land. The invention offers an alternative to Global Positioning Systems, which are subject to inactivation by governments or traditional mechanical-optical sextants, which are time consuming and cumbersome to use.
System and method for a digital image sextant
System and method for a digital image sextant
System and method for a digital image sextant
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Owner:BERTRAND WILLIAM

Sextant astrogeodesy simulator

ActiveCN103745622AShort training periodImprove training effectCosmonautic condition simulationsSimulatorsWhile loopSky
Provided is a control method of a sextant astrogeodesy simulator. The method comprises the following steps: step 1, initialing equipment, and initializing a calculating unit and a peripheral device thereof; and step 2, entering while cycling, waiting for various interruptions, and entering corresponding interruption service programs according to the different interruptions; and a timer being interrupted, a triaxial compass connection port being interrupted, a GPS module connection port being interrupted, and a display screen dynamically displaying simulated sky images in real time. Through the attitude control of a sextant, and by accurately adjusting the mutual position relation between a perpendicular incident image and a reflection image, the height of a heavenly body is measured, and the purpose of training astrogeodesy skills is realized.
Sextant astrogeodesy simulator
Sextant astrogeodesy simulator
Sextant astrogeodesy simulator
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Owner:PLA DALIAN NAVAL ACADEMY

Dial for sextant

InactiveCN103487020AReduce weightImprove stabilitySextantsEngineeringMechanical engineering
The present invention discloses navigation mapper equipment, and particularly relates to a dial for a sextant. The dial comprises a disc body, wherein the disc body is an integrally forming sector structure, the disc surface of the disc body is provided with six adjacent special-shaped holes, and the outer edge of the disc body is provided with a scale display disc. According to the present invention, according to the mechanical principle, the six adjacent special-shaped holes are utilized so as to essentially reduce a weight of the sextant dial, improve stability, easily achieve taking or placing, and ensure product quality; and scale readings are arranged on the scale display disc, such that a service life of the scale readings is increased, and the problem that the scale readings can be aged or unclear due to often friction can not be generated.
Dial for sextant
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Ship astronomical positioning method without height angle observation

ActiveCN108645410AReduce computational complexityExtended applicable periodNavigational calculation instrumentsNavigation by terrestrial meansSkyMathematical model
The invention discloses a ship astronomical positioning method without height angle observation. The method comprises A, establishing astronomical positioning coordinates, B, deriving a preliminary formula of a ship astronomical positioning method based on an astronomical triangle, C, deriving a ship astronomical positioning novel method mathematical model formula through vector transformation andcoordinate transformation, and D, solving the ship astronomical positioning novel method mathematical model formula through value iteration to obtain the latitude and longitude of the ship at the observation time. A compass replaces a sextant to observe the celestial body. The method utilizes a process for acquiring azimuth angles of three celestial bodies at the same time to replace the traditional astronomical positioning principle based on celestial height angle observation and is free of the sextant for simultaneously observing the water-sky-line and celestial bodies. At night, when the celestial body is visible and the water-sky-line is not visible, the ship position can be determined through observing the celestial body. The method solves the problem of the preferential use time period of the existing ship astronomical positioning, can be used for ship positioning at night and can well ensure the safe operation of ships.
Ship astronomical positioning method without height angle observation
Ship astronomical positioning method without height angle observation
Ship astronomical positioning method without height angle observation
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Owner:TIANJIN UNIV

Photo-Optic Comparative Geolocation System

ActiveUS20160012290A1Image enhancementTelevision system detailsGeolocationData treatment
Photo-Optic Comparative Geolocation System
Photo-Optic Comparative Geolocation System
Photo-Optic Comparative Geolocation System
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Owner:LUCAS FISHER VANCE

Transmission device of sextant

InactiveCN103487018ASimple structureSimple processSextantsEngineeringMechanical engineering
The invention discloses a transmission device of a sextant. The transmission device comprises a dial, a micro-motion disk and an indicating arm which is fixedly connected with an axis bracket of the dial. The micro-motion disk is connected with the dial through the indicating arm, and moves in a relatively sliding manner along the outer edge of the dial; a salient strip is arranged at the side edge of the micro-motion disk, and is in relative contact with the surface of a handle assembly fixed on the indicating arm. The micro-motion disk slidably moves on the dial through handles, when the micro-motion disk works, the handles are furled and thus the micro-motion disk can slide on the dial, and when the handles are released, and thus a certain distance can be kept between the micro-motion disk and the dial. The transmission device disclosed by the invention has the advantages of being simple in structure of the whole scheme, concise in working procedures and convenient to use, and saves the labor cost, and improves the work efficiency.
Transmission device of sextant
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Self-reference sextant

ActiveCN106017405AChange structureAchieving self-reference measurementsSextantsInformation processingEngineering
The invention discloses a self-reference sextant. The self-reference sextant comprises a mechanical sextant, a movable mirror tilt angle sensor, a fixed mirror tilt angle sensor, an information processing system, a display unit, a communication interface, a host computer application system, a control system and a power supply system. The movable mirror tilt angle sensor is used for sensing a tilt angle of the mirror face of a movable mirror of the mechanical sextant, the fixed mirror tilt angle sensor is used for sensing a tilt angle of the mirror face of a fixed mirror of the mechanical sextant, the information processing system collects tilt angle information from the two tilt angle sensors in real time and processes the collected information according to a control instruction from the control system, the display unit dynamically displays the processing results of the observed information, the host computer application system exchanges information with an automatic angle measurement integrated device through a communication interface and calculates results and the power supply system provides power for the whole self-reference sextant. The self-reference sextant does not influence the original use of a navigation sextant, is independent of water-sky line observation and greatly improves positioning opportunity, positioning precision and an automation degree.
Self-reference sextant
Self-reference sextant
Self-reference sextant
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Owner:四川汉星航通科技有限公司

Sextant

InactiveCN105627984AImprove level stabilityQuick searchSextantsEngineeringSea level
A sextant comprises a disc, a movable lens, a fixed lens, a telescope, a swing arm, an installation shell, a support, a first reflector and a second reflector. The installation shell is a hemispherical shell with an upward port, a dial of the disc is downward and vertically arranged in the installation shell, and the installation shell is installed on the support through a rotary mechanism so that the port can be kept to be parallel to the sea level all the time. The first reflector is used for receiving light reflected by the fixed lens and reflecting the light to the second reflector. The telescope is arranged on the edge of the top of the installation shell and can receive the light reflected by the second reflector, a light-sensitive resistor is arranged on the edge of the movable lens, and the light-sensitive resistor is connected with a buzzer. The installation shell and the support are matched so that the observation face of the sextant can be always kept flush with the sea level, and horizontal stability of the sextant is improved. The first reflector, the second reflector, the movable lens and the fixed lens are matched so that the light can be located above the installation shell after being reflected, the light can be conveniently observed through the telescope, and use is convenient. The light-sensitive resistor and the buzzer are arranged so that an operator can quickly and conveniently search for a light source.
Sextant
Sextant
Sextant
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Owner:ZHEJIANG OCEAN UNIV

Sextant high in horizontal stability

InactiveCN105651244AEasy to observeImprove level stabilitySextantsEngineeringSea level
A sextant high in horizontal stability comprises a panel, a moving mirror, a fixed mirror, a telescope, a swing arm, a mounting shell, a support, a first light-reflecting mirror and a second light-reflecting mirror, wherein the mounting shell is a hemispherical shell with an upward end opening, a dial of the panel faces downward and is arranged in the mounting shell vertically, and the sidewall of the mounting shell is provided with a through hole allowing the fixed mirror to expose. The mounting shell is mounted on the support by enabling the end opening thereof to keep parallel to the sea level constantly through a rotating mechanism. The first light-reflecting mirror and the second light-reflecting mirror are arranged on the panel, the first light-reflecting mirror is used for receiving rays reflected by the fixed mirror and reflecting the received rays to the second light-reflecting mirror, and the telescope is arranged on the mounting shell and capable of receiving rays reflected by the second light-reflecting mirror. The sextant high in horizontal stability has the advantages that the mounting shell is matched with the support to enable an observation surface of the sextant to keep horizontal to the sea level constantly, so that horizontal stability of the sextant is improved; the first light-reflecting mirror and the second light-reflecting mirror are matched with the moving mirror and the fixed mirror to enable the reflected rays to be positioned above the mounting shell, so that observation of the rays by the telescope is facilitated, and convenience in use is achieved.
Sextant high in horizontal stability
Sextant high in horizontal stability
Sextant high in horizontal stability
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Owner:ZHEJIANG OCEAN UNIV

System and method for a digital image sextant

ActiveUS10621741B2Image enhancementTelevision system detailsDigital imagingHorizon
Disclosed is a system of navigation that is not dependent on man-made satellites. Disclosed is a digital imaging system that may be calibrated using known angular distances and then used to determine unknown angular distances, including the angular distance of celestial bodies above the user's horizon. The digital imaging system may be used in conjunction with a celestial database to determine lines of position and establish a fix revealing the geographic location of the user. The system is expected to be most useful when employed on vessels at sea, including aircraft, and may also be useful on land. The invention offers an alternative to Global Positioning Systems, which are subject to inactivation by governments or traditional mechanical-optical sextants, which are time consuming and cumbersome to use.
System and method for a digital image sextant
System and method for a digital image sextant
System and method for a digital image sextant
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Owner:BERTRAND WILLIAM

Method and device for activating inner orientation energy of sextant and sextant

InactiveCN103473456AFully functionGood serviceSpecial data processing applicationsComputer scienceSextant
Method and device for activating inner orientation energy of sextant and sextant
Method and device for activating inner orientation energy of sextant and sextant
Method and device for activating inner orientation energy of sextant and sextant
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Owner:庞洁之

Centralized positioning assembly for sextant indication arm

InactiveCN103487014APrevent looseningHigh precisionSextantsSet screwEngineering
Centralized positioning assembly for sextant indication arm
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Mirror surface perpendicularity inspection method of marine sextant additionally provided with alignment module

PendingCN114199196AImprove practicalitySolve the problem of not being able to maintain vertical balanceIncline measurementSextantsClassical mechanicsEngineering
The invention discloses a mirror surface perpendicularity inspection method for a navigation sextant additionally provided with an alignment module, and belongs to the technical field of navigation equipment.The navigation sextant comprises a navigation sextant body and a fixing shaft, the fixing shaft is fixedly installed at the top of the navigation sextant body, and a gradienter perpendicular instrument is arranged on the inner side of the fixing shaft; and the gradienter verticality instrument is used for checking the verticality of the angle of the mirror surface. By combining the vertical connecting column, the gradienter vertical instrument, the instrument opening and closing cover, the handheld grip, the center connecting cylinder, the movable shaft, the angle scale ring, the connecting rectangular column and the gravity orthocenter, the problem that when an existing ship travels on the sea, the ship is prone to being impacted by sea surface waves, and consequently a navigation sextant cannot keep vertical balance is conveniently solved; therefore, when a ship travels on the sea, the mirror surface angle perpendicularity can be checked through the device, the device is prevented from being impacted by sea surface waves, the perpendicularity cannot be found, and the practical effect of the marine sextant is improved.
Mirror surface perpendicularity inspection method of marine sextant additionally provided with alignment module
Mirror surface perpendicularity inspection method of marine sextant additionally provided with alignment module
Mirror surface perpendicularity inspection method of marine sextant additionally provided with alignment module
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Owner:中国人民解放军海军航空大学航空基础学院

A method for ship astronomical positioning without altitude angle observation

ActiveCN108645410BReduce computational complexityExtended applicable periodNavigational calculation instrumentsNavigation by terrestrial meansCelestial bodyMathematical model
The invention discloses a ship astronomical positioning method without altitude angle observation: step A, establishing astronomical positioning coordinates; step B, deriving the preliminary formula of the ship astronomical positioning method based on the astronomical triangle; step C, deriving by vector transformation and coordinate transformation The mathematical model formula of the new method of astronomical positioning of ships; step D, numerically iteratively solve the mathematical model formula of the method of astronomical positioning of ships, and obtain the latitude and longitude of the ship at the observation time. The invention utilizes a compass instead of a sextant to observe celestial bodies. By obtaining the azimuth angles of three celestial bodies at the same time to replace the traditional astronomical positioning principle based on the observation of the elevation angle of celestial bodies, there is no need to use a sextant to observe the water antenna and celestial bodies at the same time. At night, when the celestial bodies are visible and the water antenna is invisible. , you can still observe celestial bodies to determine the position of the ship. In this way, it overcomes the problem of priority use period for astronomical positioning of ships in the past, and can be used for ship positioning at night to better ensure the safe operation of ships.
A method for ship astronomical positioning without altitude angle observation
A method for ship astronomical positioning without altitude angle observation
A method for ship astronomical positioning without altitude angle observation
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Owner:TIANJIN UNIV

Special instrument box for sextant

InactiveCN103482191ASimple structureEasy to implementContainer handlesDamagable goods packagingEmergency rescueEngineering
The invention discloses the technical field of instrument boxes and cases, in particular to a special instrument box for a sextant. The special instrument box comprises a bottom-free rectangular box-shaped box cover and a cover-free rectangular box-shaped box body, wherein the box cover is hinged to the box body through a hinge. The special instrument box is characterized in that a telescope seat block is arranged in the box body, and a through hole matched with a screw bolt is formed in the surface of the telescope seat block. The structure is simple, the realization is easy, the production cost is low, the fixation is firm, durability and attractive appearance are realized, the special instrument box is particularly suitable for occasions of waterborne operation environment or rainy day going-out emergency rescue, and better damp-proof and waterproof effects can be realized on the sextant.
Special instrument box for sextant
Special instrument box for sextant
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Gear indexing assembly of sextant

InactiveCN103487015AImprove wear resistanceHigh precisionSextantsEngineeringWear resistance
Gear indexing assembly of sextant
Gear indexing assembly of sextant
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Digital sextant

InactiveCN103499333BGo digitalImplement automatic conversionSextantsAngular degreesEngineering
The invention relates to a digital sextant which comprises a mechanical sextant. The mechanical sextant comprises a base which is provided with a fixed mirror, a telescope, a movable arm and an arc dividing disc. One end of the movable arm is provided with a movable mirror and is connected to a base included angle opposite to the dividing disc through a rotating shaft I. The digital sextant further comprises a capacitive gate ruler parallel to the base. One end of a ruler body of the capacitive gate ruler is connected to the movable arm through a rotating shaft II. A vernier of the capacitive gate ruler is connected to the base through a rotating shaft III. The rotating shaft III, the fixed mirror and the rotating shaft I are placed on the same straight line. The distance between the rotating shaft II and the rotating shaft I and the distance between the rotating shaft III and the rotating shaft I are equal. The vernier of the capacitive gate ruler is connected with a microprocessor I in a signal mode. The microprocessor I is connected with a display screen I. The digital sextant has the advantage that digitization of the mechanical sextant is achieved. Angle is measured, and meanwhile the measured starting point distance is automatically computed.
Digital sextant
Digital sextant
Digital sextant
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Owner:张广海

Sextant instrument container for fixing brush

InactiveCN103482188AInhibit wearSimple structureDamagable goods packagingInternal fittingsEngineeringSextant
The invention discloses a sextant instrument container for fixing a brush. The sextant instrument container is provided with a bottom-free rectangular box-shaped box cover, a cover-free rectangular box-shaped box body, wherein the box cover is hinged with the box body through a hinge, a brush limiting wooden bar is arranged on the left lower corner of the box body, a brush stop block is arranged on the edge adjacent to the brush limit wooden bar, and the brush stop block, the brush limiting wooden bar and adjacent edges of the box body are encircled to form a semi-closed space. The sextant instrument container is simple in structure, easy to realize, low in production cost, firm to fix, durable and attractive; and a special space for fixing the brush is arranged on the sextant instrument container. The space is reasonably allocated, so that the abrasion of the sextant caused by the rolling of the brush can be prevented.
Sextant instrument container for fixing brush
Sextant instrument container for fixing brush
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Sextant

InactiveCN103487016AImprove oxidation effectGood coloring effectSextantsSurveyorMarine navigation
Sextant
Sextant
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Navigation sextant design theory and method based on perpendicularity judgment

PendingCN114199184ASolve the problem of very serious damageSolve the problem that the observation time is too long and the use limitations are too largeSextantsMicro motorSextant
The invention discloses a navigation sextant design theory and method based on perpendicularity judgment, and relates to the technical field of navigation measurement, the navigation sextant design theory and method comprises a sextant main body, a movable mirror pointer and a fixed mirror assembly, the movable mirror pointer is arranged in the sextant main body, and the fixed mirror assembly is arranged on one side of the movable mirror pointer; a night observation mirror is arranged in the fixed mirror assembly, a daytime observation mirror is fixedly connected to one side of the night observation mirror, and a horizontal ball is fixedly connected to the back face of the night observation mirror. Through the daytime observation mirror, the first photoresistor, the second photoresistor, the micro motor, the horizontal ball, the vertical line, the vertical body and the transverse noctilucent parallel rod, the problem that when an existing marine sextant is used, a user needs to directly see refracted light with eyes during daytime observation; the problems that the observation time is too long and the use limitation is too large due to the fact that the long-time use causes great damage to eyes and the water antenna is difficult to find for reference during night observation are solved.
Navigation sextant design theory and method based on perpendicularity judgment
Navigation sextant design theory and method based on perpendicularity judgment
Navigation sextant design theory and method based on perpendicularity judgment
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Owner:中国人民解放军海军航空大学航空基础学院

Protection cover for sextant center shaft

InactiveCN103487019APrevent accidental looseningExtended service lifeSextantsEngineeringMarine navigation
Protection cover for sextant center shaft
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Sextant index mirror

InactiveCN103487021AReduce manufacturing costImprove product qualityMountingsSextantsObservational errorEngineering
Sextant index mirror
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

A sextant astronomical simulator

ActiveCN103745622BShort training periodImprove training effectCosmonautic condition simulationsNavigational calculation instrumentsWhile loopSky
Provided is a control method of a sextant astrogeodesy simulator. The method comprises the following steps: step 1, initialing equipment, and initializing a calculating unit and a peripheral device thereof; and step 2, entering while cycling, waiting for various interruptions, and entering corresponding interruption service programs according to the different interruptions; and a timer being interrupted, a triaxial compass connection port being interrupted, a GPS module connection port being interrupted, and a display screen dynamically displaying simulated sky images in real time. Through the attitude control of a sextant, and by accurately adjusting the mutual position relation between a perpendicular incident image and a reflection image, the height of a heavenly body is measured, and the purpose of training astrogeodesy skills is realized.
A sextant astronomical simulator
A sextant astronomical simulator
A sextant astronomical simulator
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Owner:PLA DALIAN NAVAL ACADEMY

Photo-optic comparative geolocation system

ActiveUS9881028B2Image enhancementImage analysisGeolocationData treatment
Photo-optic comparative geolocation system
Photo-optic comparative geolocation system
Photo-optic comparative geolocation system
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Owner:LUCAS FISHER VANCE

Sextant instrument container for fixing accessories

InactiveCN103482242AInhibit wearSimple structureDamagable goods packagingInternal fittingsEngineeringMechanical engineering
The invention discloses a sextant instrument container for fixing accessories. The sextant instrument container is provided with a bottom-free rectangular box-shaped box cover and a cover-free rectangular box-shaped box body, wherein the box cover is hinged with the box body through a hinge, the box body is provided with a brush stop block, and the brush stop block is provided with an accessory installation hole. The sextant instrument container is simple in structure, easy to realize, low in production cost, firm in fixation, durable and attractive; the sextant instrument container is provided with two holes for fixing the accessories, and the sextant instrument container is provided with three single holes in identical diameters and one independent step hole, so that the abrasion of a sextant caused by the rotation of the accessory can be prevented.
Sextant instrument container for fixing accessories
Sextant instrument container for fixing accessories
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

A self-reference sextant

ActiveCN106017405BNo change in structureRealize automatic measurementSextantsInformation processingEngineering
The invention discloses a self-reference sextant. The self-reference sextant comprises a mechanical sextant, a movable mirror tilt angle sensor, a fixed mirror tilt angle sensor, an information processing system, a display unit, a communication interface, a host computer application system, a control system and a power supply system. The movable mirror tilt angle sensor is used for sensing a tilt angle of the mirror face of a movable mirror of the mechanical sextant, the fixed mirror tilt angle sensor is used for sensing a tilt angle of the mirror face of a fixed mirror of the mechanical sextant, the information processing system collects tilt angle information from the two tilt angle sensors in real time and processes the collected information according to a control instruction from the control system, the display unit dynamically displays the processing results of the observed information, the host computer application system exchanges information with an automatic angle measurement integrated device through a communication interface and calculates results and the power supply system provides power for the whole self-reference sextant. The self-reference sextant does not influence the original use of a navigation sextant, is independent of water-sky line observation and greatly improves positioning opportunity, positioning precision and an automation degree.
A self-reference sextant
A self-reference sextant
A self-reference sextant
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Owner:四川汉星航通科技有限公司

Sextant instrument container

InactiveCN103482190AFully consider the usage needsEffective use of requirementsExternal fittingsDamagable goods packagingEngineeringMechanical engineering
The invention discloses a sextant instrument container. The sextant instrument container is provided with a bottomless rectangular box-shaped box cover and a coverless rectangular box-shaped box body; the box cover is connected with the box body through a hinge; supporting legs are arranged at one end of the box body; an auxiliary supporting component is fixedly connected with the bottom surface of the box body. The sextant instrument container is simple in structure, easy to implement, low in production cost, durable and attractive, and is fixedly firmly; using requirements on the instrument container are fully considered; the supporting legs are respectively arranged on the side surfaces and the bottom surface, so that the placement in different occasions is met, the instrument container is effectively protected, the abrasion is reduced, and meanwhile, the service life of the sextant instrument container is prolonged.
Sextant instrument container
Sextant instrument container
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Owner:CHANGZHOU HAOMAI MARINE EQUIP TECH

Method and device for taking out prostate biopsy

ActiveCN107049371BSurgical needlesVaccination/ovulation diagnosticsSextant biopsyLesion
Disclosed are a removal method and apparatus capable of accurately operating a prostate puncture needle to carry out a biopsy. The traditional sextant biopsy is improved, i.e. improving equally dividing a whole prostate into six parts (the top, middle and bottom, and left and right sides of a prostate) before into only selecting a point to puncture in a region of interest. A clear and stereoscopic prostate lesion region can be completely provided to a doctor by means of preoperative image information. By means of adding an angle adjustment indication dial assisting apparatus, and computing, on the basis of preoperative planning, a needle point position, a planned route and a required puncture rotation angle, an improved puncture kit (9) can realize an accurate rotation operation, has higher precision and high individual specificity, and realizes accurate puncturing.
Method and device for taking out prostate biopsy
Method and device for taking out prostate biopsy
Method and device for taking out prostate biopsy
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Owner:BEIJING L H H MEDICAL SCI DEV

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