CN113850965A

CN113850965A - Marine control fence of high stability

Info

Publication number: CN113850965A
Application number: CN202111083336.5A
Authority: CN
Inventors: 杜逢佳
Original assignee: Jiangsu Yaoxin Information Technology Co ltd
Current assignee: Jiangsu Yaoxin Information Technology Co ltd
Priority date: 2021-09-16
Filing date: 2021-09-16
Publication date: 2021-12-28
Anticipated expiration: 2041-09-16
Also published as: CN113850965B

Abstract

The invention discloses a high-stability marine monitoring electronic fence which comprises a preset local mass type dynamic characteristic self-adjusting main body, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning intermediate rod stabilizing device, a gravity compensation type magnetic suspension buffer type damping protection device and an omnibearing reciprocating rotary cyclone circulation type dehumidifying device. The invention belongs to the technical field of high-stability marine monitoring electronic fences, and particularly relates to a high-stability marine monitoring electronic fence; according to the contradiction that the distance between the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting middle rod is not changed when the electronic fence for the ship moves, self-adaptively adjusts along with the deck swing and does not move in the process of the ship body swing, the technical theory of the dynamic characteristic principle is creatively applied to the technical field of high-stability monitoring electronic fences for the ship.

Description

Marine control fence of high stability

Technical Field

The invention belongs to the technical field of high-stability marine monitoring electronic fences, and particularly relates to a high-stability marine monitoring electronic fence.

Background

The electronic fence is the most advanced perimeter anti-theft alarm system at present, and the system mainly comprises three major parts, namely an electronic fence host, a front-end accessory and a rear-end control system. Generally, the electronic fence host is installed outdoors along an original fence (such as a brick wall, a cement wall or an iron fence), and the pulse electronic fence host is also generally installed outdoors, and transmits an alarm signal to a control keyboard of a rear-end control center through signal transmission equipment, displays the working state of a defense area, and remotely performs operations such as defense deployment and withdrawal control on an external pulse host. The electronic fence for the ship mainly displays the working state of a defense area around the sea area and remotely performs defense arrangement and withdrawal control on an external pulse host, so that people can conveniently deploy and control the work of the defense area, and the requirements of people on the electronic fence for the ship are higher and higher along with the continuous development of the navigation career in China; the existing electronic fence for the ship has certain disadvantages when in use, firstly, the traditional electronic fence can only play a single fixing role, the stability is not high, the ship body can rock at sea, the electronic fence also rocks together, so that the observation visual field of an operator in a cockpit is influenced, secondly, the electronic fence for the ship is installed on the ship, the traditional electronic fence for the ship cannot play a damp-proof role due to heavier sea moisture, and has certain adverse effects, and further, the monitoring camera belongs to precise equipment, and the ship body can be damaged if severely shocked, so that certain adverse effects are realized, and certain influences are brought to the use process of people.

Disclosure of Invention

In order to solve the existing problems, the invention provides a high-stability marine monitoring electronic fence, which creatively applies the technical theory of the dynamic characteristic principle (automatically adjusting an object to ensure that the performance of the object in each action and stage is optimal or the structure of the object is divided into a plurality of components which can be changed and matched mutually or the object which is not moved and can be adapted) and the local quality principle (changing a uniform object structure, an external environment or left and right into non-uniform or enabling different parts of the object to have different functions) to the technical field of the high-stability marine monitoring electronic fence according to the contradiction that the distance between a preset local quality type dynamic characteristic self-adjusting bearing rod and a preset local quality type dynamic characteristic self-adjusting intermediate rod is not changed when the marine electronic fence moves along with the shaking of a deck and does not move, the traditional electronic fence only has a single fixing function and is not high in stability, the electronic fence is shaken at sea while the ship body shakes at sea, so that the observation visual field of an operator in a cockpit is influenced, when the ship body shakes left and right at sea, the preset local mass type dynamic characteristic self-adjusting bearing rod is vertically fixed under the action of the preset local mass type dynamic characteristic stabilizing semi-circular solid iron block, the contradiction type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device is used for carrying out self-adaptive vertical adjustment on the preset local mass type dynamic characteristic self-adjusting bearing rod, and the length compensation type contradiction type dynamic characteristic adjusting primary stabilizer rod and the length compensation type contradiction type dynamic characteristic adjusting secondary stabilizer rod are used for preventing the tension between the spear type cutting type dynamic characteristic self-adjusting primary alloy wire and the contradiction type cutting type dynamic characteristic adjusting secondary alloy wire from influencing the preset local mass type dynamic characteristic self-adjusting bearing rod and the bearing rod The vertical direction of the preset local mass type dynamic characteristic self-adjusting middle rod, the dynamic characteristic spear type length compensation type first-level spring and the dynamic characteristic spear type length compensation type second-level spring are used for compensating the distance increase between the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting middle rod when the ship body shakes left and right, and the technical problem that the distance between the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting middle rod is not changed when the ship electronic fence moves and self-adjusts and does not move along with the shaking of a deck; according to the contradiction that the monitoring camera is contacted, the monitoring camera is fixed and is not contacted, and the fixing device is driven to vibrate when the ship body vibrates violently, so that the monitoring camera is damaged, the technical theory of weight compensation principle (combining an object with another object capable of providing lifting force to compensate lifting load) is innovatively applied to the technical field of high-stability ship monitoring electronic fences, because the monitoring camera belongs to precision equipment, the ship body can be damaged if being vibrated violently, and has certain adverse effect, the gravity compensation type magnetic suspension compensation buffer type damping protection device is utilized, the protection of the monitoring camera is realized, the problems that the monitoring camera is contacted, the monitoring camera is fixed and is not contacted in the protection process of the monitoring camera, and the fixing device is driven to vibrate when the ship body vibrates violently are solved, thereby damaging the monitoring camera; according to the contradiction that the dry small balls need to contact with humid air and not contact with the equipment distance in the electronic fence host, the technical theories of the curved surface and curvature increasing principle (straight lines or screen surfaces are replaced by curved surfaces or curved surfaces, and parallel hexagons or cubes are replaced by spheres) and the porous material principle (objects are changed into porous objects or porous objects are added) are creatively applied to the technical field of high-stability marine monitoring electronic fences, the omnibearing reciprocating rotary cyclone circulation type dehumidifying device is used for dehumidifying the electronic fence host, and the technical problem that the dry small balls need to contact with the humid air and not contact with the equipment in the electronic fence main body is solved.

The technical scheme adopted by the invention is as follows: the invention discloses a high-stability marine monitoring electronic fence which comprises a preset local mass type dynamic characteristic self-adjusting main body, a contradictory cutting type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device, a contradictory cutting type multi-ring dynamic characteristic magnetic positioning intermediate rod stabilizing device, a gravity compensation type magnetic suspension buffering type damping protection device and an all-dimensional reciprocating rotary type cyclone circulation type dehumidifying device, wherein the spear shield type cutting type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device is arranged on the preset local mass type dynamic characteristic self-adjusting main body, the contradictory cutting type multi-ring dynamic characteristic magnetic positioning intermediate rod stabilizing device is arranged on the preset local mass type dynamic characteristic self-adjusting main body, the gravity compensation type magnetic suspension buffering type damping protection device is arranged on the preset local mass type dynamic characteristic self-adjusting main body, and the all-dimensional reciprocating rotary type cyclone circulation type dehumidifying device is arranged on the preset local mass type dynamic characteristic self-adjusting main body The whole body is provided with a cover; the preset local quality type dynamic characteristic self-adjusting main body comprises a preset local quality type dynamic characteristic self-adjusting bearing rod, a preset local quality type dynamic characteristic self-adjusting intermediate rod, a contradiction type cutting type dynamic characteristic self-adjusting primary alloy wire, a contradiction type cutting type dynamic characteristic self-adjusting secondary alloy wire, a local quality type preset dynamic characteristic self-adjusting bearing rod insulator, a local quality type preset dynamic characteristic self-adjusting intermediate rod insulator, an omnibearing reciprocating rotary cyclone circulating dehumidification type electronic fence host, a transverse length compensation type contradiction primary wired connecting piece, a transverse length compensation type contradiction secondary wired connecting piece, a preset local quality type dynamic characteristic self-adjusting connecting wire, a preset local quality type dynamic characteristic self-adjusting tightener, a preset local quality type dynamic characteristic self-adjusting base, a preset local quality type dynamic characteristic self-adjusting device and a computer, The omnibearing reciprocating rotary type electronic fence host machine is arranged on the preset type local quality type dynamic characteristic self-adjusting mounting plate, the preset local quality type dynamic characteristic bearing rod self-adjusting base is arranged on the preset local quality type dynamic characteristic self-adjusting mounting plate, the preset local quality type dynamic characteristic intermediate rod self-adjusting base is arranged on the preset local quality type dynamic characteristic self-adjusting mounting plate, the preset local quality type dynamic characteristic self-adjusting bearing rod is arranged on the preset local quality type dynamic characteristic bearing rod self-adjusting base, the preset local quality type dynamic characteristic self-adjusting intermediate rod is arranged on the preset local quality type dynamic characteristic intermediate rod self-adjusting base, the local quality type preset dynamic characteristic self-adjusting bearing rod insulator is detachably sleeved on the preset local quality type dynamic characteristic self-adjusting rod, the local quality type preset dynamic characteristic self-adjusting intermediate rod insulator is detachably sleeved on the preset local quality type dynamic characteristic self-adjusting intermediate rod, one end of the lance shield type cutting type primary alloy wire with the self-adjusting dynamic characteristic is in wire-wrapping connection with a local mass type preset type dynamic characteristic self-adjusting bearing rod insulator, the transverse length compensation type contradictory primary wired connecting piece is arranged at the other end of the lance shield type cutting type primary alloy wire with the self-adjusting dynamic characteristic, one end of the lance shield type cutting type dynamic characteristic self-adjusting secondary alloy wire is in wire-wrapping connection with a local mass type preset type dynamic characteristic self-adjusting intermediate rod insulator, the preset type local mass type dynamic characteristic self-adjusting tightener is arranged on the lance shield type cutting type dynamic characteristic self-adjusting secondary alloy wire, the transverse length compensation type contradictory secondary wired connecting piece is arranged at the other end of the lance shield type cutting type dynamic characteristic self-adjusting secondary alloy wire, one end of the dynamic characteristic lance type length compensation type primary spring is arranged on the transverse length compensation type contradictory primary wired connecting piece, the other end of the dynamic characteristic spear shield type length compensation type primary spring is arranged on a transverse length compensation type contradictory secondary wired connecting piece, one end of the preset local quality type dynamic characteristic self-adjusting connecting line is arranged on the transverse length compensation type contradictory primary wired connecting piece, the other end of the preset local quality type dynamic characteristic self-adjusting connecting line is arranged on the transverse length compensation type contradictory secondary wired connecting piece, the gravity compensation type magnetic suspension buffering and damping protection monitoring camera is arranged on a gravity compensation type magnetic suspension buffering type damping protection device, the angle compensation type contradictory dynamic characteristic adjusting primary rotating shaft is arranged on the side wall of the preset local quality type dynamic characteristic self-adjusting bearing rod, the angle compensation type contradictory dynamic characteristic adjusting secondary rotating shaft is arranged on the side wall of the preset local quality type dynamic characteristic self-adjusting intermediate rod, one end of the length compensation type contradictory dynamic characteristic adjustment primary stabilizer bar is arranged on the angle compensation type contradictory dynamic characteristic adjustment primary rotating shaft, the dynamic characteristic contradictory length compensation type secondary spring is arranged at the other end of the length compensation type contradictory dynamic characteristic adjustment primary stabilizer bar, one end of the length compensation type contradictory dynamic characteristic adjustment secondary stabilizer bar is arranged on the angle compensation type contradictory dynamic characteristic adjustment secondary rotating shaft, the other end of the length compensation type contradictory dynamic characteristic adjustment secondary stabilizer bar is arranged on the dynamic characteristic spear type length compensation type secondary spring, the gravity compensation type magnetic suspension buffer damping protection rain cap is arranged on the gravity compensation type magnetic suspension buffer damping protection monitoring camera, and the length compensation type contradictory dynamic characteristic adjustment primary stabilizer bar and the length compensation type contradictory dynamic characteristic adjustment secondary stabilizer bar prevent spear type clipping type dynamic characteristic self-adjustment primary alloy wires and contradictory shear type shear dynamic characteristic self-adjustment primary alloy wires The tension between the cutting type dynamic characteristic self-adjusting secondary alloy wires influences the vertical direction of the preset type local quality type dynamic characteristic self-adjusting bearing rod and the preset type local quality type dynamic characteristic self-adjusting intermediate rod, and the dynamic characteristic spear shield type length compensation type primary spring and the dynamic characteristic spear shield type length compensation type secondary spring are used for compensating the distance increase between the preset type local quality type dynamic characteristic self-adjusting bearing rod and the preset type local quality type dynamic characteristic self-adjusting intermediate rod when the ship body shakes left and right.

Further, the spear shield type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device comprises a spear shield type cutting multi-ring dynamic characteristic magnetic positioning stabilizing primary stabilizing ring, an contradiction type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring, an contradiction type cutting multi-ring dynamic characteristic magnetic positioning stabilizing tertiary stabilizing ring, a friction lossless cutting type magnetic positioning primary bearing, a friction lossless cutting type magnetic positioning secondary bearing, a friction lossless cutting type magnetic positioning tertiary bearing, a friction lossless cutting type magnetic positioning quaternary bearing, a transverse gravity compensation spear shield type magnetic positioning primary magnet, a transverse gravity compensation spear shield type magnetic positioning secondary magnet, a transverse gravity compensation spear type spear shield type magnetic positioning tertiary magnet, a transverse gravity compensation spear type magnetic positioning quaternary magnet, a transverse gravity compensation spear type magnetic positioning quintuplet magnet, A transverse gravity compensation type spear shield type magnetic force positioning six-level magnet, a transverse gravity compensation type spear shield type magnetic force positioning seven-level magnet, a transverse gravity compensation type spear shield type magnetic force positioning eight-level magnet and a preset type semi-solid iron block with local quality type dynamic characteristic stable semicircle, wherein the spear shield type cutting type multi-ring dynamic characteristic magnetic force positioning stable one-level stable ring is arranged on the preset type local quality type dynamic characteristic bearing rod self-adjusting base, one end of the friction nondestructive cutting type spear magnetic force positioning one-level bearing is arranged on one side of the inner ring of the spear shield type cutting type multi-ring dynamic characteristic magnetic force positioning stable one-level stable ring, one side of the outer ring of the spear type cutting type multi-ring dynamic characteristic magnetic force positioning stable two-level stable ring is arranged on the other side of the friction nondestructive cutting type magnetic force positioning one-level bearing, one end of the friction nondestructive cutting type secondary positioning bearing is arranged on the other side of the inner ring of the spear type multi-ring dynamic characteristic magnetic force positioning stable one-level stable ring, the outer loop opposite side that lance shield type cutting formula multi-ring dynamic characteristic magnetic force location stabilized secondary stable ring is located to the other end that type magnetic force location secondary bearing was tailor to the lossless formula of friction, the inner loop upside that lance shield type cutting formula multi-ring dynamic characteristic magnetic force location stabilized secondary stable ring is located to the one end that type magnetic force location tertiary bearing was tailor to the lossless formula of friction, the outer loop upside that the tertiary stable ring is stabilized to lance shield type cutting formula multi-ring dynamic characteristic magnetic force location is located the other end that type magnetic force location tertiary bearing was tailor to the lossless formula of friction, the one end that type magnetic force location quaternary bearing was tailor to the lossless formula of friction is located the inner loop downside that lance shield type cutting formula multi-ring dynamic characteristic magnetic force location stabilized secondary stable ring, the outer loop downside that the tertiary stable ring is stabilized to lance shield type cutting formula multi-ring dynamic characteristic magnetic force location is located to the other end that type magnetic force location quaternary bearing was tailor to the lossless formula of friction, the solid iron plate of the stable semicircle of the local quality type dynamic characteristic of the preset type is cup jointed and located on the inner wall of the stable tertiary stable ring of the lance shield type cutting multi-ring dynamic characteristic magnetic force positioning of the preset type, the primary magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates one side of the inner wall of the self-adjusting base of the local quality type dynamic characteristic force bearing rod of the preset type, the secondary magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates one side of the outer wall of the stable tertiary stable ring of the lance shield type cutting multi-ring dynamic characteristic magnetic force positioning of the preset type, the tertiary magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates the other side of the inner wall of the self-adjusting base of the preset type local quality type dynamic characteristic force bearing rod of the preset type, the four-level magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates the other side of the stable tertiary stable ring of the lance type cutting multi-ring dynamic characteristic of the lance type magnetic force positioning of the preset type, the seven-level magnet of the horizontal gravity compensation type shield type magnetic force positioning of the preset type magnetic force bearing rod of the preset type local quality type dynamic characteristic force bearing rod of the preset type The upper side of the inner wall of the self-adjusting base, the transverse gravity compensation type spear shield type magnetic positioning eight-level magnet is arranged on the upper side of the outer wall of the spear shield type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring, the transverse gravity compensation type spear shield type magnetic positioning five-level magnet is arranged on the lower side of the inner wall of the preset local quality type dynamic characteristic bearing rod self-adjusting base, the transverse gravity compensation type spear shield type magnetic positioning six-level magnet is arranged on the lower side of the outer wall of the contradiction type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring, the preset local quality type dynamic characteristic self-adjusting bearing rod is arranged on the preset local quality type dynamic characteristic stabilizing semi-circular solid iron block, and when the ship body rocks from side to side at sea, the preset local quality type dynamic characteristic self-adjusting bearing rod droops under the action of the preset local quality type dynamic characteristic stabilizing semi-circular solid iron block and does not move, the deck swings left and right to drive the preset local mass type dynamic characteristic self-adjusting mounting plate to swing left and right, the preset local mass type dynamic characteristic self-adjusting mounting plate swings left and right to drive the preset local mass type dynamic characteristic load bar to swing left and right from the adjusting base, the preset local mass type dynamic characteristic load bar swings left and right from the adjusting base to drive the contradictory type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring to swing left and right, the contradictory type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring swings left and right to drive one end of the friction lossless type cutting type magnetic positioning tertiary bearing to rotate, the other end of the friction lossless type cutting type magnetic positioning tertiary bearing does not move, the contradictory type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring swings left and right to drive one end of the friction lossless type cutting type magnetic positioning quaternary bearing to rotate, the friction lossless type cutting magnetic positioning four-stage bearing has the other end fixed, the preset local mass type dynamic characteristic self-adjusting bearing rod fixed, namely the gravity compensation type magnetic suspension buffering and damping protection monitoring camera fixed, the length compensation type contradiction type dynamic characteristic adjusting first-stage stabilizer rod and the length compensation type contradiction type dynamic characteristic adjusting second-stage stabilizer rod prevent the tension between the spear shield type cutting type dynamic characteristic self-adjusting first-stage alloy wire and the contradiction type cutting type dynamic characteristic self-adjusting second-stage alloy wire from influencing the vertical direction of the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting intermediate rod, the dynamic characteristic spear type length compensation type first-stage spring and the dynamic characteristic spear type length compensation type second-stage spring are used for compensating the distance increase between the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting intermediate rod when the ship body shakes left and right, when the ship body sways left and right on the sea, the preset local mass type dynamic characteristic self-adjusting bearing rod vertically does not move under the action of the preset local mass type dynamic characteristic stabilizing semicircular solid iron block, the deck sways back and forth to drive the preset local mass type dynamic characteristic self-adjusting mounting plate to sway back and forth, the preset local mass type dynamic characteristic self-adjusting mounting plate sways back and forth to drive the preset local mass type dynamic characteristic bearing rod to sway back and forth from the adjusting base, the preset local mass type dynamic characteristic bearing rod sways back and forth from the adjusting base to drive the contradictory type clipping type multi-ring dynamic characteristic magnetic positioning stabilizing primary stabilizing ring to sway back and forth, one end of the friction lossless type clipping type magnetic positioning primary bearing rotates, one end of the friction lossless type clipping type magnetic positioning primary bearing does not move, one end of the friction lossless type clipping type magnetic positioning secondary bearing rotates, one end of the friction non-destructive cutting type magnetic positioning secondary bearing is fixed, and the preset local mass type dynamic characteristic self-adjusting bearing rod is fixed, namely, the gravity compensation type magnetic suspension buffer shock absorption protection monitoring camera is fixed.

Furthermore, the spear shield type cutting type multi-ring dynamic characteristic magnetic positioning middle rod stabilizing device is the same as the contradiction type cutting type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device.

Further, the gravity compensation type magnetic suspension buffer type damping protection device comprises a gravity compensation type magnetic suspension buffer protection fixing seat, a transverse magnetic compensation type friction nondestructive type damping protection primary slide bar, a transverse magnetic compensation type friction nondestructive type damping protection secondary slide bar, a gravity compensation type magnetic suspension buffer protection slide block, a transverse magnetic compensation type damping buffer type primary annular electromagnet, a transverse magnetic compensation type damping buffer type secondary annular electromagnet, a longitudinal weight compensation type damping buffer type tertiary electromagnet, a transverse magnetic compensation type damping buffer type primary annular electromagnetic winding, a transverse magnetic compensation type damping buffer type secondary annular electromagnetic winding, a longitudinal weight compensation type damping buffer type tertiary electromagnetic winding, a friction type magnetic suspension buffer protection primary expansion piece and a friction nondestructive type magnetic suspension buffer protection secondary expansion piece, the gravity compensation type magnetic suspension buffering and damping protection fixing seat is arranged on a preset type local quality type dynamic characteristic self-adjusting bearing rod, the transverse magnetic compensation type friction nondestructive type damping protection primary sliding rod is arranged in the gravity compensation type magnetic suspension buffering and damping protection fixing seat, the transverse magnetic compensation type friction nondestructive type damping protection secondary sliding rod is arranged in the gravity compensation type magnetic suspension buffering and damping protection fixing seat, the gravity compensation type magnetic suspension buffering and damping protection sliding block is slidably sleeved on the transverse magnetic compensation type friction nondestructive type damping protection primary sliding rod and the transverse magnetic compensation type friction nondestructive type damping protection secondary sliding rod, one end of the friction nondestructive type magnetic suspension buffering and damping protection primary telescopic piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block, and the other end of the friction nondestructive type magnetic suspension buffering and damping protection primary telescopic piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera, the one end of the friction lossless type magnetic suspension buffering and damping protection secondary expansion piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block, the other end of the friction lossless type magnetic suspension buffering and damping protection secondary expansion piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera, the vertical weight compensation type damping and buffering type tertiary electromagnet is arranged at the lower end of the gravity compensation type magnetic suspension buffering and damping protection monitoring camera, the vertical weight compensation type damping and buffering type tertiary electromagnetic winding is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block, the transverse magnetic compensation type damping and buffering type primary annular electromagnetic winding is arranged on the inner wall of the gravity compensation type magnetic suspension buffering and damping protection fixing seat and is sleeved with the transverse magnetic compensation type friction lossless and damping protection primary sliding rod, and the transverse magnetic compensation type damping and buffering type secondary annular electromagnetic winding is arranged on the inner wall of the gravity compensation type magnetic suspension buffering and damping protection fixing seat Go up and cup joint horizontal magnetic force compensation formula friction nondestructive type shock attenuation protection secondary slide bar, horizontal magnetic force compensation formula shock attenuation buffering type primary annular electro-magnet locates on the lateral wall of gravity compensation formula magnetic suspension buffering shock attenuation protection slider and slides and cup joint and locate on horizontal magnetic force compensation formula friction nondestructive type shock attenuation protection primary slide bar, horizontal magnetic force compensation formula shock attenuation buffering type secondary annular electro-magnet locates on the lateral wall of gravity compensation formula magnetic suspension buffering shock attenuation protection slider and slides and cup joint and locate on horizontal magnetic force compensation formula friction nondestructive type shock attenuation protection secondary slide bar, when the hull takes place acutely to vibrate, the repulsion between vertical weight compensation formula shock attenuation buffering type tertiary electro-magnet and vertical weight compensation formula shock attenuation buffering type tertiary electromagnetic winding carries out the buffer protection to gravity compensation formula magnetic suspension shock attenuation protection monitoring camera, and horizontal magnetic force compensation formula shock attenuation type primary annular electromagnetic winding and horizontal magnetic force compensation formula shock attenuation buffering type primary annular electro-magnet And the repulsive force between the transverse magnetic force compensation type damping and buffering type secondary annular electromagnetic winding and the transverse magnetic force compensation type damping and buffering type secondary annular electromagnet performs buffering protection on the force compensation type magnetic suspension damping and buffering protection sliding block, so that the force compensation type magnetic suspension damping and buffering protection monitoring camera is protected.

Further, the omnibearing reciprocating rotary cyclone circulation type dehumidifying device comprises an omnibearing reciprocating rotary cyclone circulation type dehumidifying moisture adsorption drying pellet, a curvature increasing cyclone circulation type dehumidifying hollow sphere, a curvature increasing cyclone circulation type dehumidifying exhaust hole, a reciprocating rotary cyclone circulation type centrifugal turntable, an omnibearing reciprocating rotary cyclone circulation type dehumidifying motor, a reciprocating rotary cyclone circulation type dehumidifying gear, a reciprocating rotary cyclone circulation type dehumidifying centrifugal tooth block, an omnibearing reciprocating rotary cyclone circulation type dehumidifying bearing, a cyclone circulation type dehumidifying exhaust pipeline, a cyclone circulation type dehumidifying air pump, a dynamic characteristic drying stir-fry type cyclone circulation type dehumidifying rotating shaft, a dynamic characteristic drying stir-fry type cyclone circulation type dehumidifying motor, a dynamic characteristic drying stir-fry type elastic memory alloy stirring blade and a dynamic characteristic stir-fry type elastic memory alloy ball-catching lug, the whirlwind circumfluent type moisture removal air exhaust pipeline is arranged at the bottom end of the inner wall of the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal electronic fence host, the whirlwind circumfluent type moisture removal air pump is arranged on the whirlwind circumfluent type moisture removal air exhaust pipeline, the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal bearing is communicated with one end of the whirlwind circumfluent type moisture removal air exhaust pipeline, the reciprocating rotary type whirlwind circumfluent type centrifugal turntable is communicated with the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal bearing, the curvature increasing type whirlwind circumfluent moisture removal hollow ball body is communicated with the reciprocating rotary type whirlwind circumfluent type centrifugal turntable, the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal motor is arranged at the bottom end of the inner wall of the omnibearing reciprocating rotary type whirlwind circumfluent moisture removal electronic fence host, the reciprocating rotary type whirlwind circumfluent moisture removal centrifugal gear is arranged at the output end of the omnibearing reciprocating rotary type whirlwind circumfluent moisture removal motor, the reciprocating rotary cyclone circumfluent type moisture removal centrifugal gear is connected with the reciprocating rotary cyclone circumfluent type moisture removal centrifugal gear in a meshing rotating manner, the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal motor is arranged on the curvature-increasing cyclone circumfluent type moisture removal hollow sphere, the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal rotating shaft is rotatably arranged in the curvature-increasing cyclone circumfluent type moisture removal hollow sphere, one end of the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal rotating shaft is arranged at the output end of the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal motor, and the dynamic characteristic drying stir-frying elastic memory alloy stirring blade is arranged on the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal rotating shaft, the dynamic characteristic stir-frying elastic memory alloy ball catching lug is arranged on the dynamic characteristic dry stir-frying elastic memory alloy stirring blade, the omnibearing reciprocating rotary cyclone circular-flow type moisture adsorption drying small ball is arranged in the curvature-increasing cyclone circular-flow type moisture removal hollow ball body, the curvature-increasing cyclone circular-flow type moisture removal exhaust hole is arranged on the curvature-increasing cyclone circular-flow type moisture removal hollow ball body, when the sea moisture is high, the omnibearing reciprocating rotary cyclone circular-flow type moisture removal device is started, the cyclone circular-flow type moisture removal air pump is started to convey air into the curvature-increasing cyclone circular-flow type moisture removal hollow ball body, the output end of the omnibearing reciprocating rotary cyclone circular-flow type moisture removal motor rotates to drive the reciprocating rotary cyclone circular-flow type moisture removal centrifugal gear to rotate, the reciprocating rotary cyclone circular-flow type moisture removal centrifugal gear rotates to drive the reciprocating rotary cyclone circular-flow type moisture removal centrifugal tooth block to rotate, the rotation of the reciprocating rotary cyclone circulation type moisture removal centrifugal gear block drives the rotation of the reciprocating rotary cyclone circulation type centrifugal turntable, the rotation of the reciprocating rotary cyclone circulation type centrifugal turntable drives the rotation of the curvature-increasing cyclone circulation type moisture removal hollow sphere, the output rotation of the dynamic characteristic drying stir-frying cyclone circulation type moisture removal motor drives the rotation of the dynamic characteristic drying stir-frying cyclone circulation type moisture removal rotating shaft, the rotation of the dynamic characteristic drying stir-frying cyclone circulation type moisture removal rotating shaft drives the rotation of the dynamic characteristic drying stir-frying elastic memory alloy stirring blade, the rotation of the dynamic characteristic drying stir-frying elastic memory alloy stirring blade drives the rotation of the dynamic characteristic stir-frying elastic memory alloy ball catching lug, thereby the omnibearing reciprocating rotary cyclone circulation type moisture removal and adsorption drying small sphere in the curvature-increasing cyclone circulation type moisture removal hollow sphere is circularly stirred from bottom to top, moist air in the omnibearing reciprocating rotary type cyclone circulation dehumidifying type electronic fence host is absorbed into dry air through the omnibearing reciprocating rotary type cyclone circulation dehumidifying moisture adsorption drying small balls, and the dry air is exhausted through the curvature increasing type cyclone circulation dehumidifying exhaust holes, so that the dehumidifying in the omnibearing reciprocating rotary type cyclone circulation dehumidifying type electronic fence host is completed.

Further, horizontal magnetic force compensation type shock attenuation buffering type primary annular electromagnetic winding external power supply, horizontal magnetic force compensation type shock attenuation buffering type secondary annular electromagnetic winding external power supply, external power supply charges for the photovoltaic, vertical weight compensation type shock attenuation buffering type tertiary electromagnetic winding external power supply, external power supply charges for the photovoltaic, the external power supply of gravity compensation type magnetic suspension buffering shock attenuation protection surveillance camera head, external power supply charges for the photovoltaic, all-round reciprocal rotary-type whirlwind circulation formula removes damp motor external power supply, external power supply charges for the photovoltaic, whirlwind circulation formula removes damp air pump external power supply, external power supply charges for the photovoltaic, dry stir-fry type whirlwind circulation formula removes damp motor external power supply of dynamic characteristic external power supply charges for the photovoltaic.

Further, the transverse gravity compensation type spear shield type magnetic force positioning primary magnet and the transverse gravity compensation type spear shield type magnetic force positioning secondary magnet are mutually attracted, the transverse gravity compensation type spear shield type magnetic force positioning tertiary magnet and the transverse gravity compensation type spear shield type magnetic force positioning quaternary magnet are mutually attracted, the transverse gravity compensation type spear shield type magnetic force positioning quinary magnet and the transverse gravity compensation type spear shield type magnetic force positioning quinary magnet are mutually attracted, the transverse gravity compensation type spear shield type magnetic force positioning eight-level magnet and the transverse gravity compensation type spear shield type magnetic force positioning seven-level magnet are mutually attracted, the transverse magnetic compensation type damping buffer type primary annular electromagnetic winding and the transverse magnetic compensation type damping buffer type primary annular electromagnet are mutually repelled, the transverse magnetic compensation type damping type secondary annular electromagnetic winding and the transverse magnetic compensation type damping buffer type secondary annular electromagnet are mutually repelled, and the longitudinal weight compensation type damping buffer type three-level electromagnet and the longitudinal weight compensation type damping buffer type three-level electromagnetic winding are mutually exclusive.

The invention with the structure has the following beneficial effects: the invention provides a high-stability ship monitoring electronic fence, which creatively applies the technical theory of the dynamic characteristic principle (automatically adjusting an object to enable the performance of the object in each action and stage to be optimal or dividing the structure of the object into a plurality of components which can be changed and can be mutually matched or enabling the immovable object to be movable and self-adaptive) and the local quality principle (changing a uniform object structure, an external environment or left and right into non-uniform or enabling different parts of the object to have different functions) to the technical field of the high-stability ship monitoring electronic fence according to the contradiction that the distance between a preset local quality type dynamic characteristic self-adjusting bearing rod and a preset local quality type dynamic characteristic self-adjusting intermediate rod does not change when a ship body swings and the ship body swings, the traditional electronic fence only has a single fixing function, the stability is not high, the electronic fence is rocked with the ship body at the same time of rocking at sea, so that the observation visual field of an operator in a cockpit is influenced, when the ship body rocks left and right at sea, the preset local mass type dynamic characteristic self-adjusting bearing rod is vertically fixed under the action of the semicircular solid iron block with the stable local mass type dynamic characteristic, the contradiction type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device is used for carrying out self-adaptive vertical adjustment on the preset local mass type dynamic characteristic self-adjusting bearing rod, and the length compensation type contradiction type dynamic characteristic adjusting primary stabilizer rod and the length compensation type contradiction type dynamic characteristic adjusting secondary stabilizer rod are used for preventing tension between the spear shield type cutting type dynamic characteristic self-adjusting primary alloy wire and the contradiction type cutting type dynamic characteristic self-adjusting secondary alloy wire from influencing the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting intermediate rod In the vertical direction, the dynamic characteristic spear shield type length compensation type primary spring and the dynamic characteristic spear shield type length compensation type secondary spring are used for compensating the distance increase between the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting intermediate rod when the ship body shakes left and right, and the technical problems that the electronic fence for the ship moves in the shaking process of the ship body, self-adjusts along with the shaking of a deck and does not move, and the distance between the preset local mass type dynamic characteristic self-adjusting bearing rod and the preset local mass type dynamic characteristic self-adjusting intermediate rod is not changed are solved; according to the contradiction that the monitoring camera is contacted, the monitoring camera is fixed and is not contacted, and the fixing device is driven to vibrate when the ship body vibrates violently, so that the monitoring camera is damaged, the technical theory of weight compensation principle (combining an object with another object capable of providing lifting force to compensate lifting load) is innovatively applied to the technical field of high-stability ship monitoring electronic fences, because the monitoring camera belongs to precision equipment, the ship body can be damaged if being vibrated violently, and has certain adverse effect, the gravity compensation type magnetic suspension compensation buffer type damping protection device is utilized, the protection of the monitoring camera is realized, the problems that the monitoring camera is contacted, the monitoring camera is fixed and is not contacted in the protection process of the monitoring camera, and the fixing device is driven to vibrate when the ship body vibrates violently are solved, thereby damaging the monitoring camera; according to the contradiction that the dry small balls need to contact with humid air and not contact with the equipment distance in the electronic fence host, the technical theories of the curved surface and curvature increasing principle (straight lines or screen surfaces are replaced by curved surfaces or curved surfaces, and parallel hexagons or cubes are replaced by spheres) and the porous material principle (objects are changed into porous objects or porous objects are added) are creatively applied to the technical field of high-stability marine monitoring electronic fences, the omnibearing reciprocating rotary cyclone circulation type dehumidifying device is used for dehumidifying the electronic fence host, and the technical problem that the dry small balls need to contact with the humid air and not contact with the equipment in the electronic fence main body is solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic overall view of a high-stability monitoring electronic fence for a ship according to the present invention;

FIG. 2 is a front sectional view of a high stability monitoring electronic fence for a ship according to the present invention;

FIG. 3 is a schematic structural diagram of a contradiction type cutting type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device;

FIG. 4 is a schematic view of the structure of the omni-directional reciprocating rotary cyclone circulating type dehumidifying apparatus;

FIG. 5 is a top view of a contradictory cut-out type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device;

FIG. 6 is a cross-sectional bottom view of the gravity compensated magnetic suspension buffer type shock absorption protection device;

FIG. 7 is a cross-sectional view of the gravity compensation type magnetic suspension buffer type shock absorption protection device;

FIG. 8 is an enlarged view of a portion A of FIG. 2;

FIG. 9 is a partial enlarged view of portion B of FIG. 2;

fig. 10 is a partially enlarged view of a portion C in fig. 2.

Wherein, 1, a preset local mass type dynamic characteristic self-adjusting main body, 2, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device, 3, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning intermediate rod stabilizing device, 4, a gravity compensation type magnetic suspension buffer type damping protection device, 5, an omnibearing reciprocating rotary type cyclone circulation type dehumidifying device, 6, a preset local mass type dynamic characteristic self-adjusting bearing rod, 7, a preset local mass type dynamic characteristic self-adjusting intermediate rod, 8, a contradiction type cutting dynamic characteristic self-adjusting primary alloy wire, 9, a contradiction type cutting dynamic characteristic self-adjusting secondary alloy wire, 10, a local mass type preset dynamic characteristic self-adjusting bearing rod insulator, 11, a local mass type preset dynamic characteristic self-adjusting intermediate rod insulator, 12, an omnibearing reciprocating rotary type cyclone circulation type dehumidifying electronic fence host, 13. a transverse length compensation type contradictory primary wired connecting piece, 14, a transverse length compensation type contradictory secondary wired connecting piece, 15, a preset local mass type dynamic characteristic self-adjusting connecting line, 16, a preset local mass type dynamic characteristic self-adjusting tightener, 17, a preset local mass type dynamic characteristic bearing rod self-adjusting base, 18, a preset local mass type dynamic characteristic intermediate rod self-adjusting base, 19, a gravity compensation type magnetic suspension buffer damping protection monitoring camera, 20, a length compensation type contradictory dynamic characteristic adjusting primary stabilizing rod, 21, a length compensation type contradictory dynamic characteristic adjusting secondary stabilizing rod, 22, an angle compensation type contradictory dynamic characteristic adjusting primary rotating shaft, 23, an angle compensation type contradictory type dynamic characteristic adjusting secondary rotating shaft, 24, a dynamic characteristic spear type primary spring, 25. dynamic property spear shield type length compensation type secondary spring, 26, gravity compensation type magnetic suspension buffering and damping protection rain-shading cap, 27, an contradiction type cutting multi-ring dynamic property magnetic positioning stabilization primary stabilizing ring, 28, a contradiction type cutting multi-ring dynamic property magnetic positioning stabilization secondary stabilizing ring, 29, a contradiction type cutting multi-ring dynamic property magnetic positioning stabilization tertiary stabilizing ring, 30, a friction lossless cutting type magnetic positioning primary bearing, 31, a friction lossless cutting type magnetic positioning secondary bearing, 32, a friction lossless cutting type magnetic positioning tertiary bearing, 33, a friction lossless cutting type magnetic positioning quaternary bearing, 34, a transverse gravity compensation type spear shield type magnetic positioning primary magnet, 35, a transverse gravity compensation type spear shield type magnetic positioning secondary magnet, 36, a transverse gravity compensation type spear type shield type magnetic positioning secondary magnet, 37, Transverse gravity compensation type spear shield type magnetic positioning four-level magnet, 38, transverse gravity compensation type spear shield type magnetic positioning five-level magnet, 39, transverse gravity compensation type spear shield type magnetic positioning six-level magnet, 40, transverse gravity compensation type spear shield type magnetic positioning seven-level magnet, 41, transverse gravity compensation type spear shield type magnetic positioning eight-level magnet, 42, preset type local quality type dynamic characteristic stabilizing semi-circle solid iron block, 43, gravity compensation type magnetic suspension buffering and damping protection fixing base, 44, transverse magnetic compensation type friction nondestructive type damping protection primary sliding rod, 45, transverse magnetic compensation type friction nondestructive type damping protection secondary sliding rod, 46, gravity compensation type magnetic suspension buffering and damping protection sliding block, 47, transverse magnetic compensation type damping and buffering type primary annular electromagnet, 48, transverse magnetic compensation type damping and buffering type secondary annular electromagnet, 49, A longitudinal weight compensation type damping buffer type three-level electromagnet, 50, a transverse magnetic force compensation type damping buffer type primary annular electromagnetic winding, 51, a transverse magnetic force compensation type damping buffer type secondary annular electromagnetic winding, 52, a longitudinal weight compensation type damping buffer type three-level electromagnetic winding, 53, a friction nondestructive magnetic suspension buffer damping protection primary expansion piece, 54, a friction nondestructive magnetic suspension buffer damping protection secondary expansion piece, 55, an omnibearing reciprocating rotary type cyclone circulation type moisture adsorption drying small ball, 56, a curvature increasing type cyclone circulation type moisture removal hollow ball body, 57, a curvature increasing type cyclone circulation type moisture removal exhaust hole, 58, a reciprocating rotary type cyclone circulation type centrifugal turntable, 59, an omnibearing reciprocating cyclone rotary type circulation type moisture removal motor, 60, a reciprocating rotary type cyclone circulation type moisture removal centrifugal gear, 61, a reciprocating rotary type cyclone circulation type moisture removal gear block, 62. the all-round reciprocating rotary type cyclone circulation type dehumidifying bearing comprises a cyclone circulation type dehumidifying air exhaust pipeline 63, a cyclone circulation type dehumidifying air pump 64, a dynamic characteristic drying stir-frying type cyclone circulation type dehumidifying rotating shaft 65, a dynamic characteristic drying stir-frying type cyclone circulation type dehumidifying motor 66, a dynamic characteristic drying stir-frying type cyclone circulation type dehumidifying motor 67, a dynamic characteristic drying stir-frying type elastic memory alloy stirring blade 68, a dynamic characteristic stir-frying type elastic memory alloy ball catching lug 69 and a preset local quality type dynamic characteristic self-adjusting mounting plate.

Detailed Description

The technical solutions of the present invention will be further described in detail with reference to specific embodiments, and the technical features or connection relationships described in the present invention are not described in detail in the prior art. The present invention will be described in further detail with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, 2, 8 and 9, the invention provides a high-stability marine monitoring electronic fence, which comprises a preset local mass type dynamic characteristic self-adjusting main body 1, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device 2, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning middle rod stabilizing device 3, a gravity compensation type magnetic suspension buffer type damping protection device 4 and an omnibearing reciprocating rotary cyclone circulation type dehumidifying device 5, wherein the contradiction type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device 2 is arranged on the preset local mass type dynamic characteristic self-adjusting main body 1, the contradiction type cutting multi-ring dynamic characteristic magnetic positioning middle rod stabilizing device 3 is arranged on the preset local mass type dynamic characteristic self-adjusting main body 1, the gravity compensation type magnetic suspension buffer type damping protection device 4 is arranged on the preset local mass type dynamic characteristic self-adjusting main body 1, the omnibearing reciprocating rotary cyclone circulation type dehumidifying device 5 is arranged on the preset local quality type dynamic characteristic self-adjusting main body 1; the preset local quality type dynamic characteristic self-adjusting main body 1 comprises a preset local quality type dynamic characteristic self-adjusting bearing rod 6, a preset local quality type dynamic characteristic self-adjusting intermediate rod 7, a contradiction type cutting type dynamic characteristic self-adjusting primary alloy wire 8, a contradiction type cutting type dynamic characteristic self-adjusting secondary alloy wire 9, a local quality type preset dynamic characteristic self-adjusting bearing rod insulator 10, a local quality type preset dynamic characteristic self-adjusting intermediate rod insulator 11, an omnibearing reciprocating rotary cyclone circulation dehumidification type electronic fence main body 12, a transverse length compensation type contradiction primary wired connecting piece 13, a transverse length compensation type contradictory secondary wired connecting piece 14, a preset local quality type dynamic characteristic self-adjusting connecting wire 15, a preset local quality type dynamic characteristic self-adjusting tightener 16, a preset local quality type dynamic characteristic self-adjusting bearing rod base 17, A preset local mass type dynamic characteristic middle rod self-adjusting base 18, a gravity compensation type magnetic suspension buffer damping protection monitoring camera 19, a length compensation type contradiction type dynamic characteristic adjusting primary stabilizing rod 20, a length compensation type contradiction type dynamic characteristic adjusting secondary stabilizing rod 21, an angle compensation type contradiction type dynamic characteristic adjusting primary rotating shaft 22, an angle compensation type contradiction type dynamic characteristic adjusting secondary rotating shaft 23, a dynamic characteristic spear type length compensation type primary spring 24, a dynamic characteristic contradiction type length compensation type secondary spring 25, a gravity compensation type magnetic suspension buffer damping protection rain cap 26 and a preset local mass type dynamic characteristic self-adjusting mounting plate 69, wherein the preset local mass type dynamic characteristic self-adjusting mounting plate 69 is arranged at the lower end of the preset local mass type dynamic characteristic self-adjusting main body 1, the omnibearing reciprocating rotary cyclone circulation dehumidifying type electronic fence host 12 is arranged on the preset local mass type dynamic characteristic self-adjusting mounting plate 69, the preset local quality type dynamic characteristic bearing rod self-adjusting base 17 is arranged on the preset local quality type dynamic characteristic self-adjusting mounting plate 69, the preset local quality type dynamic characteristic intermediate rod self-adjusting base 18 is arranged on the preset local quality type dynamic characteristic self-adjusting mounting plate 69, the preset local quality type dynamic characteristic self-adjusting bearing rod 6 is arranged on the preset local quality type dynamic characteristic bearing rod self-adjusting base 17, the preset local quality type dynamic characteristic self-adjusting intermediate rod 7 is arranged on the preset local quality type dynamic characteristic intermediate rod self-adjusting base 18, the local quality type preset dynamic characteristic self-adjusting bearing rod insulator 10 is detachably sleeved on the preset local quality type dynamic characteristic self-adjusting rod 6, the local quality type preset dynamic characteristic self-adjusting intermediate rod insulator 11 is detachably sleeved on the preset local quality type dynamic characteristic self-adjusting intermediate rod 7, one end of a spear shield type cutting type primary alloy wire 8 with self-adjusting dynamic characteristics is arranged on a local mass type preset dynamic characteristic self-adjusting bearing rod insulator 10 in a winding way, a transverse length compensation type contradictory primary wired connecting piece 13 is arranged at the other end of the spear shield type cutting type primary alloy wire 8, one end of a contradictory cutting type dynamic characteristic self-adjusting secondary alloy wire 9 is arranged on a local mass type preset dynamic characteristic self-adjusting intermediate rod insulator 11 in a winding way, a preset type local mass type dynamic characteristic self-adjusting tightener 16 is arranged on the spear shield type cutting type dynamic characteristic self-adjusting secondary alloy wire 9, a transverse length compensation type contradictory secondary wired connecting piece 14 is arranged at the other end of the spear shield type cutting type dynamic characteristic self-adjusting secondary alloy wire 9, one end of a dynamic characteristic spear type length compensation type primary spring 24 is arranged on the transverse length compensation type contradictory primary wired connecting piece 13, the other end of the dynamic characteristic spear type length compensation type primary spring 24 is arranged on the transverse length compensation type contradictory secondary wired connecting piece 14, one end of the preset type local quality type dynamic characteristic self-adjusting connecting line 15 is arranged on the transverse length compensation type contradictory primary wired connecting piece 13, the other end of the preset type local quality type dynamic characteristic self-adjusting connecting line 15 is arranged on the transverse length compensation type contradictory secondary wired connecting piece 14, the gravity compensation type magnetic suspension buffer and shock absorption protection monitoring camera 19 is arranged on the gravity compensation type magnetic suspension buffer and shock absorption protection device 4, the angle compensation type contradictory type dynamic characteristic adjusting primary rotating shaft 22 is arranged on the side wall of the preset type local quality type dynamic characteristic self-adjusting bearing rod 6, the angle compensation type contradictory type dynamic characteristic adjusting secondary rotating shaft 23 is arranged on the side wall of the preset type local quality type dynamic characteristic self-adjusting intermediate rod 7, one end of the length compensation type contradictory dynamic characteristic adjusting primary stabilizer bar 20 is provided on the angle compensation type contradictory dynamic characteristic adjusting primary rotating shaft 22, the dynamic characteristic contradictory length compensation type secondary spring 25 is provided on the other end of the length compensation type contradictory dynamic characteristic adjusting primary stabilizer bar 20, one end of the length compensation type contradictory dynamic characteristic adjusting secondary stabilizer bar 21 is provided on the angle compensation type contradictory dynamic characteristic adjusting secondary rotating shaft 23, the other end of the length compensation type contradictory dynamic characteristic adjusting secondary stabilizer bar 21 is provided on the dynamic characteristic contradictory length compensation type secondary spring 25, and the gravity compensation type magnetic suspension buffer shock absorption protection rain hat 26 is provided on the gravity compensation type magnetic suspension buffer shock absorption protection monitoring camera 19.

As shown in fig. 2, fig. 6 and fig. 8, the gravity compensation type magnetic suspension buffer type damping protection device 4 comprises a gravity compensation type magnetic suspension buffer type damping protection fixing seat 43, a transverse magnetic compensation type friction nondestructive type damping protection primary slide bar 44, a transverse magnetic compensation type friction nondestructive type damping protection secondary slide bar 45, a gravity compensation type magnetic suspension buffer type damping protection slide block 46, a transverse magnetic compensation type damping buffer type primary annular electromagnet 47, a transverse magnetic compensation type damping buffer type secondary annular electromagnet 48, a longitudinal weight compensation type damping buffer type tertiary electromagnet 49, a transverse magnetic compensation type damping buffer type primary annular electromagnetic winding 50, a transverse magnetic compensation type damping buffer type secondary annular electromagnetic winding 51, a longitudinal weight compensation type damping buffer type tertiary electromagnetic winding 52, a friction nondestructive type magnetic suspension buffer type damping protection primary telescopic piece 53 and a friction nondestructive type magnetic suspension buffer damping protection secondary telescopic piece 54, the gravity compensation type magnetic suspension buffering and damping protection fixed seat 43 is arranged on the preset type local mass type dynamic characteristic self-adjusting bearing rod 6, the transverse magnetic force compensation type friction nondestructive type damping protection primary slide rod 44 is arranged in the gravity compensation type magnetic suspension buffering and damping protection fixed seat 43, the transverse magnetic force compensation type friction nondestructive type damping protection secondary slide rod 45 is arranged in the gravity compensation type magnetic suspension buffering and damping protection fixed seat 43, the gravity compensation type magnetic suspension buffering and damping protection slide block 46 is sleeved on the transverse magnetic force compensation type friction nondestructive type damping protection primary slide rod 44 and the transverse magnetic force compensation type friction nondestructive type damping protection secondary slide rod 45 in a sliding way, one end of the friction nondestructive type magnetic suspension buffering and damping protection primary telescopic piece 53 is arranged on the gravity compensation type magnetic suspension buffering and damping protection slide block 46, the other end of the friction nondestructive type magnetic suspension buffering and damping protection primary telescopic piece 53 is arranged on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera 19, one end of the friction lossless type magnetic suspension buffering and damping protection secondary expansion piece 54 is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block 46, the other end of the friction lossless type magnetic suspension buffering and damping protection secondary expansion piece 54 is arranged on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera 19, the longitudinal weight compensation type damping and buffering type tertiary electromagnet 49 is arranged at the lower end of the gravity compensation type magnetic suspension buffering and damping protection monitoring camera 19, the longitudinal weight compensation type damping and buffering type tertiary electromagnetic winding 52 is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block 46, the transverse magnetic compensation type damping and buffering type primary annular electromagnetic winding 50 is arranged on the inner wall of the gravity compensation type magnetic suspension buffering and damping protection fixing seat 43 and is sleeved with the transverse magnetic compensation type friction lossless type damping and protection primary sliding rod 44, and the transverse magnetic compensation type damping and buffering type secondary electromagnetic winding 51 is arranged in the inner wall of the gravity compensation type magnetic suspension buffering and damping protection fixing seat 43 On the wall and cup joint horizontal magnetic force compensation formula friction nondestructive type shock attenuation protection second grade slide bar 45, horizontal magnetic force compensation formula shock attenuation buffer type one-level annular electromagnet 47 locate on the lateral wall of gravity compensation formula magnetic suspension buffering protection slider 46 and slide to cup joint locate on horizontal magnetic force compensation formula friction nondestructive type shock attenuation protection one-level slide bar 44, horizontal magnetic force compensation formula shock attenuation buffer type second grade annular electromagnet 48 locate on the lateral wall of gravity compensation formula magnetic suspension buffering protection slider 46 and slide to cup joint locate on horizontal magnetic force compensation formula friction nondestructive type shock attenuation protection second grade slide bar 45.

As shown in fig. 2, 5 and 10, the omnidirectional reciprocating rotary type whirlwind circulation type dehumidifying device 5 comprises an omnidirectional reciprocating rotary type whirlwind circulation type dehumidifying moisture adsorbing and drying pellet 55, a curvature increasing type whirlwind circulation type dehumidifying hollow sphere 56, a curvature increasing type whirlwind circulation type dehumidifying exhaust hole 57, a reciprocating rotary type whirlwind circulation type centrifugal turntable 58, an omnidirectional reciprocating rotary type whirlwind circulation type dehumidifying motor 59, a reciprocating rotary type whirlwind circulation type dehumidifying centrifugal gear 60, a reciprocating rotary type whirlwind circulation type dehumidifying centrifugal block 61, an omnidirectional reciprocating rotary type whirlwind circulation type dehumidifying bearing 62, a whirlwind circulation type dehumidifying exhaust pipe 63, a whirlwind circulation type dehumidifying air pump 64, a dynamic characteristic drying and stir-frying whirlwind circulation type dehumidifying rotating shaft 65, a dynamic characteristic drying and stir-frying whirlwind circulation type dehumidifying motor 66, a dynamic characteristic drying and stir-frying elastic memory alloy stirring blade 67 and a dynamic characteristic stir-frying elastic memory alloy ball bump 68, the cyclone circulation type moisture removing air exhaust pipeline 63 is arranged at the bottom end of the inner wall of the omnibearing reciprocating rotary cyclone circulation type moisture removing electronic fence main machine 12, the cyclone circulation type moisture removing air pump 64 is arranged on the cyclone circulation type moisture removing air exhaust pipeline 63, the omnibearing reciprocating rotary cyclone circulation type moisture removing bearing 62 is arranged at one end of the cyclone circulation type moisture removing air exhaust pipeline 63 in a penetrating way, the reciprocating rotary cyclone circulation type centrifugal turntable 58 is arranged on the omnibearing reciprocating rotary cyclone circulation type moisture removing bearing 62 in a penetrating way, the curvature increasing type cyclone circulation type moisture removing hollow sphere 56 is arranged on the reciprocating rotary cyclone circulation type centrifugal turntable 58 in a penetrating way, the omnibearing reciprocating rotary cyclone circulation type moisture removing motor 59 is arranged at the bottom end of the inner wall of the omnibearing reciprocating rotary cyclone circulation type moisture removing electronic fence main machine 12, the reciprocating rotary cyclone circulation type moisture removing centrifugal gear 60 is arranged at the output end of the omnibearing reciprocating rotary cyclone circulation type moisture removing motor 59, the reciprocating rotary type cyclone circulation type moisture removing centrifugal gear block 61 is arranged at the lower end of the reciprocating rotary type cyclone circulation type centrifugal turntable 58 in an annular array, the reciprocating rotary type cyclone circulation type moisture removing centrifugal gear 60 and the reciprocating rotary type cyclone circulation type moisture removing centrifugal gear block 61 are in meshing rotation connection, the dynamic characteristic drying stir-frying type cyclone circulation type moisture removing motor 66 is arranged on the curvature increasing type cyclone circulation type moisture removing hollow sphere 56, the dynamic characteristic drying stir-frying type cyclone circulation type moisture removing rotating shaft 65 is rotatably arranged in the curvature increasing type cyclone circulation type moisture removing hollow sphere 56, one end of the dynamic characteristic drying stir-frying type cyclone circulation type moisture removing rotating shaft 65 is arranged at the output end of the dynamic characteristic drying stir-frying type cyclone circulation type moisture removing motor 66, and the dynamic characteristic drying stir-frying type elastic memory alloy stirring blade 67 is arranged on the dynamic characteristic drying stir-frying type cyclone circulation type moisture removing rotating shaft 65, the dynamic characteristic stir-frying elastic memory alloy ball catching convex block 68 is arranged on the dynamic characteristic dry stir-frying elastic memory alloy stirring blade 67, the omnibearing reciprocating rotary cyclone circulating type moisture adsorption drying small ball 55 is arranged in the curvature increasing type cyclone circulating type moisture removing hollow ball 56, and the curvature increasing type cyclone circulating type moisture removing exhaust hole 57 is arranged on the curvature increasing type cyclone circulating type moisture removing hollow ball 56.

As shown in FIGS. 2 and 5, the contradictory clipping type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device 2 includes a contradictory clipping type multi-ring dynamic characteristic magnetic positioning stabilizing primary stabilizing ring 27, a contradictory clipping type multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring 28, a contradictory clipping type multi-ring dynamic characteristic magnetic positioning stabilizing tertiary stabilizing ring 29, a friction lossless clipping type magnetic positioning primary bearing 30, a friction lossless clipping type magnetic positioning secondary bearing 31, a friction lossless clipping type magnetic positioning tertiary bearing 32, a friction lossless clipping type magnetic positioning quaternary bearing 33, a transverse gravity compensation type shield spear type magnetic positioning primary magnet 34, a transverse gravity compensation type shield spear type magnetic positioning secondary magnet 35, a transverse gravity compensation type shield spear type magnetic positioning tertiary magnet 36, a transverse gravity compensation type shield spear type magnetic positioning quaternary magnet 37, A transverse gravity compensation type spear shield type magnetic force positioning five-stage magnet 38, a transverse gravity compensation type spear shield type magnetic force positioning six-stage magnet 39, a transverse gravity compensation type spear shield type magnetic force positioning seven-stage magnet 40, a transverse gravity compensation type spear shield type magnetic force positioning eight-stage magnet 41 and a preset local quality type dynamic characteristic stabilizing semi-circular solid iron block 42, an contradiction type cutting multi-ring dynamic characteristic magnetic force positioning stabilizing primary stabilizing ring 27 is arranged on the preset local quality type dynamic characteristic bearing rod self-adjusting base 17, one end of a friction lossless cutting type magnetic force positioning primary bearing 30 is arranged on one side of an inner ring of the shield spear type cutting multi-ring dynamic characteristic magnetic force positioning stabilizing primary stabilizing ring 27, one side of an outer ring of the contradiction type cutting multi-ring dynamic characteristic magnetic force cutting positioning stabilizing secondary stabilizing ring 28 is arranged on the other end of the friction lossless type magnetic force positioning primary bearing 30, one end of the friction lossless cutting type magnetic force positioning secondary bearing 31 is arranged on one side of the contradiction type cutting multi-ring dynamic characteristic stabilizing ring The other side of the inner ring of the first-level stabilizing ring 27 is stabilized by magnetic positioning, the other end of the frictional lossless cutting type magnetic positioning second-level bearing 31 is arranged on the other side of the outer ring of the contradictory cutting type multi-ring dynamic characteristic magnetic positioning stabilizing second-level stabilizing ring 28, one end of the frictional lossless cutting type magnetic positioning third-level bearing 32 is arranged on the upper side of the inner ring of the spear shield type cutting type multi-ring dynamic characteristic magnetic positioning stabilizing second-level stabilizing ring 28, the upper side of the outer ring of the contradictory cutting type multi-ring dynamic characteristic magnetic positioning stabilizing third-level stabilizing ring 29 is arranged on the other end of the frictional lossless cutting type magnetic positioning third-level bearing 32, one end of the frictional lossless cutting type magnetic positioning fourth-level bearing 33 is arranged on the lower side of the inner ring of the spear shield type cutting type multi-ring dynamic characteristic magnetic positioning stabilizing second-level stabilizing ring 28, the other end of the frictional lossless cutting type magnetic positioning fourth-level bearing 33 is arranged on the lower side of the outer ring of the spear type cutting type multi-ring dynamic characteristic magnetic positioning stabilizing ring 29, a preset semi-solid block 42 of the semi-circular solid iron with the local mass type dynamic characteristics is sleeved on the inner wall of the lance shield type cutting multi-ring dynamic characteristics magnetic positioning stable tertiary stabilizing ring 29, a transverse gravity compensation type lance shield type magnetic positioning primary magnet 34 is arranged on one side of the inner wall of the preset local mass type dynamic characteristics load bar self-adjusting base 17, a transverse gravity compensation type lance shield type magnetic positioning secondary magnet 35 is arranged on one side of the outer wall of the contradiction type cutting multi-ring dynamic characteristics magnetic positioning stable tertiary stabilizing ring 29, a transverse gravity compensation type lance shield type magnetic positioning tertiary magnet 36 is arranged on the other side of the inner wall of the preset local mass type dynamic characteristics load bar self-adjusting base 17, a transverse gravity compensation type lance type magnetic positioning four-level magnet 37 is arranged on the other side of the outer wall of the lance shield type cutting multi-ring dynamic characteristics magnetic positioning stable tertiary stabilizing ring 29, a transverse gravity compensation type shield type magnetic positioning seven-level magnet 40 is arranged on the preset local mass type dynamic characteristics load bar self-adjusting ring 29 The upper side of the inner wall of the adjusting base 17, the horizontal gravity compensation type spear shield type magnetic positioning eight-stage magnet 41 is arranged on the upper side of the outer wall of the spear shield type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring 28, the horizontal gravity compensation type spear shield type magnetic positioning five-stage magnet 38 is arranged on the lower side of the inner wall of the preset local quality type dynamic characteristic bearing rod self-adjusting base 17, the horizontal gravity compensation type spear shield type magnetic positioning six-stage magnet 39 is arranged on the lower side of the outer wall of the spear shield type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring 28, and the preset local quality type dynamic characteristic self-adjusting bearing rod 6 is arranged on the preset local quality type dynamic characteristic stabilizing semi-circular solid iron block 42.

The spear shield type cutting type multi-ring dynamic characteristic magnetic positioning middle rod stabilizing device 3 is the same as the contradiction type cutting type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device 2.

As shown in fig. 4, 6 and 8, the lateral magnetic force compensation type damping buffer type primary annular electromagnetic winding 50 is externally connected with a power supply, the external power supply is photovoltaic charging, the transverse magnetic force compensation type damping buffer type secondary annular electromagnetic winding 51 is externally connected with the power supply, the external power supply is photovoltaic charging, the longitudinal weight compensation type damping buffer type three-level electromagnetic winding 52 is externally connected with the power supply, the external power supply is photovoltaic charging, the gravity compensation type magnetic suspension buffering and damping protection monitoring camera 19 is externally connected with the power supply, the external power supply is a photovoltaic charging and omnibearing reciprocating rotary cyclone circulation type moisture removing motor 59 external power supply, the external power supply is photovoltaic charging, the cyclone circulation type moisture removal air pump 64 is external power supply, the external power supply is photovoltaic charging, the dry stir-frying type cyclone circulation type moisture removal motor 66 with dynamic characteristics is external power supply, and the external power supply is photovoltaic charging.

As shown in fig. 5, the lateral gravity compensation type spear type magnetic force positioning primary magnet 34 and the lateral gravity compensation type spear type magnetic force positioning secondary magnet 35 attract each other, the lateral gravity compensation type spear type magnetic force positioning tertiary magnet 36 and the lateral gravity compensation type spear type magnetic force positioning quaternary magnet 37 attract each other, the lateral gravity compensation type spear type magnetic force positioning five-stage magnet 38 and the lateral gravity compensation type spear type magnetic force positioning quaternary magnet 39 attract each other, the lateral gravity compensation type spear type magnetic force positioning eight-stage magnet 41 and the lateral gravity compensation type spear type magnetic force positioning seven-stage magnet 40 attract each other, the lateral magnetic compensation type damping buffer type primary annular electromagnetic winding 50 and the lateral magnetic compensation type damping type primary annular electromagnet 47 repel each other, the lateral magnetic compensation type buffer type damping type secondary annular electromagnetic winding 51 and the lateral magnetic compensation type damping type secondary annular electromagnet 48 repel each other, the longitudinal weight compensation type shock absorption and buffering type three-level electromagnet 49 and the longitudinal weight compensation type shock absorption and buffering type three-level electromagnetic winding 52 are mutually exclusive.

When the ship is used, a pair of the two side passageways are respectively arranged at the front and the back of the two side passageways of the ship, when an object passes through a shelter, an alarm is generated, the monitoring and the defense can be performed reasonably and accurately, when the ship body shakes left and right at sea, the preset local mass type dynamic characteristic self-adjusting bearing rod 6 is vertically fixed under the action of the semicircle solid iron block 42 with the stable dynamic characteristic of the preset local mass type dynamic characteristic, the deck shakes left and right to drive the preset local mass type dynamic characteristic self-adjusting mounting plate 69 to shake left and right, the preset local mass type dynamic characteristic self-adjusting mounting plate 69 shakes left and right to drive the preset local mass type dynamic characteristic bearing rod self-adjusting base 17 to shake left and right, the preset local mass type dynamic characteristic bearing rod self-adjusting base 17 shakes left and right to drive the contradictory cutting type multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring 28 to shake left and right, the spear shield type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring 28 swings left and right to drive one end of a friction lossless type cutting magnetic positioning tertiary bearing 32 to rotate, the other end of the friction lossless type cutting magnetic positioning tertiary bearing 32 does not move, the contradictory type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring 28 swings left and right to drive one end of a friction lossless type cutting magnetic positioning quaternary bearing 33 to rotate, the other end of the friction lossless type cutting magnetic positioning quaternary bearing 33 does not move, a preset local quality type dynamic characteristic self-adjusting bearing rod 6 does not move, namely a gravity compensation type magnetic suspension buffer shock absorption protection monitoring camera 19 does not move, and the length compensation type contradictory type dynamic characteristic adjusting primary stabilizing rod 20 and the length compensation type contradictory type dynamic characteristic adjusting secondary stabilizing rod 21 prevent tension between the spear shield type cutting dynamic characteristic self-adjusting primary alloy wire 8 and the contradictory type cutting dynamic characteristic self-adjusting secondary alloy wire 9 from influencing the preset alloy wire 8 The vertical direction of the preset local mass type dynamic characteristic self-adjusting bearing rod 6 and the preset local mass type dynamic characteristic self-adjusting intermediate rod 7, the distance between the preset local mass type dynamic characteristic self-adjusting bearing rod 6 and the preset local mass type dynamic characteristic self-adjusting intermediate rod 7 is increased when the dynamic characteristic spear type length compensation type primary spring 24 and the dynamic characteristic contradiction type length compensation type secondary spring 25 are used for compensating the side-to-side shaking of the ship body, when the ship body shakes side-to-side at sea, the preset local mass type dynamic characteristic self-adjusting bearing rod 6 is vertically immovable under the action of the semi-circular solid iron block 42 with stable preset local mass type dynamic characteristic, the deck shakes back and forth to drive the preset local mass type dynamic characteristic self-adjusting mounting plate 69 to shake back and forth, the preset local mass type dynamic characteristic self-adjusting mounting plate 69 shakes back and forth to drive the preset local mass type dynamic characteristic self-adjusting bearing rod base 17 to shake back and forth, the preset local mass type dynamic characteristic force bearing rod self-adjusting base 17 shakes back and forth to drive the contradictory clipping type multi-ring dynamic characteristic magnetic positioning stable primary stabilizing ring 27 to shake back and forth, one end of the friction lossless clipping type magnetic positioning primary bearing 30 rotates, one end of the friction lossless clipping type magnetic positioning primary bearing 30 does not move, one end of the friction lossless clipping type magnetic positioning secondary bearing 31 rotates, one end of the friction lossless clipping type magnetic positioning secondary bearing 31 does not move, the preset local mass type dynamic characteristic force bearing rod 6 does not move, namely the gravity compensation type magnetic suspension buffering and damping protection monitoring camera 19 does not move, when the ship body vibrates violently, the repulsion force between the longitudinal weight compensation type damping and damping buffer type three-level electromagnet 49 and the longitudinal weight compensation type damping and damping type three-level electromagnetic winding 52 performs buffering protection on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera 19, repulsion between the transverse magnetic compensation type damping and buffering type primary annular electromagnetic winding 50 and the transverse magnetic compensation type damping and buffering type primary annular electromagnet 47, repulsion between the transverse magnetic compensation type damping and buffering type secondary annular electromagnetic winding 51 and the transverse magnetic compensation type damping and buffering type secondary annular electromagnet 48 buffer and protect the gravity compensation type magnetic suspension type damping and buffering protection sliding block 46, and further protect the gravity compensation type magnetic suspension type damping and buffering protection monitoring camera 19, when the sea moisture is large, the omnibearing reciprocating rotary type cyclone circulation type moisture removing device 5 is started, the cyclone circulation type moisture removing air pump 64 is started to transmit air into the curvature increasing type cyclone circulation type moisture removing hollow sphere 56, the output end of the omnibearing reciprocating rotary type cyclone circulation type moisture removing motor 59 rotates to drive the reciprocating rotary type cyclone circulation type moisture removing centrifugal gear 60 to rotate, and the reciprocating rotary type cyclone circulation type moisture removing centrifugal gear 60 rotates to drive the reciprocating rotary type cyclone circulation type moisture removing hollow sphere 56 to rotate The centrifugal tooth block 61 rotates, the reciprocating rotary type cyclone circulation type moisture removal centrifugal tooth block 61 rotates to drive the reciprocating rotary type cyclone circulation type centrifugal turntable 58 to rotate, the reciprocating rotary type cyclone circulation type centrifugal turntable 58 rotates to drive the curvature increasing type cyclone circulation type moisture removal hollow sphere 56 to rotate, the dynamic characteristic drying stir-frying type cyclone circulation type moisture removal motor 66 outputs and rotates to drive the dynamic characteristic drying stir-frying type cyclone circulation type moisture removal rotating shaft 65 to rotate, the dynamic characteristic drying stir-frying type cyclone circulation type moisture removal rotating shaft 65 rotates to drive the dynamic characteristic drying stir-frying type elastic memory alloy stirring blade 67 to rotate, the dynamic characteristic drying stir-frying type elastic memory alloy stirring blade 67 rotates to drive the dynamic characteristic stir-frying type elastic memory alloy catching lug 68 to rotate, and therefore the omnibearing reciprocating rotary type cyclone circulation type moisture removal adsorption drying small spheres 55 in the curvature increasing type cyclone circulation type moisture removal hollow sphere 56 are circularly stirred from bottom to top, the wet air in the omnibearing reciprocating rotary type cyclone circulation dehumidifying type electronic fence host 12 is absorbed into dry air by the omnibearing reciprocating rotary type cyclone circulation dehumidifying moisture adsorption drying small balls 55 and then is exhausted through the curvature increasing type cyclone circulation dehumidifying exhaust holes 57, and the dehumidification in the omnibearing reciprocating rotary type cyclone circulation dehumidifying type electronic fence host 12 is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a marine control fence of high stability which characterized in that: comprises a preset local mass type dynamic characteristic self-adjusting main body, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device, a contradiction type cutting multi-ring dynamic characteristic magnetic positioning intermediate rod stabilizing device, a gravity compensation type magnetic suspension buffer type damping protection device and an omnibearing reciprocating rotary cyclone circulation type dehumidifying device, the spear shield type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device is arranged on the preset local mass type dynamic characteristic self-adjusting main body, the spear shield type cutting multi-ring dynamic characteristic magnetic positioning intermediate rod stabilizing device is arranged on the preset local quality type dynamic characteristic self-adjusting main body, the gravity compensation type magnetic suspension buffer type damping protection device is arranged on the preset type local mass type dynamic characteristic self-adjusting main body, the omnibearing reciprocating rotary cyclone circulation type dehumidifying device is arranged on the preset local quality type dynamic characteristic self-adjusting main body; the preset local quality type dynamic characteristic self-adjusting main body comprises a preset local quality type dynamic characteristic self-adjusting bearing rod, a preset local quality type dynamic characteristic self-adjusting intermediate rod, a contradiction type cutting type dynamic characteristic self-adjusting primary alloy wire, a contradiction type cutting type dynamic characteristic self-adjusting secondary alloy wire, a local quality type preset dynamic characteristic self-adjusting bearing rod insulator, a local quality type preset dynamic characteristic self-adjusting intermediate rod insulator, an omnibearing reciprocating rotary cyclone circulating dehumidification type electronic fence host, a transverse length compensation type contradiction primary wired connecting piece, a transverse length compensation type contradiction secondary wired connecting piece, a preset local quality type dynamic characteristic self-adjusting connecting wire, a preset local quality type dynamic characteristic self-adjusting tightener, a preset local quality type dynamic characteristic self-adjusting base, a preset local quality type dynamic characteristic self-adjusting device and a computer, The omnibearing reciprocating rotary type electronic fence host machine is arranged on the preset type local quality type dynamic characteristic self-adjusting mounting plate, the preset local quality type dynamic characteristic bearing rod self-adjusting base is arranged on the preset local quality type dynamic characteristic self-adjusting mounting plate, the preset local quality type dynamic characteristic intermediate rod self-adjusting base is arranged on the preset local quality type dynamic characteristic self-adjusting mounting plate, the preset local quality type dynamic characteristic self-adjusting bearing rod is arranged on the preset local quality type dynamic characteristic bearing rod self-adjusting base, the preset local quality type dynamic characteristic self-adjusting intermediate rod is arranged on the preset local quality type dynamic characteristic intermediate rod self-adjusting base, the local quality type preset dynamic characteristic self-adjusting bearing rod insulator is detachably sleeved on the preset local quality type dynamic characteristic self-adjusting rod, the local quality type preset dynamic characteristic self-adjusting intermediate rod insulator is detachably sleeved on the preset local quality type dynamic characteristic self-adjusting intermediate rod, one end of the lance shield type cutting type primary alloy wire with the self-adjusting dynamic characteristic is in wire-wrapping connection with a local mass type preset type dynamic characteristic self-adjusting bearing rod insulator, the transverse length compensation type contradictory primary wired connecting piece is arranged at the other end of the lance shield type cutting type primary alloy wire with the self-adjusting dynamic characteristic, one end of the lance shield type cutting type dynamic characteristic self-adjusting secondary alloy wire is in wire-wrapping connection with a local mass type preset type dynamic characteristic self-adjusting intermediate rod insulator, the preset type local mass type dynamic characteristic self-adjusting tightener is arranged on the lance shield type cutting type dynamic characteristic self-adjusting secondary alloy wire, the transverse length compensation type contradictory secondary wired connecting piece is arranged at the other end of the lance shield type cutting type dynamic characteristic self-adjusting secondary alloy wire, one end of the dynamic characteristic lance type length compensation type primary spring is arranged on the transverse length compensation type contradictory primary wired connecting piece, the other end of the dynamic characteristic spear shield type length compensation type primary spring is arranged on a transverse length compensation type contradictory secondary wired connecting piece, one end of the preset local quality type dynamic characteristic self-adjusting connecting line is arranged on the transverse length compensation type contradictory primary wired connecting piece, the other end of the preset local quality type dynamic characteristic self-adjusting connecting line is arranged on the transverse length compensation type contradictory secondary wired connecting piece, the gravity compensation type magnetic suspension buffering and damping protection monitoring camera is arranged on a gravity compensation type magnetic suspension buffering type damping protection device, the angle compensation type contradictory dynamic characteristic adjusting primary rotating shaft is arranged on the side wall of the preset local quality type dynamic characteristic self-adjusting bearing rod, the angle compensation type contradictory dynamic characteristic adjusting secondary rotating shaft is arranged on the side wall of the preset local quality type dynamic characteristic self-adjusting intermediate rod, one end of the length compensation type contradictory dynamic characteristic adjusting primary stabilizer bar is arranged on the angle compensation type contradictory dynamic characteristic adjusting primary rotating shaft, the dynamic characteristic contradictory length compensation type secondary spring is arranged at the other end of the length compensation type contradictory dynamic characteristic adjusting primary stabilizer bar, one end of the length compensation type contradictory dynamic characteristic adjusting secondary stabilizer bar is arranged on the angle compensation type contradictory dynamic characteristic adjusting secondary rotating shaft, the other end of the length compensation type contradictory dynamic characteristic adjusting secondary stabilizer bar is arranged on the dynamic characteristic spear type length compensation type secondary spring, and the gravity compensation type magnetic suspension buffering and damping protection rain-shading cap is arranged on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera.

2. The high-stability monitoring electronic fence for the ship of claim 1, wherein: the spear shield type cutting multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device comprises a spear shield type cutting multi-ring dynamic characteristic magnetic positioning stabilizing primary stabilizing ring, an contradictory type cutting multi-ring dynamic characteristic magnetic positioning stabilizing secondary stabilizing ring, an contradictory type cutting multi-ring dynamic characteristic magnetic positioning stabilizing tertiary stabilizing ring, a friction lossless cutting type magnetic positioning primary bearing, a friction lossless cutting type magnetic positioning secondary bearing, a friction lossless cutting type magnetic positioning tertiary bearing, a friction lossless cutting type magnetic positioning quaternary bearing, a transverse gravity compensation spear type magnetic positioning primary magnet, a transverse gravity compensation spear type magnetic positioning secondary magnet, a transverse gravity compensation spear type magnetic positioning tertiary magnet, a transverse gravity compensation spear type magnetic positioning quaternary magnet, a transverse gravity compensation spear type magnetic positioning quinary magnet, A transverse gravity compensation type spear shield type magnetic force positioning six-level magnet, a transverse gravity compensation type spear shield type magnetic force positioning seven-level magnet, a transverse gravity compensation type spear shield type magnetic force positioning eight-level magnet and a preset type semi-solid iron block with local quality type dynamic characteristic stable semicircle, wherein the spear shield type cutting type multi-ring dynamic characteristic magnetic force positioning stable one-level stable ring is arranged on the preset type local quality type dynamic characteristic bearing rod self-adjusting base, one end of the friction nondestructive cutting type spear magnetic force positioning one-level bearing is arranged on one side of the inner ring of the spear shield type cutting type multi-ring dynamic characteristic magnetic force positioning stable one-level stable ring, one side of the outer ring of the spear type cutting type multi-ring dynamic characteristic magnetic force positioning stable two-level stable ring is arranged on the other side of the friction nondestructive cutting type magnetic force positioning one-level bearing, one end of the friction nondestructive cutting type secondary positioning bearing is arranged on the other side of the inner ring of the spear type multi-ring dynamic characteristic magnetic force positioning stable one-level stable ring, the outer loop opposite side that lance shield type cutting formula multi-ring dynamic characteristic magnetic force location stabilized secondary stable ring is located to the other end that type magnetic force location secondary bearing was tailor to the lossless formula of friction, the inner loop upside that lance shield type cutting formula multi-ring dynamic characteristic magnetic force location stabilized secondary stable ring is located to the one end that type magnetic force location tertiary bearing was tailor to the lossless formula of friction, the outer loop upside that the tertiary stable ring is stabilized to lance shield type cutting formula multi-ring dynamic characteristic magnetic force location is located the other end that type magnetic force location tertiary bearing was tailor to the lossless formula of friction, the one end that type magnetic force location quaternary bearing was tailor to the lossless formula of friction is located the inner loop downside that lance shield type cutting formula multi-ring dynamic characteristic magnetic force location stabilized secondary stable ring, the outer loop downside that the tertiary stable ring is stabilized to lance shield type cutting formula multi-ring dynamic characteristic magnetic force location is located to the other end that type magnetic force location quaternary bearing was tailor to the lossless formula of friction, the solid iron plate of the stable semicircle of the local quality type dynamic characteristic of the preset type is cup jointed and located on the inner wall of the stable tertiary stable ring of the lance shield type cutting multi-ring dynamic characteristic magnetic force positioning of the preset type, the primary magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates one side of the inner wall of the self-adjusting base of the local quality type dynamic characteristic force bearing rod of the preset type, the secondary magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates one side of the outer wall of the stable tertiary stable ring of the lance shield type cutting multi-ring dynamic characteristic magnetic force positioning of the preset type, the tertiary magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates the other side of the inner wall of the self-adjusting base of the preset type local quality type dynamic characteristic force bearing rod of the preset type, the four-level magnet of the horizontal gravity compensation type lance shield type magnetic force positioning locates the other side of the stable tertiary stable ring of the lance type cutting multi-ring dynamic characteristic of the lance type magnetic force positioning of the preset type, the seven-level magnet of the horizontal gravity compensation type shield type magnetic force positioning of the preset type magnetic force bearing rod of the preset type local quality type dynamic characteristic force bearing rod of the preset type The inner wall upside of self-adjusting base, the outer wall upside that formula polycyclic dynamic characteristic magnetic force location stabilized secondary stabilizing ring was tailor to the formula of lance shield type magnetic force location eight-level magnet is located to the formula of lateral gravity compensation lance shield type magnetic force location five-level magnet locates the inner wall downside of presetting formula local quality type dynamic characteristic load pole self-adjusting base, the outer wall downside that formula polycyclic dynamic characteristic magnetic force location stabilized secondary stabilizing ring was tailor to the formula of contradiction type is located to six-level magnet of formula of lateral gravity compensation lance shield type magnetic force location, presetting formula local quality type dynamic characteristic self-adjusting load pole is located on the solid iron piece of presetting formula local quality type dynamic characteristic stabilized semicircle.

3. The high-stability marine monitoring electronic fence as claimed in claim 2, wherein: the spear shield type cutting type multi-ring dynamic characteristic magnetic positioning middle rod stabilizing device is the same as the contradiction type cutting type multi-ring dynamic characteristic magnetic positioning bearing rod stabilizing device.

4. A high stability marine monitoring electronic fence as defined in claim 3 wherein: the gravity compensation type magnetic suspension buffer type shock absorption protection device comprises a gravity compensation type magnetic suspension buffer shock absorption protection fixing seat, a transverse magnetic compensation type friction nondestructive type shock absorption protection primary slide bar, a transverse magnetic compensation type friction nondestructive type shock absorption protection secondary slide bar, a gravity compensation type magnetic suspension buffer shock absorption protection slide block, a transverse magnetic compensation type shock absorption buffer type primary annular electromagnet, a transverse magnetic compensation type shock absorption buffer type secondary annular electromagnet, a longitudinal weight compensation type shock absorption buffer type tertiary electromagnet, a transverse magnetic compensation type shock absorption buffer type primary annular electromagnetic winding, a transverse magnetic compensation type shock absorption buffer type secondary annular electromagnetic winding, a longitudinal weight compensation type shock absorption buffer type tertiary electromagnetic winding, a friction nondestructive type magnetic suspension buffer shock absorption protection primary expansion piece and a friction nondestructive type magnetic suspension buffer shock absorption protection secondary expansion piece, the gravity compensation type magnetic suspension buffering and damping protection fixing seat is arranged on a preset type local quality type dynamic characteristic self-adjusting bearing rod, the transverse magnetic compensation type friction nondestructive type damping protection primary sliding rod is arranged in the gravity compensation type magnetic suspension buffering and damping protection fixing seat, the transverse magnetic compensation type friction nondestructive type damping protection secondary sliding rod is arranged in the gravity compensation type magnetic suspension buffering and damping protection fixing seat, the gravity compensation type magnetic suspension buffering and damping protection sliding block is slidably sleeved on the transverse magnetic compensation type friction nondestructive type damping protection primary sliding rod and the transverse magnetic compensation type friction nondestructive type damping protection secondary sliding rod, one end of the friction nondestructive type magnetic suspension buffering and damping protection primary telescopic piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block, and the other end of the friction nondestructive type magnetic suspension buffering and damping protection primary telescopic piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera, the one end of the friction lossless type magnetic suspension buffering and damping protection secondary expansion piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block, the other end of the friction lossless type magnetic suspension buffering and damping protection secondary expansion piece is arranged on the gravity compensation type magnetic suspension buffering and damping protection monitoring camera, the vertical weight compensation type damping and buffering type tertiary electromagnet is arranged at the lower end of the gravity compensation type magnetic suspension buffering and damping protection monitoring camera, the vertical weight compensation type damping and buffering type tertiary electromagnetic winding is arranged on the gravity compensation type magnetic suspension buffering and damping protection sliding block, the transverse magnetic compensation type damping and buffering type primary annular electromagnetic winding is arranged on the inner wall of the gravity compensation type magnetic suspension buffering and damping protection fixing seat and is sleeved with the transverse magnetic compensation type friction lossless and damping protection primary sliding rod, and the transverse magnetic compensation type damping and buffering type secondary annular electromagnetic winding is arranged on the inner wall of the gravity compensation type magnetic suspension buffering and damping protection fixing seat Go up and cup joint the harmless type shock attenuation protection secondary slide bar of horizontal magnetic force compensation formula friction, horizontal magnetic force compensation formula shock attenuation buffering type one-level annular electromagnet locates on the lateral wall of gravity compensation formula magnetic suspension buffering shock attenuation protection slider and slides and cup joint and locate on the harmless type shock attenuation protection one-level slide bar of horizontal magnetic force compensation formula friction, horizontal magnetic force compensation formula shock attenuation buffering type secondary annular electromagnet locates on the lateral wall of gravity compensation formula magnetic suspension buffering shock attenuation protection slider and slides and cup joint and locate on the harmless type shock attenuation protection secondary slide bar of horizontal magnetic force compensation formula friction.

5. The high-stability marine monitoring electronic fence as claimed in claim 4, wherein: the omnibearing reciprocating rotary cyclone circulation type dehumidifying device comprises omnibearing reciprocating rotary cyclone circulation type dehumidifying moisture adsorption drying pellets, a curvature increasing cyclone circulation type dehumidifying hollow sphere, a curvature increasing cyclone circulation type dehumidifying exhaust hole, a reciprocating rotary cyclone circulation type centrifugal turntable, an omnibearing reciprocating rotary cyclone circulation type dehumidifying motor, a reciprocating rotary cyclone circulation type dehumidifying centrifugal gear, a reciprocating rotary cyclone circulation type dehumidifying centrifugal tooth block, an omnibearing reciprocating rotary cyclone circulation type dehumidifying bearing, a cyclone circulation type dehumidifying exhaust pipeline, a cyclone circulation type dehumidifying air pump, a dynamic characteristic drying stir-fry type cyclone circulation type dehumidifying rotating shaft, a dynamic characteristic drying stir-fry type cyclone circulation type dehumidifying motor, a dynamic characteristic drying stir-fry type elastic memory alloy stirring blade and a dynamic characteristic stir-fry type elastic memory alloy ball-catching lug, the whirlwind circumfluent type moisture removal air exhaust pipeline is arranged at the bottom end of the inner wall of the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal electronic fence host, the whirlwind circumfluent type moisture removal air pump is arranged on the whirlwind circumfluent type moisture removal air exhaust pipeline, the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal bearing is communicated with one end of the whirlwind circumfluent type moisture removal air exhaust pipeline, the reciprocating rotary type whirlwind circumfluent type centrifugal turntable is communicated with the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal bearing, the curvature increasing type whirlwind circumfluent moisture removal hollow ball body is communicated with the reciprocating rotary type whirlwind circumfluent type centrifugal turntable, the omnibearing reciprocating rotary type whirlwind circumfluent type moisture removal motor is arranged at the bottom end of the inner wall of the omnibearing reciprocating rotary type whirlwind circumfluent moisture removal electronic fence host, the reciprocating rotary type whirlwind circumfluent moisture removal centrifugal gear is arranged at the output end of the omnibearing reciprocating rotary type whirlwind circumfluent moisture removal motor, the reciprocating rotary cyclone circumfluent type moisture removal centrifugal gear is connected with the reciprocating rotary cyclone circumfluent type moisture removal centrifugal gear in a meshing rotating manner, the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal motor is arranged on the curvature-increasing cyclone circumfluent type moisture removal hollow sphere, the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal rotating shaft is rotatably arranged in the curvature-increasing cyclone circumfluent type moisture removal hollow sphere, one end of the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal rotating shaft is arranged at the output end of the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal motor, and the dynamic characteristic drying stir-frying elastic memory alloy stirring blade is arranged on the dynamic characteristic drying stir-frying cyclone circumfluent type moisture removal rotating shaft, the dynamic characteristic stir-frying elastic memory alloy ball catching convex block is arranged on the dynamic characteristic dry stir-frying elastic memory alloy stirring blade, the omnibearing reciprocating rotary cyclone circulating type moisture adsorption and drying small ball is arranged in the curvature increasing cyclone circulating type moisture removal hollow ball, and the curvature increasing cyclone circulating type moisture removal exhaust hole is arranged on the curvature increasing cyclone circulating type moisture removal hollow ball.

6. The high-stability marine monitoring electronic fence as claimed in claim 5, wherein: the utility model provides a three-level annular electromagnetic winding of vertical weight compensation formula shock attenuation buffering type, including lateral magnetic force compensation formula shock attenuation buffering type one-level annular electromagnetic winding external power supply, external power supply is photovoltaic charging, vertical three-level electromagnetic winding external power supply of weight compensation formula shock attenuation buffering type, external power supply is photovoltaic charging, the external power supply of gravity compensation formula magnetic suspension buffering shock attenuation protection surveillance camera head external power supply, external power supply is photovoltaic charging, the rotatory whirlwind circulation formula of all-round reciprocal removes damp motor external power supply, external power supply is photovoltaic charging, whirlwind circulation formula removes damp air pump external power supply, external power supply is photovoltaic charging, the dry stir-fry type whirlwind circulation formula of dynamic characteristic removes damp motor external power supply is photovoltaic charging.

7. The high-stability marine monitoring electronic fence as claimed in claim 6, wherein: the transverse gravity compensation type spear shield type magnetic force positioning primary magnet and the transverse gravity compensation type spear shield type magnetic force positioning secondary magnet are mutually attracted, the transverse gravity compensation type spear shield type magnetic force positioning tertiary magnet and the transverse gravity compensation type spear shield type magnetic force positioning quaternary magnet are mutually attracted, the transverse gravity compensation type spear shield type magnetic force positioning five-level magnet and the transverse gravity compensation type spear shield type magnetic force positioning six-level magnet are mutually attracted, the transverse gravity compensation type spear shield type magnetic force positioning eight-level magnet and the transverse gravity compensation type spear shield type magnetic force positioning seven-level magnet are mutually attracted, the transverse magnetic compensation type damping and buffering type primary annular electromagnetic winding and the transverse magnetic compensation type damping and buffering type primary annular electromagnet are mutually repelled, and the transverse magnetic compensation type damping and buffering type secondary annular electromagnetic winding and the transverse magnetic compensation type damping and buffering type secondary annular electromagnet are mutually repelled, and the longitudinal weight compensation type damping buffer type three-level electromagnet and the longitudinal weight compensation type damping buffer type three-level electromagnetic winding are mutually exclusive.