CN105549479A - Movable new-energy offshore platform control system - Google Patents

Abstract

The invention provides a movable new-energy offshore platform control system. The system comprises a platform apparatus, a control apparatus, a protection system, a lighting device, a power generation device, a monitoring device, a circuit switch, a digital signal processing apparatus, a shell, an intelligent watt hour meter and a cell apparatus. The control apparatus, the protection system, the lighting device, the power generation device, the monitoring device, the circuit switch, the digital signal processing apparatus, the shell, the intelligent watt hour meter and the cell apparatus are arranged on the platform apparatus. The control apparatus is arranged at a lower portion position of the protection system. The lighting device is arranged at an upper portion position of the power generation device. The circuit switch is arranged at a middle position of the monitoring device and the control apparatus. The intelligent watt hour meter is arranged on a lower portion position of the cell apparatus. By using the system of the invention, usage is convenient, work efficiency is increased, the system is safe and reliable, a service life is long, product quality is increased, function diversity is improved, an intelligent degree is increased and an optimum usage effect is reached.

Description

A kind of removable new energy marine platform control system

Technical field

The invention belongs to platform courses technical field, particularly relate to a kind of removable new energy marine platform control system.

Background technology

At present, offshore platform, above tide and have a kind of truss structures of level table, for carrying out production operation or other are movable.But the use that existing removable new energy marine platform control system exists is inconvenient, and function is perfect not, and intelligence degree is low, the problem of poor product quality.

Summary of the invention

In order to solve the problems of the technologies described above, the invention provides and provide a kind of removable new energy marine platform control system, to solve the use inconvenience that existing removable new energy marine platform control system exists, function is perfect not, intelligence degree is low, the problem of poor product quality.

A kind of removable new energy marine platform control system, this removable new energy marine platform control system comprises stage apparatus, control device, guard system, lighting device, Blast Furnace Top Gas Recovery Turbine Unit (TRT), supervising device, contactor, digital signal processing device, shell, intelligent kilowatt-hour meter and cell apparatus, described control device, guard system, lighting device, Blast Furnace Top Gas Recovery Turbine Unit (TRT), supervising device, contactor, digital signal processing device, shell, intelligent kilowatt-hour meter and cell apparatus are all arranged on described stage apparatus, described control device is arranged on the lower position of described guard system, described lighting device is arranged on the upper position of described Blast Furnace Top Gas Recovery Turbine Unit (TRT), described contactor is arranged on the centre position of described supervising device and control device, described intelligent kilowatt-hour meter is arranged on the lower position of described cell apparatus,

Described stage apparatus comprises sensor ball, pressure block, compression spring, hold-down nut, ceramic substrate, swivel eye and movable base structure, described compression spring is arranged on the lower position of described hold-down nut, and described movable base vibrational power flow is at the bottom position of described compression spring; Described sensor ball is arranged on the centre position of described compression spring, described pressure block is arranged on the lower position of described sensor ball, described ceramic substrate is arranged on the lower position of described pressure block, and described swivel eye is arranged on the upper position of described ceramic substrate;

Described control device comprises master switch, display screen, electric device, vane, power supply board and pilot lamp, described master switch is arranged on the right side of electric device by being electrically connected, described display screen is arranged on the top of described electric device by being electrically connected, described vane is arranged on the bottom of described electric device and master switch by being electrically connected, described power supply board is arranged on the bottom of described display screen by being electrically connected, described pilot lamp is arranged on the right upper portion position of described display screen;

Described guard system connects described supervising device, and described guard system comprises audible-visual annunciator and warning flashing lamp, and described audible-visual annunciator is arranged on the leftward position of warning flashing lamp;

Described lighting device comprises illuminating lamp shade, battery, illuminating lamp, relay indicating light and intelligent switch, described illuminating lamp shade is arranged on the upper position of described battery, described illuminating lamp is arranged on the lower position of described illuminating lamp shade, and described relay indicating light is arranged on the upper position of described intelligent switch;

Described supervising device comprises camera, support bar, base, power supply, memory card, protection camera lens and guard shield, described camera is arranged on the centre of described guard shield by being electrically connected, described support bar is arranged on the bottom of described guard shield, described base is arranged on the bottom of described camera by being electrically connected, described power supply is arranged on the centre of described base by being electrically connected, described memory card is arranged on the centre of described guard shield, and described protection camera lens is arranged on the periphery of described camera;

Described digital signal processing device comprises single-chip microcomputer, signal lamp and chip, and described single-chip microcomputer is arranged on the leftward position of described signal lamp, and described chip is arranged on the right positions of described signal lamp.

Further, described movable base structure comprises wheel and skidding bar in elevating lever, adjusting bolt, connection buckle, scroll wheel, support, described adjusting bolt is arranged on the upper position of wheel in described support, described elevating lever is arranged on the upper position of wheel in described support, described connection buckle is arranged on the top link position of wheel in described support, described scroll wheel is arranged on the external position of wheel in described support, and described skidding bar is arranged on the outer fix of described scroll wheel.

Further, described display screen comprises display panel, elementary layer, adhesive linkage, described elementary layer is arranged on the outside of described display panel, described adhesive linkage is arranged between described display panel and described elementary layer, wherein, first edge being adhered to the bonding plane of described display panel of described adhesive linkage and second edge being adhered to the bonding plane of described elementary layer of described adhesive linkage are shifted mutually along bonding plane direction.

Further, described audible-visual annunciator comprises alarm body, power supply, LED display, noise filtering and speaker unit and intelligent control circuit plate, described LED display is provided with on front side of described alarm body, described noise filtering and speaker unit is provided with on the right side of described alarm body, described alarm body is provided with power supply, and described alarm body interior is provided with described intelligent control circuit plate.

Further, described illuminating lamp comprises lamp body and charging part, and described lamp body is placed in described accommodating cavity, and be electrically connected with described charging part, described charging part comprises some charging panels, and multiple described charging panel is rotationally connected each other, and surround host cavity, and multiple charging panel is electrically connected to each other.

Further, described lamp body comprises body, lamp socket and bulb, and described lamp socket is arranged in described charging part, and described body is connected with described lamp socket, and described bulb is arranged on described body.

Further, described intelligent switch comprises Switch main body and is fixedly connected with switch pedestal, described Switch main body is provided with control panel, digital button, power switch button and time set button that described control panel is provided with control chip and is connected with control chip, the display screen be connected with control panel is provided with above described control panel, described Switch main body is also provided with signal receiving device, described intelligent switch also comprises the telepilot matched with switch, and described switch pedestal is provided with transparent cover.

Further, described camera comprises procapsid, back casing, camera body, support and rotation supporting part; The both sides end wall of described procapsid and back casing is respectively provided with a semicircular indentations, two semicircular indentations being positioned at same side after described procapsid and back casing clamping are combined to form a circular shaft bore.

Further, described support comprises base and is positioned at two support plates of base top; Described each support plate is provided with circular hole and blocked hole; Described rotation supporting part comprises substrate, the clamping boss matched with blocked hole on support plate protruded from substrate, the convex axle of circle matched with described axis hole protruded from substrate and the anticreep plate being positioned at convex shaft end; Described rotation supporting part is fixed on support plate by clamping boss, and described convex axle is arranged in described axis hole.

Further, described power supply comprises power supply connecting device, electrical storage device and protective relaying device.

Further, described power supply connecting device comprises at least one power supply input circuit connecting external power source is connected load load output circuit with at least one.

Further, described electrical storage device comprises the accumulator charging/discharging circuit connecting accumulator.

Further, described signal lamp comprises one or more emitting led, lens and light absorption/reflecting element, and described lens receive the light from one or more LED and collimate light.

Another object of the present invention is to the single-chip microcomputer inter-signal interference relationship analysis method that a kind of described removable new energy marine platform control system is provided, the some characteristic parameters of this inter-signal interference relationship analysis method determination undesired signal on wireless signal field, feature based parameter forms corresponding interference model, determines undesired signal vector to be analyzed and contrast signal eigenvector; Determine the displacement vector of undesired signal eigenvector to contrast signal eigenvector displacement calculating vector to the projection of certain latitude coordinates axle, and determines the disturbance state S of undesired signal to contrast signal in interference space; Under the prerequisite forming interference, draw the annoyance level G of undesired signal to contrast signal further;

Inter-signal interference relationship analysis method specifically comprises the following steps:

Step one, determines the some characteristic parameter CPs of undesired signal on wireless signal field, and feature based parameter forms corresponding interference space model, based on the interference space model set up, determines undesired signal eigenvector to be analyzed with contrast signal eigenvector first based on frequency F, time T, for observation station spatial domain angle Θ, polarised direction Γ and coded system C characteristic parameter set up interference characteristic space HS _iin, calculate undesired signal vector to contrast signal vector displacement vector

${\stackrel{\→}{D}}_{(I,S)}={\stackrel{\→}{V}}_I-\stackrel{\→}{V_S}=(f_I,t_I,{\mathrm{\θ}}_I,{\mathrm{\γ}}_I,c_I)-(f_s,t_s,{\mathrm{\γ}}_s,{\mathrm{\θ}}_s,c_s)=(f_I-f_s,t_I-t_s,{\mathrm{\θ}}_I-{\mathrm{\θ}}_s,{\mathrm{\γ}}_1-{\mathrm{\γ}}_S,c_1-c_S)$ ；

Step 2, based on interference space model, for undesired signal eigenvector definition is to contrast signal eigenvector displacement vector

；

Step 3, definition displacement vector to the projection of certain latitude coordinates axle in interference space, it is undesired signal eigenvector to contrast signal eigenvector distance in this CP dimension, namely has:

Wherein PRJ () operator representation is for the project of a certain CP dimension;

Step 4, definition undesired signal is S to the disturbance state of contrast signal, in order to represent the interference relationships of undesired signal to contrast signal;

$S(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{F_S})=\left\{\begin{array}{cc}0& \&Exists;{\mathrm{CP}}_i,d_{{\mathrm{CP}}_i,(I,S)}\&GreaterEqual;{\mathrm{\&Delta;}}_{{\mathrm{CP}}_i}\\ 1& \&ForAll;{\mathrm{CP}}_i,d_{{\mathrm{CP}}_i,(I,S)}<{\mathrm{\&Delta;}}_{{\mathrm{CP}}_i}\end{array}\right.;$

Step 5, under the prerequisite forming interference, first needs to choose and determines interference effect parameter EP, and for undesired signal, parameter is generally signal power p or energy e;

Step 6, definition undesired signal is G to the annoyance level of contrast signal, in order to weigh the disturbing effect degree of undesired signal to contrast signal; To the single mode undesired signal and the contrast signal that only comprise independent eigenvector, undesired signal vector is to the annoyance level of contrast signal vector interference effect parameter EP is utilized to assess;

$G(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{F_S})=\frac{{\mathrm{ep}}_I\&CenterDot;S(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{F_S})}{{\mathrm{ep}}_S};$

To the multimode undesired signal and the contrast signal that comprise some eigenvectors, now undesired signal is to the annoyance level G (V of contrast signal _i, V _s) undesired signal that represents with eigenvector set of definition to the annoyance level of contrast signal, be calculated as follows:

Described inter-signal interference relationship analysis method comprises further: for the multimode situation of undesired signal and each self-contained some interference characteristic vectors of contrast signal, disturbance state S (V now _i, V _s) calculate as follows:

Wherein S [V _i, V _s] _{m × N}be called as disturbance state matrix, each element in matrix represent V _iin a kth eigenvector and V _sin the disturbance state of l eigenvector, when only having that in two eigenvector set, each element does not disturb, S (V _i, V _s)=0, undesired signal does not just form interference to contrast signal; Otherwise, S (V _i, V _s) > 0, now undesired signal will form interference to contrast signal.

technique effect

Compared with prior art, of the present inventionly provide a kind of removable new energy marine platform control system, be widely used in recovery technology field, meanwhile, control device of the present invention, lighting device, supervising device, the setting of the devices such as digital signal processing device, be conducive to easy to use, increase work efficiency, safe and reliable, long service life, improve the quality of products, thus consummating function diversity, improve intelligence degree, reach best result of use.Method of the present invention is simple, easy to operate; Feature based parameter forms corresponding interference model, can indicate undesired signal eigenvector and contrast signal eigenvector easily.According to the displacement vector of undesired signal eigenvector to contrast signal eigenvector thus the disturbance state S of undesired signal to contrast signal can be determined easily, draw the annoyance level G of undesired signal to contrast signal further.Method of the present invention, wireless communication system undesired signal is combined to the interference behavior of contrast signal and the vector calculus of mathematical space, solve to the judgement of signal disturbing and problem analysis in wireless system, thus contribute to carrying out interference management, improve communication quality and resource utilization.

Accompanying drawing explanation

Fig. 1 is the structural representation of the removable new energy marine platform control system that the embodiment of the present invention provides;

Fig. 2 is the structural representation of the stage apparatus that the embodiment of the present invention provides;

Fig. 3 is the structural representation of the control device that the embodiment of the present invention provides;

Fig. 4 is the structural representation of the display screen that the embodiment of the present invention provides;

Fig. 5 is the structural representation of the guard system that the embodiment of the present invention provides;

Fig. 6 is the structural representation of the lighting device that the embodiment of the present invention provides;

Fig. 7 is the structural representation of the intelligent switch that the embodiment of the present invention provides;

Fig. 8 is the structural representation of the supervising device that the embodiment of the present invention provides;

Fig. 9 is the structural representation of the camera that the embodiment of the present invention provides;

Figure 10 is the structural representation of the digital signal processing device that the embodiment of the present invention provides.

In figure: 1, stage apparatus; 1-1, sensor ball; 1-2, pressure block; 1-3, compression spring; 1-4, hold-down nut; 1-5, ceramic substrate; 1-6, swivel eye; 1-7, movable base structure; 1-7-1, elevating lever; 1-7-2, adjusting bolt; 1-7-3, connection buckle; 1-7-4, scroll wheel; Wheel in 1-7-5, support; 1-7-6, skidding bar; 2, control device; 2-1, master switch; 2-2, display screen; 2-2-1, display panel; 2-2-2, elementary layer; 2-2-3, adhesive linkage; 2-3, electric device; 2-4, vane; 2-5, power supply board; 3, guard system; 3-1, audible-visual annunciator; 3-1-1, alarm body; 3-1-2, power supply; 3-1-3, LED display; 3-1-4, noise filtering and speaker unit; 3-1-5, intelligent control circuit plate; 3-2; Warning flashing lamp; 4, lighting device; 4-1, illuminating lamp shade; 4-2, battery; 4-3, illuminating lamp; 4-3-1, lamp body; 4-3-2, charging part; 4-3-3, accommodating cavity; 4-4, relay indicating light; 4-5, intelligent switch; 4-5-1, Switch main body; 4-5-2, switch pedestal; 4-5-3, control panel; 4-5-4, signal receiving device; 4-5-5, telepilot; 5, Blast Furnace Top Gas Recovery Turbine Unit (TRT); 6, supervising device; 6-1, camera; 6-1-1, procapsid; 6-1-2, back casing; 6-1-3, camera body; 6-1-4, support; 6-1-5, rotation supporting part; 6-2, support bar; 6-3, base; 6-4, power supply; 6-4-1, power supply connecting device; 6-4-2, electrical storage device; 6-4-3, protective relaying device; 6-5, memory card; 6-6, protection camera lens; 6-7, shell; 7, contactor; 8, digital signal processing device; 8-1, single-chip microcomputer; 8-2, signal lamp; 8-3, chip; 9, shell; 10, intelligent kilowatt-hour meter; 11, cell apparatus.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described further:

Embodiment:

As shown in accompanying drawing 1 to accompanying drawing 6

A kind of removable new energy marine platform control system of the present invention, this removable new energy marine platform control system comprises stage apparatus 1, control device 2, guard system 3, lighting device 4, Blast Furnace Top Gas Recovery Turbine Unit (TRT) 5, supervising device 6, contactor 7, digital signal processing device 8, shell 9, intelligent kilowatt-hour meter 10 and cell apparatus 11, described control device 2, guard system 3, lighting device 4, Blast Furnace Top Gas Recovery Turbine Unit (TRT) 5, supervising device 6, contactor 7, digital signal processing device 8, shell 9, intelligent kilowatt-hour meter 10 and cell apparatus 11 are all arranged on described stage apparatus 1, described control device 2 is arranged on the lower position of described guard system 3, described lighting device 4 is arranged on the upper position of described Blast Furnace Top Gas Recovery Turbine Unit (TRT) 5, described contactor 7 is arranged on the centre position of described supervising device 6 and control device 2, described intelligent kilowatt-hour meter 10 is arranged on the lower position of described cell apparatus 11,

Described stage apparatus 1 comprises sensor ball 1-1, pressure block 1-2, compression spring 1-3, hold-down nut 1-4, ceramic substrate 1-5, swivel eye 1-6 and movable base structure 1-7, described sensor ball 1-1 is arranged on the centre position of described compression spring 1-3, described pressure block 1-2 is arranged on the lower position of described sensor ball 1-1, described compression spring 1-3 is arranged on the lower position of described hold-down nut 1-4, and described movable base structure 1-7 is arranged on the bottom position of described compression spring 1-3; Described ceramic substrate 1-5 is arranged on the lower position of described pressure block 1-2, described swivel eye 1-6 is arranged on the upper position of described ceramic substrate 1-5, described sensor ball 1-1 specifically adopts multiple pressure rounded bulbous sensor ball, is conducive to easy to use, safe and practical; The pressure block that described pressure block 1-2 specifically adopts elastomeric material to make, is conducive to water resistance good, thus reduces manufacturing cost; Described ceramic substrate 1-5 specifically adopts layers of copper or copper tungsten layer, and thickness is 20 microns-800 microns, and layers of copper or copper tungsten layer can cover layer gold, and layer gold thickness is 0.02 micron-0.2 micron, is conducive to easy to use, thus consummating function diversity; Described swivel eye 1-6 is arranged on the upper position of ceramic substrate 1-5, the swivel eye that described swivel eye 1-6 specifically adopts multiple bearing to form, and is conducive to rotating conveniently, safe and reliable;

Described control device 2 comprises master switch 2-1, display screen 2-2, electric device 2-3, vane 2-4, power supply board 2-5 and pilot lamp 2-6, described master switch 2-1 is arranged on the right side of electric device 2-3 by being electrically connected, described display screen 2-2 is arranged on the top of described electric device 2-3 by being electrically connected, described vane 2-4 is arranged on the bottom of described electric device 2-3 and master switch 2-1 by being electrically connected, described power supply board 2-5 is arranged on the bottom of described display screen 2-2 by being electrically connected, described pilot lamp 2-6 is arranged on the right upper portion position of described display screen 2-2, described vane 2-4 specifically adopts semiconductor thermocouple vane, is conducive to easy to use, thus consummating function diversity, described power supply board 2-5 specifically adopts dielectric layer or magnetosphere to be laminated, and is conducive to electricity consumption convenient, improves work quality,

Described guard system 3 connects described supervising device 6, and described guard system 3 comprises audible-visual annunciator 3-1 and warning flashing lamp 3-2, and described audible-visual annunciator 3-1 is arranged on the leftward position of warning flashing lamp 3-2;

Described lighting device 4 comprises illuminating lamp shade 4-1, battery 4-2, illuminating lamp 4-3, relay indicating light 4-4 and intelligent switch 4-5, described illuminating lamp shade 4-1 is arranged on the upper position of described battery 4-2, described illuminating lamp 4-3 is arranged on the lower position of described illuminating lamp shade 4-1, and described relay indicating light 4-4 is arranged on the upper position of described intelligent switch 4-5; The waterproof insulation lampshade that described illuminating lamp shade 4-1 specifically adopts PE plastic material to make, is conducive to safe and reliable, makes to reduce manufacturing cost;

Described supervising device 6 comprises camera 6-1, support bar 6-2, base 6-3, power supply 6-4, memory card 6-5, protection camera lens 6-6 and guard shield 6-7, described camera 6-1 is arranged on the centre of described guard shield 6-7 by being electrically connected, described support bar 6-2 is arranged on the bottom of described guard shield 6-7, described base 6-3 is arranged on the bottom of described camera 6-1 by being electrically connected, described power supply 6-4 is arranged on the centre of described base 6-3 by being electrically connected, described memory card 6-5 is arranged on the centre of described guard shield 6-7, described protection camera lens 6-6 is arranged on the periphery of described camera 6-1, the anti-skid base that described base 6-3 specifically adopts stainless steel material to make, be conducive to removing and installing conveniently, structure is simple, and wear resistant corrosion resistant, described memory card 6-5 specifically adopts EEPROM storage card, is conducive to easy to operate, steady operation,

Described digital signal processing device 8 comprises single-chip microcomputer 8-1, signal lamp 8-2 and chip 8-3, and described single-chip microcomputer 8-1 is arranged on the leftward position of described signal lamp 8-2, and described chip 8-3 is arranged on the right positions of described signal lamp 8-2.

Further, described movable base structure 1-7 comprises elevating lever 1-7-1, adjusting bolt 1-7-2, connect buckle 1-7-3, scroll wheel 1-7-4, wheel 1-7-5 and skidding bar 1-7-6 in supporting, described adjusting bolt 1-7-2 is arranged on the upper position of wheel 1-7-5 in described support, described elevating lever 1-7-1 is arranged on the upper position of wheel 1-7-5 in described support, described connection buckle 1-7-3 is arranged on the top link position of wheel 1-7-5 in described support, described scroll wheel 1-7-4 is arranged on the external position of wheel 1-7-5 in described support, described skidding bar 1-7-6 is arranged on the outer fix of described scroll wheel 1-7-4, described elevating lever 1-7-1 specifically adopts 20 centimetres of adjustable up-down bars made to 60 centimetres of stainless steel materials, is conducive to lifting convenient, thus consummating function diversity, described connection buckle 1-7-3 specifically adopts the connection buckle of 2 bowl fastening types, is conducive to easy to use, and then reduces manufacturing cost, described scroll wheel 1-7-4 specifically adopts 2, and described scroll wheel specifically adopts polyurethane universal wheel, is conducive to conveniently moving, safe and practical.

Further, described display screen 2-2 comprises display panel 2-2-1, elementary layer 2-2-2, adhesive linkage 2-2-3, described elementary layer 2-2-2 is arranged on the outside of described display panel 2-2-1, described adhesive linkage 2-2-3 is arranged between described display panel 2-2-1 and described elementary layer 2-2-2, wherein, first edge being adhered to the bonding plane of described display panel 2-2-1 of described adhesive linkage 2-2-3 and second edge being adhered to the bonding plane of described elementary layer 2-2-2 of described adhesive linkage 2-2-3 are shifted mutually along bonding plane direction.

Further, described audible-visual annunciator 3-1 comprises alarm body 3-1-1, power supply 3-1-2, LED display 3-1-3, noise filtering and speaker unit 3-1-4 and intelligent control circuit plate 3-1-5, described LED display 3-1-3 is provided with on front side of described alarm body 3-1-1, described noise filtering and speaker unit 3-1-4 is provided with on the right side of described alarm body 3-1-1, on described alarm body, 3-1-1 is provided with power supply 3-1-2, and described alarm body 3-1-1 inside is provided with described intelligent control circuit plate 3-1-5.

Further, described illuminating lamp 4-3 comprises lamp body 4-3-1 and charging part 4-3-2, described lamp body 4-3-1 is placed in described accommodating cavity 4-3-3, and be electrically connected with described charging part 4-3-2, described charging part 4-3-2 comprises some charging panels, multiple described charging panel is rotationally connected each other, and surrounds host cavity, and multiple charging panel is electrically connected to each other.

Further, described lamp body 4-3-1 comprises body, lamp socket and bulb, and described lamp socket is arranged in described charging part, and described body is connected with described lamp socket, and described bulb is arranged on described body.

Further, described intelligent switch 4-5 comprises Switch main body 4-5-1 and is fixedly connected with switch pedestal 4-5-2, described Switch main body 4-5-1 is provided with control panel 4-5-3, the digital button that described control panel 4-5-3 is provided with control chip and is connected with control chip, power switch button and time set button, the display screen be connected with control panel is provided with above described control panel 4-5-3, described Switch main body 4-5-1 is also provided with signal receiving device 4-5-4, described intelligent switch 4-5 also comprises the telepilot 4-5-5 matched with switch, described switch pedestal 4-5-2 is provided with transparent cover.

Further, described camera 6-1 comprises procapsid 6-1-1, back casing 6-1-2, camera body 6-1-3, support 6-1-4 and rotation supporting part 6-1-5; The both sides end wall of described procapsid 6-1-1 and back casing 6-1-2 is respectively provided with a semicircular indentations, two semicircular indentations being positioned at same side after described procapsid 6-1-1 and back casing 6-1-2 clamping are combined to form a circular shaft bore.

Further, described support 6-1-4 comprises base and is positioned at two support plates of base top; Described each support plate is provided with circular hole and blocked hole; Described rotation supporting part comprises substrate, the clamping boss matched with blocked hole on support plate protruded from substrate, the convex axle of circle matched with described axis hole protruded from substrate and the anticreep plate being positioned at convex shaft end; Described rotation supporting part is fixed on support plate by clamping boss, and described convex axle is arranged in described axis hole.

Further, described power supply 6-4 comprises power supply connecting device 6-4-1, electrical storage device 6-4-2 and protective relaying device 6-4-3.

Further, described power supply connecting device 6-4-1 comprises at least one power supply input circuit connecting external power source is connected load load output circuit with at least one.

Further, described electrical storage device 6-4-1 comprises the accumulator charging/discharging circuit connecting accumulator.

Further, described signal lamp 8-2 comprises one or more emitting led, lens and light absorption/reflecting element, and described lens receive the light from one or more LED and collimate light.

Another object of the present invention is to the single-chip microcomputer inter-signal interference relationship analysis method that a kind of described removable new energy marine platform control system is provided, the some characteristic parameters of this inter-signal interference relationship analysis method determination undesired signal on wireless signal field, feature based parameter forms corresponding interference model, determines undesired signal vector to be analyzed and contrast signal eigenvector; Determine the displacement vector of undesired signal eigenvector to contrast signal eigenvector displacement calculating vector to the projection of certain latitude coordinates axle, and determines the disturbance state S of undesired signal to contrast signal in interference space; Under the prerequisite forming interference, draw the annoyance level G of undesired signal to contrast signal further;

Inter-signal interference relationship analysis method specifically comprises the following steps:

Step one, determines the some characteristic parameter CPs of undesired signal on wireless signal field, and feature based parameter forms corresponding interference space model, based on the interference space model set up, determines undesired signal eigenvector to be analyzed with contrast signal eigenvector first based on frequency F, time T, for observation station spatial domain angle Θ, polarised direction Γ and coded system C characteristic parameter set up interference characteristic space HS _iin, calculate undesired signal vector to contrast signal vector displacement vector

${\stackrel{\&RightArrow;}{D}}_{(I,S)}={\stackrel{\&RightArrow;}{V}}_I-\stackrel{\&RightArrow;}{V_S}=(f_I,t_I,{\mathrm{\&theta;}}_I,{\mathrm{\&gamma;}}_I,c_I)-(f_s,t_s,{\mathrm{\&gamma;}}_s,{\mathrm{\&theta;}}_s,c_s)=(f_I-f_s,t_I-t_s,{\mathrm{\&theta;}}_I-{\mathrm{\&theta;}}_s,{\mathrm{\&gamma;}}_1-{\mathrm{\&gamma;}}_S,c_1-c_S)$ ，

Step 2, based on interference space model, for undesired signal eigenvector definition is to contrast signal eigenvector displacement vector

；

Step 3, definition displacement vector to the projection of certain latitude coordinates axle in interference space, it is undesired signal eigenvector to contrast signal eigenvector distance in this CP dimension, namely has:

Wherein PRJ () operator representation is for the project of a certain CP dimension;

Step 4, definition undesired signal is S to the disturbance state of contrast signal, in order to represent the interference relationships of undesired signal to contrast signal;

$S(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{F_S})=\left\{\begin{array}{cc}0& \&Exists;{\mathrm{CP}}_i,d_{{\mathrm{CP}}_i,(I,S)}\&GreaterEqual;{\mathrm{\&Delta;}}_{{\mathrm{CP}}_i}\\ 1& \&ForAll;{\mathrm{CP}}_i,d_{{\mathrm{CP}}_i,(I,S)}<{\mathrm{\&Delta;}}_{{\mathrm{CP}}_i}\end{array}\right.;$

Step 5, under the prerequisite forming interference, first needs to choose and determines interference effect parameter EP, and for undesired signal, parameter is generally signal power p or energy e;

Step 6, definition undesired signal is G to the annoyance level of contrast signal, in order to weigh the disturbing effect degree of undesired signal to contrast signal; To the single mode undesired signal and the contrast signal that only comprise independent eigenvector, undesired signal vector is to the annoyance level of contrast signal vector interference effect parameter EP is utilized to assess;

$G(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{F_S})=\frac{{\mathrm{ep}}_I\&CenterDot;S(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{F_S})}{{\mathrm{ep}}_S};$

To the multimode undesired signal and the contrast signal that comprise some eigenvectors, now undesired signal is to the annoyance level G (V of contrast signal _i, V _s) undesired signal that represents with eigenvector set of definition to the annoyance level of contrast signal, be calculated as follows:

Described inter-signal interference relationship analysis method comprises further: for the multimode situation of undesired signal and each self-contained some interference characteristic vectors of contrast signal, disturbance state S (V now _i, V _s) calculate as follows:

Wherein S [V _i, V _s] _{m × N}be called as disturbance state matrix, each element in matrix represent V _iin a kth eigenvector and V _sin the disturbance state of l eigenvector, when only having that in two eigenvector set, each element does not disturb, S (V _i, V _s)=0, undesired signal does not just form interference to contrast signal; Otherwise, S (V _i, V _s) > 0, now undesired signal will form interference to contrast signal.

Principle of work:

This the present invention utilizes contactor 7 opening power, by the cooperation of power supply board 2-5, Blast Furnace Top Gas Recovery Turbine Unit (TRT) 5 electricity consumption, reduce electric cost, thrown light on by lighting device 4, intelligent switch 4-5 is utilized to realize Gao Guang, middle light, the output of multiple gear such as low light, be conducive to easy to operate, utilize supervising device 6 operation supervise and control, can be stored by memory card 6-5, base 6-3 is utilized to remove and install, can be reported to the police by audible-visual annunciator 3-1, easy to use, thus reach Best Practical effect, be conducive to rotating conveniently under the cooperation of swivel eye 1-6, safe and reliable, utilize adjusting bolt 1-7-2 can free adjustment, sleeve is provided with in elevating lever 1-7-1, can according to different distance elevatings, at scroll wheel 1-7-4, in supporting wheel 1-7-5 and skidding bar 1-7-6 cooperation under can arbitrarily move and stop thus easy to use, by the cooperation of display screen 2-2, intelligent switch 4-5 time switch can be utilized, improve intelligence degree, make to increase work efficiency under the cooperation of control device 2 and digital signal processing device 8, safe and reliable, thus consummating function diversity, reach best result of use.

Utilize technical solutions according to the invention, or those skilled in the art being under the inspiration of technical solution of the present invention, designing similar technical scheme, and reach above-mentioned technique effect, is all fall into protection scope of the present invention.

Claims (10)

1. a removable new energy marine platform control system, it is characterized in that, this removable new energy marine platform control system comprises stage apparatus, control device, guard system, lighting device, Blast Furnace Top Gas Recovery Turbine Unit (TRT), supervising device, contactor, digital signal processing device, shell, intelligent kilowatt-hour meter and cell apparatus, described control device, guard system, lighting device, Blast Furnace Top Gas Recovery Turbine Unit (TRT), supervising device, contactor, digital signal processing device, shell, intelligent kilowatt-hour meter and cell apparatus are all arranged on described stage apparatus, described control device is arranged on the lower position of described guard system, described lighting device is arranged on the upper position of described Blast Furnace Top Gas Recovery Turbine Unit (TRT), described contactor is arranged on the centre position of described supervising device and control device, described intelligent kilowatt-hour meter is arranged on the lower position of described cell apparatus,

Described stage apparatus comprises sensor ball, pressure block, compression spring, hold-down nut, ceramic substrate, swivel eye and movable base structure, described compression spring is arranged on the lower position of described hold-down nut, and described movable base vibrational power flow is at the bottom position of described compression spring; Described sensor ball is arranged on the centre position of described compression spring, described pressure block is arranged on the lower position of described sensor ball, described ceramic substrate is arranged on the lower position of described pressure block, and described swivel eye is arranged on the upper position of described ceramic substrate;

Described control device comprises master switch, display screen, electric device, vane, power supply board and pilot lamp, described master switch is arranged on the right side of electric device by being electrically connected, described display screen is arranged on the top of described electric device by being electrically connected, described vane is arranged on the bottom of described electric device and master switch by being electrically connected, described power supply board is arranged on the bottom of described display screen by being electrically connected, described pilot lamp is arranged on the right upper portion position of described display screen;

Described guard system connects described supervising device, and described guard system comprises audible-visual annunciator and warning flashing lamp, and described audible-visual annunciator is arranged on the leftward position of warning flashing lamp;

Described lighting device comprises illuminating lamp shade, battery, illuminating lamp, relay indicating light and intelligent switch, described illuminating lamp shade is arranged on the upper position of described battery, described illuminating lamp is arranged on the lower position of described illuminating lamp shade, and described relay indicating light is arranged on the upper position of described intelligent switch;

Described supervising device comprises camera, support bar, base, power supply, memory card, protection camera lens and guard shield, described camera is arranged on the centre of described guard shield by being electrically connected, described support bar is arranged on the bottom of described guard shield, described base is arranged on the bottom of described camera by being electrically connected, described power supply is arranged on the centre of described base by being electrically connected, described memory card is arranged on the centre of described guard shield, and described protection camera lens is arranged on the periphery of described camera;

Described digital signal processing device comprises single-chip microcomputer, signal lamp and chip, and described single-chip microcomputer is arranged on the leftward position of described signal lamp, and described chip is arranged on the right positions of described signal lamp.

2. removable new energy marine platform control system as claimed in claim 1, it is characterized in that, described movable base structure comprises elevating lever, adjusting bolt, connect buckle, scroll wheel, wheel and skidding bar in supporting, described adjusting bolt is arranged on the upper position of wheel in described support, described elevating lever is arranged on the upper position of wheel in described support, described connection buckle is arranged on the top link position of wheel in described support, described scroll wheel is arranged on the external position of wheel in described support, described skidding bar is arranged on the outer fix of described scroll wheel.

3. removable new energy marine platform control system as claimed in claim 1, it is characterized in that, described display screen comprises display panel, elementary layer, adhesive linkage, described elementary layer is arranged on the outside of described display panel, described adhesive linkage is arranged between described display panel and described elementary layer, wherein, first edge being adhered to the bonding plane of described display panel of described adhesive linkage and second edge being adhered to the bonding plane of described elementary layer of described adhesive linkage are shifted mutually along bonding plane direction.

4. removable new energy marine platform control system as claimed in claim 1, it is characterized in that, described audible-visual annunciator comprises alarm body, power supply, LED display, noise filtering and speaker unit and intelligent control circuit plate, described LED display is provided with on front side of described alarm body, described noise filtering and speaker unit is provided with on the right side of described alarm body, described alarm body is provided with power supply, and described alarm body interior is provided with described intelligent control circuit plate.

5. removable new energy marine platform control system as claimed in claim 1, it is characterized in that, described illuminating lamp comprises lamp body and charging part, described lamp body is placed in described accommodating cavity, and be electrically connected with described charging part, described charging part comprises some charging panels, and multiple described charging panel is rotationally connected each other, and surround host cavity, and multiple charging panel is electrically connected to each other.

6. removable new energy marine platform control system as claimed in claim 5, it is characterized in that, described lamp body comprises body, lamp socket and bulb, and described lamp socket is arranged in described charging part, described body is connected with described lamp socket, and described bulb is arranged on described body.

7. removable new energy marine platform control system as claimed in claim 1, it is characterized in that, described intelligent switch comprises Switch main body and is fixedly connected with switch pedestal, described Switch main body is provided with control panel, the digital button that described control panel is provided with control chip and is connected with control chip, power switch button and time set button, the display screen be connected with control panel is provided with above described control panel, described Switch main body is also provided with signal receiving device, described intelligent switch also comprises the telepilot matched with switch, described switch pedestal is provided with transparent cover.

8. removable new energy marine platform control system as claimed in claim 1, it is characterized in that, described camera comprises procapsid, back casing, camera body, support and rotation supporting part; The both sides end wall of described procapsid and back casing is respectively provided with a semicircular indentations, two semicircular indentations being positioned at same side after described procapsid and back casing clamping are combined to form a circular shaft bore.

9. removable new energy marine platform control system as claimed in claim 8, is characterized in that, described support comprises base and is positioned at two support plates of base top; Described each support plate is provided with circular hole and blocked hole; Described rotation supporting part comprises substrate, the clamping boss matched with blocked hole on support plate protruded from substrate, the convex axle of circle matched with described axis hole protruded from substrate and the anticreep plate being positioned at convex shaft end; Described rotation supporting part is fixed on support plate by clamping boss, and described convex axle is arranged in described axis hole;

Described power supply comprises power supply connecting device, electrical storage device and protective relaying device; Described power supply connecting device comprises at least one power supply input circuit connecting external power source is connected load load output circuit with at least one; Described electrical storage device comprises the accumulator charging/discharging circuit connecting accumulator; Described signal lamp comprises one or more emitting led, lens and light absorption/reflecting element, and described lens receive the light from one or more LED and collimate light.

10. the single-chip microcomputer inter-signal interference relationship analysis method of a removable new energy marine platform control system as claimed in claim 1, it is characterized in that, the some characteristic parameters of this inter-signal interference relationship analysis method determination undesired signal on wireless signal field, feature based parameter forms corresponding interference model, determines undesired signal vector to be analyzed and contrast signal eigenvector; Determine the displacement vector of undesired signal eigenvector to contrast signal eigenvector displacement calculating vector to the projection of certain latitude coordinates axle, and determines the disturbance state S of undesired signal to contrast signal in interference space; Under the prerequisite forming interference, draw the annoyance level G of undesired signal to contrast signal further;

Inter-signal interference relationship analysis method specifically comprises the following steps:

Step one, determines the some characteristic parameter CPs of undesired signal on wireless signal field, and feature based parameter forms corresponding interference space model, based on the interference space model set up, determines undesired signal eigenvector to be analyzed with contrast signal eigenvector first based on frequency F, time T, for observation station spatial domain angle Θ, polarised direction Γ and coded system C characteristic parameter set up interference characteristic space HS _iin, calculate undesired signal vector to contrast signal vector displacement vector

${\stackrel{\&RightArrow;}{D}}_{(I,S)}={\stackrel{\&RightArrow;}{V}}_I-{\stackrel{\&RightArrow;}{V}}_S=(f_I,t_I,{\mathrm{\&theta;}}_I,{\mathrm{\&gamma;}}_I,c_I)-(f_s,t_s,{\mathrm{\&gamma;}}_s,{\mathrm{\&theta;}}_s,c_s)=(f_I-f_s,t_I-t_s,{\mathrm{\&theta;}}_I-{\mathrm{\&theta;}}_s,{\mathrm{\&gamma;}}_I-{\mathrm{\&gamma;}}_S,c_I-c_S)$ ；

Step 2, based on interference space model, for undesired signal eigenvector definition is to contrast signal eigenvector displacement vector

；

Step 3, definition displacement vector to the projection of certain latitude coordinates axle in interference space, it is undesired signal eigenvector to contrast signal eigenvector distance in this CP dimension, namely has:

Wherein PRJ () operator representation is for the project of a certain CP dimension;

Step 4, definition undesired signal is S to the disturbance state of contrast signal, in order to represent the interference relationships of undesired signal to contrast signal;

$S(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{V_S})=\left\{\begin{array}{cc}0& \&Exists;{\mathrm{CP}}_i,d_{{\mathrm{CP}}_i,(I,S)}\&GreaterEqual;{\mathrm{\&Delta;}}_{{\mathrm{CP}}_i}\\ 1& \&ForAll;{\mathrm{CP}}_i,d_{{\mathrm{CP}}_i,(I,S)}<{\mathrm{\&Delta;}}_{{\mathrm{CP}}_i}\end{array}\right.;$

Step 5, under the prerequisite forming interference, first needs to choose and determines interference effect parameter EP, and for undesired signal, parameter is generally signal power p or energy e;

Step 6, definition undesired signal is G to the annoyance level of contrast signal, in order to weigh the disturbing effect degree of undesired signal to contrast signal; To the single mode undesired signal and the contrast signal that only comprise independent eigenvector, undesired signal vector is to the annoyance level of contrast signal vector interference effect parameter EP is utilized to assess;

$G(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{V_S})=\frac{{\mathrm{ep}}_I\&CenterDot;S(\stackrel{\&RightArrow;}{V_I},\stackrel{\&RightArrow;}{V_S})}{{\mathrm{ep}}_s};$

To the multimode undesired signal and the contrast signal that comprise some eigenvectors, now undesired signal is to the annoyance level G (V of contrast signal _i, V _s) undesired signal that represents with eigenvector set of definition to the annoyance level of contrast signal, be calculated as follows:

Described inter-signal interference relationship analysis method comprises further: for the multimode situation of undesired signal and each self-contained some interference characteristic vectors of contrast signal, disturbance state S (V now _i, V _s) calculate as follows:

Wherein S [V _i, V _s] _{m × N}be called as disturbance state matrix, each element in matrix represent V _iin a kth eigenvector and V _sin the disturbance state of l eigenvector, when only having that in two eigenvector set, each element does not disturb, S (V _i, V _s)=0, undesired signal does not just form interference to contrast signal; Otherwise, S (V _i, V _s) > 0, now undesired signal will form interference to contrast signal.