CN206930564U - Photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision - Google Patents

Abstract

Photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision, photovoltaic devices (4) and capacitor charge and discharge device (9) are installed on casing (1), middle part installation support frame (2) in casing (1), it is hinged in the middle part of rocker (3) on support frame (2), casing (1) inner bottom part both sides are installed by one electromagnetic susceptor (8) respectively, one section of flexible armature (6), capacitor charge and discharge device (9) and electromagnetic susceptor (8) are respectively articulated with the downside of rocker (3) both ends.Capacitor charge and discharge is driven to be switched on or switched off relay to drive rocker to swing up and down using photovoltaic energy, test products are made periodically to sink in liquid environment, drying and watering cycle operating mode is simulated, it is simple for structure for simulating ocean submerged zone corrosive environment in laboratory, it is easily worked, material is saved, work energy-saving safety is stable, and production and job costs are relatively low, device is run in experimentation more to be stablized, and improves the stability and reliability of experiment.

Description

Photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision

Technical field

It the utility model is related to the corrosive environment in marine structure physical test simulation field Imitating ocean mesotidal range area Improved technology, especially photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision.

Background technology

At present, as offshore based installations are largely built, marine corrosion problem is more prominent, in the prior art, for mould The experimental provision for intending marine environment drying and watering cycle controls multiple magnetic valve, sensor, control panel and relays frequently with computer Deng sample groove is too high in the top of left and right support, center of gravity, dumb, sample is moved in operation, may increase The variable of experiment, experimentation is unstable, and cost is higher so as to can cause, and experimentation has significant limitation, influences reality The result tested.

Utility model content

The purpose of this utility model is to provide photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision, for simulating sea The corrosive environment of midocean Tidal zone.

The purpose of this utility model will be realized by following technical measures：Including casing, support frame, rocker, photovoltaic dress Put, flexible armature, electromagnetic susceptor, capacitor charge and discharge device and test products；Photovoltaic devices and capacitor charge and discharge are installed on casing Device, the interior middle part installation support frame of casing, rocker middle part are hinged on support frame, and an electricity is installed in casing inner bottom part both sides respectively Magnetic pedestal, rocker both ends downside are respectively articulated with one section of flexible armature, capacitor charge and discharge device and electromagnetic susceptor.

Especially, support frame, which is erect, is arranged on middle part in casing, and support frame upper end is hinged in the middle part of rocker.

Especially, photovoltaic devices be arranged on cabinet exterior on or top.

Especially, one section of connecting rod is respectively articulated with the downside of rocker both ends, connecting rod lower end is hinged with flexible armature upper end.

Especially, hinge post is installed at casing inner bottom part both ends respectively, and flexible armature lower end is connected on hinge post.

Especially, capacitor charge and discharge device is arranged on by electromagnetic susceptor.

The advantages of the utility model and effect：Capacitor charge and discharge is driven to be switched on or switched off relay to drive using photovoltaic energy Movable pendulum frame is swung up and down, and test products is periodically sunk in liquid environment, drying and watering cycle operating mode is simulated, in laboratory Ocean submerged zone corrosive environment is simulated, it is simple for structure, it is easily worked, saves material, work energy-saving safety is stable, production and work Cost is relatively low, and device is run in experimentation more to be stablized, and improves the stability and reliability of experiment.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model embodiment 1.

Reference includes：

Casing 1, support frame 2, rocker 3, photovoltaic devices 4, connecting rod 5, flexible armature 6, hinge post 7, electromagnetic susceptor 8, electric capacity fill Electric discharge device 9, test products 10.

Embodiment

The utility model principle is that the daily tide bulge and fall in ocean is to cause with the drying and watering cycle caused by waves splash about Offshore engineering equipment and instrument are by one of an important factor for marine corrosion.Experimental facilities to be measured needs periodically to sink to In vivo, can be with the mechanical periodicity of analogue simulation humidity dry environment.

The utility model includes：Casing 1, support frame 2, rocker 3, photovoltaic devices 4, flexible armature 6, electromagnetic susceptor 8, electric capacity Charge and discharge device 9 and test products 10.

The utility model is described in further detail with reference to the accompanying drawings and examples.

Embodiment 1：As shown in Figure 1, photovoltaic devices 4 and capacitor charge and discharge device 9, the interior middle part of casing 1 are installed on casing 1 Support frame 2 is installed, the middle part of rocker 3 is hinged on support frame 2, and an electromagnetic susceptor 8 is installed in the inner bottom part both sides of casing 1 respectively, pendulum One section of flexible armature 6, capacitor charge and discharge device 9 and electromagnetic susceptor 8 are respectively articulated with the downside of the both ends of frame 3.

In foregoing, support frame 2, which is erect, is arranged on middle part in casing 1, and the middle part of rocker 3 is hinged on the upper end of support frame 2.

In foregoing, photovoltaic devices 4 are arranged on the outer wall of casing 1 or top.

In foregoing, one section of connecting rod 5 is respectively articulated with the downside of the both ends of rocker 3, the lower end of connecting rod 5 is hinged with the flexible upper end of armature 6.

In foregoing, hinge post 7 is installed at the inner bottom part both ends of casing 1 respectively, and the flexible lower end of armature 6 is connected on hinge post 7.

In foregoing, capacitor charge and discharge device 9 is arranged on by electromagnetic susceptor 8.

In the utility model, test products 10 are placed in the both ends of rocker 3, generated electricity after photovoltaic devices 4 receive sunshine to Capacitor charge and discharge device 9, when capacitor charge and discharge device 9 is reached rated capacity value by electricity, electric discharge conducting electromagnetic susceptor 8 produces electricity Magnetic attraction, adhesive flexibility armature 6 as much as possible, flexible armature 6, which drives, to be dragged the end of rocker 3 and sinks to making the end under traction link 5 The test products 10 of placement are sunk in the simulated seawater of the inner bottom part of casing 1, into wet environment；Accordingly, the other end of rocker 3 electricity Hold charge and discharge device 9 and be in charging process, and the end rocker 3 is upwarped the disengaging water surface and is entered dry environment.

The utility model, it is switched on or switched off relay to drive swing rod to swing up and down using capacitor charge and discharge, produces experiment Product are periodically sunk in liquid environment, simulate drying and watering cycle operating mode, for simulating ocean submerged zone corrosive environment in laboratory, The experiment different with sample size is met is adapted to, certain material base is provided for follow-up electrochemistry experiment.

Claims (6)

1. photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision, including casing (1), support frame (2), rocker (3), photovoltaic Device (4), flexible armature (6), electromagnetic susceptor (8), capacitor charge and discharge device (9) and test products (10)；Characterized in that, case Photovoltaic devices (4) and capacitor charge and discharge device (9) are installed, support frame (2), rocker (3) are installed in middle part in casing (1) on body (1) Middle part is hinged on support frame (2), and an electromagnetic susceptor (8) is installed in casing (1) inner bottom part both sides respectively, under rocker (3) both ends Side is respectively articulated with one section of flexible armature (6), capacitor charge and discharge device (9) and electromagnetic susceptor (8).

2. photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision as claimed in claim 1, it is characterised in that support frame (2) erect and be arranged on middle part in casing (1), support frame (2) upper end is hinged in the middle part of rocker (3).

3. photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision as claimed in claim 1, it is characterised in that photovoltaic fills (4) are put on casing (1) outer wall or top.

4. photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision as claimed in claim 1, it is characterised in that rocker (3) one section of connecting rod (5) is respectively articulated with the downside of both ends, connecting rod (5) lower end is hinged with flexible armature (6) upper end.

5. photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision as claimed in claim 1, it is characterised in that casing (1) hinge post (7) is installed at inner bottom part both ends respectively, and flexible armature (6) lower end is connected on hinge post (7).

6. photovoltaic driving oceanographic equipment simulation drying and watering cycle experimental provision as claimed in claim 1, it is characterised in that electric capacity fills It is other that electric discharge device (9) is arranged on electromagnetic susceptor (8).