CN109653996A - Movable ocean tide can pump the stationary cylinder assembly of equipment - Google Patents

Abstract

The invention discloses the stationary cylinder assemblies that a kind of movable ocean tide can pump equipment, it includes vertical support column, the upper stationary cylinder being fixed on vertical support column, lower stationary cylinder, upper telescoping cylinder ontology, the first conduit assembly being connected to upper stationary cylinder, the second conduit assembly being connected to lower stationary cylinder, lower telescoping cylinder ontology and the diving cylinder to be drifted along by gas regulation, it is all closed at the top of the bottom of upper stationary cylinder and lower stationary cylinder, the lower part of upper telescoping cylinder ontology is connected with upper stationary cylinder, the top of lower telescoping cylinder ontology is connected with lower stationary cylinder, the lower part of lower telescoping cylinder ontology is connected with diving cylinder.Movable ocean tide of the present invention can pump the stationary cylinder assembly of equipment using such structure, enable water pumping equipment to improve the efficiency that seawater is delivered on seawater levels, reduce use cost, be conducive to the popularization and application that ocean tidal power pumps equipment.

Description

Movable ocean tide can pump the stationary cylinder assembly of equipment

Technical field

Equipment more particularly to a kind of movable ocean tide, which can be pumped, the present invention relates to a kind of movable ocean tide to pump The stationary cylinder assembly of wetting system.

Background technique

The variation of lunar gravitation can cause tidal phenomena, and tide causes seawater levels periodically to go up and down, because of seawater falling And seawater flows generated energy, referred to as tide energy.Ocean tidal power has been directed to sea as a kind of clean energy resource, people The utilization of foreign tide energy, Chinese patent disclose a kind of ocean tidal power telescoping cylinder water pump, including floating body assembly, telescoping cylinder and under Pedestal cylinder, the floating body assembly are located at the top of telescoping cylinder, and the lower bottom base cylinder is located at the lower section of telescoping cylinder, under described Pedestal cylinder has discharge outlet, and the telescoping cylinder is made of two ring flanges and telescoping cylinder ontology, and telescoping cylinder ontology is located at two Between ring flange, the floating body assembly has multiple hollow upper floating drums, has when ebb tide in the cavity of the upper floating drum The seawater of floating drum weight in increase.The floating body assembly is provided with shoring, multiple hollow upper floating drums with it is upper Shoring is linked together, and has telescoping cylinder water inlet control valve on the upper shoring.Two ring flanges of the telescoping cylinder It is connect respectively by bolt and nut auxiliary connection with upper shoring and lower bottom base cylinder, the top of the upper floating drum is ventilated with upper floating drum The bottom of pipe, upper floating drum has upper floating drum into draining control valve.It is connected with bottom plate below the lower bottom base cylinder, is fixed on bottom plate There is support column, the support column passes through lower bottom base cylinder edge and upper shoring edge.At the discharge outlet of the lower bottom base cylinder It is provided with telescoping cylinder draining control valve.Although such ocean tidal power telescoping cylinder water pump can be widely applied to oceanic tide water storage Power generation, sea water desalination, sea-farming, seawater are evaporated brine etc..But only pass through control using the drop of oceanic tide in ebb tide Upper floating drum is put into seawater in high tide level and is increased into draining floating drum overall weight, realizes during ebb tide, and compression telescoping cylinder makes Seawater in lower bottom base cylinder generates high pressure, realizes and pumps.The ocean tidal power telescoping cylinder water pump of this spline structure is due to real at sea It applies, transport and mounting cost are high, how to improve the efficiency that seawater is delivered on seawater levels and are of great significance.

Summary of the invention

The stationary cylinder that equipment can be pumped technical problem to be solved by the invention is to provide a kind of movable ocean tide is total Using to pump equipment and improve seawater and being delivered to for the stationary cylinder assembly of equipment can be pumped at, this kind of movable ocean tide Efficiency on seawater levels reduces use cost.

In order to solve the above technical problems, the technical scheme is that a kind of movable ocean tide can pump equipment Stationary cylinder assembly comprising vertical support column, the upper stationary cylinder being fixed on vertical support column, lower stationary cylinder, upper telescoping cylinder sheet Body, the first conduit assembly being connected to upper stationary cylinder, the second conduit assembly being connected to lower stationary cylinder, lower telescoping cylinder ontology and logical The diving cylinder that gas regulation is drifted along is crossed, is all closed at the top of the bottom of upper stationary cylinder and lower stationary cylinder, under upper telescoping cylinder ontology Portion is connected with upper stationary cylinder, and the top of lower telescoping cylinder ontology is connected with lower stationary cylinder, the lower part of lower telescoping cylinder ontology and diving cylinder It is connected.

There is the diving cylinder ballast tank, diving cylinder water chamber, relief valve and diving cylinder intake-discharge pipe, ballast tank to be located at Dive under water cylinder water chamber top, relief valve be located at diving cylinder water chamber top and with diving cylinder water chamber be connected to, dive under water cylinder into Drainpipe is located at the lower part of diving cylinder, and vertical support column passes through diving cylinder.

There is the stainless steel plate with multiple through-holes between the ballast tank and diving cylinder water chamber.

The upper telescoping cylinder ontology is connect with upper stationary cylinder by bolt and nut auxiliary connection, the lower telescoping cylinder ontology It is connect with lower stationary cylinder by bolt and nut auxiliary connection.

Movable ocean tide of the present invention can pump the stationary cylinder assembly of equipment using such structure, so that pumping equipment The efficiency that seawater is delivered on seawater levels can be improved, use cost is reduced, is conducive to ocean tidal power and pumps pushing away for equipment Wide application.

Detailed description of the invention

The stationary cylinder assembly that equipment can be pumped to movable ocean tide of the present invention with reference to the accompanying drawing is made further detailed Ground explanation；

Fig. 1 is the structural schematic diagram that movable ocean tide can pump equipment；

Fig. 2 is the structural schematic diagram in portion shown in FIG. 1 of drifting along；

In Fig. 1, Fig. 2,1, lower telescoping cylinder ontology；2, stationary cylinder fastener；3, upper stationary cylinder；4, vertical support column；5, Upper floating drum is into draining control valve；6, upper floating drum；7, telescoping cylinder water inlet control valve；8, upper floating drum snorkel；9, platform；10, upper branch Support cylinder；11, ring flange；12, upper telescoping cylinder ontology；13, the first conduit assembly；14, the second conduit assembly；15, lower stationary cylinder； 16, it drifts along portion；17, locating part；18, lower buoyancy tank；19, cylinder is contained；20, gas-guide tube；21, ballast tank；22, relief valve；23, it dives under water Cylinder water chamber；24, diving cylinder intake-discharge pipe；25, flexible cable；26, seafloor foundation.

Specific embodiment

As shown in Figure 1 and Figure 2, movable ocean tide can pump equipment include seafloor foundation 26, flexible cable 25, lower buoyancy tank 18, More than two vertical support columns 4, stationary cylinder component, upper telescoping cylinder component and lower telescoping cylinder component, more than two vertical support columns 4 Lower end and lower buoyancy tank 18 it is affixed, the upper end of flexible cable 25 connects lower buoyancy tank 18, and the lower end of flexible cable 25 connects seafloor foundation 26, two The top of the above vertical support column 4 is provided with platform 9.Upper telescoping cylinder component is located at the top of stationary cylinder component, lower telescoping cylinder portion Part is located at the lower part of stationary cylinder component, upper telescoping cylinder component and lower telescoping cylinder component each along vertical 4 upper and lower displacement of support column, on Seawater is delivered on seawater levels when telescoping cylinder component ebb tide, seawater is delivered to seawater when rising and put down by lower telescoping cylinder component On face.Stationary cylinder component includes that the upper stationary cylinder 3 being fixed on vertical support column 4, lower stationary cylinder 15 and upper stationary cylinder 3 connect The bottom closing of the first logical conduit assembly 13 and the second conduit assembly 14 being connected to lower stationary cylinder 15, upper stationary cylinder 3, it is lower solid Determine the top closed of cylinder 15.

Upper telescoping cylinder component includes upper telescoping cylinder ontology 12, upper shoring 10 and floating drum portion, and upper shoring 10, which is located at, above to be stretched The lower part of the top of contracting cylinder ontology 12, upper telescoping cylinder ontology 12 is communicated with stationary cylinder 3, and upper shoring 10 and floating drum portion are linked as one Body, floating drum portion have multiple hollow upper floating drums 6, the seawater in the cavity of upper floating drum 6 with the upper floating drum weight of increase when ebb tide, Upper shoring 10 is provided with telescoping cylinder water inlet control valve 7, has ring flange 11 between upper telescoping cylinder ontology 12 and upper shoring 10, Upper telescoping cylinder ontology 12 is connect with stationary cylinder 3 by bolt and nut auxiliary connection, and vertical support column 4 passes through upper shoring 10, is floated The top of cylinder 6 has upper floating drum snorkel 8, and the bottom of upper floating drum 6 has upper floating drum into draining control valve 5.

Lower telescoping cylinder component includes the portion of drifting along of lower telescoping cylinder ontology 1 and air inlet draining adjustment lifting, under the portion of drifting along is located at The lower section of telescoping cylinder ontology 1, portion of drifting along are linked together with lower telescoping cylinder ontology 1, the top of lower telescoping cylinder ontology 1 and stationary cylinder 3 It communicates, vertical support column 4 passes through portion of drifting along, and the lower part of vertical support column 4 is provided with the locating part 17 for supporting portion of drifting along.It drifts along portion Including the Sheng cylinder 19 with high pressure gas and the diving cylinder to be drifted along by gas regulation, cylinder of diving under water has ballast tank 21, diving Cylinder water chamber 23, relief valve 22 and diving cylinder intake-discharge pipe 24, ballast tank 21 are located at the top of diving cylinder water chamber 23, ballast tank There is the stainless steel plate with multiple through-holes, ballast tank 21 is connected with Sheng cylinder by gas-guide tube 20 between 21 and diving cylinder water chamber 23 Logical, gas-guide tube has air intake control valve, and relief valve 22 is located at the top of diving cylinder water chamber 23 and connects with diving cylinder water chamber 23 Logical, diving cylinder intake-discharge pipe 24 is located at the lower part of diving cylinder, has at cylinder intake-discharge pipe of diving under water into draining control valve, vertical to support Column 4 passes through diving cylinder, and containing cylinder 19 with diving cylinder is the structure being connected, and vertical support column 4, which passes through, contains cylinder 19.

Dive under water cylinder and contain cylinder due to will along vertical support column upper and lower displacement, can will diving cylinder and contain cylinder vertical There are adaptable through-holes for the position that support column passes through, and containing cylinder will be connected to high pressure gas control unit, high pressure gas control unit It is placed on platform 9, intakes in order to prevent, the additional caisson of high pressure gas control unit.Diving cylinder can use multiple unit groups It closes, containing cylinder can be combined using multiple units.

When filling water in the diving cylinder of lower telescoping cylinder component, the portion of drifting along is in low level and contacts with locating part 17, portion of drifting along The high pressure gas for containing cylinder enters ballast tank 21 by gas-guide tube 20, and relief valve 22 is in close state at this time, and diving cylinder is being pressed It is drained outward under the action of strong by diving cylinder intake-discharge pipe 24, the portion of drifting along rises, and lower flexible cylinder volume reduces, and passes through lower fixation Seawater is delivered on seawater levels by the second conduit assembly of cylinder.When the portion of drifting along is in a high position, relief valve 22, which is in, to be opened State, cylinder pressure release of diving under water, seawater enter diving cylinder by diving cylinder intake-discharge pipe 24, when filling water in cylinder of diving under water, at portion of drifting along It is contacted in low level with locating part 17, completes one cycle.

The arrangement for containing cylinder is not limited to above structure, and containing cylinder may be at the top of diving cylinder, diving cylinder and The arrangement for containing cylinder can also be using the side of diving cylinder with the Sheng cylinder to diving cylinder gas injection.The portion of drifting along can also adopt With the structure for arranging air bag in diving cylinder.

The movable ocean tide of this spline structure can pump equipment, compared with prior art, increase positioned at sea level it Under lower telescoping cylinder assembly, lower telescoping cylinder component along vertical support column upper and lower displacement, drifted along portion by air bearing principle with adjustment Raising and lowering, then seawater is delivered on seawater levels by stationary cylinder component.In this way, can improve seawater is delivered to seawater The pumping water device of efficiency on plane, a kind of ocean tidal power of the present invention and air bearing linkage due at sea implementing, transport and Mounting cost is high, and improving seawater, to be delivered to the efficiency on seawater levels significant, can reduce use cost, advantageous Yu Haiyang The popularization and application of tide energy and the pumping water device of air bearing linkage.

In production, stationary cylinder assembly is critical component, stationary cylinder assembly include be fixed in it is upper solid on vertical support column Determine cylinder, lower stationary cylinder, upper telescoping cylinder ontology, the first conduit assembly being connected to upper stationary cylinder, be connected to lower stationary cylinder second Conduit assembly, lower telescoping cylinder ontology and the diving cylinder to be drifted along by gas regulation, diving cylinder can use for reference the prior art, such as in State's patent publication No. is the utility model patent of CN207292355U, discloses a kind of lifting device that drifts along of submersible, including The bottom ballast tank of tail portion is extended to by the stem of submersible, the bottom ballast tank is equipped with several into drainage hole, bottom pressure It carries and is evenly arranged several air bags in cabin, several air bags are furnished with independent gas source.Bottom ballast tank uniform discharge water, submersible float Heavy process is more stable.China Patent Publication No. is the utility model patent of CN203513319U, discloses a kind of air bearing flow tank, There is air-floating apparatus including air bearing cabinet, air buoyancy tank Ligation in vitro, air-floating apparatus includes air dissolved pump and separator tube, peace in air buoyancy tank body Equipped with side by side, oblique vertical multiple stainless steel inclined plates, bottom has with mesh and the collector pipe that connect with water outlet in air buoyancy tank body.In State's patent publication No. is the utility model patent of CN207089615U, discloses a kind of floating gear of adjustable state of drifting along, Including the shell with inner cavity and the connector for being attached with diving apparatus, the shell is equipped with water-through valve and is used for The charge valve connecting with charger, the connector are arranged on shell.

Claims (4)

1. the stationary cylinder assembly that a kind of movable ocean tide can pump equipment, it is characterised in that: it includes vertical support column, consolidates Upper stationary cylinder, lower stationary cylinder, the upper telescoping cylinder ontology, the first water pipe group being connected to upper stationary cylinder being connected on vertical support column Part, the second conduit assembly being connected to lower stationary cylinder, lower telescoping cylinder ontology and the diving cylinder to be drifted along by gas regulation, upper fixation It is all closed at the top of the bottom of cylinder and lower stationary cylinder, the lower part of upper telescoping cylinder ontology is connected with upper stationary cylinder, lower telescoping cylinder ontology Top be connected with lower stationary cylinder, the lower part of lower telescoping cylinder ontology is connected with diving cylinder.

2. the stationary cylinder assembly that movable ocean tide according to claim 1 can pump equipment, it is characterised in that: described Diving cylinder have ballast tank, diving cylinder water chamber, relief valve and diving cylinder intake-discharge pipe, ballast tank be located at diving cylinder water chamber Top, relief valve be located at diving cylinder water chamber top and with diving cylinder water chamber be connected to, diving cylinder intake-discharge pipe be located at dive The lower part of water vat, vertical support column pass through diving cylinder.

3. the stationary cylinder assembly that movable ocean tide according to claim 2 can pump equipment, it is characterised in that: described Ballast tank and diving cylinder water chamber between have the stainless steel plate with multiple through-holes.

4. the stationary cylinder assembly that movable ocean tide according to claim 7 can pump equipment, it is characterised in that: described Upper telescoping cylinder ontology connect with upper stationary cylinder by bolt and nut auxiliary connection, the lower telescoping cylinder ontology and lower stationary cylinder are logical Cross the connection of bolt and nut auxiliary connection.