CN205616633U - Automatic air entrainment oxygenation device of wave driven - Google Patents

Automatic air entrainment oxygenation device of wave driven Download PDF

Info

Publication number
CN205616633U
CN205616633U CN201620269621.4U CN201620269621U CN205616633U CN 205616633 U CN205616633 U CN 205616633U CN 201620269621 U CN201620269621 U CN 201620269621U CN 205616633 U CN205616633 U CN 205616633U
Authority
CN
China
Prior art keywords
float
inflator pump
piston
telescopic supporting
dissolved oxygen
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201620269621.4U
Other languages
Chinese (zh)
Inventor
尹则高
高成岩
杨晓宇
马琳
杨博
李晓楠
郝帅
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ocean University of China
Original Assignee
Ocean University of China
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ocean University of China filed Critical Ocean University of China
Priority to CN201620269621.4U priority Critical patent/CN205616633U/en
Application granted granted Critical
Publication of CN205616633U publication Critical patent/CN205616633U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/10Biological treatment of water, waste water, or sewage

Abstract

The utility model discloses an automatic air entrainment oxygenation device of wave driven, float below including inflator pump, piston and being located the inflator pump, the piston includes piston head and piston rod, the piston head with the inner wall in close contact with of inflator pump, the one end of piston rod with the piston head rigid coupling, the other end with the float rigid coupling, the top of inflator pump is equipped with inlet port check valve and venthole check valve respectively, the venthole check valve is connected with the outlet duct, the outer wall of inflator pump still is equipped with two at least angle can be adjusted's flexible bracing piece, be equipped with two stretch cords on the float, and two stretch cords are connected respectively on the flexible bracing piece of two differences, the bottom of float still is equipped with dissolved oxygen detection alarm device. The utility model discloses automatic air entrainment oxygenation device of wave driven can solve the current oxygenation device that contains float and piston, causes the problem that breaks away from of float and piston during the operation easily.

Description

The automatic aeration oxygen-increasing device that a kind of wave drives
Technical field
This utility model belongs to Environmental Water power technology field, is specifically related to the automatic aeration oxygen-increasing device that a kind of wave drives.
Background technology
Wave-energy power generation is one of main project of marine energy exploitation, is the important component part of the regenerative resource of cleanliness without any pollution.The exploitation of wave energy are increasingly subject to pay attention to, and in the face of the immense pressure of energy scarcity with environmental pollution, along with the development of ocean new and high technology, the utilization of wave energy has wide prospect.
The oxygenation way of the impaired water body the most relatively low to dissolved oxygen concentration mainly has physics, chemistry and biological method etc..But the existing oxygen-increasing device comprising float and piston, its device limiting the movable amplitude of float, during plant running, easily cause the disengaging of float and piston.
Utility model content
The purpose of this utility model is to provide the automatic aeration oxygen-increasing device that a kind of wave drives, and can solve the existing oxygen-increasing device comprising float and piston, the problem easily causing float and the disengaging of piston during operation.
The automatic aeration oxygen-increasing device that a kind of wave that this utility model provides drives, including inflator pump, piston and be positioned at the float below inflator pump, described piston includes piston head and piston rod, described piston head is in close contact with the inwall of described inflator pump, one end of described piston rod is affixed with described piston head, the other end is affixed with described float, the top of described inflator pump is respectively equipped with air inlet check valve and venthole check valve, described venthole check valve connects escape pipe, the outer wall of described inflator pump is additionally provided with the telescopic supporting rod of at least two angle adjustable, described float is provided with two stretch cords, and described two stretch cords are connected on two different telescopic supporting rods, the bottom of described float is additionally provided with dissolved oxygen detection alarm device.
Preferably, described telescopic supporting rod is provided with the screw mandrel vertical with telescopic supporting rod near one end of described inflator pump, the fixing nut mating socket with described screw mandrel vertically it is provided with on the outer wall of described inflator pump, also it is bolted with the first traveling nut and the second traveling nut on described screw mandrel, and the first traveling nut and the second traveling nut are respectively arranged on the both sides of described fixing nut.
Preferably, described telescopic supporting rod is provided with retainer ring, and one end of described stretch cord is fixed on float, and the other end is fixed with snak link, and described stretch cord is connected in retainer ring by snak link.
Preferably, the bottom of described float is additionally provided with compartment, described dissolved oxygen detection alarm device includes dissolved oxygen sensor, single-chip microcomputer and the buzzer being sequentially connected electrically, described dissolved oxygen sensor includes sensor body and probe, described sensor body, single-chip microcomputer and buzzer are all located at inside described compartment, the probe of described dissolved oxygen sensor is through bottom compartment, and is connected to outside described compartment.
The automatic aeration oxygen-increasing device that this utility model wave drives, easily causes the disengaging of float and piston during plant running.Additionally, by the telescopic supporting rod arranging adjustable angle, can have preferable motility with the height of adjusting means;By arranging dissolved oxygen detection alarm device, the alarm function of minimum oxyty can be played.
Accompanying drawing explanation
Fig. 1 is the structural representation of the automatic aeration oxygen-increasing device that this utility model wave drives;
Fig. 2 is inflator pump and the connection diagram of telescopic supporting rod in the automatic aeration oxygen-increasing device that this utility model wave drives.
In figure, 100. inflator pumps, 101. air inlet check valves, 102. venthole check valves, 103. escape pipes, 200. pistons, 300. floats, 301. stretch cords, 302. retainer ring, 303. snak links, 400. telescopic supporting rods, 401. screw mandrels, 402. fix nut, 403. first traveling nuts, 404. second traveling nuts, 500. dissolved oxygen sensors, 501. single-chip microcomputers, 502. buzzers.
Detailed description of the invention
Below in conjunction with the accompanying drawings, detailed description of the invention of the present utility model is described in detail, it is to be understood that protection domain of the present utility model is not limited by detailed description of the invention.
nullThe automatic aeration oxygen-increasing device that a kind of wave drives,The most as shown in Figure 1-2,Including inflator pump 100、Piston 200 and be positioned at the float 300 below inflator pump 100,Described piston 200 includes piston head and piston rod,Described piston head is in close contact with the inwall of described inflator pump 100,One end of described piston rod is affixed with described piston head,The other end is affixed with described float 300,The top of described inflator pump 100 is respectively equipped with air inlet check valve 101 and venthole check valve 102,Described venthole check valve 102 connects escape pipe 103,The outer wall of described inflator pump 100 is additionally provided with the telescopic supporting rod 400 of at least two angle adjustable,Described float 300 is provided with two stretch cords 301,And described two stretch cords 301 are connected on two different telescopic supporting rods 400,The bottom of described float 300 is additionally provided with dissolved oxygen detection alarm device.
Described telescopic supporting rod 400 is provided with the screw mandrel 401 vertical with telescopic supporting rod 400 near one end of described inflator pump 100, the fixing nut 402 mating socket with described screw mandrel 401 vertically it is provided with on the outer wall of described inflator pump 100, also it is bolted with the first traveling nut 403 and the second traveling nut 404 on described screw mandrel 401, and the first traveling nut 403 and the second traveling nut 404 are respectively arranged on the both sides of described fixing nut 402.
The bottom of described float 300 is additionally provided with compartment, described dissolved oxygen detection alarm device includes the dissolved oxygen sensor 500 being sequentially connected electrically, single-chip microcomputer 501 and buzzer 502, described dissolved oxygen sensor 500 includes sensor body and probe, described sensor body, single-chip microcomputer 501 and buzzer 502 are all located at inside described compartment, the probe of described dissolved oxygen sensor 500 is through bottom compartment, and it is connected to outside described compartment, wherein the model of dissolved oxygen sensor 500 can select YDC-100, the model of single-chip microcomputer 501 can select AT89S51, the model of buzzer 502 can select HYT-09.Presetting the minimum dissolved oxygen concentration that liquid is allowed on single-chip microcomputer 501, dissolved oxygen sensor 500 is used for measuring oxygen concentration, and when the dissolved oxygen concentration in solution is less than minimum dissolved oxygen concentration, single-chip microcomputer 501 controls buzzer 502 and reports to the police.
Preferably, telescopic supporting rod 400 is provided with retainer ring 301, and one end of described stretch cord 301 is fixed on float 300, and the other end is fixed with snak link 302, and described stretch cord 301 is connected in retainer ring 302 by snak link 303, thus is connected on telescopic supporting rod 400 by stretch cord 301.
Preferably, the structure of described telescopic supporting rod 400 is as the criterion to be capable of telescopic purpose, can be increased successively by several diameters, and the threaded rod being spirally connected successively is constituted.
Preferably, the quantity of described telescopic supporting rod 400 is 2,3 or 4, and wherein the quantity of telescopic supporting rod 400 is 3, and all of support bar 400 is uniformly distributed optimal stability when arranging around the outer wall of inflator pump 100.
When the automatic aeration oxygen-increasing device that wave drives uses, passed through telescopic supporting rod 400 to be fixed in water, inflator pump 100 is positioned at above the water surface, and float 300 is positioned on the water surface, when rising on corrugated, under the effect of buoyancy, float 300 floats, and drives the piston 200 being connected with float 300 to rise simultaneously, thus the gas in inflator pump 100 is extruded by venthole check valve 102 and discharged, then entering in water by escape pipe 103, now air inlet check valve 101 is closed;When corrugated declines, float 300 declines, and drives the piston 200 being connected with float 300 to decline simultaneously, now, sucks gas by air inlet check valve 101, and now venthole check valve 102 is closed.Hereby it is achieved that in water the purpose of automatic aeration oxygen supplement.The effect of stretch cord 301 is that the motion amplitude to float 300 limits, it is also possible to be wrapped on float 300 by stretch cord 301, in order to the length of regulation stretch cord 301.
Preferably, an annular groove can be offered on the outer wall of float 300, then stretch cord 301 is fixed in annular groove, then stretch cord 301 is wrapped in annular groove, to increase the stability that stretch cord 301 is wound around on float 300.The when of plant running, lubricating oil can be added between piston 200 and inflator pump 100, to reduce friction, and reduce gas leak phenomenon.On the one hand simultaneously as inflator pump 100 is more than the water surface, avoids moisture and penetrate in inflator pump 100, and cause the phenomenon that device cannot use;On the other hand, lubricating oil leakage in water is decreased so that device can be constantly in preferably lubricant effect.
Before plant running, by angle and the length of regulation telescopic supporting rod 400, it is possible to achieve according to the purpose of the height of actual water surface elevation adjusting apparatus, add the motility of device.When wherein regulating the angle of telescopic supporting rod 400, first traveling nut 403 and the second traveling nut 404 are rotated to the direction away from fixing nut 402 respectively, then rotary screw 401, thus drive expansion link 400 to rotate, expansion link 400 is regulated to the angle needed, finally the first traveling nut 403 and the second traveling nut 404 are rotated to the direction near fixing nut 402 respectively, until screwing, utilize the first traveling nut 403 and the second traveling nut 404 that screw mandrel 401 is positioned.
It should be noted that, the specification of the first traveling nut 403 and the second traveling nut 404 all should be less than or equal to the specification of fixing nut 402, the profile of the i.e. first traveling nut 403 and the second traveling nut 404 all should can facilitate angular adjustment to operate less than or equal to the profile of fixing nut 402.
Preferably, described telescopic supporting rod 400 is connected with crotch away from one end of described inflator pump 100 outer wall, it is therefore prevented that the problem that ordinary stent stability in water is bad.If the bottom is sandy soil structures, can telescopic supporting rod 400 be inserted in sandy soil together with crotch, then device can be fixed;If the bottom is harder quality, in advance retainer ring can be set at the bottom, then crotch is articulated in retainer ring, then device can be fixed.Additionally, due to the angle adjustable of telescopic supporting rod 400, when the bottom is not suitable for fixing device of the present utility model, can regulate to suitable angle with telescopic supporting rod 400, then be fixed on other devices on the water surface.
The specific embodiment of the utility model that is only disclosed above, but, this utility model is not limited to this, and the changes that any person skilled in the art can think of all should fall into protection domain of the present utility model.

Claims (4)

  1. null1. the automatic aeration oxygen-increasing device that a wave drives,It is characterized in that,Including inflator pump (100)、Piston (200) and be positioned at inflator pump (100) lower section float (300),Described piston (200) includes piston head and piston rod,Described piston head is in close contact with the inwall of described inflator pump (100),One end of described piston rod is affixed with described piston head,The other end is affixed with described float (300),The top of described inflator pump (100) is respectively equipped with air inlet check valve (101) and venthole check valve (102),Described venthole check valve (102) connects escape pipe (103),The outer wall of described inflator pump (100) is additionally provided with the telescopic supporting rod (400) of at least two angle adjustable,Described float (300) is provided with two stretch cords (301),And described two stretch cords (301) are connected on two different telescopic supporting rods (400),The bottom of described float (300) is additionally provided with dissolved oxygen detection alarm device.
  2. The automatic aeration oxygen-increasing device that wave the most according to claim 1 drives, it is characterized in that, described telescopic supporting rod (400) is provided with the screw mandrel (401) vertical with telescopic supporting rod (400) near one end of described inflator pump (100), the fixing nut (402) mating socket with described screw mandrel (401) vertically it is provided with on the outer wall of described inflator pump (100), the first traveling nut (403) and the second traveling nut (404) also it is bolted with on described screw mandrel (401), and the first traveling nut (403) and the second traveling nut (404) are respectively arranged on the both sides of described fixing nut (402).
  3. The automatic aeration oxygen-increasing device that wave the most according to claim 2 drives, it is characterized in that, described telescopic supporting rod (400) is provided with retainer ring (302), one end of described stretch cord (301) is fixed on float (300), the other end is fixed with snak link (303), and described stretch cord (301) is connected in retainer ring (302) by snak link (303).
  4. The automatic aeration oxygen-increasing device that wave the most according to claim 3 drives, it is characterized in that, the bottom of described float (300) is additionally provided with compartment, described dissolved oxygen detection alarm device includes the dissolved oxygen sensor (500) being sequentially connected electrically, single-chip microcomputer (501) and buzzer (502), described dissolved oxygen sensor (500) includes sensor body and probe, described sensor body, single-chip microcomputer (501) and buzzer (502) are all located at inside described compartment, the probe of described dissolved oxygen sensor (500) is through bottom compartment, and be connected to outside described compartment.
CN201620269621.4U 2016-03-28 2016-03-28 Automatic air entrainment oxygenation device of wave driven Expired - Fee Related CN205616633U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620269621.4U CN205616633U (en) 2016-03-28 2016-03-28 Automatic air entrainment oxygenation device of wave driven

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620269621.4U CN205616633U (en) 2016-03-28 2016-03-28 Automatic air entrainment oxygenation device of wave driven

Publications (1)

Publication Number Publication Date
CN205616633U true CN205616633U (en) 2016-10-05

Family

ID=57029011

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201620269621.4U Expired - Fee Related CN205616633U (en) 2016-03-28 2016-03-28 Automatic air entrainment oxygenation device of wave driven

Country Status (1)

Country Link
CN (1) CN205616633U (en)

Similar Documents

Publication Publication Date Title
JPH09506951A (en) Wave energy converter
TW200900582A (en) Dynamic fluid energy conversion system and method of use
AU2017202715A1 (en) Energy collector
CN106050532A (en) Wheel-oriented current force stretching plate water or wind wheel and power generation system
CN202901494U (en) Floating ball inlet valve
CN206738681U (en) A kind of exhaust pipe structure with rapid escape valve
CN205616633U (en) Automatic air entrainment oxygenation device of wave driven
CN205616656U (en) Hang down and swing automatic air entrainment oxygenation device of float -type
US9644600B2 (en) Energy generation from buoyancy effect
CN106286149A (en) A kind of scalable small farm wind-driven generator
KR101080039B1 (en) Hydraulic Heat changing-equipment of use Wind force and Water-tank Quality of water a purifier with bond Hybrid System
CN207960962U (en) A kind of agriculture pumping plant that floatability uses
CN201180531Y (en) Floater oil pumping device
CN105840149A (en) External buoyant box wall heating seabed natural gas collection device and method
CN208686533U (en) A kind of water pumper middle section water flow supercharging device
CN105840150A (en) Seabed natural gas collection device with built in buoyancy tank multilayer-rack and method thereof
CN206942931U (en) One kind is based on wind energy and wave energy novel power generation device
CN206221136U (en) Imitative sea-tangle hydraulic wave energy generation device
CN206735927U (en) A kind of vertical switch of aqueous vapor of wave driving
GB2427445A (en) Wave powered water pump for generating electricity
CN207650197U (en) A kind of river water quality monitoring device
CN206221138U (en) Mooring floatation type maritime wave energy TRT
CN205776507U (en) Pump pressurizer in pipe
CN205491977U (en) Solar garden irrigation device
CN208073871U (en) A kind of agricultural irrigation water pump easy to remove

Legal Events

Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20161005

Termination date: 20170328

CF01 Termination of patent right due to non-payment of annual fee