CN109915286A - Circulation fluid reservoir is swung in automobile-used oxyhydrogen generator suppression - Google Patents
Circulation fluid reservoir is swung in automobile-used oxyhydrogen generator suppression Download PDFInfo
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- CN109915286A CN109915286A CN201910326029.1A CN201910326029A CN109915286A CN 109915286 A CN109915286 A CN 109915286A CN 201910326029 A CN201910326029 A CN 201910326029A CN 109915286 A CN109915286 A CN 109915286A
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- 230000001629 suppression Effects 0.000 title claims abstract description 50
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- 238000003860 storage Methods 0.000 claims abstract description 35
- 238000004064 recycling Methods 0.000 claims abstract description 9
- 238000004891 communication Methods 0.000 claims abstract description 7
- 239000007789 gas Substances 0.000 claims description 279
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 174
- 238000005868 electrolysis reaction Methods 0.000 claims description 68
- 239000000498 cooling water Substances 0.000 claims description 51
- 238000001816 cooling Methods 0.000 claims description 44
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- 229910052739 hydrogen Inorganic materials 0.000 claims description 38
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- 238000002485 combustion reaction Methods 0.000 claims description 31
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Classifications
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
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- Electrolytic Production Of Non-Metals, Compounds, Apparatuses Therefor (AREA)
Abstract
Circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression of the present invention, including recycling fluid reservoir ontology, it is provided with multiple circulation fluid reservoir point storehouses partition from left to right in the inner cavity of the circulation fluid reservoir ontology, the inner cavity for recycling fluid reservoir ontology is separated into multiple circulation fluid reservoir liquid storage warehouses by multiple circulation fluid reservoir point storehouse partitions, the lower section of the circulation fluid reservoir point storehouse partition offers circulation fluid reservoir communication port, wherein, positioned at left or right side circulation fluid reservoir liquid storage warehouse inner wall from bottom to top space collar be equipped with multilayer circulation fluid reservoir first suppression swing every wing, the lower section of the inner wall of remaining circulation fluid reservoir liquid storage warehouse, which encloses, has one layer of circulation fluid reservoir second suppression to swing every wing, the suppression of circulation fluid reservoir second is swung is provided with multiple spaced apart circulation fluid reservoir mesh partitions above wing.Circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression of the present invention to be had the advantages that prevent pot liquid from shaking, liquid level fluctuating upheaval, avoids detection error.
Description
Technical field
The present invention relates to a kind of automobile-used oxyhydrogen generator suppressions to swing circulation fluid reservoir, belongs to vehicle-mounted water electrolysis hydrogen producing technology neck
Domain.
Background technique
With the increase of internal combustion engine usage amount, the petrochemical industry fuel as its main energy sources be faced with it is increasingly in short supply, at
This such as constantly increases at serious problems, meanwhile, the exhaust gas discharged during internal combustion engine operation is on the rise to the deterioration of environment.Such as
The present is continuing to optimize internal combustion engine itself to further save petroleum resources, reduce fuel use cost, reduction exhaust emission
On the basis of technical performance, there is the new technology and new equipment of many combustion engine energy-saving emission reductions, especially with Vehicular internal combustion engine
Oxyhydrogen mixed support oil-saving discharging-reducing technology and its device are most representative.
In the prior art, it by Vehicular internal combustion engine energy-saving emission-reducing apparatus, is led through vehicle intake pipeline into cylinder of internal-combustion engine
Enter hydrogen or oxygen gas, using the features such as hydrogen diffusivity is good, burning velocity is fast, is sufficiently mixed in cylinder by compressed air and fuel
Afterwards, the more abundant, explosive force that makes to burn increases, and then improves fuel economy, achievees the effect that oil-saving discharging-reducing.Existing vehicle
Hydrogen or oxygen gas is produced by water electrolyser (oxyhydrogen generator) with combustion engine energy-saving emission reduction device, utilizes the fluid reservoir of ordinary construction
Collect the high-temperature electrolyte that the gas-liquid mixed of electrochemical reaction occurs in water electrolyser, in vehicle travel process with speed and
The variation of road conditions, the electrolyte in fluid reservoir can shake therewith, liquid level dipping and heaving upheaval, cause in fluid reservoir to pressure and liquid
The related monitoring sensing device in face cannot normal, objective or accurately feedback signal data.Therefore, seeking one kind prevents in tank
Liquid sloshing, liquid level fluctuating is wavy, it is particularly important to avoid the suppression of the automobile-used oxyhydrogen generator of detection error from swinging circulation fluid reservoir.
Summary of the invention
Upheaval that the purpose of the present invention is to overcome the above shortcomings and to provide one kind to prevent pot liquid from shaking, liquid level rises and falls is kept away
Circulation fluid reservoir is swung in the automobile-used oxyhydrogen generator suppression of test free error.
The object of the present invention is achieved like this: circulation fluid reservoir, including circulation storage are swung in a kind of automobile-used oxyhydrogen generator suppression
Flow container ontology is provided with the longitudinally arranged circulation liquid storages of multiple settings in the inner cavity of the circulation fluid reservoir ontology from left to right
Tank divides storehouse partition, and the inner cavity for recycling fluid reservoir ontology is separated into multiple circulation fluid reservoirs and stored up by multiple circulation fluid reservoir point storehouse partitions
The lower section of liquid warehouse, the circulation fluid reservoir point storehouse partition offers circulation fluid reservoir communication port, wherein is located at left or right side
Circulation fluid reservoir liquid storage warehouse inner wall from bottom to top space collar be equipped with multilayer circulation fluid reservoir first suppression swing every wing, remaining is followed
The lower section of the inner wall of ring fluid reservoir liquid storage warehouse, which encloses, has the suppression of one layer of circulation fluid reservoir second to swing every wing, the circulation fluid reservoir the
Two suppressions are swung is provided with multiple spaced apart circulation fluid reservoir mesh partitions above wing, and the four of circulation fluid reservoir mesh partition
Week is fixedly connected with the inner wall of circulation fluid reservoir liquid storage warehouse.
Further, circulation fluid reservoir liquid feeding is additionally provided in the circulation fluid reservoir containing liquid chamber room of left or right side
Pipe, the bottom end of the circulation fluid reservoir liquid-feeding tube are stretched out the bottom of circulation fluid reservoir ontology and are extended downwards, and circulation fluid reservoir adds
The top of liquid pipe is located at the upper section of the circulation fluid reservoir liquid storage warehouse in left side.
Further, the circulation fluid reservoir second suppression swing every wing and multiple circulation fluid reservoir mesh partitions respectively and oneself
Multiple circulation fluid reservoirs first suppression of lower and upper arrangement, which is swung, is located at sustained height every wing.
Further, vertical circulation liquid storage is additionally provided in the circulation fluid reservoir containing liquid chamber room of left or right side
The top of tank level indicator, the circulation liquid tank level sensor is connect with the top of circulation fluid reservoir ontology.
Further, the bottom of right section of fluid reservoir ontology of the circulation is vertically provided with circulation fluid reservoir air inlet, follows
The top of right section of ring fluid reservoir ontology has set up circulation fluid reservoir gas outlet, the bottom in the circulation fluid reservoir ontology middle section
It is vertically provided with circulation fluid reservoir liquid outlet.
Further, circulation fluid reservoir decompression cover is provided at the top of circulation fluid reservoir ontology middle section.
Further, circulation fluid reservoir pressure sensor is additionally provided in the circulation fluid reservoir ontology.
Further, the circulation fluid reservoir mesh partition or the circulation storage of liquid fluctuating range arrangement above one to two layers
The suppression of flow container first, which is swung, swings every wing and the circulation suppression of fluid reservoir second every wing.
A kind of Vehicular internal combustion engine energy-saving emission-reducing apparatus is swung including water electrolyser, a kind of above-mentioned automobile-used oxyhydrogen generator suppression
Fluid reservoir, gas cooling water treatment plant, gas drier, sealant supplement cylinder are recycled,
The water electrolyser produces hydrogen or oxygen gas for water electrolysis;
A kind of automobile-used oxyhydrogen generator suppression described in claim 1 swings circulation fluid reservoir and electrification occurs in water electrolyser for collecting
Learn the high-temperature electrolyte of the gas-liquid mixed of reaction, wherein the hydrogen or oxygen gas by a part containing vapor is sent into gas cooling filter
In water installations, another part high-temperature electrolyte is sent into sealant supplement cylinder;
The gas cooling water treatment plant is used to carry out the hydrogen or oxygen gas containing vapor cooling and carries out a drainage to it;
The gas drier is used to be dried by the hydrogen or oxygen gas after gas cooling water treatment plant drainage, will do
Hydrogen or oxygen gas after dry is exported into engine;
The sealant supplement cylinder leads to for cooling down to high-temperature electrolyte, and to raw water needed for circulation fluid reservoir supplement electrolysis
It crosses circulation fluid reservoir the raw water of supplement is sent into water electrolyser.
Compared with prior art, the beneficial effects of the present invention are:
Circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression of the present invention, by special in terms of tank structure and inner tank wall
Structure design can prevent institute's holding liquid shaking in tank, liquid level from rising and falling wavy, avoid liquid in the case where vehicle continues situation of movement
In excessive to other pipeline, the stabilization of pressure and liquid level in tank body ensure that, and then avoid the signal errors of senser element.
Detailed description of the invention
Fig. 1 is a kind of structure principle chart of Vehicular internal combustion engine energy saver automatic control system.
Fig. 2 is a kind of structural schematic diagram of Vehicular internal combustion engine oil-saving discharging-reducing device.
Fig. 3 is the structural schematic diagram of water electrolyser.
Fig. 4 is the partial enlarged view in Fig. 3.
Fig. 5 is the structural schematic diagram of water electrolysis pole plate.
Fig. 6 is the cross-sectional view of A-A in Fig. 5.
Fig. 7 is the structural schematic diagram of water electrolyser gasket.
Fig. 8 is the cross-sectional view of B-B in Fig. 7.
Fig. 9 is the I magnified partial view in Fig. 8.
Figure 10 is the structural schematic diagram for recycling fluid reservoir.
Figure 11 is the outside drawing of gas cooling water treatment plant.
Figure 12 is the structural schematic diagram of gas cooling water treatment plant.
Figure 13 is the structural schematic diagram of the gas cooling water treatment plant silk screen in Figure 12.
Figure 14 is the structural schematic diagram of gas drier.
Figure 15 is the structural schematic diagram that pot lid on gas drier is removed in Figure 14.
Figure 16 is the top structure schematic diagram of gas drier kettle body in Figure 14.
Figure 17 is the bottom substance schematic diagram of gas drier kettle body in Figure 14.
Wherein:
Vehicular system 100, vehicle accumulator 101, engine 102
Control unit 200
Intelligent controllable electrolysis power supply 300
Vehicular internal combustion engine energy-saving emission-reducing apparatus 400
Water electrolyser 401, water electrolyser first end plate 401.1, the second end plate of water electrolyser 401.2, water electrolysis pole plate 401.3,
Water electrolysis pole plate ontology 401.3.1, the oblique section 401.3.2 of fool proof, fool proof convex block 401.3.3, water electrolysis pad electrode 401.3.4,
It is electrolysed region 401.3.5, electrolysis convex block 401.3.6, conical section 401.3.61, semi-circular segments 401.3.62, the installation of water electrolysis pole plate
Region 401.3.7, water electrolysis pole plate mounting hole 401.3.8, water electrolyser gasket 401.4, water electrolyser seal pad body
401.4.1, the oblique section 401.4.2 of water electrolyser gasket, the first rib frame 401.4.3, the second rib frame 401.4.4, third rib frame
401.4.5, water electrolyser gasket installation region 401.4.6, water electrolyser gasket mounting hole 401.4.7, bulge loop
401.4.8, the first dottle pin of water electrolyser 401.5, the second dottle pin of water electrolyser 401.6, water electrolyser bolt 401.7, water electrolysis
Slot locking assembly 401.8, water electrolyser liquid return hole 401.9, water electrolyser leakage fluid dram 401.10, water electrolyser gas outlet 401.11
Circulation fluid reservoir 402, circulation fluid reservoir ontology 402.1, circulation fluid reservoir divide storehouse partition 402.2, circulation fluid reservoir liquid storage
Warehouse 402.3, circulation fluid reservoir communication port 402.4, the circulation suppression of fluid reservoir first are swung to be pressed down every wing 402.5, circulation fluid reservoir second
It swings every wing 402.6, circulation fluid reservoir mesh partition 402.7, circulation fluid reservoir air inlet 402.8, circulation fluid reservoir gas outlet
402.9, fluid reservoir liquid outlet 402.10, circulation fluid reservoir decompression cover 402.11, circulation liquid tank level sensor are recycled
402.12, fluid reservoir liquid-feeding tube 402.13, circulation fluid reservoir pressure sensor 402.14 are recycled
Gas cooling water treatment plant 403, gas cooling water treatment plant tank body 403.1, gas cooling water treatment plant air inlet
403.2, gas cooling water treatment plant gas outlet 403.3, gas cooling water treatment plant liquid return hole 403.4, gas cooling drainage dress
Set cooling fin 403.5, gas cooling water treatment plant silk screen 403.6
Gas drier 404, gas drier kettle body 404.1, pot lid 404.2, gas dry dress on gas drier
Set lower pot lid 404.3, gas drier central plenum 404.4, gas drier air inlet 404.5, gas drier
Gas outlet 404.6, gas drier starting stave 404.7, the second riser of gas drier 404.8, gas drier
Third riser 404.9, the first gap of gas drier 404.10, the second gap of gas drier 404.11, gas dry
Device inlet plenum 404.12, gas drier discharge chamber 404.13, gas drier gas chamber 404.14, gas drier
Third gap 404.15, the 4th gap 404.16 of gas drier, gas drier liquid level sensor 404.17, gas are dry
Dry device first partition 404.18, gas drier third partition 404.20, is done gas drier second partition 404.19
Drying prescription 404.21, gas drier gasket 404.22, gas drier sealing strip 404.23
Sealant supplement cylinder 405, sealant supplement cylinder ontology 405.1, sealant supplement cylinder water filling port 405.2, sealant supplement cylinder water outlet 405.3, cooling spiral pipe
405.4, cooling spiral pipe inlet 405.5, cooling spiral pipe liquid outlet 405.6, fluid infusion tank level indicator 405.7, fluid infusion
Tank temperature sensor 405.8
Tapping valve 406
Make-up water pump 407
Electric check valve 408.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiment is only invention a part of the embodiment, instead of all the embodiments.Based on this
Embodiment in invention, every other reality obtained by those of ordinary skill in the art without making creative efforts
Example is applied, shall fall within the protection scope of the present invention.
Referring to Fig. 1-Fig. 2, a kind of Vehicular internal combustion engine energy saver automatic control system of the present invention, including by center
The control unit 200 of processor and several association's processing chip compositions, intelligent controllable electrolysis power supply 300, multiple sensors and automobile-used
Combustion engine energy-saving emission reduction device 400, described control unit 200 is by multiple sensors to the operating condition of vehicle, running environment, road
And the information such as traffic condition are acquired, operation, analysis, output, record, while in real time to intelligent controllable electrolysis power supply 300
Voltage and current value is acquired, according to the strategy of program setting, according to the operating condition of vehicle, running environment, road and traffic shape
The current value demarcated under the different conditions such as condition is exported to Vehicular internal combustion engine energy-saving emission-reducing apparatus 400, utilizes Vehicular internal combustion engine section
It can air demand progress real-time Precise control and amendment of the emission reduction device 400 to engine 102 in Vehicular system 100.
The Vehicular internal combustion engine energy-saving emission-reducing apparatus 400 includes water electrolyser 401, circulation fluid reservoir 402(vehicle-mounted hydrogen and oxygen hair
Circulation fluid reservoir is swung in raw device suppression), gas cooling water treatment plant 403, gas drier 404(have the gas of auto-alarm function
Body drying device), sealant supplement cylinder 405,
The water electrolyser 401 produces hydrogen or oxygen gas for water electrolysis;
The circulation fluid reservoir 402 is used to collect the high-temperature electrolysis that the gas-liquid mixed of electrochemical reaction occurs in water electrolyser 401
Liquid, wherein hydrogen or oxygen gas of a part containing vapor is sent into gas cooling water treatment plant 403, by another part high temperature
Electrolyte is sent into sealant supplement cylinder 405;
The gas cooling water treatment plant 403 is used to carry out the hydrogen or oxygen gas containing vapor cooling and once be filtered to it
Water;
The gas drier 404 is used to do by the hydrogen or oxygen gas after 403 drainage of gas cooling water treatment plant
It is dry, the hydrogen or oxygen gas after drying is exported into engine 102;
The sealant supplement cylinder 405 is for cooling down high-temperature electrolyte, and the raw material required to the circulation supplement electrolysis of fluid reservoir 402
The raw water of supplement is sent into water electrolyser 401 by water by circulation fluid reservoir 402.
The intelligence controllable electrolysis power supply 300 for water electrolyser 401 for providing real-time current adjustable constant voltage DC electricity
Source guarantees that the lasting electricity consumption of water electrolyser 401 needs, vehicle in the input terminal and Vehicular system 100 of intelligent controllable electrolysis power supply 300
The positive and negative anodes of storage battery 101 are connected by conductor cable, the output end and water electrolyser 401 of intelligent controllable electrolysis power supply 300
Positive/negative plate be connected by conductor cable, the signal port of intelligent controllable electrolysis power supply 300 and control unit 200 pass through letter
Number cable is connected.
The multiple sensor includes four vehicle self-sensor devices and eight exterior sensors, the vehicle self-sensor
Device is installed in Vehicular system 100, and the vehicle self-sensor device includes that engine speed sensor, admission pressure and temperature pass
Sensor, cooling-water temperature transmitter, accelerator pedal position sensor, wherein the engine speed sensor is located at vehicle hair
On motivation output shaft, for acquiring the real-time revolving speed of vehicle motor;The admission pressure and temperature sensor are located at vehicle intake
Pipeline intercooler rear end, for acquiring the admission pressure and intake air temperature of engine sucking air;The coolant temperature sensing
Device is located on vehicle cooling line, for acquiring the real time temperature of engine coolant;The throttle position switch is located at vehicle
Below cockpit gas pedal, for acquiring the aperture of vehicle accelerator pedal;
The exterior sensor includes velocity sensor, angular transducer, acceleration transducer, location track sensor, temperature
Sensor, barometric pressure sensor, air velocity transducer, fuel flow transducer, wherein the velocity sensor is installed on automobile-used
In combustion engine energy-saving emission reduction device automatic control system, for acquiring the real-time movement speed of vehicle;The angular transducer peace
Loaded on rational position on floor underframe for vehicle crossbeam, for acquiring the real-time angular of vehicle entirety;The acceleration transducer is installed on
In Vehicular internal combustion engine energy-saving emission-reducing apparatus automatic control system, for acquiring the real time acceleration of vehicle and the real-time change of speed
Rate;The location track sensor (GPS positioning sensor), is installed on Vehicular internal combustion engine energy-saving emission-reducing apparatus automatic control system
It is interior, for acquiring the real time position, motion track, movement speed of vehicle;The temperature sensor is installed on Vehicular internal combustion engine section
In oily emission reduction device, for acquiring the environment temperature under vehicle local environment;The barometric pressure sensor is installed in automobile-used
In combustion engine oil-saving discharging-reducing device, for acquiring the atmospheric pressure under vehicle local environment;The air velocity transducer is installed on vehicle
Rational position on the outside of vehicle body, for acquiring the wind speed under vehicle local environment;The fuel flow transducer is installed on vehicle combustion
On oil pipe line, for acquiring fuel consumption of vehicle, including instantaneous oil consumption, section oil consumption etc..
Referring to Fig. 3-Fig. 9, the water electrolyser 401 includes the water electrolyser first end plate of setting symmetrically arranged on the left and the right
401.1 and the second end plate of water electrolyser 401.2, between water electrolyser first end plate 401.1 and the second end plate of water electrolyser 401.2
It is arranged in parallel with muti-piece water electrolysis pole plate 401.3, water electrolyser sealing is provided between every adjacent two pieces of water electrolysis pole plates 401.3
Pad 401.4, the inner wall of water electrolyser first end plate 401.1 and is provided with water between the water electrolysis pole plate 401.3 of the leftmost side
The first dottle pin of electrolytic cell 401.5, the inner wall of the second end plate of water electrolyser 401.2 and the water electrolysis pole plate 401.3 for being located at the rightmost side
Between be provided with the second dottle pin of water electrolyser 401.6, the water electrolyser 401 further includes water electrolyser bolt 401.7 and water power
Slot locking assembly 401.8 is solved, the water electrolyser bolt 401.7 sequentially passes through water electrolyser first end plate 401.1, water electrolyser
The muti-piece water electrolysis pole plate 401.3 and multiple water electrolyser gaskets 401.4, water electrolyser of first dottle pin 401.5, interlaced arrangement
Second dottle pin 401.6 and the second end plate of water electrolyser 401.2, the tail end of water electrolyser bolt 401.7 stretch out water electrolyser the
Outside two end plates 401.2, it is locked by water electrolyser locking assembly 401.8;
Water electrolyser liquid return hole 401.9, water electrolyser leakage fluid dram 401.10 and water electrolyser are provided on the water electrolyser 401
Gas outlet 401.11.
The water electrolysis pole plate 401.3 includes rectangular-shaped water electrolysis pole plate ontology 401.3.1, the water electrolysis pole plate sheet
One end angle in body 401.3.1 is provided with error-proof structure, and the error-proof structure includes the oblique section 401.3.2 of fool proof, and the fool proof is oblique
The upper section or lower section of section 401.3.2 is provided with fool proof convex block 401.3.3, and employee in process of production, can be fast by error-proof structure
Speed identification installation direction, identification is high, not easy to make mistakes, improves production efficiency;In addition, guaranteeing 401 integral waterproofing of water electrolyser
In the case where, it is not easy deposit liquid at the oblique section 401.3.2 of fool proof, avoids short circuit risk, while facilitating the multiple water of detection
Voltage between electrolytic pole board 401.3 is convenient for diagnostic analysis;
The middle section of the oblique section 401.3.2 of fool proof is outward extended with water electrolysis pad electrode 401.3.3, the water electrolysis pole plate electricity
Pole 401.3.4 from-inner-to-outer successively includes the first isosceles trapezoid section, rectangular section and the second isosceles trapezoid section, a long side of rectangular section
It is connect with the upper bottom of the first isosceles trapezoid section and equal length, another long side of rectangular section and the bottom of the second isosceles trapezoid section connects
Connect and equal length, the structure design and Position Design of water electrolysis pad electrode 401.3.4, have save material, convenient for
External power cord connection improves the advantages of installation effectiveness;
Rectangular-shaped electrolysis region 401.3.5, electrolysis zone are provided in the middle part of the surface of the water electrolysis pole plate ontology 401.3.1
The four edges of domain 401.3.5 are parallel with the four edges of water electrolysis pole plate ontology 401.3.1 respectively, are electrolysed in the 401.3.5 of region and lean on
One end angle of the oblique section 401.3.2 of nearly fool proof is set as the electrolysis oblique section in region, and the electrolysis oblique section in region and the oblique section 401.3.2 of fool proof are flat
It goes, multiple electrolysis convex block 401.3.6 is evenly arranged in the electrolysis region 401.3.5, be electrolysed convex block 401.3.6 from-inner-to-outer
It successively include that conical section 401.3.61 and semi-circular segments 401.3.62, the electrolysis convex block 401.3.6 pass through punching press, sandblasting or ball blast
Equal process means are process, and by increasing the roughness on 401.3 surface of water electrolysis pole plate, and then increase water electrolysis pole plate
401.3, with the contact surface area of electrolyte, improve gas producing efficiency, while reducing the outer dimension of water electrolysis pole plate 401.3, with reality
The requirement of existing product miniaturization;
The outer ring of the electrolysis region 401.3.5 is provided with water electrolysis pole plate installation region 401.3.7, water electrolysis pole plate installing zone
Circumferential direction in the 401.3.7 of domain along water electrolysis pole plate ontology 401.3.1 is uniformly provided with multiple water electrolysis pole plate mounting holes
401.3.8。
The water electrolyser gasket 401.4 includes that rectangular-shaped water electrolyser seals pad body 401.4.1, the water power
One end angle in solution slot sealing pad body 401.4.1 is provided with the oblique section 401.4.2 of water electrolyser gasket, and water electrolyser seals
It is parallel with the oblique section 401.3.2 of the fool proof on water electrolysis pole plate 401.3 to pad oblique section 401.4.2, the water electrolyser seals pad body
401.4.1 outer dimension is greater than the outer dimension of water electrolysis pole plate ontology 401.3.1;
The water electrolyser sealing pad body 401.4.1 from-inner-to-outer is provided with the identical first rib frame 401.4.3 of shape, second
Rib frame 401.4.4 and third rib frame 401.4.5, the electrolysis region of the first rib frame 401.4.3 and water electrolysis pole plate 401.3
401.3.5 corresponding, the third rib frame 401.4.5 is enclosed set on the outer of water electrolyser sealing pad body 401.4.1, and described the
Spacing between one rib frame 401.4.3 and the second rib frame 401.4.4 is less than the second rib frame 401.4.4 and third rib frame 401.4.5
Between spacing, the region between the second rib frame 401.4.4 and third rib frame 401.4.5 be set as water electrolyser gasket installation
Along water electrolyser sealing pad body 401.4.1's in region 401.4.6, water electrolyser gasket installation region 401.4.6
Circumferential direction is uniformly provided with multiple water electrolyser gasket mounting hole 401.4.7, the water electrolyser gasket mounting hole
401.4.7 diameter is less than the diameter of water electrolysis pole plate mounting hole 401.3.8, the water electrolyser gasket mounting hole
401.4.7 one end circle is equipped with bulge loop 401.4.8, wears in water electrolyser gasket mounting hole 401.4.7 and bulge loop 401.4.8
There is water electrolyser bolt 401.7, the bulge loop 401.4.8 passes through water electrolysis pole plate mounting hole 401.3.8.
When installation, the bulge loop 401.4.8 on water electrolyser gasket 401.4 passes through water electrolysis pole plate mounting hole 401.3.8,
And it is butted on the outer ring of the water electrolyser gasket mounting hole 401.4.7 of adjacent water electrolyser gasket 401.4, it is crowded by experiencing certainly
The reaction force generated after pressure comes sealing water electrolytic pole board 401.3, isolation water electrolyser bolt 401.7 and water electrolysis pole plate
401.3 contacts, avoid because of partially sealed failure, electrolyte contacts are made to water electrolyser bolt 401.7 and water electrolysis pole plate 401.3
At short circuit;Simultaneously as water electrolyser gasket 401.4 increases a circle than the shape of water electrolysis pole plate 401.3, in mutual extrusion
When can fully wrapped around water electrolysis pole plate 401.3, avoid between multiple water electrolysis pole plates 401.3 occur short circuit phenomenon, realize
The integral waterproofing requirement of water electrolyser 401, improves security reliability.
Referring to Figure 10, the circulation fluid reservoir 402 includes circulation fluid reservoir ontology 402.1, the circulation fluid reservoir ontology
The longitudinally arranged circulation fluid reservoir point storehouse partition 402.2 of multiple settings is provided in 402.1 inner cavity from left to right, it is multiple to follow
The inner cavity for recycling fluid reservoir ontology 402.1 is separated into multiple circulation fluid reservoir liquid storage warehouses by ring fluid reservoir point storehouse partition 402.2
402.3, it can inhibit or reduce liquid level shaking generation potential energy and kinetic energy mutually converts caused liquid and integrally fluctuates, the circulation storage
The lower section of flow container point storehouse partition 402.2 offers circulation fluid reservoir communication port 402.4, and circulation fluid reservoir communication port 402.4 makes
Multiple circulation fluid reservoir liquid storage warehouses 402.3 are interconnected, and guarantee the liquid liquid in multiple circulation fluid reservoir liquid storage warehouses 402.3
Face height is consistent, and space collar is equipped with multilayer circulation to the inner wall for recycling fluid reservoir liquid storage warehouse 402.3 positioned at left side from bottom to top
The suppression of fluid reservoir first is swung every wing 402.5, and the lower section of the inner wall of remaining circulation fluid reservoir liquid storage warehouse 402.3, which encloses, one layer of circulation
The suppression of fluid reservoir second is swung every wing 402.6, and circulation fluid reservoir second suppression, which is swung, is provided with multiple interval cloth every the top of wing 402.6
The circulation fluid reservoir mesh partition 402.7 set recycles the surrounding and circulation fluid reservoir liquid storage warehouse of fluid reservoir mesh partition 402.6
402.3 inner wall is fixedly connected, and the suppression of circulation fluid reservoir second is swung every wing 402.6 and multiple circulation fluid reservoir mesh partitions
402.7 swing with multiple circulation fluid reservoirs first suppression arranged from bottom to top respectively and are located at sustained height, the circulation every wing 402.5
Fluid reservoir first suppression swing every wing 402.5, circulation fluid reservoir second suppression swing every wing 402.6, circulation fluid reservoir mesh partition 402.7 can
The internal stress of liquid sloshing is eliminated, liquid is inhibited to fluctuate up and down, is guaranteed in vehicle travel process, liquid level held stationary state.It follows
The suppression of ring fluid reservoir first, which is swung, swings every wing 402.5, the circulation suppression of fluid reservoir second every wing 402.6, circulation fluid reservoir mesh partition 402.7
Quantity, can be to guarantee that effect is swung in stable suppression depending on the work liquid level of liquid in circulation fluid reservoir ontology 402.1
One to the two layers circulation suppression of fluid reservoir first more than circulation fluid reservoir mesh partition 402.7 or liquid fluctuating range is added to swing every wing
402.5 swing with the circulation suppression of fluid reservoir second every wing 402.6.
The bottom of 402.1 right sections of fluid reservoir ontology of the circulation is vertically provided with circulation fluid reservoir air inlet 402.8, circulation
The top that 402.1 right sections of fluid reservoir ontology has set up circulation fluid reservoir gas outlet 402.9, the circulation fluid reservoir ontology
The bottom in 402.1 middle sections is vertically provided with circulation fluid reservoir liquid outlet 402.10, circulation 402.1 middle section of fluid reservoir ontology
Top is provided with circulation fluid reservoir decompression cover 402.11, is provided with and follows in the circulation fluid reservoir liquid storage warehouse 402.3 in left side
Ring liquid tank level sensor 402.12 and circulation fluid reservoir liquid-feeding tube 402.13, the circulation liquid tank level sensor
402.12 top is connect with the top of circulation fluid reservoir ontology 402.1, the bottom end of the circulation fluid reservoir liquid-feeding tube 402.13
It stretches out the bottom of circulation fluid reservoir ontology 402.1 and extends downwards, the top of circulation fluid reservoir liquid-feeding tube 402.13 is located at left side
Circulation fluid reservoir liquid storage warehouse 402.3 upper section, i.e. the top of liquid levels effectively prevents caused in filling liquid
Liquid fluctuating caused by being gushed on liquid;
Circulation fluid reservoir pressure sensor 402.14 is additionally provided in the circulation fluid reservoir 402.
The working principle of the circulation fluid reservoir 402: in normal operation, its appearance is kept in circulation fluid reservoir 402
The electrolyte of product 2/3, the hydrogen or oxygen gas that water electrolysis generates carry electrolyte and enter circulation through circulation fluid reservoir air inlet 402.8
In fluid reservoir 402, hydrogen or oxygen gas is exported through the electrolyte in circulation fluid reservoir 402 through circulation fluid reservoir gas outlet 402.9,
The electrolyte stored in fluid reservoir 402 is recycled under the effect of gravity, via circulation fluid reservoir liquid outlet 402., 10 to sealant supplement cylinder
405 output liquids.The circulation fluid reservoir 402 can prevent the shaking of institute's holding liquid, liquid level in tank from rising in the case where vehicle continues situation of movement
Volt upheaval, avoids in liquid spill to other pipelines, and ensure that the stabilization of circulation liquid storage pressure inside the tank and liquid level, in turn
Avoid the signal errors of circulation liquid tank level sensor 402.12.
Referring to Figure 11-Figure 13, the gas cooling water treatment plant 403 includes the cylindrical gas cooling filter of lateral arrangement
The lower section of water installations tank body 403.1, the right side of the gas cooling water treatment plant tank body 403.1 is provided with gas cooling drainage
The upper section of device air inlet 403.2, the left side of the gas cooling water treatment plant tank body 403.1 is provided with gas cooling drainage
Device gas outlet 403.3, the bottom of the gas cooling water treatment plant tank body 403.1 are provided with gas cooling water treatment plant and return liquid
Mouth 403.4, the can body outer wall of the gas cooling water treatment plant tank body 403.1 is outward extended with multiple rectangles along its circumferencial direction
Gas cooling water treatment plant cooling fin 403.5, multiple gas cooling water treatment plant cooling fins 403.5 are equidistantly spaced from, described
Gas cooling water treatment plant cooling fin 403.5 is made of aluminum material, the gas cooling water treatment plant tank body 403.1
The circular gas cooling water treatment plant silk screen 403.6 of multi-disc, multi-disc gas cooling drainage are provided in inner cavity along its length
Device silk screen 403.6 is equidistantly spaced from, and the gas cooling water treatment plant silk screen 403.6 uses stainless steel mesh grid structure.
The working principle of the gas cooling water treatment plant 403: the hydrogen or oxygen gas containing vapor is through gas cooling drainage
Device air inlet 403.2 enters in gas cooling water treatment plant tank body 403.1, by gas cooling water treatment plant gas outlet 403.3
Output promotes 403.1 rapid cooling of gas cooling water treatment plant tank body by gas cooling water treatment plant cooling fin 403.5, compared with
The hydrogen or oxygen gas of high-temperature flows through the lower gas cooling water treatment plant of temperature inside gas cooling water treatment plant tank body 403.1
When silk screen 403.6, the vapor in hydrogen or oxygen gas is in intensive 403.6 surface condensation Cheng Shui of gas cooling water treatment plant silk screen
Pearl, droplet pool together under the effect of gravity, export through gas cooling water treatment plant liquid return hole 403.4.Gas cooling drainage
403 compact of device, structure are simple, easy to process, can reduce the content of the vapor and alkaline components in hydrogen or oxygen gas, nothing
Storage device need to separately be set, hydrogen or oxygen gas is exported into cooling, reduce occupied space.
Referring to Figure 14-Figure 17, the gas drier 404 includes the cylindrical gas drier pot being vertically arranged
Pot lid 404.3, the gas drier kettle body under pot lid 404.2 and gas drier on body 404.1, gas drier
404.1 upper section and lower section respectively with pot lid under the gentle body drying device of the interior lateral edge of pot lid 404.2 on gas drier
It is threadedly coupled between 404.3 interior lateral edge, is respectively arranged at left and right sides of the upper section of the gas drier kettle body 404.1
Gas drier air inlet 404.5 and gas drier gas outlet 404.6, in the gas drier kettle body 404.1
The center of chamber is provided with the gas drier central plenum 404.4 of vertical multi-edge column-shaped, the gas drier center
Gas drier liquid level sensor 404.17 is provided in gas chamber 404.4, gas drier liquid level sensor 404.17
Top is fixedly connected with the center of pot lid 404.2 on gas drier;
Annular compartment inner ring between the gas drier central plenum 404.4 and gas drier kettle body 404.1 is set
There are multiple gas drier starting staves 404.7, the second riser of multiple gas driers 404.8 and two to be centrosymmetric
Gas drier third riser 404.9, offer gas in the middle part of the top of the gas drier starting stave 404.7
The first gap of body drying device 404.10 offers gas in the middle part of the bottom end of second riser of gas drier 404.8
The second gap of drying device 404.11, two pieces of gas drier third risers 404.9 be respectively arranged at gas drier into
The front side of port 404.5 and the rear side of gas drier gas outlet 404.6, multiple gas drier starting staves 404.7
It is set to two pieces of gas drier third risers with multiple 404.8 interlaced arrangements of the second riser of gas drier and at equal intervals
The leading portion and back segment of annular compartment between 404.9, wherein the gas positioned at 404.5 front side of gas drier air inlet is dry
Dry device third riser 404.9, the lateral surface of gas drier central plenum 404.4, gas drier starting stave
404.7 and the medial surface of gas drier kettle body 404.1 constitute the gas that is connected with gas drier air inlet 404.5
Body drying device inlet plenum 404.12, positioned at the gas drier third riser of 404.6 rear side of gas drier gas outlet
404.9, the lateral surface of gas drier central plenum 404.4, the second riser of gas drier 404.8 and gas dry
The medial surface of device kettle body 404.1 constitutes the gas drier discharge chamber being connected with gas drier gas outlet 404.6
404.13, by gas drier starting stave 404.7, the lateral surface of gas drier central plenum 404.4, gas dry
The second riser of device 404.8 and the medial surface of gas drier kettle body 404.1 constitute the gas dry of similar sector structure
Device gas chamber 404.14, the gas drier inlet plenum 404.12, gas drier discharge chamber 404.13 and gas are dry
The volume capacity of dry device gas chamber 404.14 is equal;
The top and bottom end of the gas drier central plenum 404.4 offer gas drier third gap respectively
404.15 and the 4th gap 404.16 of gas drier, the gas drier third gap 404.15 is located at closely gas
In the gas drier gas chamber 404.14 of 404.12 front side of drying device inlet plenum, the 4th gap 404.16 of gas drier
In the closely gas drier gas chamber 404.14 of 404.13 rear side of gas drier discharge chamber;
The bottom section of the gas drier central plenum 404.4 is provided with lateral gas drier first partition
404.18, the surface of gas drier first partition 404.18 is provided with a plurality of air holes, the gas drier first every
Plate 404.18 is located at the top of the 4th gap 404.16 of gas drier;The bottom of the gas drier inlet plenum 404.12
End is provided with gas drier second partition 404.19;The closely gas dry of 404.12 rear side of gas drier inlet plenum
The top section of device gas chamber 404.14 is provided with lateral gas drier third partition 404.20, the gas drier
Three partitions 404.20 are located at the lower section of the first gap of gas drier 404.10;The gas drier discharge chamber 404.13
The middle section of inner cavity is provided with lateral the 4th partition 404.21 of gas drier, and the 4th partition 404.21 of gas drier will
404.13 inner cavity of gas drier discharge chamber is separated into upper cavity and lower chamber;The gas drier third partition
404.20 are provided with a plurality of air holes with the surface of the 4th partition 404.21 of gas drier, the gas drier gas chamber
Desiccant 404.21 is placed in 404.14 inner cavity and the lower chamber of gas drier discharge chamber 404.13;
It, need to be by gas drier pot when staff places desiccant 404.21 into gas drier kettle body 404.1
Body 404.1, which stands upside down, to be placed, and gas drier first partition 404.18 is filled for stopping desiccant 404.21 to enter gas dry
It sets in central plenum 404.4, gas drier second partition 404.19 makes the formation of gas drier inlet plenum 404.12
Independent ponding space, and desiccant 404.21 is stopped to enter in gas drier inlet plenum 404.12, gas drier
In the upper cavity that 4th partition 404.21 is used to that desiccant 404.21 to be stopped to enter gas drier discharge chamber 404.13, prevent
Desiccant 404.21 blocks gas drier gas outlet 404.6, and gas drier third partition 404.20 is for blocking pair
Desiccant 404.21 in the gas drier gas chamber 404.14 answered enters in gas drier inlet plenum 404.12, avoids
Desiccant 404.21 blocks gas drier air inlet 404.5;
The top and bottom end of the gas drier kettle body 404.1 respectively with pot lid 404.2 and gas on gas drier
Gas drier gasket 404.22 is provided under drying device between pot lid 404.3;
The gas drier central plenum 404.4, gas drier inlet plenum 404.12, gas drier discharge chamber
404.13 and the upper and lower end face of gas drier gas chamber 404.14 be provided with gas drier sealing strip 404.23, lead to
It crosses and seals cooperation between gas drier sealing strip 404.23 and gas drier gasket 404.22, guarantee between each gas chamber
Independence.
The working principle of the gas drier 404: the hydrogen or oxygen gas with vapor is through gas drier air inlet
Mouth 404.5 enters in gas drier inlet plenum 404.12, and part vapor forms droplet to the cold and is deposited on gas dry
In device inlet plenum 404.12, the hydrogen or oxygen gas with vapor passes through the gentle soma of the first gap of gas drier 404.10
The gas drier of S-shaped successively upper and lower 404.1 back segment of gas coming through drying device kettle body of dry the second gap of device 404.11
Gas chamber 404.14, then gas drier central plenum 404.4 is entered by the 4th gap 404.16 of gas drier, pass through
Gas drier third gap 404.15 enters the gas dry dress next to 404.12 front side of gas drier inlet plenum
It sets in gas chamber 404.14, is in S by the first gap of gas drier 404.10 and the second gap of gas drier 404.11
The shape successively gas drier gas chamber 404.14 of 404.1 leading portion of gas coming through drying device kettle body up and down, eventually enters into gas
In drying device discharge chamber 404.13, exported by gas drier gas outlet 404.6.When desiccant 404.21 fails or does
When dry scarce capacity, the vapor in hydrogen or oxygen gas fails to be sucked out in time, over time, gas drier central plenum
Water accumulation level in 404.4 gradually rises, when the floating ball in gas drier liquid level sensor 404.17 reaches high liquid level,
Signal is fed back to control unit 100 by gas drier liquid level sensor 404.17, is started warning function and is triggered further
Safeguard measure.The gas drier 404 has both two functions of gas dry and Failure Alarm, is guaranteeing the same of compact
When, the active path and area that desiccant is contacted with gas are increased, extends the replacement cycle of desiccant, its structure designs just
It is capable of automatic alarm and trigger further safeguard measure when desiccant failure or when drying capacity deficiency in replacement desiccant.
The sealant supplement cylinder 405 includes the sealant supplement cylinder ontology 405.1 vertically placed, the top of the sealant supplement cylinder ontology 405.1
It is provided with sealant supplement cylinder water filling port 405.2, the lower section of the sealant supplement cylinder ontology 405.1 is provided with sealant supplement cylinder water outlet 405.3, described
Be provided with cooling spiral pipe 405.4 in the inner cavity of sealant supplement cylinder ontology 405.1 from top to bottom, the cooling spiral pipe 405.4 it is upper
Port is set as cooling spiral pipe inlet 405.5, and the upper port of cooling spiral pipe 405.4 stretches out sealant supplement cylinder ontology 405.1
Upper section, the lower port of the cooling spiral pipe 405.4 is set as cooling spiral pipe liquid outlet 405.6, and cooling spiral pipe
405.4 lower port stretches out the lower section of sealant supplement cylinder ontology 405.1, is additionally provided with benefit in the inner cavity of the sealant supplement cylinder ontology 405.1
Liquid level of tank sensor 405.7 and sealant supplement cylinder temperature sensor 405.8;
Room temperature raw water is occupied in the sealant supplement cylinder ontology 405.1, cooling spiral pipe 405.4 is soaked in room temperature raw water.
The water electrolyser 401, circulation fluid reservoir 402, gas cooling water treatment plant 403, gas drier 404 and
Connection relationship between sealant supplement cylinder 405 are as follows:
It is described by the first piping connection between the water electrolyser gas outlet 401.11 and circulation fluid reservoir air inlet 402.8
It recycles between fluid reservoir gas outlet 402.9 and gas cooling water treatment plant air inlet 403.2 through the second piping connection, the gas
Pass through third piping connection, the gas between the cooling water treatment plant gas outlet 403.3 of body and gas drier air inlet 404.5
Body drying device gas outlet 404.6 introduces the hydrogen or oxygen gas after drying in the admission line of engine 102, and the gas is cold
But pass through between water treatment plant liquid return hole 403.4, circulation fluid reservoir liquid outlet 402.10 and cooling spiral pipe inlet 405.5
4th piping connection is connected between the cooling spiral pipe liquid outlet 405.6 and water electrolyser liquid return hole 401.9 by the 5th pipeline
It connects, the water electrolyser leakage fluid dram 401.10 has tapping valve 406, the sealant supplement cylinder water outlet 405.3 by the 6th piping connection
Pass through the 7th piping connection between the bottom end of circulation fluid reservoir liquid-feeding tube 402.13, is provided with make-up water pump 407 on the 7th pipeline
With electric check valve 408.
A kind of working principle of Vehicular internal combustion engine oil-saving discharging-reducing device:
Water electrolyser 401 starts electrolysis water, and generates the hydrogen or oxygen gas for having vapor, the hydrogen or oxygen gas with vapor in time
Assemble to top, and is entered from water electrolyser gas outlet 401.11 through the first pipeline by circulation fluid reservoir air inlet 402.8 and recycled
In fluid reservoir 402, and through the electrolyte in circulation fluid reservoir 402, after circulation 402 inner top of fluid reservoir aggregation, from circulation
Fluid reservoir gas outlet 402.9 enters gas cooling water treatment plant by gas cooling water treatment plant air inlet 403.2 through the second pipeline
In 403, hydrogen or oxygen gas through supercooling and later is done through third pipeline by gas from gas cooling water treatment plant gas outlet 403.3
Dry device air inlet 404.5 enters in gas drier 404, by the desiccant 404.21 in drying device 404 to hydrogen-oxygen
Gas is dried, by gas drier gas outlet 404.6 by the hydrogen or oxygen gas after drying export to engine 102 into
In feed channel, finally enter in cylinder with air;
When the hydrogen or oxygen gas with vapor enters in gas cooling water treatment plant 403, vapor is condensed into liquid to the cold, gathers
Collection passes through gas cooling water treatment plant liquid return hole 403.4 through the 4th pipeline by cold in the bottom of gas cooling water treatment plant 403
But helix tube inlet 405.5 enters in cooling spiral pipe 405.4, by cooling spiral pipe liquid outlet 405.6 through the 5th pipeline
It is back in water electrolyser 401 by water electrolyser liquid return hole 401.9;
Since a large amount of thermal energy can be discharged in the electrochemical reaction process of water electrolysis, lead to the electrolyte temperature in water electrolyser 401
Degree is lasting to be increased, and the hydrogen or oxygen gas generated in water electrolyser 401 is from water electrolyser gas outlet 401.11 through the first pipeline by recycling
While fluid reservoir air inlet 402.8 enters circulation fluid reservoir 402, due to the effect of 401 internal pressure of water electrolyser and air-flow,
The high-temperature electrolyte of 401 internal upper part of water electrolyser is brought into the form of gas-liquid mixed together in circulation fluid reservoir 402, storage to be recycled
After electrolyte in flow container 402 slightly cools down, under the effect of gravity, from circulation fluid reservoir liquid outlet 402.10 through the 4th
Pipeline is entered in cooling spiral pipe 405.4 by cooling spiral pipe inlet 405.5, due to having filled room temperature original in sealant supplement cylinder 405
Expect water, sufficiently the high-temperature electrolyte in cooling spiral pipe 405.4 can be cooled down, electrolyte after cooling passes through cooling spiral
Pipe liquid outlet 405.6 is back in water electrolyser 401 by water electrolyser liquid return hole 401.9 through the 5th pipeline and carries out cell reaction.
So persistent loop cooling.
Continuous with cell reaction continues, and the electrolyte in water electrolyser 401 constantly consumes therewith, causes to recycle liquid storage
Liquid level of electrolyte in tank 402 constantly declines, and when electrolyte liquid level drops to setting liquid level low level, triggers alarm signal, by
Control unit 200 controls make-up water pump 407 and starts, while controlling the unlatching of electric check valve 408, and the room temperature in sealant supplement cylinder 405 is former
Expect that water is pumped into circulation liquid storage by the bottom end of circulation fluid reservoir liquid-feeding tube 402.13 through the 7th pipeline by sealant supplement cylinder water outlet 405.3
In tank 402, as the raising of liquid level in circulation fluid reservoir 402 triggers alarm signal when liquid level reaches a setting liquid level high position, by
Control unit 200 controls make-up water pump 407 and closes, while controlling the closing of electric check valve 408, stops adding water.
Hydrogen or oxygen gas, such as once encountering pipeline blockage, causes outlet unsmooth during output, recycles 402 He of fluid reservoir
Gas pressure in gas cooling water treatment plant 403 can continue to increase, real-time by circulation fluid reservoir pressure sensor 402.14
Gas pressure change situation in monitoring circulation fluid reservoir 402, when the gas pressure in circulation fluid reservoir 402 reaches high alarm setting
When pressure value, trigger signal alarm controls intelligent controllable electrolysis power supply 300 by control unit 200 and stops power supply, entire vehicle in time
It is closed with combustion engine energy-saving emission reduction device 400, stops generating gas;When circulation fluid reservoir pressure sensor 402.14 breaks down
Or control unit 200 fails, when can not carry out monitoring for protection to pressure, since the top of circulation fluid reservoir 402 is provided with circulation
Fluid reservoir decompression cover 402.11 recycles fluid reservoir when the gas pressure in circulation fluid reservoir 402 reaches high alarm setting pressure value
Protection spring in decompression cover 402.11 forced compression under pressure, opens pressure relief opening, automatic multiple after pressure release
Position.
A kind of working principle of Vehicular internal combustion engine energy saver automatic control system:
Control unit first detects vehicle start and stop state, when the vehicle is powered on, to vehicle and Vehicular internal combustion engine oxyhydrogen
Oil-saving discharging-reducing device is assisted to carry out parameter pre-detection;
When engine is in vehicle launch state, control unit enters normal operation mode, according to vehicle self-sensor device with
And the detection information of exterior sensor, the operating condition (idling, normally travel) of engine is judged;
When vehicle starts normally travel, control unit is in real time acquired each sensing data, analyzes and operation, real-time judge
The operating condition of vehicle, running environment, road and traffic condition (vehicle working condition include: the starting of vehicle, acceleration, at the uniform velocity, the row such as slow down
Sail state;Running environment includes: weather conditions, ambient air temperature, air humidity, ambient wind, atmospheric pressure etc.;Road and traffic
Situation includes: flat, ramp or rough road condition, urban district, suburb or super expressway, smooth traffic or jam situation etc.);
Meanwhile control unit is in real time acquired the voltage and current value of intelligent controllable electrolysis power supply, passes through above-mentioned every ginseng
Several collection analysis, according to the strategy of program setting, according to the different shapes such as the operating condition of vehicle, running environment, road and traffic shape
The current value demarcated under state is exported, and when the variation of Faradaic current value, the gas production of water electrolyser also changes therewith, thus
Realize the control to the air demand of Vehicular internal combustion engine oil-saving discharging-reducing device.
Each sensing data in Vehicular internal combustion engine oil-saving discharging-reducing device is acquired in real time by control unit, analysis and
Operation, operating condition, all kinds of alarms of identification and the malfunction of real-time judge device, controls each executive component in time and carries out accordingly
Processing movement, guarantee the normal operation and fault alarm of whole device.
Wherein, control unit can be kept in communication in real time with background data server by network and be coupled, by the correlation of vehicle
Parameters in information (such as speed, position, section track), Vehicular internal combustion engine oil-saving discharging-reducing device (as operation start and stop state,
Internal element executes action record, alarm and fault code etc.), the data such as device in hood to maintain record records and will needs in real time
The project of processing pushes to the network terminals such as sale and after-sale service in time.
The above is only specific application examples of the invention, are not limited in any way to protection scope of the present invention.All uses
Equivalent transformation or equivalent replacement and the technical solution formed, all fall within rights protection scope of the present invention.
Claims (9)
1. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression, it is characterised in that: including recycling fluid reservoir ontology, the circulation
The longitudinally arranged circulation fluid reservoir point storehouse partition of multiple settings is provided in the inner cavity of fluid reservoir ontology from left to right, it is multiple to follow
The inner cavity for recycling fluid reservoir ontology is separated into multiple circulation fluid reservoir liquid storage warehouses, the circulation storage by ring fluid reservoir point storehouse partition
The lower section of flow container point storehouse partition offers circulation fluid reservoir communication port, wherein the circulation fluid reservoir liquid storage positioned at left or right side
Space collar is swung equipped with the suppression of multilayer circulation fluid reservoir first every wing the inner wall of warehouse from bottom to top, remaining circulation fluid reservoir liquid storage warehouse
The lower section of inner wall enclose and there is the suppression of one layer of circulation fluid reservoir second to swing every wing, the circulation fluid reservoir second, which presses down, to be swung every the top of wing
Multiple spaced apart circulation fluid reservoir mesh partitions are provided with, the surrounding and circulation fluid reservoir storage of fluid reservoir mesh partition are recycled
The inner wall of liquid warehouse is fixedly connected.
2. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression according to claim 1, it is characterised in that: be located at left side
Or circulation fluid reservoir liquid-feeding tube is additionally provided in the circulation fluid reservoir containing liquid chamber room on right side, the bottom of the circulation fluid reservoir liquid-feeding tube
End is stretched out the bottom of circulation fluid reservoir ontology and is extended downwards, and the top of circulation fluid reservoir liquid-feeding tube is located at the circulation liquid storage in left side
The upper section of tank liquid storage warehouse.
3. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression according to claim 1, it is characterised in that: the circulation
Fluid reservoir second press down swing every wing and multiple circulation fluid reservoir mesh partitions respectively with multiple circulation fluid reservoirs for arranging from bottom to top
First suppression, which is swung, is located at sustained height every wing.
4. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression according to claim 1, it is characterised in that: be located at left side
Or vertical circulation liquid tank level sensor, the circulation fluid reservoir are additionally provided in the circulation fluid reservoir containing liquid chamber room on right side
The top of liquid level sensor is connect with the top of circulation fluid reservoir ontology.
5. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression according to claim 1, it is characterised in that: the circulation
The bottom that right section of fluid reservoir ontology is vertically provided with circulation fluid reservoir air inlet, and the top of right section of fluid reservoir ontology of circulation is set upwards
It is equipped with circulation fluid reservoir gas outlet, the bottom in the circulation fluid reservoir ontology middle section is vertically provided with circulation fluid reservoir liquid outlet.
6. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression according to claim 1, it is characterised in that: the circulation
Circulation fluid reservoir decompression cover is provided at the top of fluid reservoir ontology middle section.
7. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression according to claim 1, it is characterised in that: the circulation
Circulation fluid reservoir pressure sensor is additionally provided in fluid reservoir ontology.
8. circulation fluid reservoir is swung in a kind of automobile-used oxyhydrogen generator suppression according to claim 1, it is characterised in that: the circulation
Fluid reservoir mesh partition or liquid fluctuating range arrangement above one to two layers recycle the suppression of fluid reservoir first and swing every wing and circulation liquid storage
The suppression of tank second is swung every wing.
9. a kind of Vehicular internal combustion engine energy-saving emission-reducing apparatus, it is characterised in that: including water electrolyser, one kind described in claim 1
Circulation fluid reservoir, gas cooling water treatment plant, gas drier, sealant supplement cylinder are swung in automobile-used oxyhydrogen generator suppression,
The water electrolyser produces hydrogen or oxygen gas for water electrolysis;
A kind of automobile-used oxyhydrogen generator suppression described in claim 1 swings circulation fluid reservoir and electrification occurs in water electrolyser for collecting
Learn the high-temperature electrolyte of the gas-liquid mixed of reaction, wherein the hydrogen or oxygen gas by a part containing vapor is sent into gas cooling filter
In water installations, another part high-temperature electrolyte is sent into sealant supplement cylinder;
The gas cooling water treatment plant is used to carry out the hydrogen or oxygen gas containing vapor cooling and carries out a drainage to it;
The gas drier is used to be dried by the hydrogen or oxygen gas after gas cooling water treatment plant drainage, will do
Hydrogen or oxygen gas after dry is exported into engine;
The sealant supplement cylinder leads to for cooling down to high-temperature electrolyte, and to raw water needed for circulation fluid reservoir supplement electrolysis
It crosses circulation fluid reservoir the raw water of supplement is sent into water electrolyser.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910326029.1A CN109915286A (en) | 2019-04-23 | 2019-04-23 | Circulation fluid reservoir is swung in automobile-used oxyhydrogen generator suppression |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910326029.1A CN109915286A (en) | 2019-04-23 | 2019-04-23 | Circulation fluid reservoir is swung in automobile-used oxyhydrogen generator suppression |
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