CN104421092A - Liquid circulation engine - Google Patents

Liquid circulation engine Download PDF

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Publication number
CN104421092A
CN104421092A CN201310367276.9A CN201310367276A CN104421092A CN 104421092 A CN104421092 A CN 104421092A CN 201310367276 A CN201310367276 A CN 201310367276A CN 104421092 A CN104421092 A CN 104421092A
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CN
China
Prior art keywords
liquid
circulating motor
water pump
active force
axle
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.)
Pending
Application number
CN201310367276.9A
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Chinese (zh)
Inventor
刘凤侠
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Individual
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Individual
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Filing date
Publication date
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Priority to CN201310367276.9A priority Critical patent/CN104421092A/en
Publication of CN104421092A publication Critical patent/CN104421092A/en
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B1/00Engines of impulse type, i.e. turbines with jets of high-velocity liquid impinging on blades or like rotors, e.g. Pelton wheels; Parts or details peculiar thereto
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D13/00Pumping installations or systems
    • F04D13/02Units comprising pumps and their driving means
    • F04D13/04Units comprising pumps and their driving means the pump being fluid driven
    • 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
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)

Abstract

The invention relates to engines, in particular to a liquid circulation engine. Existing diesel, petrol, gas and oil and gas dual-use engines are expensive in oil and difficult to fill gas are in a common work mode of combustion and accordingly have the common deficiencies of waste of resources due to high energy consumption, waste of costs due to expensive raw materials, high pollution and emissions and safety risks due to the flammable raw materials. The liquid circulation engine is composed of a water pump, a liquid reservoir and a main power chamber and is characterized in that a transmission is additionally mounted between a main power chamber shaft and a water pump shaft to combine an entire main shaft. Impellers of the main power chamber rotates by being pushed by the impact force of the liquid output from the water pump to drive the water pump to run so as to form continuous complementary force. The liquid is sucked out from the liquid reservoir through the water pump and flows back to the liquid reservoir after the completion of a work cycle. The liquid circulation engine is simple and reasonable in structure, resource-saving, economical, free from pollution, zero in emission, safe and reliable.

Description

Liquid-circulating motor
Technical field
The present invention relates to a kind of motor, specifically a kind of liquid-circulating motor.
Background technique
Now widely used motor has diesel engine, petrol engine, combustion vapour motor, oil-gas two-purpose motor, and present situation is that oil is too expensive, and vapour difficulty adds.The burning of their common working methods of this several motor determines their common shortcomings: 1. high energy consumption waste resource, 2. the raw material used too your waste is economical, 3. high pollution, 4. maximum discharge, all adverse effect is caused to urban environment and health and the ecosystem, 5. the raw material used is inflammable product, there is potential safety hazard.Tellurian oil and natural gas is limited resources, sooner or later has one day that is finished.
Summary of the invention
The technical issues that need to address of the present invention are the deficiencies overcoming background technique, provide a kind of simple and reasonable, saving resource, save economical, pollution-free, zero-emission, safe and reliable, working method and the diverse a kind of liquid-circulating motor of background technique.
Liquid-circulating motor of the present invention, the main effect adopting complementary force in liquid-circulating process, therefore accomplishes energy-conservation, economic, pollution-free, zero-emission, safe and reliable.
Concrete technological scheme
Liquid-circulating motor of the present invention, utilizes the impact force of water pump output liquid to promote active force room vane rotary, and active force room vane rotary drives pump operation, therefore forms continuously complementary force.Liquid is flow back into liquid storage tank by water pump after liquid storage tank sucking-off completes a work cycle.It is characterized in that having installed speed changer additional between described liquid-circulating motor active force room axle and water pump spindle, be combined into an overall main shaft.The groove that active force chamber enclosure inwall has striped, plane of inclination is arranged at bottom and delivery outlet and inlet opening.Active force room impeller is made up of axle seat, blade, branch bar, and active force room impeller can be one group, two groups, n group, and blade surface has concave surface, branch bar fixing port, blank, axle seat fixing port.The liquid regulator of described liquid-circulating engine water pump output channel end plays the flow, flow velocity, the pressure size that control liquid.Automatically open when the back flow regular of water pump input channel end plays pump working, automatically close when not working.Described liquid storage tank has two delivery outlets and two inlet openings.Active force room, water pump, liquid storage tank have connecting passage to connect between them.
Liquid-circulating motor of the present invention has simple and reasonable, saving resource, saves economical, pollution-free, zero-emission, safe and reliable.
Notice; 1. use attention cold-proof at sub-zero environment.2. whatsoever liquid all will accomplish foam-free.
Accompanying drawing explanation
Fig. 1: liquid-circulating motor floor map
Fig. 2: Fig. 2 is the internal structure floor map of Fig. 1
Fig. 3. liquid-circulating motor active force room impeller side schematic diagram
Fig. 4. Fig. 4 is the floor map of Fig. 3 impeller upper blade
Fig. 5. liquid-circulating motor active force chamber enclosure left surface schematic diagram
Fig. 6. liquid-circulating motor liquid storage tank bottom schematic view
Fig. 7. the internal structure floor map of liquid-circulating motor two groups of impeller sets
Fig. 8. Fig. 8 is the external structure floor map of Fig. 7
Fig. 9. the internal structure floor map of liquid-circulating motor n group impeller sets
Figure 10. Figure 10 is the external structure floor map of Fig. 9
Figure 11. the A face schematic diagram of liquid-circulating motor active force room
Description of symbols on accompanying drawing
Main shaft (1), power output wheel (2), starter wheel for inputting (3), connecting passage (4), liquid storage tank (5), inlet opening (6), liquid regulator (7), (7-1) (7-2) (7-n), connecting passage (8) (8-1) (8-2) (8-n), water pump (9), connecting passage (10), back flow regular (11), inlet opening (12), delivery outlet (13), water pump inlet opening (14), water pump delivery outlet (15) (15-n), water pump spout (16), active force room (17), inlet opening (18) (18-1) (18-2) (18-n), blade (19), speed changer (20), water pump vane (21) (21-n) water pump spindle (22), active force room axle (23), axle sits (24), branch bar (25), active force room impeller (26) (26-1) (26-2) (26-n), concave surface (27), branch bar fixing port (28), blank (29), axle sits fixing port (30), active force chamber enclosure (31), groove (32), delivery outlet (33), axle mouth (34), striped (35), plane of inclination (36), delivery outlet (37), lid (38).
Embodiment
Below in conjunction with accompanying drawing, the invention will be further described, embodiment all with water be raw material running.
Embodiment 1. is shown in that this liquid-circulating of Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Figure 11 motor utilizes the impact force of water pump (9) output liquid to rotate to promote active force room impeller (26), active force room impeller (26) rotarily drives water pump (9) running, therefore forms continuously complementary force.Liquid is back to liquid storage tank (5) by water pump (9) after liquid storage tank (5) sucking-off completes a work cycle.It is characterized in that having installed speed changer (20) additional between described liquid-circulating motor active force room axle (23) and water pump spindle (22), be combined into an overall main shaft (1).Active force room impeller (26) is sat (24) formed by blade (19), branch bar (25), axle, and blade (19) surface has concave surface (27), branch bar fixing port (28), blank (29), axle to sit fixing port (30).Active force chamber enclosure (31) inwall has striped (35) and bottom have the groove (32) of plane of inclination (36), delivery outlet (33), inlet opening (18) axle mouth (34) and cover (38).Described liquid storage tank (5) has two delivery outlets (37) (13) and two inlet openings (12) (6).Active force room (17), water pump (9), liquid storage tank (5) have connecting passage (4) (8) (10) to connect between them.
Assembling example 1: it is the parts connecting main power shaft (23) and blade (19) that the axle in embodiment 1 on liquid-circulating motor active force room impeller (26) of the present invention sits (24), first axle being sat (24) is fixed on active force room axle (23), afterwards blade (19) is being installed.During dress blade (19), blade (19) will be placed on axle and sits the current of (24) and attack this face directly, and axle sits (24) after water (flow) direction, and such blade (19) has stronger impact resistance.The surface of blade (19) has concave surface (27) to be to strengthen stress surface, blank (29) are to reduce liquid by impeller (26) driven rotary, branch bar (25) the branch bar fixing port (28) on blade (19) is connected and fixed integrally, increases robustness.It is characterized in that having installed speed changer (20) additional between described liquid-circulating motor active force room axle (23) and water pump spindle (22), be combined into an overall main shaft (1).The effect of speed changer (20) is that the water pump vane that turns around (21) is revolved in active force room impeller (26) can multi-turn rotation, reach higher, the faster water-outlet quantity of water pump vane (21) running speed larger, water impact Driving force is stronger, improve complementary force.Main shaft (1) is installed close the lid (38) through axle mouth (34).Described active force chamber enclosure (31) inwall has striped (35), liquid on inwall can flow rapidly to the groove (32) of below along striped (35), when the effect of groove (32) is impeller (26) rotation, the liquid flow down can not get at volume by blade (19), is also to prevent blade (19) from impacting the liquid of below and producing resistance.Bottom has the groove of plane of inclination (36) (32) to be facilitate liquid quick backflow to liquid storage tank (5).It is characterized in that described liquid-circulating motor connecting passage (10) takes back throttle regulator (11) is placed on liquid storage tank (5) bottom by liquid storage tank delivery outlet (13), other end is connected to water pump inlet opening (14), has link to connect.Connecting passage (8) water pump delivery outlet (15) other ends are connected to the inlet opening (18) on active force chamber enclosure (31) after connecing the liquid regulator (7) of connecting passage end, have link to connect.Connecting passage (4) connection liquid storage tank inlet opening (6) other ends connect the delivery outlet (33) of active force chamber enclosure (31) below, have link to connect.
Embodiment 2. is shown in that active force room (17) in this liquid-circulating of Fig. 1, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Figure 11 engine map 1 and water pump (9) shed, and then loads onto the active force room (17) in Fig. 7 and water pump (9).The impact force of water pump (9) output liquid is utilized to rotate to promote active force room impeller (26) (26-2), active force room impeller (26) (26-2) rotarily drives water pump (9) running, therefore forms continuously complementary force.Liquid is back to liquid storage tank (5) by water pump (9) after liquid storage tank (5) sucking-off completes a work cycle.It is characterized in that having installed speed changer (20) additional between described liquid-circulating motor active force room axle (23) and water pump spindle (22), be combined into an overall main shaft (1).Active force room impeller (26) (26-2) is sat (24) formed by blade (19), branch bar (25), axle, and blade (19) surface has concave surface (27), branch bar fixing port (28), blank (29), axle to sit fixing port (30).Active force chamber enclosure (31) inwall has striped (35) and bottom have the groove (32) of plane of inclination (36), delivery outlet (33), inlet opening (18) (18-2) axle mouth (34) and cover (38).Described liquid storage tank (5) has two delivery outlets (37) (13) and two inlet openings (12) (6).Active force room (17), water pump (9), liquid storage tank (5) have connecting passage (4) (8) (8-1) (10) to connect between them.
Assembling example 2: it is the parts connecting main power shaft (23) and blade (19) that the axle in embodiment 2 on liquid-circulating motor active force room impeller (26) (26-2) of the present invention sits (24), first axle being sat (24) is fixed on active force room axle (23), afterwards blade (19) is being installed.During dress blade (19), blade (19) will be placed on axle and sits the current of (24) and attack this face directly, and axle sits (24) after water (flow) direction, and such blade (19) has stronger impact resistance.The surface of blade (19) has concave surface (27) to be to strengthen stress surface, blank (29) are to reduce liquid by impeller (26) (26-2) driven rotary, branch bar (25) the branch bar fixing port (28) on blade (19) is connected and fixed integrally, increases robustness.It is characterized in that having installed speed changer (20) additional between described liquid-circulating motor active force room axle (23) and water pump spindle (22), be combined into an overall main shaft (1).The effect of speed changer (20) is that the water pump vane that turns around (21) (21-n) is revolved in active force room impeller (26) (26-2) can multi-turn rotation, reach higher, the faster water-outlet quantity of water pump vane (21) (21-n) running speed larger, water impact Driving force is stronger, improve complementary force.Main shaft (1) is installed close the lid (38) through axle mouth (34).Described active force chamber enclosure (31) inwall has striped (35), liquid on inwall can flow rapidly to the groove (32) of below along striped (35), the effect of groove (32) be impeller (26) (26-2) when rotating blade (19) liquid flow down can not be got at volume, be also prevent blade (19) from impacting the liquid of below and producing resistance.Bottom has the groove of plane of inclination (36) (32) to be facilitate liquid quick backflow to liquid storage tank (5).It is characterized in that described liquid-circulating motor connecting passage (10) takes back throttle regulator (11) is placed on liquid storage tank (5) bottom by liquid storage tank delivery outlet (13), other end is connected to water pump inlet opening (14), has link to connect.Connecting passage (8) (8-1) water pump delivery outlet (15) (15-n) other end is connected to after meeting liquid regulator (7) (7-2) of connecting passage end inlet opening (18) (18-2) on active force chamber enclosure (31), has link to connect.Connecting passage (4) connection liquid storage tank inlet opening (6) other ends connect the delivery outlet (33) of active force chamber enclosure (31) below, have link to connect.
Embodiment 3. is shown in that active force room (17) in this liquid-circulating of Fig. 1, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 9 Figure 10, Figure 11 engine map 1 and water pump (9) shed, and then loads onto the active force room (17) in Fig. 9 and water pump (9).The impact force of water pump (9) output liquid is utilized to rotate to promote active force room impeller (26) (26-1) (26-2) (26-n), active force room impeller (26) (26-1) (26-2) (26-n) rotarily drives water pump (9) running, therefore forms continuously complementary force.Liquid is back to liquid storage tank (5) by water pump (9) after liquid storage tank (5) sucking-off completes a work cycle.It is characterized in that having installed speed changer (20) additional between described liquid-circulating motor active force room axle (23) and water pump spindle (22), be combined into an overall main shaft (1).Active force room impeller (26) (26-1) (26-2) (26-n) is sat (24) formed by blade (19), branch bar (25), axle, and blade (19) surface has concave surface (27), branch bar fixing port (28), blank (29), axle to sit fixing port (30).Active force chamber enclosure (31) inwall has striped (35) and bottom have the groove (32) of plane of inclination (36), delivery outlet (33), inlet opening (18) (18-1) (18-2) (18-n) axle mouth (34) and cover (38).Described liquid storage tank (5) has two delivery outlets (37) (13) and two inlet openings (12) (6).Active force room (17), water pump (9), liquid storage tank (5) have connecting passage (4) (8) (8-1) (8-2) (8-n) (10) to connect between them.
Assembling example 3: it is the parts connecting active force room axle (23) and blade (19) that the axle in embodiment 3 on liquid-circulating motor active force room impeller (26) (26-1) (26-2) (26-n) of the present invention sits (24), first axle being sat (24) is fixed on active force room axle (23), afterwards blade (19) is being installed.During dress blade (19), blade (19) will be placed on axle and sits the current of (24) and attack this face directly, and axle sits (24) after water (flow) direction, and such blade (19) has stronger impact resistance.The surface of blade (19) has concave surface (27) to be to strengthen stress surface, blank (29) are to reduce liquid by impeller (26) (26-1) (26-2) (26-n) driven rotary, branch bar (25) the branch bar fixing port (28) on blade (19) is connected and fixed integrally, increases robustness.It is characterized in that having installed speed changer (20) additional between described liquid-circulating motor active force room axle (23) and water pump spindle (22), be combined into an overall main shaft (1).The effect of speed changer (20) is that the water pump vane that turns around (21) (21-n) is revolved in active force room impeller (26) (26-1) (26-2) (26-n) can multi-turn rotation, reach higher, the faster water-outlet quantity of water pump vane (21) (21-n) running speed larger, water impact Driving force is stronger, improve complementary force.Main shaft (1) is installed close the lid (38) through axle mouth (34).Described active force chamber enclosure (31) inwall has striped (35), liquid on inwall can flow rapidly to the groove (32) of below along striped (35), the effect of groove (32) be impeller (26) (26-1) (26-2) (26-n) when rotating blade (19) liquid flow down can not be got at volume, be also prevent blade (19) from impacting the liquid of below and producing resistance.Bottom has the groove of plane of inclination (36) (32) to be facilitate liquid quick backflow to liquid storage tank (5).It is characterized in that described liquid-circulating motor connecting passage (10) takes back throttle regulator (11) is placed on liquid storage tank (5) bottom by liquid storage tank delivery outlet (13), other end is connected to water pump inlet opening (14), has link to connect.Connecting passage (8) (8-1) (8-2) (8-n) water pump delivery outlet (15) (15-n) other end is connected to after meeting liquid regulator (7) (7-1) (7-2) (7-n) of connecting passage end inlet opening (18) (18-1) (18-2) (18-n) on active force chamber enclosure (31), has link to connect.Connecting passage (4) connection liquid storage tank inlet opening (6) other ends connect the delivery outlet (33) of active force chamber enclosure (31) below, have link to connect.
The place having liquid to pass through seals, in order to avoid leak of liquid.Enough liquid is added in liquid storage tank inlet opening (12) and water pump spout (16) before starting.Need to discharge at the bottom delivery outlet (37) of liquid storage tank (5) during discharge, simultaneously by clean with connecting passage (8) (8-1) (8-2) (8-n) (10) discharge in water pump (9).

Claims (10)

1. a liquid-circulating motor, this motor is made up of water pump (9), liquid storage tank (5), active force room (17), it is characterized in that having filled speed changer (20) between described liquid haughty ring engine active force room axle (23) and water pump spindle (22), be combined into an overall main shaft (1).
2. liquid-circulating motor according to claim 1, is characterized in that described liquid-circulating motor active force chamber enclosure (31) inwall has striped (35) and bottom to have the groove (32) of plane of inclination (36), delivery outlet (33), inlet opening (18) (18-1) (18-2) (18-n).
3. liquid-circulating motor according to claim 1, it is characterized in that described liquid-circulating motor initiatively room impeller (26) (26-1) (26-2) (26-n) can be one group, two groups, n group.
4. liquid-circulating motor according to claim 3, is characterized in that blade (19) surface on the impeller of described liquid-circulating motor active force room has concave surface (27), branch bar fixing port (28), blank (29), axle to sit fixing port (30).
5. liquid-circulating motor according to claim 3, is characterized in that the axle on described liquid-circulating motor active force room impeller (26) (26-1) (26-2) (26-n) sits (24).
6. liquid-circulating motor according to claim 3 or 4 or 5, is characterized in that the branch bar (25) on described liquid-circulating motor active force room impeller (26) (26-1) (26-2) (26-n).
7. liquid-circulating motor according to claim 1, is characterized in that liquid regulator (7) (7-1) (7-2) (7-n) of described liquid-circulating motor.
8. liquid-circulating motor according to claim 7, is characterized in that the back flow regular (11) of described liquid-circulating motor.
9. liquid-circulating motor according to claim 1, is characterized in that the liquid storage tank (5) of described liquid-circulating motor has two delivery outlets (37) (13) and two inlet openings (12) (6).
10. liquid-circulating motor according to claim 2 or 8 or 9, is characterized in that described liquid-circulating motor active force room (17), water pump (9) liquid storage tank (5) have connecting passage (4) (8) (8-1) (8-2) (8-n) (10) to connect between them.
CN201310367276.9A 2013-08-21 2013-08-21 Liquid circulation engine Pending CN104421092A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201310367276.9A CN104421092A (en) 2013-08-21 2013-08-21 Liquid circulation engine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201310367276.9A CN104421092A (en) 2013-08-21 2013-08-21 Liquid circulation engine

Publications (1)

Publication Number Publication Date
CN104421092A true CN104421092A (en) 2015-03-18

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ID=52971005

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201310367276.9A Pending CN104421092A (en) 2013-08-21 2013-08-21 Liquid circulation engine

Country Status (1)

Country Link
CN (1) CN104421092A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114427799A (en) * 2022-01-29 2022-05-03 南通棉田纺织品有限公司 Waste gas waste heat recovery box of textile printing and dyeing setting machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114427799A (en) * 2022-01-29 2022-05-03 南通棉田纺织品有限公司 Waste gas waste heat recovery box of textile printing and dyeing setting machine

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Application publication date: 20150318

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