CN105756860A

CN105756860A - Wind power water pumping and energy storage power station system

Info

Publication number: CN105756860A
Application number: CN201610247248.7A
Authority: CN
Inventors: 黄德中; 黄颖
Original assignee: University of Shaoxing
Current assignee: University of Shaoxing
Priority date: 2016-04-15
Filing date: 2016-04-15
Publication date: 2016-07-13

Abstract

The invention discloses a wind power water pumping and energy storage power station system which comprises a base.The base is fixed to the ground.A steering motor is fixed to the bottom face of the base.An output shaft of the steering motor axially and upwards extends out of the base and is fixedly provided with a supporting column through a coupler, a supporting cross beam is hinged to the top of the supporting column, an upper air collecting casing is fixed to the left end of the supporting cross beam, a lower air collecting casing is arranged below the upper air collecting casing, the upper air collecting casing is fixed to the upper portion of the left end of an air draft pipe, the lower air collecting casing is hinged to the lower portion of the left end of the air draft pipe, a gap exists between the side wall of the upper air collecting casing and the side wall of the lower air collecting casing, the gap is covered with elastic blocking blocks, the upper portions of the elastic blocking blocks are fixed to the outer side wall of the upper air collecting casing, the lower portions of the elastic blocking blocks are fixed to the outer side wall of the lower air collecting casing, the upper air collecting casing, the lower air collecting casing and the two elastic blocking blocks form an air collecting opening, and the air draft pipe is fixed to the supporting cross beam.By means of wind power, water pumping and energy storage are conducted, hydraulic power generation is conducted during the electricity consumption peak, and power generation quality is improved.

Description

A kind of wind-driven water pumping storage station system

Technical field

The present invention relates to generating equipment technical field, more specifically to a kind of wind-driven water pumping storage station system.

Background technology

Wind-power electricity generation is used widely, but due to the uncertainty of wind-force, it is impossible to selectively generating continuously, power generating quality is not high, and electric energy is sent and can not be met industrial and agricultural production life requirement.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art, it is provided that a kind of wind-driven water pumping storage station system, have during wind and utilize wind-force to carry out water-storage, generate electricity from water power during peak of power consumption, random wind energy is become can peak regulation electric energy, make the quality of power supply be greatly improved.

This invention address that the scheme of described technical problem is:

nullA kind of wind-driven water pumping storage station system，Including base，Described base fixes on the ground，The bottom surface of base is fixed with steer motor，The output shaft of steer motor protrudes upward base and is fixed with pillar by shaft coupling，The top of pillar is hinged with support crossbeam，Support and the left end of crossbeam is fixed with wind-collecting cover，Wind-collecting cover under being connected with of upper wind-collecting cover，Upper wind-collecting cover is fixed on the left upper part of induced duct，Lower wind-collecting cover is hinged on the left end bottom of induced duct，Between the sidewall of upper wind-collecting cover and lower wind-collecting cover, there is space，Flexible block covers space，The top of flexible block is fixed on the lateral wall of wind-collecting cover，The bottom of flexible block is fixed on the lateral wall of lower wind-collecting cover，Upper wind-collecting cover、Lower wind-collecting cover and two flexible blocks form collection air port，Induced duct is fixed on support crossbeam，The right-hand member of induced duct connects transition case，The right-hand member of transition case connects discharge pipe，Transition case is fixed on connection support column，Connect support column to fix on the ground，Connect and support column is fixed with pump turbine，The rotating shaft of pump turbine is stretched into transition case and is fixed with rotation turbine，Rotate turbine to be in transition case，The lower end of the rotating shaft of pump turbine is connected with the rotating shaft of electromotor by lead spindle，Electromotor is fixed on connection support column，The drinking-water pipe connected on pump turbine stretches in water liquid，The outlet pipe of pump turbine passes in upper storage reservoir，Horizontal level residing for upper storage reservoir is higher than pump turbine.

The middle top surface of described base is fixed with protection bearing block, in the middle part of the end face of protection bearing block, there is protection groove, the output shaft of steer motor stretches into protection groove, the top of the output shaft of steer motor is that notch cuttype connects shaft part, it is smaller diameter end that notch cuttype connects the lower end of shaft part, the outer wall of smaller diameter end is fixed with journal bearing, the outer ring of journal bearing is fixed on the medial wall of the lower small diameter hole section of protection groove, it is larger diameter end that notch cuttype connects the upper end of shaft part, larger diameter end is provided with thrust bearing, the foundation ring of thrust bearing is pressed against on the bottom surface of the large diameter hole section of protection groove, the collar of thrust bearing is pressed against notch cuttype and connects on the bottom face of shaft coupling that the top of shaft part is provided with；

Shaft coupling is in protection groove, and the lower end of pillar is in protection groove, and sealing ring is fixed on the inside top wall of protection groove, and pillar sleeve is in sealing ring.

The top of described pillar is fixed with support portion, and support portion is hinged with promotion oil cylinder, promotes the end of the push rod of oil cylinder to be hinged on the bottom surface of lower wind-collecting cover, support portion is fixed with protective cover, promotes oil cylinder to be in protective cover.

Being fixed with contiguous block on described support crossbeam, induced duct is fixed on contiguous block.

The right-hand member end face of described support portion is hinged with adjustment oil cylinder, and the top regulating the push rod of oil cylinder is hinged on bottom the right-hand member supporting crossbeam, regulates protective cover for oil tank and is fixed on support portion, regulates oil cylinder and is in protective cover for oil tank.

Being fixed with multiple boss on bottom surface around described base, boss is fixed with steel wire rope, the upper end of steel wire rope is fixed on a pushing out ring, and a pushing out ring is hinged on the middle part of pillar.

The bottom surface of described base is fixed with guard box; steer motor is in guard box, is further fixed on oil feeding reservoirs and controls main frame, oil feeding reservoirs is fixed with the multiple electromagnetic valve bodies being connected with oil feeding reservoirs in guard box; electromagnetic valve body connects fuel feed pump, and fuel feed pump connects the promotion oil cylinder of correspondence or regulates oil cylinder.

Described upper storage reservoir is in the aqueous phase in the top of massif, described lower storage reservoir and sea water or in rivers and lakes and leads to, and lower storage reservoir present position is lower than pump turbine.

The prominent effect of the present invention is: compared with prior art, utilizes wind-force to carry out generating electricity and carrying out water-storage, generates electricity from water power, wind energy is changed into peak regulation electric energy during peak of power consumption.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Detailed description of the invention

nullEmbodiment，See as shown in Figure 1，A kind of wind-driven water pumping storage station system，Including base 10，Described base 10 fixes on the ground，The bottom surface of base 10 is fixed with steer motor 11，The output shaft of steer motor 11 protrudes upward base 10 and is fixed with pillar 20 by shaft coupling，The top of pillar 20 is hinged with support crossbeam 30，Support and the left end of crossbeam 30 is fixed with wind-collecting cover 31，Wind-collecting cover 32 under being connected with of upper wind-collecting cover 31，Upper wind-collecting cover 31 is fixed on the left upper part of induced duct 40，Lower wind-collecting cover 32 is hinged on the left end bottom of induced duct 40，Between the sidewall of upper wind-collecting cover 31 and lower wind-collecting cover 32, there is space，Flexible block 33 covers space，The top of flexible block 33 is fixed on the lateral wall of wind-collecting cover 31，The bottom of flexible block 33 is fixed on the lateral wall of lower wind-collecting cover 32，Upper wind-collecting cover 31、Lower wind-collecting cover 32 and two flexible blocks 33 form collection air port，Induced duct 40 is fixed on support crossbeam 30，The right-hand member of induced duct 40 connects transition case 41，The right-hand member of transition case 41 connects discharge pipe 42，Transition case 41 is fixed on connection support column 50，Connect support column 50 to fix on the ground，Connect and support column 50 is fixed with pump turbine 51，The rotating shaft of pump turbine 51 is stretched into transition case 41 and is fixed with rotation turbine 52，Rotate turbine 52 to be in transition case 41，The lower end of the rotating shaft of pump turbine 51 is connected by the rotating shaft of lead spindle with electromotor 53，Electromotor 53 is fixed on connection support column 50，The drinking-water pipe 54 connected on pump turbine 51 stretches in lower storage reservoir 100，The outlet pipe 55 of pump turbine 51 passes in upper storage reservoir 200，Horizontal level residing for upper storage reservoir 200 is higher than pump turbine 51.

nullFurther，The middle top surface of described base 10 is fixed with protection bearing block 12，There is in the middle part of the end face of protection bearing block 12 protection groove 13，The output shaft of steer motor 11 stretches into protection groove 13，The top of the output shaft of steer motor 11 is that notch cuttype connects shaft part 111，It is smaller diameter end that notch cuttype connects the lower end of shaft part 111，The outer wall of smaller diameter end is fixed with journal bearing 15，The outer ring of journal bearing 15 is fixed on the medial wall of the lower small diameter hole section of protection groove 13，It is larger diameter end that notch cuttype connects the upper end of shaft part 111，Larger diameter end is provided with thrust bearing 14，The foundation ring of thrust bearing 14 is pressed against on the bottom surface of the large diameter hole section of protection groove 13，The collar of thrust bearing 14 is pressed against notch cuttype and connects on the bottom face of shaft coupling that the top of shaft part 111 is provided with；Shaft coupling is in protection groove 13, and the lower end of pillar 20 is in protection groove 13, and sealing ring 131 is fixed on the inside top wall of protection groove 13, and pillar 20 sleeve is in sealing ring 131.

Further, the top of described pillar 20 is fixed with support portion 21, and support portion 21 is hinged with promotion oil cylinder 22, promotes the end of the push rod of oil cylinder 22 to be hinged on the bottom surface of lower wind-collecting cover 32, support portion 21 is fixed with protective cover 23, promotes oil cylinder 22 to be in protective cover 23.

Further; described support crossbeam 30 is fixed with contiguous block 34; induced duct 40 is fixed on contiguous block 34; the right-hand member end face of described support portion 21 is hinged with adjustment oil cylinder 24; the top regulating the push rod of oil cylinder 24 is hinged on bottom the right-hand member supporting crossbeam 30; protective cover for oil tank 1 is fixed on support portion 21, regulates oil cylinder 24 and is in protective cover for oil tank 1.

Further; bottom surface around described base 10 is fixed with multiple boss 16; boss 16 is fixed with steel wire rope 17; the upper end of steel wire rope 17 is fixed on a pushing out ring 18; prop up pushing out ring 18 and be hinged on the middle part of pillar 20; the bottom surface of described base 10 is fixed with guard box 19; steer motor 11 is in guard box 19; guard box 19 is further fixed on oil feeding reservoirs 2 and controls main frame 3; oil feeding reservoirs 2 is fixed with the multiple electromagnetic valve bodies being connected with oil feeding reservoirs 2; electromagnetic valve body connects fuel feed pump, and fuel feed pump connects the promotion oil cylinder 22 of correspondence or regulates oil cylinder 24.

Further, described reservoir 200 is in the top of massif 300, and described lower storage reservoir 100 communicates with the water liquid in sea water or rivers and lakes, and lower storage reservoir 100 present position is lower than pump turbine 51.

It is controlled by controlling main frame 3, steer motor 11 is run, realize pillar 20 to rotate, thus realizing the lateral rotation in collection air port, and by promoting the push rod of oil cylinder 22 to promote, it is possible to achieve the openings of sizes between lower wind-collecting cover 32 and upper wind-collecting cover 31, it is achieved the centralized collection of air quantity, and flexible block 33 can realize elastic deformation according to the openings of sizes between lower wind-collecting cover 32 and upper wind-collecting cover 31, it is thus possible to better concentrate air quantity.

Wind enters transition case 41 by induced duct 40 after entering from collection air port, thus driving the turbine 52 in transition case 41 to rotate, realize the axis of rotation of pump turbine 51, so that electromotor 53 generates electricity, simultaneously, axis of rotation due to pump turbine 51, so that water liquid 100 is aspirated by drinking-water pipe 54, and water liquid 100 is discharged in reservoir 200 carries out water-retention by outlet pipe 55, the electricity that electromotor 53 sends is undertaken carrying by electrical power transmission parts, eventually pass the eolian of Rose Box 41 to discharge from discharge pipe 42 for low velocity wind, by protective cover 23, protective cover for oil tank 1 can protect the connecting line promoting oil cylinder 22 and adjustment oil cylinder 24 to be damaged from；

And during peak of power consumption, water liquid in upper storage reservoir 200 is entered in pump turbine 51 by outlet pipe 55 and drives the axis of rotation of pump turbine 51, so that the axis of rotation of electromotor 53 realizes generating, by regulating the promotion of the push rod of oil cylinder 24, the upper lower angle in collection air port can be regulated, such that it is able to concentrated by more air quantity, by the tension effect of boss 16 and steel wire rope 17, the intensity of this equipment can be strengthened, be substantially reduced damage probability.

Finally; embodiment of above is merely to illustrate the present invention; and it is not limitation of the present invention; those of ordinary skill about technical field; without departing from the spirit and scope of the present invention; can also making a variety of changes and modification, therefore all equivalent technical schemes fall within scope of the invention, and the scope of patent protection of the present invention should be defined by the claims.

Claims

null1. a wind-driven water pumping storage station system，Including base (10)，It is characterized in that: described base (10) fixes on the ground，The bottom surface of base (10) is fixed with steer motor (11)，The output shaft of steer motor (11) protrudes upward base (10) and is fixed with pillar (20) by shaft coupling，The top of pillar (20) is hinged with support crossbeam (30)，Support and the left end of crossbeam (30) is fixed with wind-collecting cover (31)，Wind-collecting cover (32) under being connected with of upper wind-collecting cover (31)，Upper wind-collecting cover (31) is fixed on the left upper part of induced duct (40)，Lower wind-collecting cover (32) is hinged on the left end bottom of induced duct (40)，Between the sidewall of upper wind-collecting cover (31) and lower wind-collecting cover (32), there is space，Flexible block (33) covers space，The top of flexible block (33) is fixed on the lateral wall of wind-collecting cover (31)，The bottom of flexible block (33) is fixed on the lateral wall of lower wind-collecting cover (32)，Upper wind-collecting cover (31)、Lower wind-collecting cover (32) and two flexible blocks (33) form collection air port，Induced duct (40) is fixed in support crossbeam (30)，The right-hand member of induced duct (40) connects transition case (41)，The right-hand member of transition case (41) connects discharge pipe (42)，Transition case (41) is fixed in connection support column (50)，Connect support column (50) to fix on the ground，Connect and support column (50) is fixed with pump turbine (51)，The rotating shaft of pump turbine (51) is stretched into transition case (41) and is fixed with rotation turbine (52)，Rotate turbine (52) to be in transition case (41)，The lower end of the rotating shaft of pump turbine (51) is connected by the rotating shaft of lead spindle with electromotor (53)，Electromotor (53) is fixed in connection support column (50)，The drinking-water pipe (54) connected on pump turbine (51) stretches in lower storage reservoir (100)，The outlet pipe (55) of pump turbine (51) passes in upper storage reservoir (200)，Horizontal level residing for upper storage reservoir (200) is higher than pump turbine (51).
null2. a kind of wind-driven water pumping storage station according to claim 1 system，It is characterized in that: the middle top surface of described base (10) is fixed with protection bearing block (12)，In the middle part of the end face of protection bearing block (12), there is protection groove (13)，The output shaft of steer motor (11) stretches into protection groove (13)，The top of the output shaft of steer motor (11) is that notch cuttype connects shaft part (111)，It is smaller diameter end that notch cuttype connects the lower end of shaft part (111)，The outer wall of smaller diameter end is fixed with journal bearing (15)，The outer ring of journal bearing (15) is fixed on the medial wall of the lower small diameter hole section of protection groove (13)，It is larger diameter end that notch cuttype connects the upper end of shaft part (111)，Larger diameter end is provided with thrust bearing (14)，The foundation ring of thrust bearing (14) is pressed against on the bottom surface of the large diameter hole section of protection groove (13)，The collar of thrust bearing (14) is pressed against notch cuttype and connects on the bottom face of shaft coupling that the top of shaft part (111) is provided with；

Shaft coupling is in protection groove (13); the lower end of pillar (20) is in protection groove (13); sealing ring (131) is fixed on the inside top wall of protection groove (13), and pillar (20) sleeve is in sealing ring (131).
3. a kind of wind-driven water pumping storage station according to claim 2 system, it is characterized in that: the top of described pillar (20) is fixed with support portion (21), support portion (21) is hinged with promotion oil cylinder (22), the end promoting the push rod of oil cylinder (22) is hinged on the bottom surface of lower wind-collecting cover (32), support portion (21) is fixed with protective cover (23), promotes oil cylinder (22) to be in protective cover (23).
4. a kind of wind-driven water pumping storage station according to claim 3 system, it is characterised in that: being fixed with contiguous block (34) on described support crossbeam (30), induced duct (40) is fixed on contiguous block (34).
5. a kind of wind-driven water pumping storage station according to claim 4 system; it is characterized in that: the right-hand member end face of described support portion (21) is hinged with adjustment oil cylinder (24); the top regulating the push rod of oil cylinder (24) is hinged on bottom the right-hand member supporting crossbeam (30); regulate protective cover for oil tank (1) and be fixed on support portion (21), regulate oil cylinder (24) and be in protective cover for oil tank (1).
6. a kind of wind-driven water pumping storage station according to claim 5 system, it is characterized in that: described base (10) is fixed with multiple boss (16) on bottom surface around, boss (16) is fixed with steel wire rope (17), the upper end of steel wire rope (17) is fixed on a pushing out ring (18), and a pushing out ring (18) is hinged on the middle part of pillar (20).
7. a kind of wind-driven water pumping storage station according to claim 6 system; it is characterized in that: the bottom surface of described base (10) is fixed with guard box (19); steer motor (11) is in guard box (19); guard box (19) is further fixed on oil feeding reservoirs (2) and controls main frame (3); oil feeding reservoirs (2) is fixed with the multiple electromagnetic valve bodies being connected with oil feeding reservoirs (2); electromagnetic valve body connects fuel feed pump, and fuel feed pump connects the promotion oil cylinder (22) of correspondence or regulates oil cylinder (24).
8. a kind of wind-driven water pumping storage station according to claim 1 system, it is characterized in that: described upper storage reservoir (200) is in the top of massif (300), described lower storage reservoir (100) connects with the water liquid in sea water or fluviatic water liquid phase, and lower storage reservoir (100) present position is lower than pump turbine (51).