CN212003527U

CN212003527U - Water pumping equipment for ocean engineering

Info

Publication number: CN212003527U
Application number: CN201921277256.1U
Authority: CN
Inventors: 马进中
Original assignee: Xiamen City University (xiamen Radio & Television University)
Current assignee: Xiamen City University (xiamen Radio & Television University)
Priority date: 2019-08-08
Filing date: 2019-08-08
Publication date: 2020-11-24
Anticipated expiration: 2029-08-08

Abstract

The utility model discloses a pumping equipment for ocean engineering, it includes the seabed basis, vertical support column more than two, the fixed cylinder assembly, telescoping cylinder assembly and compressed gas generate the device, the lower extreme and the seabed basis rigid coupling of vertical support column more than two, the telescoping cylinder assembly is located the lower part of fixed cylinder assembly, the telescoping cylinder assembly is along vertical support column displacement from top to bottom, the telescoping cylinder assembly generates the device intercommunication with compressed gas, carry the sea water to the sea water on the plane through the fixed cylinder assembly when the telescoping cylinder assembly rises, the telescoping cylinder assembly includes the telescoping cylinder and the water-gas separation formula diving box body that admits air and drain the adjustment goes up and down, water-gas separation formula diving box body is located the below of telescoping cylinder, compressed gas generates device and water-gas separation formula diving box body intercommunication. The utility model relates to a pump water equipment for ocean engineering adopts such structure, reduces the construction degree of difficulty, can adapt to marine geographic environment, can improve the sea water and carry the efficiency to on the sea water plane, reduces use cost.

Description

Water pumping equipment for ocean engineering

Technical Field

The utility model relates to an ocean engineering technical field especially relates to a pump water equipment for ocean engineering.

Background

The change of moon attraction causes a tidal phenomenon, which causes the sea water level to rise and fall periodically, and the energy generated by the sea water falling and flowing is called tidal energy. Ocean tidal energy is as a clean energy, and people have already worked on the utilization of ocean tidal energy, and chinese patent discloses a ocean tidal energy telescopic cylinder water pump, including body assembly, telescoping cylinder and lower base jar, the body assembly be located the top of telescoping cylinder, lower base jar be located the below of telescoping cylinder, lower base jar have the outlet, the telescoping cylinder constitute by two ring flanges and telescoping cylinder body, the telescoping cylinder body is located between two ring flanges, the body assembly have a plurality of hollow upper floating barrels, the cavity of upper floating barrel in have the sea water that increases upper floating barrel weight when falling the tide. The floating body assembly is provided with an upper supporting cylinder, the hollow upper floating barrels and the upper supporting cylinder are connected into a whole, and the upper supporting cylinder is provided with a telescopic cylinder water inlet control valve. Two ring flanges of telescoping cylinder be connected with last support cylinder and lower base jar by bolt and nut connection pair respectively, the top of last flotation pontoon the top of go up the flotation pontoon breather pipe has, the bottom of going up the flotation pontoon has the drainage control valve of going into of last flotation pontoon. A bottom plate is fixedly connected below the lower base cylinder, a support column is fixed on the bottom plate, and the support column penetrates through the edge of the lower base cylinder and the edge of the upper support cylinder. And a telescopic cylinder water discharge control valve is arranged at a water discharge port of the lower base cylinder. The ocean tidal energy telescopic cylinder water pump can be widely applied to the aspects of ocean tidal water storage and power generation, seawater desalination, seawater culture, seawater solar salt and the like. But only when the tide falls, the fall of the ocean tide is utilized, the whole weight of the water inlet and outlet floating drum is increased by controlling the upper floating drum to be filled with the seawater when the tide is at a high tide level, the telescopic cylinder is compressed to enable the seawater in the lower base cylinder to generate high pressure in the tide falling process, and the water pumping is realized. The ocean tidal energy telescopic cylinder water pump with the structure has the advantages that the efficiency of conveying seawater to the seawater level is greatly influenced by natural conditions due to utilization of tides, and how to fully utilize the natural conditions to improve the efficiency of conveying the seawater to the seawater level becomes an important subject.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a pumping equipment for ocean engineering is provided, this kind of pumping equipment for ocean engineering can high-efficiently utilize natural condition to improve the efficiency that the sea water carried to the sea water plane on, can reduce ocean engineering cost.

In order to solve the technical problem, the technical scheme of the utility model is that: the lower ends of the more than two vertical supporting columns are fixedly connected with the seabed foundation, the fixed cylinder assembly comprises a fixed cylinder fixedly connected to the vertical supporting columns and a water pipe component communicated with the fixed cylinder, the telescopic cylinder assembly is located at the lower part of the fixed cylinder assembly, the telescopic cylinder assembly vertically displaces along the vertical supporting columns, the telescopic cylinder assembly is communicated with the compressed gas generating device, and when the telescopic cylinder assembly ascends, seawater is conveyed to a seawater plane through the fixed cylinder assembly.

The telescopic cylinder assembly comprises a telescopic cylinder and a water-gas separation type diving box body for adjusting and lifting of air intake and water discharge, the water-gas separation type diving box body is located below the telescopic cylinder, the water-gas separation type diving box body is connected with the telescopic cylinder into a whole, the upper portion of the telescopic cylinder is communicated with a fixed cylinder, the top end of the fixed cylinder is sealed, a water intake control valve of the telescopic cylinder is installed on the side wall of the fixed cylinder, a vertical supporting column penetrates through the water-gas separation type diving box body, a compressed gas generating device is communicated with the water-gas separation type diving box body, and a limiting part for supporting the water-gas separation type diving box body is arranged on the lower portion of the vertical supporting column.

The water-gas separation type diving box body comprises a compressed gas storage cavity, a gas drainage cavity, a gas guide piece and a compressed gas guide piece, wherein the compressed gas storage cavity is a closed space located in the middle of the water-gas separation type diving box body, compressed gas is contained in the compressed gas storage cavity, seawater is arranged in the gas drainage cavity, the top of the compressed gas storage cavity is communicated with the compressed gas guide piece and the gas guide piece communicated with the gas drainage cavity, compressed gas provided by the ocean energy compressed gas preparation device enters the compressed gas storage cavity through the compressed gas guide piece, and the compressed gas in the compressed gas storage cavity enters the upper part of the gas drainage cavity through the gas guide piece.

The compressed air guiding part is provided with a diving box body air inlet one-way valve.

The water-gas separation type diving box body is formed by assembling a compressed gas storage part, more than three floating and sinking parts with the same structure and a fixing seat, wherein the compressed gas storage part is provided with a compressed gas storage cavity, the floating and sinking parts are provided with a gas drainage cavity, the more than three floating and sinking parts surround the compressed gas storage part, and the more than three floating and sinking parts are connected with the compressed gas storage part into a whole through the fixing seat.

The compressed gas generating device comprises a wave energy driving pumping part and a wind energy driving pumping part, and the wave energy driving pumping part comprises a plurality of wave energy pumping units.

The wind driven wave energy power generation device is characterized in that a platform higher than the sea level is arranged at the top end of the vertical supporting column, a plurality of wave pump air fixing seats are arranged below the platform, the wave pump air units are fixedly connected to the wave pump air fixing seats, and the wind driven pump air part is arranged above the platform.

The wave energy air pumping unit comprises a floating body, a first connecting rod, a connecting rod portion, an inflator, a second connecting rod and a wave air pumping fixing seat, the lower end of the first connecting rod is connected with the floating body, the inflator is fixedly connected to the wave air pumping fixing seat, the lower end of the second connecting rod is connected with the wave air pumping fixing seat, the upper end of the first connecting rod is higher than the upper end of the second connecting rod, the inflator is connected with the middle of the first connecting rod through the connecting rod portion, and the upper end of the first connecting rod and the upper end of the second connecting rod are respectively connected with the wave air pumping fixing seat.

The wind energy driven pump air part comprises a wind wheel assembly, a wind wheel assembly output shaft, a rotating disc, a wind energy inflator fixing seat, a wind energy air guide pipe, an air storage tank and a plurality of wind energy inflators, the wind energy inflator fixing seat is arranged on the platform, the wind wheel component output shaft is provided with a wind wheel component, the extending end of the wind wheel component output shaft is provided with a rotating disc, a plurality of wind energy inflators are fixedly connected on a wind energy inflator fixing seat, compressed gas generated by each wind energy inflator is introduced into a gas storage tank through a wind energy gas guide tube, the central line of a piston rod of each wind energy inflator is parallel to the central line of the wind wheel component output shaft, the extending end of the piston rod of each wind energy inflator is connected with the rotating disc, the end surface of the rotating disc is provided with a plurality of alternate protruding areas and recessed areas which are in smooth transition, when the output shaft of the wind wheel component drives the rotating disc to rotate, the extending end of the piston rod of the wind energy inflator is always jointed with the end face of the rotating disc.

The center line of the piston rod of each wind energy inflator is positioned on a concentric circle which takes the center line of the rotating disc as the center of a circle.

The utility model relates to a pump water equipment for ocean engineering adopts such structure, utilizes wave energy and wind energy to produce compressed gas, and the telescoping cylinder assembly passes through the air supporting principle and displaces from top to bottom along vertical support column, and adjustment aqueous vapor disconnect-type caisson body rises, descends, carries the sea water to the sea water plane on through the fixed cylinder assembly, can high-efficiently utilize natural condition to improve the efficiency that the sea water carried to the sea water plane on, can reduce ocean engineering cost.

Drawings

The water pumping equipment for ocean engineering of the present invention is further described in detail with reference to the accompanying drawings;

fig. 1 is a schematic structural view of the water pumping equipment for ocean engineering of the present invention;

FIG. 2 is a schematic view of the water-gas separating caisson shown in FIG. 1;

FIG. 3 is a schematic structural view of the wave-actuated pumping unit shown in FIG. 1;

FIG. 4 is a schematic structural view of the wind-driven pumping portion shown in FIG. 1;

in fig. 1, 2, 3 and 4, 1, a wind energy driven pumping part; 2. a platform; 3. a wave-driven pumping unit; 4. a vertical support column; 5. a water tube assembly; 6. a compressed gas introduction member; 7. a limiting member; 8. a subsea foundation; 9. a water-gas separation type diving box body; 10. a telescopic cylinder; 11. a fixed cylinder; 12. a stationary cylinder fastener; 13. an air inlet control valve of the air drainage cavity; 14. a diving box body air inlet and water outlet control valve; 15. a gas guide; 16. an air inlet one-way valve of the diving box body; 17. a water inlet and outlet of the air drainage cavity; 18. a compressed gas storage chamber; 19. a sleeve; 20. a gas drainage cavity; 21. a float; 22. a first connecting rod; 23. a link section; 24. a wave energy inflator; 25. a second connecting rod; 26. a wave pump air fixing seat; 27. a wind wheel assembly; 28. an air wheel assembly output shaft; 29. rotating the disc; 30. a wind energy inflator; 31. a wind energy inflator fixing seat; 32. a wind energy air duct; 33. a gas storage tank; 34. a floating section; 35. wave energy compressed gas preparation unit connecting rod.

Detailed Description

As shown in fig. 1, fig. 2, fig. 3, fig. 4, the utility model discloses a pumping equipment for ocean engineering, including seabed basis 8, vertical support column 4 more than two, fixed cylinder assembly, telescoping cylinder assembly and compressed gas generate the device, the lower extreme and the seabed basis 8 rigid coupling of vertical support column 4 more than two, fixed cylinder assembly include rigid coupling on vertical support column 4 fixed cylinder 11 and with the water pipe assembly 5 of fixed cylinder 11 intercommunication, water pipe assembly 5 stretches out the sea level, fixed cylinder 11 passes through fixed cylinder fastening piece 12 and vertical support column rigid coupling, keeps the rigidity of fixed cylinder 11. The telescopic cylinder assembly is positioned at the lower part of the fixed cylinder assembly, and the seawater is conveyed to the upper part of the seawater plane through the fixed cylinder assembly when the telescopic cylinder assembly rises.

The telescopic cylinder assembly comprises a telescopic cylinder 10 and a water-gas separation type diving box body 9 for adjusting and lifting of air intake and water drainage, the water-gas separation type diving box body 9 is located below the telescopic cylinder 10, the water-gas separation type diving box body 9 and the telescopic cylinder 10 are connected into a whole, the upper portion of the telescopic cylinder 10 is communicated with a fixed cylinder 11, the top end of the fixed cylinder 11 is closed, a telescopic cylinder water intake control valve (not shown in the figure) is installed on the side wall of the fixed cylinder 11, a vertical supporting column 4 penetrates through the water-gas separation type diving box body 9, a compressed gas generating device is communicated with the water-gas separation type diving box body, and a limiting part 7 for supporting the water-gas separation type diving box body 9 is arranged on the. The water-gas separation type diving box body 9 comprises a compressed gas storage cavity 18, a gas drainage cavity 20, a gas guide piece 15 and a compressed gas leading-in piece 6, wherein the gas drainage cavity 20 is positioned at the periphery of the compressed gas storage cavity 18, compressed gas is contained in the compressed gas storage cavity 18, seawater is contained in the cavity of the gas drainage cavity 20, when the seawater in the cavity of the gas drainage cavity 20 is drained, the buoyancy of the water-gas separation type diving box body 9 is increased, the compressed gas storage cavity 18 is provided with a sleeve 19 through which a vertical support column 4 passes, the top of the compressed gas storage cavity 18 is communicated with the compressed gas leading-in piece 6 and the gas guide piece 15 which is communicated with the gas drainage cavity 20, the compressed gas leading-in piece 6 is provided with a diving box body gas inlet one-way valve 16, the compressed gas of a compressed gas generating device enters the compressed gas storage cavity 18 through the compressed gas leading-in piece 6, the gas guide piece 15 is provided with a diving box body gas inlet and drainage control valve 14, the top of the gas drainage cavity, the lower part of the air drainage chamber 20 is provided with a diving tank inlet and outlet control valve 17.

The water-gas separation type diving box body 9 is not limited to the above structure, when the volume is large, in order to facilitate transportation and installation, the water-gas separation type diving box body 9 is formed by assembling a compressed gas storage part, a floating part and a fixing seat of the same structure more than three, the compressed gas storage part is provided with a compressed gas storage cavity, the floating part is provided with a gas drainage cavity, the floating part surrounds the compressed gas storage part more than three, and the floating part of the same structure more than three is connected with the compressed gas storage part into a whole through the fixing seat. The water-gas separation type diving box body 9 can also be made into a structure with a compressed gas storage cavity outside and a gas drainage cavity inside.

The compressed gas generating device comprises a wave energy driving pump gas portion and a wind energy driving pump gas portion 1, the wind energy driving pump gas portion 1 is arranged above the platform 2, the wave energy driving pump gas portion comprises a plurality of wave energy pump gas units 3, the top end of the vertical supporting column 4 is provided with the platform 2 higher than the sea level, a plurality of wave energy compressed gas preparation unit connecting rods 35 extending below the sea level are arranged on the periphery of the platform 2, and each wave energy compressed gas preparation unit connecting rod 35 is provided with a wave energy compressed gas preparation unit 3 capable of moving up and down. The wave energy air pumping unit 3 comprises a floating body 21, a first connecting rod 22, a connecting rod portion 23, a wave energy inflator 24, a second connecting rod 25, a wave energy air pumping fixing seat 26 and a floating portion 34 which moves up and down along the wave energy compressed gas preparation unit connecting rod 20, the lower end of the first connecting rod 22 is connected with the floating body 21, the wave energy inflator 24 is fixedly connected to the wave energy air pumping fixing seat 26, the lower end of the second connecting rod 25 is connected with the wave energy air pumping fixing seat 26, the upper end of the first connecting rod 22 is higher than the upper end of the second connecting rod 25, the wave energy inflator 24 is connected with the middle of the first connecting rod 22 through the connecting rod portion 23, and the upper end of the first connecting rod 22 and the upper end of the second connecting rod. When the floating body 21 rises and falls along with the fluctuation of waves, the first connecting rod 22 drives the piston rod of the wave energy inflating pump 24 to do piston motion through the connecting rod part 23, and compressed gas is generated.

The wind energy driven pump air part 1 comprises a wind wheel assembly 27, a wind wheel assembly output shaft 28, a rotating disc 29, a wind energy inflator fixing seat 31, a wind energy air duct 32, an air storage tank 33 and a plurality of wind energy inflators 30, the wind energy inflator fixing seat 31 is arranged on the platform 2, the wind wheel assembly adopts the mature technology of wind power generation, the wind wheel assembly 27 is provided with a wind wheel assembly output shaft 28, a rotating disc 29 is arranged on the extending end of the wind wheel assembly output shaft 28, a plurality of wind energy inflators 30 are fixedly connected to the wind energy inflator fixing seat 31, compressed air generated by each wind energy inflator 30 is introduced into an air storage tank 33 through a wind energy air guide pipe 32, the center line of a piston rod of each wind energy inflator 30 is parallel to the center line of the wind wheel assembly output shaft 28, the extending end of the piston rod of each wind energy inflator 30 is connected with the rotating disc 29, and the end face of the rotating disc 29 is provided with a plurality of alternate protruding areas and recessed. The wind wheel assembly rotates with wind, the wind wheel assembly output shaft 28 drives the rotating disc 29 to rotate together, the extending end of the piston rod of the wind energy inflator 30 is always connected with the end face of the rotating disc, the end part of the piston rod of each wind energy inflator 30 is continuously changed between the protruding area and the recessed area of the rotating disc 29, the stroke of the piston rod of the wind energy inflator 30 is determined by the maximum distance between the protruding area and the recessed area of the rotating disc 29, and the wind energy inflator 30 generates compressed gas.

The wind energy and the wave energy are utilized at the sea to generate compressed gas, when the water-gas separation type diving box body is positioned at the lowest position, the water-gas separation type diving box body is supported by the limiting part, the compressed gas enters the compressed gas storage cavity of the water-gas separation type diving box body through the compressed gas leading-in part, high-pressure gas in the compressed gas storage cavity enters the gas drainage cavity through the gas leading-in part, at the moment, the gas inlet control valve of the gas drainage cavity is in a closed state, the gas drainage cavity outwards drains water through the gas drainage cavity water inlet and outlet under the action of pressure, the water-gas separation type diving box body ascends, the volume of the lower telescopic cylinder body is reduced, seawater is conveyed to the upper part of a seawater plane through the water pipe assembly, when the water-gas separation type diving box body is positioned at the high position, the gas inlet control valve of the gas drainage cavity is opened, the pressure of the gas drainage cavity is reduced, the seawater flows into the gas drainage cavity through the gas drainage cavity water inlet and outlet, and, the volume of the lower telescopic cylinder body is gradually increased, seawater enters the lower telescopic cylinder body through the water pipe assembly, and the water-gas separation type diving box body reaches a low position to be contacted with the limiting part along with the continuous surge of the seawater in the gas drainage cavity to complete one-time circulation. The utility model relates to a pump water equipment for ocean engineering adopts such structure, utilize wave energy and wind energy to produce compressed gas, the telescoping cylinder assembly passes through air supporting principle and displaces from top to bottom along vertical support column, adjustment aqueous vapor disconnect-type caisson body rises, descend, carry the sea water to the sea water plane on through the fixed cylinder assembly, compared with the prior art, aqueous vapor disconnect-type caisson physical stamina enough assembles and forms, construction, transportation and the installation degree of difficulty have been reduced, can high-efficiently utilize natural condition to improve the efficiency that the sea water carried to the sea water plane on, can reduce the ocean engineering cost.

Claims

1. The utility model provides a water pumping equipment for ocean engineering which characterized in that: the seawater-free sea water expansion and contraction device comprises a seabed foundation, more than two vertical supporting columns, a fixed cylinder assembly, a telescopic cylinder assembly and a compressed gas generation device, wherein the lower ends of the more than two vertical supporting columns are fixedly connected with the seabed foundation, the fixed cylinder assembly comprises a fixed cylinder fixedly connected to the vertical supporting columns and a water pipe assembly communicated with the fixed cylinder, the telescopic cylinder assembly is located at the lower part of the fixed cylinder assembly, the telescopic cylinder assembly moves up and down along the vertical supporting columns, the telescopic cylinder assembly is communicated with the compressed gas generation device, and seawater is conveyed to a seawater plane through the fixed cylinder assembly when the telescopic cylinder assembly ascends.

2. The marine engineering water pumping equipment as claimed in claim 1, wherein: the telescopic cylinder assembly comprises a telescopic cylinder and a water-gas separation type diving box body for adjusting and lifting of air intake and water discharge, the water-gas separation type diving box body is located below the telescopic cylinder, the water-gas separation type diving box body is connected with the telescopic cylinder into a whole, the upper portion of the telescopic cylinder is communicated with a fixed cylinder, the top end of the fixed cylinder is sealed, a water intake control valve of the telescopic cylinder is installed on the side wall of the fixed cylinder, a vertical supporting column penetrates through the water-gas separation type diving box body, a compressed gas generating device is communicated with the water-gas separation type diving box body, and a limiting part for supporting the water-gas separation type diving box body is arranged on the lower portion of the vertical supporting column.

3. The marine engineering water pumping equipment as claimed in claim 2, wherein: the water-gas separation type diving box body comprises a compressed gas storage cavity, a gas drainage cavity, a gas guide piece and a compressed gas guide piece, wherein the compressed gas storage cavity is a closed space located in the middle of the water-gas separation type diving box body, compressed gas is contained in the compressed gas storage cavity, seawater is arranged in the gas drainage cavity, and the top of the compressed gas storage cavity is communicated with the compressed gas guide piece and the gas guide piece communicated with the gas drainage cavity.

4. A water pumping apparatus for ocean engineering according to claim 3, wherein: the compressed air guiding part is provided with a diving box body air inlet one-way valve.

5. The marine engineering water pumping equipment as claimed in claim 4, wherein: the water-gas separation type diving box body is formed by assembling a compressed gas storage part, more than three floating and sinking parts with the same structure and a fixing seat, wherein the compressed gas storage part is provided with a compressed gas storage cavity, the floating and sinking parts are provided with a gas drainage cavity, the more than three floating and sinking parts surround the compressed gas storage part, and the more than three floating and sinking parts are connected with the compressed gas storage part into a whole through the fixing seat.

6. A water pumping apparatus for marine engineering according to claim 1 or 2 or 3 or 4 or 5, wherein: the compressed gas generating device comprises a wave energy driving pumping part and a wind energy driving pumping part, and the wave energy driving pumping part comprises a plurality of wave energy pumping units.

7. The marine engineering water pumping equipment as claimed in claim 6, wherein: the top end of the vertical supporting column is provided with a platform higher than the sea level, a plurality of wave energy compressed gas preparation unit connecting rods extending below the sea level are arranged on the periphery of the platform, each wave energy compressed gas preparation unit connecting rod is provided with a wave energy compressed gas preparation unit capable of moving up and down, and the wind energy driving pump gas part is arranged above the platform.

8. The marine engineering water pumping equipment as claimed in claim 7, wherein: the wave energy air pumping unit comprises a floating body, a first connecting rod, a connecting rod portion, a wave energy inflator, a second connecting rod, a wave pump air fixing seat and a floating portion which moves up and down along a connecting rod of the wave energy compressed air preparation unit, the lower end of the first connecting rod is connected with the floating body, the wave energy inflator is fixedly connected to the wave pump air fixing seat, the lower end of the second connecting rod is connected with the wave pump air fixing seat, the upper end of the first connecting rod is connected with the floating portion, the upper end of the second connecting rod is connected with the floating portion, the upper end of the first connecting rod is higher than the upper end of the second connecting rod, and the wave energy inflator is connected with the middle portion of the first connecting rod through the connecting rod portion.

9. The marine engineering water pumping equipment as claimed in claim 7, wherein: the wind energy driven pump air part comprises a wind wheel assembly, a wind wheel assembly output shaft, a rotating disc, a wind energy inflator fixing seat, a wind energy air guide pipe, an air storage tank and a plurality of wind energy inflators, the wind energy inflator fixing seat is arranged on the platform, the wind wheel component output shaft is provided with a wind wheel component, the extending end of the wind wheel component output shaft is provided with a rotating disc, a plurality of wind energy inflators are fixedly connected on a wind energy inflator fixing seat, compressed gas generated by each wind energy inflator is introduced into a gas storage tank through a wind energy gas guide tube, the central line of a piston rod of each wind energy inflator is parallel to the central line of the wind wheel component output shaft, the extending end of the piston rod of each wind energy inflator is connected with the rotating disc, the end surface of the rotating disc is provided with a plurality of alternate protruding areas and recessed areas which are in smooth transition, when the output shaft of the wind wheel component drives the rotating disc to rotate, the extending end of the piston rod of the wind energy inflator is always jointed with the end face of the rotating disc.

10. The marine engineering water pumping apparatus according to claim 9, wherein: the center line of the piston rod of each wind energy inflator is positioned on a concentric circle which takes the center line of the rotating disc as the center of a circle.