CN205709952U

CN205709952U - Typhoon wind energy desalting device for sea water

Info

Publication number: CN205709952U
Application number: CN201620197285.7U
Authority: CN
Inventors: 赵美玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-03-15
Filing date: 2016-03-15
Publication date: 2016-11-23
Anticipated expiration: 2026-03-15

Abstract

The utility model discloses a kind of typhoon wind energy desalting device for sea water, including storage tank, described storage tank be fixedly arranged in the middle of demarcation strip, storage tank is separated into upper tank and bottom cooling cylinder by demarcation strip, U-shaped coil pipe is fixed in the cooling cylinder of bottom, it is fixed with connecting tube on the base plate of storage tank, the lower end of connecting tube connects the upper plate body of evaporation tank, evaporation tank is in the lower section of storage tank, it is fixed with heating plate on the base plate of evaporation tank, the end face of heating plate is fixed with heated barrier, the sidewall of heated barrier is fixed on the medial wall of evaporation tank, heated barrier is electrically connected with controlling main frame by connecting line, control to be electrically connected with electromotor by connecting line on main frame；The rotating shaft of electromotor is stretched into transition case and is fixed with rotation turbine, rotates turbine and is in transition case；It passes through platform wind power generation, and generated energy is big, effective, utilizes electric energy to heat, it is achieved desalinization, and its volume is little, and desalination efficiency is high, easy to make, low cost.

Description

Typhoon wind energy desalting device for sea water

Technical field:

This utility model relates to technical field of sea water desalination equipment, more specifically to typhoon wind energy desalting device for sea water.

Background technology:

Fresh water is the life line of people, and it is existing for using solar energy to carry out the system heated, its primary structure principle is to make the sunning water pool of direct irradiation of sunlight larger area, is black bottom sunning water pool, sea water is made to evaporate under larger area, and the steam introducing fresh water collecting apparatus by means of evaporation is collected, but under this kind of system, owing to sea water programming rate is the slowest, its evaporation rate is the most extremely limited, and desalination efficiency is the most relatively low.And, its structure is complicated, and volume is big so that China cannot make on a lot of island fresh water by oneself, needs from transcontinental shipments fresh water.

Meanwhile, often having typhoon around island, wind-force is relatively big, and this can be fully utilized.

Utility model content:

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that typhoon wind energy desalting device for sea water, and it is by the platform wind power generation around island, and generated energy is big, effective, utilize electric energy to heat, it is achieved desalinization, its volume is little, desalination efficiency is high, easy to make, low cost.

This utility model solves the scheme of described technical problem:

nullTyphoon wind energy desalting device for sea water，Including storage tank，Described storage tank be fixedly arranged in the middle of demarcation strip，Storage tank is separated into upper tank and bottom cooling cylinder by demarcation strip，U-shaped coil pipe is fixed in the cooling cylinder of bottom，The water inlet end of U-shaped coil pipe communicates with upper tank，The water side of U-shaped coil pipe is stretched into connecting tube and communicates with connecting tube，The upper portion side wall of storage tank has connected water inlet pipe，Water inlet pipe communicates with upper tank，Fresh water outlet pipe has been connected on the base plate of storage tank，Fresh water outlet pipe communicates with bottom cooling cylinder，The bottom of fresh water outlet pipe has connected control valve，It is fixed with connecting tube on the base plate of storage tank，The lower end of connecting tube connects the upper plate body of evaporation tank，Evaporation tank is in the lower section of storage tank，It is fixed with heating plate on the base plate of evaporation tank，The end face of heating plate is fixed with heated barrier，The sidewall of heated barrier is fixed on the medial wall of evaporation tank，Heated barrier is electrically connected with controlling main frame by connecting line，Control to be electrically connected with electromotor by connecting line on main frame；

nullTyphoon wind energy base fixes on the ground，It is hinged with pillar on typhoon wind energy base，The top of pillar is hinged with support crossbeam，Support and be fixed with wind-collecting cover on the left end of crossbeam，The lower section of upper wind-collecting cover is provided with lower wind-collecting cover，Upper wind-collecting cover is fixed on the left upper part of induced duct，Lower wind-collecting cover is fixed 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 be fixed with electromotor on support column，The rotating shaft of electromotor is stretched into transition case and is fixed with rotation turbine，Rotate turbine to be in transition case；

It is fixed with steam-water separator on the medial wall of bottom cooling cylinder, evaporation mixing tube has been connected on the base plate of storage tank, the lower end of evaporation mixing tube communicates with connecting tube, the upper end of evaporation mixing tube communicates with the inlet end of steam-water separator, the top of steam-water separator is fixed with escape pipe, escape pipe communicates with bottom cooling cylinder, and the base plate of steam-water separator has connected liquid back pipe, and liquid back pipe communicates with connecting tube.

The top of described U-shaped coil pipe is stretched into upper tank and is fixed on demarcation strip.

The water inlet end of described U-shaped coil pipe is fixed on link, and link is fixed in upper tank.

The water side of described U-shaped coil pipe has connected large diameter pipe, and large diameter pipe passes the base plate of storage tank and stretches into connecting tube, and liquid back pipe communicates with the sidewall of large diameter pipe.

Prominent effect of the present utility model is:

It passes through platform wind power generation, and generated energy is big, effective, utilizes electric energy to heat, it is achieved desalinization, and its volume is little, and desalination efficiency is high, easy to make, low cost.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present utility model；

Fig. 2 is partial enlarged drawing of the present utility model；

Fig. 3 is the partial enlarged drawing of Fig. 2；

Fig. 4 is the partial enlarged drawing of another part of Fig. 2.

Detailed description of the invention:

nullEmbodiment，See as shown in Figures 1 to 4，Typhoon wind energy desalting device for sea water，Including storage tank 10，Described storage tank 10 be fixedly arranged in the middle of demarcation strip 11，Storage tank 10 is separated into upper tank 1 and bottom cooling cylinder 2 by demarcation strip 11，U-shaped coil pipe 3 is fixed in bottom cooling cylinder 2，The water inlet end of U-shaped coil pipe 3 communicates with upper tank 1，The water side of U-shaped coil pipe 3 is stretched into connecting tube 4 and communicates with connecting tube 4，The upper portion side wall of storage tank 10 has connected water inlet pipe 12，Water inlet pipe 12 communicates with upper tank 1，Fresh water outlet pipe 13 has been connected on the base plate of storage tank 10，Fresh water outlet pipe 13 communicates with bottom cooling cylinder 2，The bottom of fresh water outlet pipe 13 has connected control valve 14，Connecting tube 4 it is fixed with on the base plate of storage tank 10，The lower end of connecting tube 4 connects the upper plate body of evaporation tank 5，Evaporation tank 5 is in the lower section of storage tank 10，Heating plate 51 it is fixed with on the base plate of evaporation tank 5，The end face of heating plate 51 is fixed with heated barrier 52，The sidewall of heated barrier 52 is fixed on the medial wall of evaporation tank 5，Heated barrier 52 is electrically connected with controlling main frame 500 by connecting line，Control to be electrically connected with electromotor 8 by connecting line on main frame 500；

nullTyphoon wind energy base 100 fixes on the ground，It is hinged with pillar 101 on typhoon wind energy base 100，The top of pillar 101 is hinged with support crossbeam 102，Support and be fixed with wind-collecting cover 103 on the left end of crossbeam 102，The lower section of upper wind-collecting cover 103 is provided with lower wind-collecting cover 104，Upper wind-collecting cover 103 is fixed on the left upper part of induced duct 105，Lower wind-collecting cover 104 is fixed on the left end bottom of induced duct 105，Between the sidewall of upper wind-collecting cover 103 and lower wind-collecting cover 104, there is space，Flexible block 106 covers space，The top of flexible block 106 is fixed on the lateral wall of wind-collecting cover 103，The bottom of flexible block 106 is fixed on the lateral wall of lower wind-collecting cover 104，Upper wind-collecting cover 103、Lower wind-collecting cover 104 and two flexible blocks 106 form collection air port，Induced duct 105 is fixed on support crossbeam 102，The right-hand member of induced duct 105 connects transition case 107，The right-hand member of transition case 107 connects discharge pipe 108，Transition case 107 is fixed on connection support column 109，Connect support column 109 to fix on the ground，Connect and be fixed with electromotor 8 on support column 109，The rotating shaft of electromotor 8 is stretched into transition case 107 and is fixed with rotation turbine 81，Rotate turbine 81 to be in transition case 107；

Steam-water separator 6 it is fixed with on the medial wall of bottom cooling cylinder 2, evaporation mixing tube 7 has been connected on the base plate of storage tank 10, the lower end of evaporation mixing tube 7 communicates with connecting tube 4, the upper end of evaporation mixing tube 7 communicates with the inlet end of steam-water separator 6, the top of steam-water separator 6 is fixed with escape pipe 61, escape pipe 61 communicates with bottom cooling cylinder 2, and the base plate of steam-water separator 6 has connected liquid back pipe 62, and liquid back pipe 62 communicates with connecting tube 4.

Further, being fixed with intermediate filtered plate 21 in described bottom cooling cylinder 2, the bottom of U-shaped coil pipe 3 is fixed on intermediate filtered plate 21, and intermediate filtered plate 21 has multiple through hole 22.

Further, the top of described U-shaped coil pipe 3 is stretched into upper tank 1 and is fixed on demarcation strip 11.

Further, the water inlet end of described U-shaped coil pipe 3 is fixed on link 31, and link 31 is fixed in upper tank 1.

Further, the water side of described U-shaped coil pipe 3 has connected large diameter pipe 32, and large diameter pipe 32 passes the base plate of storage tank 10 and stretches into connecting tube 4, and liquid back pipe 62 communicates with the sidewall of large diameter pipe 32.

Further, it is fixed with S-shaped coil pipe 63 in described steam-water separator 6, the lower end of S-shaped coil pipe 63 is fixed on the base plate of steam-water separator 6, the lower end of S-shaped coil pipe 63 communicates with evaporation mixing tube 7, the top board bottom surface of steam-water separator 6 is fixed with the baffle plate 64 downwardly extended, the upper end of S-shaped coil pipe 63 you be in the left side of baffle plate 64, escape pipe 61 is in the right side of baffle plate 64.

Further, the bottom surface of described storage tank 10 is fixed with bottom support frame 15.

Further, the end face of described evaporation tank 5 has connected anti-squib 53, the top of anti-squib 53 is bolted with union joint 54, the middle part of union joint 54 has vertical passage 55, vertically the top of passage 55 is bolted with regulation moving block 56, the end face of regulation moving block 56 is fixed with rotation wheel 561, vertically passage 55 is inserted with buffer spring 57 and elastic sealing strip 58, regulation moving block 56 is put forth effort in the upper end of buffer spring 57, elastic sealing strip 58 is put forth effort in lower end, vertically the lower end of passage 55 is bolted with support set 59, elastic sealing strip 58 is pressed against on support set 59, vertically on the sidewall of passage 55, there is radial direction through hole 551, radial direction through hole 551 is in the top of elastic sealing strip 58.

nullOperation principle: sea water is entered in upper tank 1 by water inlet pipe 12，Subsequently in U-shaped coil pipe 3，Then from U-shaped coil pipe 3, exit into connecting tube 4，Finally enter in evaporation tank 5，And heating plate 51 heats，Heating of seawater in evaporation tank 5 is evaporated，Steam and unnecessary hot water enter through in the S-shaped coil pipe 63 that evaporation mixing tube 7 enters in steam-water separator 6，Water liquid and steam are partially separated，Part water liquid is refluxed，Some vapor and water liquid is also had to discharge from the upper end of S-shaped coil pipe 63，Again by the stop of baffle plate 64，Steam and water liquid mixed gas are separated further，Also part water droplet is dropped in steam-water separator 6，And steam is discharged into bottom cooling cylinder 2 from escape pipe 61，Liquid in steam-water separator 6 is back in connecting tube 4 again separate by liquid back pipe 62，And enter the part that steam in bottom cooling cylinder 2 and U-shaped coil pipe 3 be in bottom cooling cylinder 2 and carry out heat exchange，Thus be condensed into fresh water and drip，Finally discharge from water outlet pipe 13，And control valve 14 and can control fresh-water flow.

Wherein, intermediate filtered plate 21 can increase steam condensation effect in bottom cooling cylinder 2, and the top of U-shaped coil pipe 3 is stretched into upper tank 1 and is fixed on demarcation strip 11, make U-shaped coil pipe 3 that the sea water of flowing in the temperature of upper tank 1 and U-shaped coil pipe 3 is carried out heat exchange, make U-shaped coil pipe 3 be in the temperature at bottom cooling cylinder 2 to decline, improve further bottom cooling cylinder 2 to the condensation effect of steam and efficiency, improve condensation efficiency.

And heating plate 51 is by controlling main frame 500 control heating, the electric energy controlling main frame 500 is to be provided by electromotor 8, and the generating of electromotor 8 is to be entered by typhoon air quantity to collect entrance induced duct 105 behind air port, enter in transition case 10 by induced duct 105, drive rotation turbine 81 to rotate, it is achieved electromotor 8 generates electricity, its generating is effective, wherein induced duct 105 is flexible pipe, and so, pillar 101 can realize the rotation of certain angle.

And evaporation tank 5 has explosion-protection equipment, when steam inside is excessive, elastic sealing strip 58 can be moved up, make radial direction through hole 551 communicate with vertical passage 55, it is achieved aerofluxus.Wherein, the pressure of buffer spring 57 can realize by rotating regulating block 56.

Finally; embodiment of above is merely to illustrate this utility model; and be not limitation of the utility model; those of ordinary skill about technical field; in the case of without departing from spirit and scope of the present utility model; can also make a variety of changes and modification, the technical scheme of the most all equivalents falls within category of the present utility model, and scope of patent protection of the present utility model should be defined by the claims.

Claims

null1. typhoon wind energy desalting device for sea water，Including storage tank (10)，It is characterized in that: described storage tank (10) be fixedly arranged in the middle of demarcation strip (11)，Storage tank (10) is separated into upper tank (1) and bottom cooling cylinder (2) by demarcation strip (11)，U-shaped coil pipe (3) is fixed in bottom cooling cylinder (2)，The water inlet end of U-shaped coil pipe (3) communicates with upper tank (1)，The water side of U-shaped coil pipe (3) is stretched into connecting tube (4) and communicates with connecting tube (4)，The upper portion side wall of storage tank (10) has connected water inlet pipe (12)，Water inlet pipe (12) communicates with upper tank (1)，Fresh water outlet pipe (13) has been connected on the base plate of storage tank (10)，Fresh water outlet pipe (13) communicates with bottom cooling cylinder (2)，The bottom of fresh water outlet pipe (13) has connected control valve (14)，Connecting tube (4) it is fixed with on the base plate of storage tank (10)，The lower end of connecting tube (4) connects the upper plate body of evaporation tank (5)，Evaporation tank (5) is in the lower section of storage tank (10)，Heating plate (51) it is fixed with on the base plate of evaporation tank (5)，The end face of heating plate (51) is fixed with heated barrier (52)，The sidewall of heated barrier (52) is fixed on the medial wall of evaporation tank (5)，Heated barrier (52) is electrically connected with controlling main frame (500) by connecting line，Control to be electrically connected with electromotor (8) by connecting line on main frame (500)；

nullTyphoon wind energy base (100) fixes on the ground，Pillar (101) it is hinged with on typhoon wind energy base (100)，The top of pillar (101) is hinged with support crossbeam (102)，Support and be fixed with wind-collecting cover (103) on the left end of crossbeam (102)，The lower section of upper wind-collecting cover (103) is provided with lower wind-collecting cover (104)，Upper wind-collecting cover (103) is fixed on the left upper part of induced duct (105)，Lower wind-collecting cover (104) is fixed on the left end bottom of induced duct (105)，Between the sidewall of upper wind-collecting cover (103) and lower wind-collecting cover (104), there is space，Flexible block (106) covers space，The top of flexible block (106) is fixed on the lateral wall of wind-collecting cover (103)，The bottom of flexible block (106) is fixed on the lateral wall of lower wind-collecting cover (104)，Upper wind-collecting cover (103)、Lower wind-collecting cover (104) and two flexible blocks (106) form collection air port，Induced duct (105) is fixed in support crossbeam (102)，The right-hand member of induced duct (105) connects transition case (107)，The right-hand member of transition case (107) connects discharge pipe (108)，Transition case (107) is fixed in connection support column (109)，Connect support column (109) to fix on the ground，Connect and be fixed with electromotor (8) on support column (109)，The rotating shaft of electromotor (8) is stretched into transition case (107) and is fixed with rotation turbine (81)，Rotate turbine (81) to be in transition case (107)；

Steam-water separator (6) it is fixed with on the medial wall of bottom cooling cylinder (2), evaporation mixing tube (7) has been connected on the base plate of storage tank (10), the lower end of evaporation mixing tube (7) communicates with connecting tube (4), the upper end of evaporation mixing tube (7) communicates with the inlet end of steam-water separator (6), the top of steam-water separator (6) is fixed with escape pipe (61), escape pipe (61) communicates with bottom cooling cylinder (2), liquid back pipe (62) has been connected on the base plate of steam-water separator (6), liquid back pipe (62) communicates with connecting tube (4).
Typhoon wind energy desalting device for sea water the most according to claim 1, it is characterised in that: the top of described U-shaped coil pipe (3) is stretched into upper tank (1) and is fixed on demarcation strip (11).
Typhoon wind energy desalting device for sea water the most according to claim 1, it is characterized in that: the water inlet end of described U-shaped coil pipe (3) is fixed on link (31), and link (31) is fixed in upper tank (1).
Typhoon wind energy desalting device for sea water the most according to claim 1, it is characterized in that: the water side of described U-shaped coil pipe (3) has connected large diameter pipe (32), large diameter pipe (32) passes the base plate of storage tank (10) and stretches into connecting tube (4), and liquid back pipe (62) communicates with the sidewall of large diameter pipe (32).