CN108910998A - A kind of multifuctional solar vacuum fresh water generator - Google Patents
A kind of multifuctional solar vacuum fresh water generator Download PDFInfo
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- CN108910998A CN108910998A CN201810819718.1A CN201810819718A CN108910998A CN 108910998 A CN108910998 A CN 108910998A CN 201810819718 A CN201810819718 A CN 201810819718A CN 108910998 A CN108910998 A CN 108910998A
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- Prior art keywords
- cooler
- pump
- impeller
- gland
- connecting rod
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- 239000013505 freshwater Substances 0.000 title claims abstract description 43
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 66
- 239000013535 sea water Substances 0.000 claims abstract description 39
- 210000004907 gland Anatomy 0.000 claims description 51
- 238000012856 packing Methods 0.000 claims description 49
- 238000002156 mixing Methods 0.000 claims description 30
- 229910000635 Spelter Inorganic materials 0.000 claims description 29
- 238000005192 partition Methods 0.000 claims description 26
- 238000005461 lubrication Methods 0.000 claims description 21
- 238000001816 cooling Methods 0.000 claims description 17
- 238000002347 injection Methods 0.000 claims description 14
- 239000007924 injection Substances 0.000 claims description 14
- 238000009792 diffusion process Methods 0.000 claims description 12
- 238000007789 sealing Methods 0.000 claims description 9
- 239000000203 mixture Substances 0.000 claims description 5
- 239000007921 spray Substances 0.000 claims description 4
- 125000004122 cyclic group Chemical group 0.000 claims description 3
- HCHKCACWOHOZIP-UHFFFAOYSA-N Zinc Chemical compound [Zn] HCHKCACWOHOZIP-UHFFFAOYSA-N 0.000 claims description 2
- 239000011701 zinc Substances 0.000 claims description 2
- 229910052725 zinc Inorganic materials 0.000 claims description 2
- 230000000474 nursing effect Effects 0.000 claims 3
- 238000001704 evaporation Methods 0.000 abstract description 9
- 230000008020 evaporation Effects 0.000 abstract description 8
- 238000009835 boiling Methods 0.000 abstract description 6
- 230000000694 effects Effects 0.000 description 18
- 238000010586 diagram Methods 0.000 description 10
- 238000009834 vaporization Methods 0.000 description 6
- 230000008016 vaporization Effects 0.000 description 6
- 238000010438 heat treatment Methods 0.000 description 5
- 239000000498 cooling water Substances 0.000 description 3
- 206010013647 Drowning Diseases 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 239000007788 liquid Substances 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000003020 moisturizing effect Effects 0.000 description 2
- 238000009958 sewing Methods 0.000 description 2
- 239000002699 waste material Substances 0.000 description 2
- 206010021036 Hyponatraemia Diseases 0.000 description 1
- 241001465754 Metazoa Species 0.000 description 1
- 241000237983 Trochidae Species 0.000 description 1
- 238000007792 addition Methods 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000005119 centrifugation Methods 0.000 description 1
- 239000000110 cooling liquid Substances 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000009837 dry grinding Methods 0.000 description 1
- 230000008676 import Effects 0.000 description 1
- 239000008267 milk Substances 0.000 description 1
- 210000004080 milk Anatomy 0.000 description 1
- 235000013336 milk Nutrition 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Classifications
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/02—Treatment of water, waste water, or sewage by heating
- C02F1/04—Treatment of water, waste water, or sewage by heating by distillation or evaporation
- C02F1/14—Treatment of water, waste water, or sewage by heating by distillation or evaporation using solar energy
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/02—Treatment of water, waste water, or sewage by heating
- C02F1/04—Treatment of water, waste water, or sewage by heating by distillation or evaporation
- C02F1/046—Treatment of water, waste water, or sewage by heating by distillation or evaporation under vacuum produced by a barometric column
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2103/00—Nature of the water, waste water, sewage or sludge to be treated
- C02F2103/08—Seawater, e.g. for desalination
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/20—Controlling water pollution; Waste water treatment
- Y02A20/208—Off-grid powered water treatment
- Y02A20/212—Solar-powered wastewater sewage treatment, e.g. spray evaporation
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Hydrology & Water Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Sustainable Development (AREA)
- Sustainable Energy (AREA)
- Structures Of Non-Positive Displacement Pumps (AREA)
Abstract
The present invention relates to a kind of fresh water generators, are in particular a kind of multifuctional solar vacuum fresh water generators, not only can use solar energy and heat to fresh water generator, but also solar energy belongs to clean energy resource, is good for the environment;Vacuum environment can also be manufactured, the boiling point of seawater is reduced, is more advantageous to the evaporation of seawater.Float is located inside evaporator;Jet pump top is connected with cooler outlet pipe, is connected on the right side of jet pump with cooler top vacuum tube, is connected on the right side of jet pump with vacuum tube on the right side of evaporator, jet pump lower part is connected to drainpipe;It is connected to seawater suction inlet pipe on the left of centrifugal pump, is connected on the upside of centrifugal pump with cooler water inlet pipe, links together in the middle part of pump shaft with driving wheel on the right side of centrifugal pump;Reciprocating pump is connected with condensate slot water outlet pipe, and reciprocal pump rod is connected with pump shaft;Cooler is located at condensate slot top;Condensate slot position is connected with water outlet pipe on the left of evaporator top, condensate slot in cooler lower part, condensate slot position;Evaporator is located at condensate slot lower part.
Description
Technical field
The present invention relates to a kind of fresh water generators, are in particular a kind of multifuctional solar vacuum fresh water generators.
Background technique
Water, it is limpid, transparent, sparkling and crystal-clear, be the milk of nurture civilization as lifespring, whether animal, plant or
We are the mankind, all be unable to do without water.However the development and utilization of underground water, people's waste and polluted water resources, it can be with fresh water increasingly
It is few.So devising this multifuctional solar vacuum fresh water generator.
Summary of the invention
The present invention provides a kind of multifuctional solar vacuum fresh water generator, is that not only can use solar energy to making beneficial to benefit
Water dispenser heating, and solar energy belongs to clean energy resource, is good for the environment;Vacuum environment can also be manufactured, the boiling point of seawater is reduced,
It is more advantageous to the evaporation of seawater.
In order to solve the above technical problems, the present invention relates to a kind of fresh water generators, it is in particular a kind of multifuctional solar
Vacuum fresh water generator, including solar condenser, float, jet pump, centrifugal pump, driving wheel, reciprocating pump, cooler, cooler end cap,
Condensate slot, evaporator not only can use solar energy and heat to fresh water generator, but also solar energy belongs to clean energy resource, is conducive to ring
It protects;Vacuum environment can also be manufactured, the boiling point of seawater is reduced, is more advantageous to the evaporation of seawater.
Float is made of shaft, connector, gasket, turn trough, floating ball, connecting rod;Shaft is T-shaped, shaft middle part and water
Tank wall welds together, and both ends of the shaft covers on turn trough;On tank outer wall, connector left end contacts weld with gasket,
Connector right end is connected with water pipe;Gasket is located inside turn trough, contacts on the right side of gasket with connector left end;Turn trough upper left quarter has axis
Hole passes through shaft in axis hole, welds together on the left of turn trough with connecting rod, gasket is placed with inside turn trough;Floating ball is hollow ball
Body, floating ball right end weld together with connecting rod;Connecting rod is cylindrical body, is welded together on the right side of connecting rod left end and floating ball,
Weld together on the right side of connecting rod with turn trough left side;
Jet pump is made of work water pipe, nozzle, injection water pipe, mixing chamber, diffusion room;Work water pipe one end is connected to cold
But on device outlet pipe, work water pipe one end is connected on the nozzle of jet pump;Nozzle one end is connected with work water pipe, nozzle one end
It is connected with mixing chamber, nozzle is cone, nozzle hollow structure;Injection water pipe one end is connected with cooler top, injection water pipe
One end is connected with mixing chamber;Mixing chamber side is hollow ball-shape, and mixing chamber side is hollow cylindrical, mixing chamber top and nozzle
Weld together, welds together in the middle part of mixing chamber with injection water pipe, mixing chamber lower part welds together with diffusion room;Diffusion room
Section be it is trapezoidal, diffusion room top welds together with mixing chamber;
Centrifugal pump is made of pump case, impeller, gland, pump shaft, packing;Pump case is fixed on bottom plate by support frame, pump case
Left side connects seawater suction inlet pipe, and pump case top connects cooler inlet pipe, and impeller is equipped with inside pump case, is equipped with gland on the right side of pump case;Leaf
Wheel left side opening, impeller outer openings, impeller middle part cover on pump shaft, have cotter way in the middle part of impeller, contact on the left of impeller with nut;
It is covered on pump shaft in the middle part of gland, there is aperture at gland both ends, and aperture is sleeved on the screw rod, and gland left end is contacted with packing, on the right side of gland
It is contacted with clamping nut;Pump shaft left end is threadedly engaged with nut, is provided with cotter way on the left of pump shaft, pin is placed in cotter way, impeller set exists
Pump shaft cotter way position, pump shaft middle part contact with packing, link together on the right side of pump shaft with driving wheel;Packing is located at pump case and pump shaft
It in the space of formation, is contacted on the right side of packing with gland, the packing is equipped with four;
Pump case is made of shell, clamping nut, lubrication groove, screw rod, packing slot;Opening and Seawater inhalation pipe phase on the left of shell
Even, upper part of the housing is connected with cooler inlet pipe, is set on the right side of shell there are two screw rod, enclosure interior is provided with lubrication groove;Compress spiral shell
There are two cap is set, housing pin is located on screw rod, has gland contact on the left of housing pin;Lubrication groove left side and enclosure interior phase
It is logical, it is communicated on the right side of lubrication groove with packing slot;There are two screw rod is set, screw rod is located on the right side of shell in threaded hole, screw rod and compression spiral shell
Cap thread cooperates, and is cased with gland on screw rod;Packing slot position is internal on the right side of shell, is placed with packing in packing slot;
Impeller is made of impeller, retaining ring, pin, nut;Opening on the left of impeller, impeller left side is communicated with shell, in the middle part of impeller
It is machined with cotter way, pin is placed in slot, left side of the impeller middle part in the middle part of pump shaft, impeller is contacted with nut, processing on the right side of impeller
There is cyclic annular retaining ring;Pin half is located in the middle part of impeller at cotter way, sells the other half and is located in pump shaft;Nut is located at pump shaft left end, nut
It is threadedly engaged with pump shaft, nut is located at impeller left end;
Gland is made of indent, gland face, hole post;Indent is located at the left side of gland, and indent is annular shape, on the left of indent with
Packing contact;Gland Middle face passes through pump shaft, and gland right side of face is contacted with clamping nut, and gland face two sides are machined with hole post;Hole
Column is located at gland face both ends, passes through screw rod in hole post;
Reciprocating pump by fresh water suction line, screw, valve pearl, sealing ring, piston, hexagon socket head cap screw, piston rod, valve seat, spring,
Reciprocal pump case, connecting pin, connecting rod I, connecting rod II form;Fresh water suction line is located at the left side of valve seat, fresh water suction line top and solidifying
Sink is connected;Screw is located in the fixation hole on the left of reciprocal pump case, and screw is threadedly engaged with valve seat;Valve pearl is located at the valve opening of valve seat
Inside, valve pearl right side are touched with spring interface;Sealing ring is located in the seal groove of valve seat;Piston is located inside reciprocal pump case, piston
Outside is equipped with sealing ring, piston right side and plunger rod contacts, and hole is drilled in the middle part of piston, passes through hexagon socket head cap screw in hole;Interior six
Angle screw is located in piston mider hole, is threadedly engaged on the right side of hexagon socket head cap screw with piston rod left end;Piston rod left end connects with piston
Touching, piston rod right side are connected with connecting rod I;Valve seat is located at the left side of reciprocal pump case, is connected on the left of valve seat with inlet/outlet pipe;Spring position
Inside valve seat, spring one end is contacted with valve pearl;Opening on the left of reciprocal pump case, reciprocal pump case left side are equipped with valve seat;Connecting pin
In piston rod right end hole, connecting pin is located in I left hole of connecting rod;It is connected by connecting pin with piston rod on the left of connecting rod I, even
It is connected by pin with connecting rod II on the right side of bar I;II left side of connecting rod is connected with connecting rod I, and II right side of connecting rod is connected with pump shaft right end;
Cooler is made of cooling tube, screw hole, cooler casing;Cooling tube is equipped with 104, and cooling tube will cool down
Device or so end cap connection;Screw hole is equipped with 25;Cooler casing is cylindrical body, cooler casing or so and cooler end cap
Contact;
Cooler end cap is made of bolt, spelter, connection bolt, partition, gasket;Cooler end is covered with two;Spiral shell
Bolt is equipped with 25, and bolt is threadedly engaged with screw hole, and bolt passes through the cycle hole of cooler end cap;Spelter is cylindric, zinc
Block right end has a threaded hole, spelter with connect bolt thread cooperation, there are two spelter is set;Cooler end is welded on the right side of connection bolt
Lid is internal, is threadedly engaged on the left of connection bolt with spelter;Partition is located in the middle part of cooler end cap, left side cooler end be covered with every
Plate, right side cooler end drowning have partition, and partition is welded on cooler end and covers;Gasket is located at cooler end cap and cooler
Between;
For solar condenser lower weld on column, solar condenser top is equipped with four pillars, the welding of the pillar other end
On an evaporator;Float is located inside evaporator, contacts on the right side of float with evaporator inner wall;Jet pump top and cooler outlet
Pipe is connected, and is connected on the right side of jet pump with cooler top vacuum tube, is connected on the right side of jet pump with vacuum tube on the right side of evaporator
Logical, jet pump lower part is connected to drainpipe;It is connected to seawater suction inlet pipe on the left of centrifugal pump, is connected on the upside of centrifugal pump with cooler water inlet pipe
It is logical, it links together in the middle part of pump shaft with driving wheel on the right side of centrifugal pump;Driving wheel is connected on the right side of pump shaft, the outer lace of driving wheel with
Motive power outputting apparatus is connected;Reciprocating pump is connected with condensate slot water outlet pipe, and reciprocal pump rod is connected with pump shaft;Cooler is located at
Condensate slot top;Cooler end cap is located at cooler two sides, and left side cooler end cap is connected with water pipe;Condensate slot position is in cooler
Lower part, condensate slot position are connected with water outlet pipe on the left of evaporator top, condensate slot;Evaporator is located at condensate slot lower part.
As advanced optimizing for the technical program, lubrication groove described in a kind of multifuctional solar vacuum fresh water generator of the present invention
Left side is communicated with enclosure interior, is communicated on the right side of lubrication groove with packing slot.
As advanced optimizing for the technical program, spelter described in a kind of multifuctional solar vacuum fresh water generator of the present invention is
Cylindric, spelter right end has a threaded hole, spelter with connect bolt thread cooperation, there are two spelter is set.
As advanced optimizing for the technical program, left side described in a kind of multifuctional solar vacuum fresh water generator of the present invention is cold
But device end cap is equipped with partition, and right side cooler end drowning has partition, and partition is welded on cooler end and covers.
A kind of multifuctional solar vacuum fresh water generator of the invention has the beneficial effect that:
A kind of multifuctional solar vacuum fresh water generator of the present invention not only can use solar energy and heat to fresh water generator, but also
Solar energy belongs to clean energy resource, is good for the environment;Vacuum environment can also be manufactured, the boiling point of seawater is reduced, is more advantageous to seawater
Evaporation.
Detailed description of the invention
The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.
Fig. 1 is a kind of structural schematic diagram of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 2 is a kind of 2 structural schematic diagram of float of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 3 is a kind of 3 structural schematic diagram of jet pump of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 4 is a kind of 4 structural schematic diagram of centrifugal pump of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 5 is a kind of centrifugal pump casing 4-1 structural schematic diagram of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 6 is a kind of impeller 4-2 structural schematic diagram of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 7 is a kind of gland 4-3 structural schematic diagram of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 8 is a kind of 6 structure schematic diagram of reciprocating pump of multifuctional solar vacuum fresh water generator of the present invention.
Fig. 9 is a kind of 7 structural schematic diagram of cooler of multifuctional solar vacuum fresh water generator of the present invention.
Figure 10 is a kind of 8 structural schematic diagram of cooler end cap of multifuctional solar vacuum fresh water generator of the present invention.
Figure 11 is a kind of cooler end sealing cushion for cover 8-5 structural representation of multifuctional solar vacuum fresh water generator of the present invention
Figure.
In figure:Solar condenser 1;Float 2;Shaft 2-1;Connector 2-2;Gasket 2-3;Turn trough 2-4;Floating ball 2-5;Connection
Bar 2-6;Jet pump 3;Work water pipe 3-1;Nozzle 3-2;Injection water pipe 3-3;Mixing chamber 3-4;Diffusion room 3-5;Centrifugal pump 4;Pump
Shell 4-1;Shell 4-1-1;Clamping nut 4-1-2;Lubrication groove 4-1-3;Screw rod 4-1-4;Packing slot 4-1-5;Impeller 4-2;Impeller
4-2-1;Retaining ring 4-2-2;Sell 4-2-3;Nut 4-2-4;Gland 4-3;Indent 4-3-1;Gland face 4-3-2;Hole post 4-3-3;Pump
Axis 4-4;Packing 4-5;Driving wheel 5;Reciprocating pump 6;Fresh water suction line 6-1;Screw 6-2;Valve pearl 6-3;Sealing ring 6-4;Piston 6-
5;Hexagon socket head cap screw 6-6;Piston rod 6-7;Valve seat 6-8;Spring 6-9;Reciprocal pump case 6-10;Connecting pin 6-11;I 6-12 of connecting rod;
II 6-13 of connecting rod;Cooler 7;Cooling tube 7-1;Screw hole 7-2;Cooler casing 7-3;Cooler end cap 8;Bolt 8-1;Spelter 8-
2;Connect bolt 8-3;Partition 8-4;Gasket 8-5;Condensate slot 9;Evaporator 10.
Specific embodiment
Specific embodiment one:
Illustrate present embodiment below with reference to Fig. 1,2,3,4,5,6,7,8,9,10,11, the present invention relates to a kind of fresh water generator,
In particular be a kind of multifuctional solar vacuum fresh water generator, including solar condenser 1, float 2, jet pump 3, centrifugal pump 4,
Driving wheel 5, reciprocating pump 6, cooler 7, cooler end cap 8, condensate slot 9, evaporator 10 not only can use solar energy to making water
Machine heating, and solar energy belongs to clean energy resource, is good for the environment;Vacuum environment can also be manufactured, reduces the boiling point of seawater, more
Be conducive to the evaporation of seawater.
Float 2 is made of shaft 2-1, connector 2-2, gasket 2-3, turn trough 2-4, floating ball 2-5, connecting rod 2-6;Shaft 2-
1 is T-shaped, welds together in the middle part of shaft 2-1 with 10 wall of evaporator, for two end cap of shaft 2-1 on turn trough 2-4, turn trough 2-4 can
To be rotated around shaft 2-1;Connector 2-2 is welded on tank outer wall, and the left end connector 2-2 is contacted with gasket 2-3, connector 2-2
Right end is connected with water pipe;Gasket 2-3 is located inside turn trough 2-4, contacts on the right side of gasket 2-3 with the left end connector 2-2, gasket
2-3 is to seal connector 2-2, to keep the vacuum degree inside evaporator 10;Turn trough 2-4 upper left quarter has axis hole, wears in axis hole
Shaft 2-1 is crossed, welds together on the left of turn trough 2-4 with connecting rod 2-6, gasket 2-3 is placed with inside turn trough 2-4;Floating ball 2-5 is
Hollow sphere, floating ball 2-5 right end weld together with connecting rod 2-6;Connecting rod 2-6 is cylindrical body, the left end connecting rod 2-6 and floating
Weld together on the right side of ball 2-5, welds together on the right side of connecting rod 2-6 on the left of turn trough 2-4;The effect of float 2 is to evaporate
When 10 internal sea dilutional hyponatremia of device, seawater is discharged;
Jet pump 3 is made of work water pipe 3-1, nozzle 3-2, injection water pipe 3-3, mixing chamber 3-4, diffusion room 3-5;Work
The one end water pipe 3-1 is connected on 7 outlet pipe of cooler, and work one end water pipe 3-1 is connected on the nozzle 3-2 of jet pump 3;Nozzle
The one end 3-2 is connected with work water pipe 3-1, and the one end nozzle 3-2 is connected with mixing chamber 3-4, and nozzle 3-2 is cone, in nozzle 3-2
Hollow structure, the effect of nozzle 3-2 are to accelerate to spray by seawater, form vacuum on the top mixing chamber 3-4;The one end injection water pipe 3-3
It is connected with cooler top, injection one end water pipe 3-3 is connected with mixing chamber 3-4, and injection water pipe 3-3 is by 7 inside of cooler
Air is sucked out, and establishes vacuum in vaporization chamber 10;The side mixing chamber 3-4 is hollow ball-shape, and the side mixing chamber 3-4 is hollow cylinder
Shape, the top mixing chamber 3-4 weld together with nozzle 3-2, weld together in the middle part of mixing chamber 3-4 with injection water pipe 3-3, mix
The room lower part 3-4 welds together with diffusion room 3-5;The diffusion room section 3-5 is trapezoidal, the diffusion room top 3-5 and mixing chamber 3-4 weldering
It is connected together;
Centrifugal pump 4 is made of pump case 4-1, impeller 4-2, gland 4-3, pump shaft 4-4, packing 4-5;Pump case 4-1 passes through support
Frame is fixed on bottom plate, connects seawater suction inlet pipe on the left of pump case 4-1, and the top pump case 4-1 connects 7 inlet tube of cooler, inside pump case 4-1
Equipped with impeller 4-2, gland 4-3 is equipped on the right side of pump case 4-1;The left side impeller 4-2 is open, impeller 4-2 outer openings, in impeller 4-2
Portion covers on pump shaft 4-4, has cotter way in the middle part of impeller 4-2, contacts on the left of impeller 4-2 with nut 4-2-5, impeller 4-2 rotates seawater
The sucking on the left of pump case 4-1, after impeller 4-2, seawater is thrown away by impeller 4-2;It covers on pump shaft 4-4, presses in the middle part of gland 4-3
There is aperture at the lid both ends 4-3, and aperture covers on screw rod 4-1-4, and the left end gland 4-3 is contacted with packing 4-5, gland right side and compression spiral shell
Cap 4-1-2 contact;The left end pump shaft 4-4 is threadedly engaged with nut 4-2-4, is provided with cotter way on the left of pump shaft 4-4, pin 4- is placed in cotter way
2-3, impeller 4-2, which are covered, to be contacted in the middle part of pump shaft 4-4 cotter way position, pump shaft 4-4 with packing 4-5, is connect on the right side of pump shaft with driving wheel 5
Together;Packing 4-5 is located in the space that pump case 4-1 and pump shaft 4-4 is formed, and contacts on the right side of packing 4-5 with gland 4-3, described
Packing is equipped with four, and the effect of packing 4-5 is to maintain the leakproofness inside centrifugal pump 4;
Pump case 4-1 is by shell 4-1-1, clamping nut 4-1-2, lubrication groove 4-1-3, screw rod 4-1-4, packing slot 4-1-5 group
At;Opening is connected with Seawater inhalation pipe on the left of shell 4-1-1, and the top shell 4-1-1 is connected with 7 inlet tube of cooler, shell 4-
Lubrication groove 4-1-3 is provided with inside screw rod 4-1-4 there are two setting on the right side of 1-1, shell 4-1-1;There are two clamping nut 4-1-2 is set,
Housing pin 4-1-2 is located on screw rod 4-1-4, has gland 4-3 contact on the left of housing pin 4-1-2, by rotating clockwise pressure
Tight nut 4-1-2, gland 4-3 will be pressed into inside pump case 4-1, and packing 4-5 will be compacted;The left side lubrication groove 4-1-3 and shell
It communicates, is communicated on the right side of lubrication groove 4-1-3 with packing slot 4-1-5, the effect of lubrication groove 4-1-3 is mentioned for packing 4-5 inside 4-1-1
It supplies water, an effect of this part water is lubrication packing 4-5, prevents pump shaft 4-4 and packing 4-5 from dry grinding, and reduces packing 4-5 and uses
Service life, another effect of this part water are cooling packing 4-5;There are two screw rod 4-1-4 is set, screw rod 4-1-4 is located at shell 4-
On the right side of 1-1 in threaded hole, screw rod 4-1-4 is threadedly engaged with clamping nut 4-1-2, and gland 4-3 is cased on screw rod 4-1-4;Packing
Slot 4-1-5 is located inside on the right side of shell 4-1-1, is placed with packing 4-5 in packing slot 4-1-5;
Impeller 4-2 is made of impeller 4-2-1, retaining ring 4-2-2, pin 4-2-3, nut 4-2-4;Opening on the left of impeller 4-2-1,
It is communicated on the left of impeller 4-2-1 with shell 4-1-1, is machined with cotter way in the middle part of impeller 4-2-1, pin 4-2-3, impeller 4-2- are placed in slot
The left side that 1 middle part passes through in the middle part of pump shaft 4-4, impeller 4-2-1 is contacted with nut 4-2-4, is machined with cyclic annular button on the right side of impeller 4-2-1
Ring 4-2-2, the effect of retaining ring 4-2-2 are to make to reduce sewing for water between impeller 4-2-1 and pump case 4-1;Pin 4-2-3 half is located at
In the middle part of impeller 4-2-1 at cotter way, pin 4-2-3 the other half is located in pump shaft 4-4;Nut 4-2-4 is located at the left end pump shaft 4-4, nut
4-2-4 is threadedly engaged with pump shaft 4-4, and nut 4-2-4 is located at the left end impeller 4-2-1;
Gland 4-3 is made of indent 4-3-1, gland face 4-3-2, hole post 4-3-3;Indent 4-3-1 is located at a left side of gland 4-3
Side, indent 4-3-1 are annular shape, are contacted on the left of indent 4-3-1 with packing 4-5;Pump shaft 4-4, pressure are passed through in the middle part of the 4-3-2 of gland face
It is contacted on the right side of capping 4-3-2 with clamping nut 4-1-2, the gland face two sides 4-3-2 are machined with hole post 4-3-3;Hole post 4-3-3 is located at
The gland face both ends 4-3-2, hole post 4-3-3 is interior to pass through screw rod 4-1-4;The effect of gland 4-3 compresses packing 4-5, is that packing 4-5 is protected
Position appropriate is held, prevents seawater from sewing;
Reciprocating pump 6 is by fresh water suction line 6-1, screw 6-2, valve pearl 6-3, sealing ring 6-4, piston 6-5, hexagon socket head cap screw 6-
6, piston rod 6-7, valve seat 6-8, spring 6-9, reciprocal pump case 6-10, connecting pin 6-11, I 6-12 of connecting rod, II 6-13 of connecting rod composition;
Fresh water suction line 6-1 is located at the left side of valve seat 6-8, and the fresh water top suction line 6-1 is connected with condensate slot 9;Screw 6-2 is located at reciprocal
In fixation hole on the left of pump case 6-10, screw 6-2 is threadedly engaged with valve seat 6-8, the effect of screw 6-2 be by valve seat 6-8 with it is past
Multiple pump case 6-10 links together;Valve pearl 6-3 is located inside the valve opening of valve seat 6-8, touches on the right side of valve pearl 6-3 with spring interface,;It is close
Seal 6-4 is located in the seal groove of valve seat 6-8;Piston 6-5 is located inside reciprocal pump case 6-10, is equipped on the outside of piston 6-5 close
Seal ring, the right side piston 6-5 are contacted with piston rod 6-7, and hole is drilled in the middle part of piston 6-5, passes through hexagon socket head cap screw 6-6 in hole;Interior six
Angle screw 6-6 is located in piston 6-5 mider hole, is threadedly engaged on the right side of hexagon socket head cap screw 6-6 with the left end piston rod 6-7;Piston rod
The left end 6-7 is contacted with piston 6-6, is connected on the right side of piston rod 6-7 with I 6-12 of connecting rod;Valve seat 6-8 is located at a left side of reciprocal pump case 6-10
Side, the left side valve seat 6-8 are connected with inlet/outlet pipe;Spring 6-9 is located inside valve seat 6-8, and the one end spring 6-9 is contacted with valve pearl 6-3;
Opening on the left of reciprocal pump case 6-10, the reciprocal left side pump case 6-10 are equipped with valve seat 6-8;It is right that connecting pin 6-11 is located at piston rod 6-7
In stomidium, connecting pin 6-11 is located in I 6-12 left hole of connecting rod;Pass through connecting pin 6-11 and piston rod 6-7 on the left of I 6-12 of connecting rod
It is connected, is connected by pin with II 6-13 of connecting rod on the right side of I 6-12 of connecting rod;It is connected on the left of II 6-13 of connecting rod with I 6-12 of connecting rod, connecting rod II
It is connected on the right side of 6-13 with pump shaft 4-4 right end;
Cooler 7 is made of cooling tube 7-1, screw hole 7-2, cooler casing 7-3;Cooling tube 7-1 is equipped with 104,
Cooling tube 7-1 is by 7 or so end cap connection of cooler;Screw hole 7-2 is equipped with 25;Cooler casing 7-3 is cylindrical body, cooling
Device shell 7-3 or so is contacted with cooler end cap 8;Cooler 7 flows through cooling water by cooling tube 7-1, when vapor encounter it is cold
But after pipe 7-1, cooling liquid becomes droplet;
Cooler end cap 8 is made of bolt 8-1, spelter 8-2, connection bolt 8-3, partition 8-4, gasket 8-5;Cooler
There are two end cap 8 is set;Bolt 8-1 is equipped with 25, and bolt 8-1 is threadedly engaged with screw hole 7-2, and bolt 8-1 passes through cooler
The cycle hole of end cap 8;Spelter 8-2 be it is cylindric, spelter 8-2 right end has threaded hole, and spelter 8-2 matches with bolt 8-5 screw thread is connect
It closes, there are two spelter 8-2 is set;It is welded on inside cooler end cap 8 on the right side of connection bolt 8-3, the left side connection bolt 8-3 and spelter
8-2 is threadedly engaged;Partition 8-4 is located at 8 middle part of cooler end cap, and left side cooler end cap 8 is equipped with partition 8-4, right side cooler
End cap 8 does not have partition 8-4, partition 8-4 to be welded on cooler end cap 8;Gasket 8-5 is located at cooler end cap 8 and cooler 7
Between;Left side end cap 8 is connected with 7 inlet and outlet pipes of cooler, is equipped with partition 8-4 inside left side end cap 8, the effect of partition 8-4 is
Will inlet and outlet separate, make cooling water from import flow through cooler 7 after from outlet flow out;
For 1 lower weld of solar condenser on column, 1 top of solar condenser is equipped with four pillars, the weldering of the pillar other end
It connects on evaporator 10, the effect of solar condenser 1 is reflected into sunlight on evaporator 10, and heating of seawater is given;Float 2
Inside evaporator 10,2 right side of float is contacted with 10 inner wall of evaporator, and the effect of float 2 is when 10 internal moisture mistake of evaporator
It is more, by lifting float, extra water is discharged by jet pump 3;3 top of jet pump is connected with 7 outlet of cooler, spray
It penetrates 3 right side of pump to be connected with 7 top vacuum tube of cooler, 3 right side of jet pump is connected with 10 right side vacuum tube of evaporator, sprays
It pumps 3 lower parts and is connected to drainpipe, jet pump 3 is there are two effect, and effect is first is that establish vacuum, and effect is second is that more in discharge vaporization chamber 10
Remaining moisture;Seawater suction inlet pipe is connected on the left of centrifugal pump 4,4 upside of centrifugal pump is connected with 7 water inlet pipe of cooler, and centrifugal pump 4 is right
It links together in the middle part of the pump shaft of side with driving wheel 5, the effect of centrifugal pump 4 is to provide cooling water required for system, evaporates water;It passes
Driving wheel 5 is connected on the right side of pump shaft 4-4, and the outer lace of driving wheel 5 is connected with motive power outputting apparatus, and the effect of driving wheel 5 is external
Power supply equipment;Reciprocating pump 6 is connected with 9 water outlet pipe of condensate slot, and 6 connecting rod of reciprocating pump is connected with pump shaft 4-4, reciprocating pump 6
Effect be discharge condensate;Cooler 7 is located at 9 top of condensate slot;Cooler end cap 8 is located at 7 two sides of cooler, left side cooler
End cap 8 is connected with water pipe;Condensate slot 9 is located at 7 lower part of cooler, and condensate slot 9 is located at 10 top of evaporator, connects on the left of condensate slot 9
It is connected to water outlet pipe;Evaporator 10 is located at 9 lower part of condensate slot.
Specific embodiment two:
Illustrate present embodiment below with reference to Fig. 1,2,3,4,5,6,7,8,9,10,11, present embodiment is to embodiment
One is described further, on the left of the lubrication groove 4-1-3 with communicated inside shell 4-1-1, on the right side of lubrication groove 4-1-3 and packing slot
4-1-5 is communicated.
Specific embodiment three:
Illustrate present embodiment below with reference to Fig. 1,2,3,4,5,6,7,8,9,10,11, present embodiment is to embodiment
One is described further, the spelter 8-2 be it is cylindric, spelter 8-2 right end has a threaded hole, spelter 8-2 with connect bolt 8-5 spiral shell
Line cooperation, there are two spelter 8-2 is set.
Specific embodiment four:
Illustrate present embodiment below with reference to Fig. 1,2,3,4,5,6,7,8,9,10,11, present embodiment is to embodiment
One is described further, and the left side cooler end cap 8 is equipped with partition 8-4, and right side cooler end cap 8 does not have partition 8-4, partition
8-4 is welded on cooler end cap 8.
The working principle of the invention is:Heating evaporation:Solar condenser 1 is concave structure, is gathered when sunlight is radiated at the sun
It can be the appearance that light is gathered in evaporator 10 due to the reflection of light, light plays the role of heating, and light beam on 1 concave surface of light device
The irradiation of concentration is heated in the outer surface of evaporator 10, internal water, accelerates evaporation.
Establish vacuum:Driving wheel 5 is connect on motive power outputting apparatus first, driving wheel 5 rotates, and drives pump shaft of centrifugal pump 4-
4 rotations, in centrifugal pump 4 pumps Seawater inhalation, under the centrifugation whipping of impeller 4-2, seawater enters cooling from 7 inlet tube of cooler
Device 7 is flowed into 3 top of jet pump after cooling tube 7-1, and water flow flows fast through, and takes away the air on the top mixing chamber 3-4,
The top mixing chamber 3-4 forms low-pressure injection water pipe 3-3 and is connected to cooler top, and jet pump 3 takes away cooler 7 and vaporization chamber 10
Inner air forms vacuum.
Preheat moisturizing:7 outlet of cooler is connected with evaporator 10, and the seawater through subcooler 7 is added by internal steam
Heat is flowing into evaporator 10, is being preheated to seawater, decrease the waste of heat.
Evaporate condensate:After sunlight heats evaporator 10, internal seawater is heated, since 10 air pressure inside of evaporator is low, institute
It is reduced with the evaporating temperature of seawater, more conducively evaporates, moved upwards after evaporation of seawater, when moving to condenser 7, condensed to the cold
At water droplet, water droplet assembly flows downward, and falls on condensate slot 9, and condensate slot 9 is flowed out under the action of reciprocating pump 6.
General flow:Driving wheel 5 is external in power supply equipment, and driving wheel 5 is rotated with external connection power, is driven left
Side centrifugal pump 4 rotates, and seawater is pumped into cooler 7 by centrifugal pump 4, and seawater reaches the outlet of cooler 7 after flowing through cooler 7,
Two parts have been divided into it after seawater outflow cooler 7, fraction is flowed into vaporization chamber 10, gives 10 moisturizing of vaporization chamber, most of seawater
It is flowed into jet pump 3 as working water, establishes vacuum in cooler 7 and vaporization chamber 10, air is taken out of by jet pump 3.Vacuum
Foundation can reduce the boiling point of seawater.Seawater in evaporator 10 evaporates after being heated, and condenses into liquid after encountering cooler 7
State water, liquid water are constantly assembled, and are finally flowed into condensate slot 9, are then discharged under the swabbing action of reciprocating pump 6 again.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention
Protect range.
Claims (4)
1. a kind of multifuctional solar vacuum fresh water generator, including solar condenser (1), float (2), jet pump (3), centrifugal pump
(4), driving wheel (5), reciprocating pump (6), cooler (7), cooler end cap (8), condensate slot (9), evaporator (10), feature exists
In:Float (2) is by shaft (2-1), connector (2-2), gasket (2-3), turn trough (2-4), floating ball (2-5), connecting rod (2-6) group
At;Shaft (2-1) be it is T-shaped, welded together in the middle part of shaft (2-1) with water tank wall, two end cap of shaft (2-1) is in turn trough (2-
4) on;Connector (2-2) is welded on tank outer wall, and the connector left end (2-2) is contacted with gasket (2-3), connector (2-2) right end with
Water pipe is connected;Gasket (2-3) is located at turn trough (2-4) inside, contacts on the right side of gasket (2-3) with the left end connector (2-2);Turn trough
(2-4) upper left quarter has axis hole, passes through shaft (2-1) in axis hole, welds together on the left of turn trough (2-4) with connecting rod (2-6), turns
Gasket (2-3) is placed with inside slot (2-4);Floating ball (2-5) is hollow sphere, and floating ball (2-5) right end and connecting rod (2-6) are welded
Together;Connecting rod (2-6) is cylindrical body, is welded together on the right side of the connecting rod left end (2-6) and floating ball (2-5), connecting rod (2-
6) weld together on the left of right side and turn trough (2-4);
Jet pump (3) is by work water pipe (3-1), nozzle (3-2), injection water pipe (3-3), mixing chamber (3-4), diffusion room (3-5)
Composition;Work one end water pipe (3-1) is connected on cooler (7) outlet pipe, and work one end water pipe (3-1) is connected to jet pump
(3) on nozzle (3-2);Nozzle one end (3-2) is connected with work water pipe (3-1), nozzle one end (3-2) and mixing chamber (3-4)
It is connected, nozzle (3-2) is cone, nozzle (3-2) hollow structure;Injection water pipe one end (3-3) is connected with cooler top, draws
Discharge jet one end (3-3) is connected with mixing chamber (3-4);The mixing chamber side (3-4) is hollow ball-shape, and the side mixing chamber (3-4) is
Hollow cylindrical, the mixing chamber top (3-4) weld together with nozzle (3-2), mixing chamber (3-4) middle part and injection water pipe (3-
3) weld together, the mixing chamber lower part (3-4) welds together with diffusion room (3-5);The diffusion room section (3-5) is trapezoidal, expansion
The pressure chamber top (3-5) welds together with mixing chamber (3-4);
Centrifugal pump (4) is made of pump case (4-1), impeller (4-2), gland (4-3), pump shaft (4-4), packing (4-5);Pump case (4-
1) be fixed on bottom plate by support frame, connect seawater suction inlet pipe on the left of pump case (4-1), the top pump case (4-1) connect cooler (7) into
Mouth pipe, pump case (4-1) is internal to be equipped with impeller (4-2), equipped with gland (4-3) on the right side of pump case (4-1);Opening on the left of impeller (4-2),
Impeller (4-2) outer openings, impeller (4-2) middle part cover on pump shaft (4-4), have cotter way, impeller (4-2) in the middle part of impeller (4-2)
Left side is contacted with nut (4-2-5);It is covered on pump shaft (4-4) in the middle part of gland (4-3), there are aperture, aperture set in the both ends gland (4-3)
On screw rod (4-1-4), the gland left end (4-3) is contacted with packing (4-5), is contacted on the right side of gland with clamping nut (4-1-2);Pump
The axis left end (4-4) is threadedly engaged with nut (4-2-4), is provided with cotter way on the left of pump shaft (4-4), pin (4-2-3), leaf are placed in cotter way
Wheel (4-2), which is covered, to be contacted in the middle part of pump shaft (4-4) cotter way position, pump shaft (4-4) with packing (4-5), pump shaft right side and driving wheel (5)
It links together;Packing (4-5) is located in the space that pump case (4-1) and pump shaft (4-4) is formed, packing right side and gland (4-3)
Contact, the packing (4-5) are equipped with four;
Pump case (4-1) is by shell (4-1-1), clamping nut (4-1-2), lubrication groove (4-1-3), screw rod (4-1-4), packing slot
(4-1-5) composition;Opening is connected with Seawater inhalation pipe on the left of shell (4-1-1), the shell top (4-1-1) and cooler (7) into
Mouth pipe is connected, and is set on the right side of shell (4-1-1) there are two screw rod (4-1-4), and shell (4-1-1) is internal to be provided with lubrication groove (4-1-3);
There are two clamping nut (4-1-2) is set, housing pin (4-1-2) is located on screw rod (4-1-4), on the left of housing pin (4-1-2)
There is gland (4-3) contact;It is communicated inside lubrication groove (4-1-3) left side and shell (4-1-1), lubrication groove (4-1-3) right side and disk
Root slot (4-1-5) communicates;There are two screw rod (4-1-4) is set, screw rod (4-1-4) is located on the right side of shell (4-1-1) in threaded hole, spiral shell
Bar (4-1-4) is threadedly engaged with clamping nut (4-1-2), and gland (4-3) is cased on screw rod (4-1-4);The position packing slot (4-1-5)
It is internal on the right side of shell (4-1-1), packing (4-5) is placed in packing slot (4-1-5);
Impeller (4-2) is made of impeller (4-2-1), retaining ring (4-2-2), pin (4-2-3), nut (4-2-4);Impeller (4-2-1)
Left side opening, impeller (4-2-1) left side communicate with shell (4-1-1), are machined with cotter way in the middle part of impeller (4-2-1), are placed in slot
It sells (4-2-3), the left side and nut (4-2-4) in the middle part of impeller (4-2-1) in the middle part of pump shaft (4-4), impeller (4-2-1) connect
Touching, impeller (4-2-1) right side are machined with cyclic annular retaining ring (4-2-2);Pin (4-2-3) half is located at cotter way in the middle part of impeller (4-2-1)
Place, selling (4-2-3), the other half is located in pump shaft (4-4);Nut (4-2-4) is located at the left end pump shaft (4-4), nut (4-2-4) with
Pump shaft (4-4) is threadedly engaged, and nut (4-2-4) is located at the left end impeller (4-2-1);
Gland (4-3) is made of indent (4-3-1), gland face (4-3-2), hole post (4-3-3);Indent (4-3-1) is located at gland
The left side of (4-3), indent (4-3-1) are annular shape, are contacted on the left of indent (4-3-1) with packing (4-5);Gland face (4-3-2)
Middle part passes through pump shaft (4-4), contacts on the right side of gland face (4-3-2) with clamping nut (4-1-2), the two sides gland face (4-3-2) add
Work has hole post (4-3-3);Hole post (4-3-3) is located at the both ends gland face (4-3-2), passes through screw rod (4-1- in hole post (4-3-3)
4);
Reciprocating pump (6) is by fresh water suction line (6-1), screw (6-2), valve pearl (6-3), sealing ring (6-4), piston (6-5), interior six
Angle screw (6-6), piston rod (6-7), valve seat (6-8), spring (6-9), reciprocal pump case (6-10), connecting pin (6-11), connecting rod I
(6-12), connecting rod II (6-13) composition;Fresh water suction line (6-1) is located at the left side of valve seat (6-8), on fresh water suction line (6-1)
Portion is connected with condensate slot (9);Screw (6-2) is located in the fixation hole on the left of reciprocal pump case (6-10), screw (6-2) and valve seat
(6-8) is threadedly engaged;Valve pearl (6-3) is located inside the valve opening of valve seat (6-8), touches on the right side of valve pearl (6-3) with spring interface;Sealing
Circle (6-4) is located in the seal groove of valve seat (6-8);Piston (6-5) is located at reciprocal pump case (6-10) inside, piston (6-5) outside
Sealing ring is installed, is contacted on the right side of piston (6-5) with piston rod (6-7), hole is drilled in the middle part of piston (6-5), passes through interior six in hole
Angle screw (6-6);Hexagon socket head cap screw (6-6) is located in piston (6-5) mider hole, hexagon socket head cap screw (6-6) right side and piston rod
The left end (6-7) is threadedly engaged;The piston rod left end (6-7) is contacted with piston (6-6), piston rod (6-7) right side and connecting rod I (6-12)
It is connected;Valve seat (6-8) is located at the left side of reciprocal pump case (6-10), is connected on the left of valve seat (6-8) with inlet/outlet pipe;Spring (6-9)
Internal positioned at valve seat (6-8), spring one end (6-9) is contacted with valve pearl (6-3);Opening on the left of reciprocal pump case (6-10), reciprocating pump
Valve seat (6-8) is installed on the left of shell (6-10);Connecting pin (6-11) is located in piston rod (6-7) right end hole, connecting pin (6-11)
In connecting rod I (6-12) left hole;It is connected by connecting pin (6-11) with piston rod (6-7) on the left of connecting rod I (6-12), connecting rod
It is connected by pin with connecting rod II (6-13) on the right side of I (6-12);It is connected on the left of connecting rod II (6-13) with connecting rod I (6-12), connecting rod II
It is connected on the right side of (6-13) with pump shaft (4-4) right end;
Cooler (7) is made of cooling tube (7-1), screw hole (7-2), cooler casing (7-3);Cooling tube (7-1) is equipped with 100
04, cooling tube (7-1) is by cooler (7) left and right end cap connection;Screw hole (7-2) is equipped with 25;Cooler casing (7-
It 3) is cylindrical body, cooler casing (7-3) left and right is contacted with cooler end cap (8);
Cooler end cap (8) is by bolt (8-1), spelter (8-2), connection bolt (8-3), partition (8-4), gasket (8-5) group
At;There are two cooler end cap (8) is set;Bolt (8-1) is equipped with 25, and bolt (8-1) is threadedly engaged with screw hole (7-2),
Bolt (8-1) passes through the cycle hole of cooler end cap (8);Spelter (8-2) be it is cylindric, spelter (8-2) right end has threaded hole, zinc
Block (8-2) is threadedly engaged with bolt (8-5) is connect, there are two spelter (8-2) is set;Cooling is welded on the right side of connection bolt (8-3)
Device end cap (8) is internal, is threadedly engaged on the left of connection bolt (8-3) with spelter (8-2);Partition (8-4) is located at cooler end cap (8)
Middle part, left side cooler end cap (8) are equipped with partition (8-4), and right side cooler end cap (8) does not have partition (8-4), partition (8-4)
It is welded on cooler end cap (8);Gasket (8-5) is located between cooler end cap (8) and cooler (7);
For solar condenser (1) lower weld on column, solar condenser (1) top is equipped with four pillars, the weldering of the pillar other end
It connects on evaporator (10);Float (2) is located at evaporator (10) inside, contacts on the right side of float (2) with evaporator (10) inner wall;Spray
It penetrates pump (3) top to be connected with cooler (7) outlet, be connected on the right side of jet pump (3) with cooler (7) top vacuum tube,
It is connected on the right side of jet pump (3) with vacuum tube on the right side of evaporator (10), jet pump (3) lower part is connected to drainpipe;Centrifugal pump (4) is left
Flanked seawater suction inlet pipe, be connected on the upside of centrifugal pump (4) with cooler (7) water inlet pipe, on the right side of centrifugal pump (4) in the middle part of pump shaft and
Driving wheel (5) links together;Driving wheel (5) is connected on the right side of pump shaft (4-4), the outer lace of driving wheel (5) and power output
Equipment is connected;Reciprocating pump (6) is connected with condensate slot (9) water outlet pipe, and reciprocating pump (6) connecting rod is connected with pump shaft (4-4);It is cooling
Device (7) is located at condensate slot (9) top;Cooler end cap (8) is located at cooler (7) two sides, and left side cooler end cap (8) is connected with
Water pipe;Condensate slot (9) is located at cooler (7) lower part, and condensate slot (9) is located at evaporator (10) top, connection on the left of condensate slot (9)
There is water outlet pipe;Evaporator (10) is located at condensate slot (9) lower part.
2. a kind of multifunction nursing seat according to claim 1, it is characterised in that:On the left of the lubrication groove (4-1-3)
It communicates with shell (4-1-1) inside, is communicated on the right side of lubrication groove (4-1-3) with packing slot (4-1-5).
3. a kind of multifunction nursing seat according to claim 1, it is characterised in that:The spelter (8-2) be it is cylindric,
Spelter (8-2) right end has threaded hole, and spelter (8-2) is threadedly engaged with bolt (8-5) is connect, there are two spelter (8-2) is set.
4. a kind of multifunction nursing seat according to claim 1, it is characterised in that:The left side cooler end cap (8)
Equipped with partition (8-4), right side cooler end cap (8) does not have partition (8-4), and partition (8-4) is welded on cooler end cap (8).
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CN106986403A (en) * | 2017-04-14 | 2017-07-28 | 同济大学 | A kind of concentrating solar sea water by distillation system |
CN107381695A (en) * | 2017-09-19 | 2017-11-24 | 湖北友诚热工设备有限公司 | Sea water desalinating unit |
CN207361823U (en) * | 2017-09-19 | 2018-05-15 | 大冶和诚换热器有限公司 | Desalination plant |
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