CN213357002U - High-efficient condensation distillation plant - Google Patents

Abstract

The utility model discloses a high-efficient condensation distillation plant, include the shock attenuation base and install the distillation plant on the shock attenuation base, condensing equipment, circulative cooling device, fresh water collecting vessel and water intaking device, the distillation plant top is equipped with sealed lid and is connected with condensing equipment's inlet end through the pipe at sealed caping portion, condensing equipment's drainage end is connected with fresh water collecting vessel top through the pipe, the water intaking device includes the drinking water pipe, the drinking water pipe is connected with fresh water collecting vessel's lower extreme lateral wall, circulative cooling device internally mounted has main water tank, preceding water tank and back water tank are connected through the cooling tube nest of tubes, preceding water tank and back water tank are kept away from main water tank one end and are all provided with cooling blower, and main water tank, two vents have been seted up one by one in the three rows of cooling tube interval that lie in every group on preceding water. The utility model discloses can be simple and quick make the cooling water cool down, improve the liquefied work efficiency of steam condensation.

Description

High-efficient condensation distillation plant

Technical Field

The utility model mainly relates to the technical field of seawater desalination equipment, in particular to a high-efficiency condensation distillation device.

Background

The distillation method is a method of boiling and vaporizing seawater by heating it, and condensing the vapor into fresh water. The distillation method sea water desalination technology is the desalination technology which is put into industrial application at the earliest, and is characterized by being applicable to the sea water environment with serious pollution and high biological activity and having high purity of produced water.

And among the current sea water distillation plant, the speed of the condensation water is fast and slow to have the effect of lifting the weight of the influence of fresh water production efficiency height among the whole sea water desalination technology, generally adopts the mode auxiliary condenser of cooling water to condense, but will carry a large amount of heats after the cooling water uses, and the cooling effect to the cooling water is not ideal among the prior art, consequently, need develop a high-efficient condensation distillation plant and make the cooling water can simple and quick cooling among the condensing process.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides a high-efficient condensation distillation plant for solve the technical problem who proposes among the above-mentioned background art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

a high-efficiency condensation distillation device comprises a damping base, a distillation device, a condensation device, a circulating cooling device, a fresh water collecting barrel and a water taking device, wherein the distillation device, the condensation device, the circulating cooling device, the fresh water collecting barrel and the water taking device are arranged on the damping base;

a main water tank, a front water tank and a rear water tank are arranged in the circulating cooling device, the main water tank is positioned between the front water tank and the rear water tank and is connected with the front water tank and the rear water tank through a cooling pipe group, cooling fans are arranged at the ends of the front water tank and the rear water tank, which are far away from the main water tank, a water return joint and a water outlet joint are respectively arranged at the tops of the front water tank and the rear water tank, and the water return joint and the water outlet joint respectively form a circulating cooling connection structure of cooling liquid with the condensing device through water;

the cooling pipe groups are divided into two groups, each group is divided into three rows from top to bottom, each row is provided with four cooling pipes from left to right, each cooling pipe is a thin-wall stainless steel pipe, the wall thickness of each cooling pipe is about 2-3mm, and two ventilation openings are formed in the main water tank, the front water tank and the rear water tank respectively and are located in the three rows of cooling pipe intervals of each group one by one.

Preferably, the distillation device is in a vertical barrel shape and comprises an outer barrel and an inner barrel, a cavity is arranged between the outer barrel and the inner barrel, an annular support is arranged in the cavity and sleeved on the periphery of the inner barrel, and an annular support seat is arranged between the bottom of the annular support and the bottom of the inner barrel.

Preferably, the annular support is sequentially provided with three rubber fastening rings at equal intervals from top to bottom, each rubber fastening ring is tightly connected with the outer wall of the inner barrel, and the outer periphery of the annular support is provided with an aluminum foil heat insulation film in a surrounding mode.

Preferably, the bottom of the distillation device is provided with a heating seat, the heating seat is hollow and is provided with an electric heater, the top of the electric heater is provided with a heat conducting head, the surface of the top of the heat conducting head is a circular curved surface, the surface of the bottom of the inner barrel is provided with an inwards concave curved surface groove, and the inwards concave curved surface groove is matched with the top of the heat conducting head.

Preferably, the condensing device comprises a sealing cover, a supporting rod is welded at the bottom of the sealing cover, the bottom of the supporting rod is fixed with the upper surface of the damping base through a bolt, a water inlet is formed in the bottom of the sealing cover, which is close to one end of the fresh water collecting barrel, a water outlet is formed in the top of the sealing cover, which is close to one end of the distilling device, and the water inlet and the water outlet are respectively connected with a water pipe connected with the water return joint and the water outlet joint.

Preferably, a condensation cylinder is arranged inside the sealing cover, the condensation cylinder is arranged in the middle, and the guide pipe at the top of the sealing cover and the guide pipe at the top of the fresh water collecting barrel respectively penetrate through the shells at the two ends of the sealing cover and extend to the inside to be connected with the two ends of the condensation cylinder.

Preferably, be connected with the circulating pump on the water pipe between water connectors and the delivery port, the circulating pump is fixed in cooling circulation device's roof upper surface, just main water tank top is provided with the water injection pipe, the water injection pipe top is run through cooling circulation device's roof and extend to upper end threaded connection have the water injection lid.

Preferably, two ventilation filter screens are symmetrically embedded on side plates at two ends of the circulating cooling device, and the two ventilation filter screens correspond to two cooling fans connected with the front water tank and the rear water tank respectively.

Preferably, the drinking water pipe is provided with a miniature electric water pump, and the water outlet end of the drinking water pipe is in threaded connection with a telescopic corrugated pipe.

Preferably, distillation plant one side is provided with the electrical module case, electrical module case lower extreme is provided with power amplifier, power amplifier pass through the wire with electric heater is electric connection, just electrical module case and power amplifier both sides are respectively through the bolt fastening have the mounting bracket, the mounting bracket bottom pass through the bolt with the shock attenuation base upper surface is fixed mutually.

Compared with the prior art, the beneficial effects of the utility model are that:

one of them, the utility model discloses an including distillation plant in the distillation plant, condensing equipment, circulating cooling device, fresh water collecting vessel and water intake device, and be equipped with the shock attenuation base and support, heat the sea water in distillation plant, the steam that produces gets into condensing equipment and condenses, and cooling water among the condensing equipment comes from circulating cooling device, utilize main water tank in circulating cooling device, preceding water tank and back water tank come the dispersed cooling water that stores, switch on through the cooling tube that many thin wall stainless steel pipes that the wall thickness is about 2-3mm made among the cooling tube group each other, the cooling water that has the heat can be conducted the heat fast on the pipe wall and distribute out when flowing in many cooling tubes, and set up cooling blower respectively at the both ends of preceding water tank and back water tank, open two cooling blower and carry out the air water conservancy diversion backward to the water tank direction, the distinguished and admirable of production is from main water tank, Two ventilation openings on the front water tank and the rear water tank are communicated and flow, so that the heat of each cooling pipe and the heat in the surrounding air are quickly taken away, and the effect of simply and quickly cooling the cooling water is achieved;

two, the utility model discloses be connected through return water articulate water pipe and with condensing equipment's delivery port on the water tank in the front, then carry out the pressure boost through going out water articulate water pipe and with the help of the circulating pump on the water tank and provide rivers power and be connected with condensing equipment's water inlet, constitute the circulative cooling connection structure of coolant liquid, on the one hand can make the lower back water tank of cooling water temperature send the cooling water into condensing equipment and improve the effect of condensation water, on the other hand makes the air current that has thermal cooling water and can get into preceding water tank and utilize two cooling blower to produce at many intraductal flows of cooling to cool down, the further improvement of reasonable flow pattern cooling water's work efficiency.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the circulating cooling device of the present invention;

FIG. 3 is a sectional view of the internal structure of the distillation apparatus of the present invention;

fig. 4 is a sectional view of the internal structure of the condensing unit of the present invention;

FIG. 5 is an enlarged view of area A of FIG. 1;

fig. 6 is an enlarged view of region B in fig. 3.

Description of the drawings: 1. a shock-absorbing base; 2. a distillation apparatus; 2a, an outer barrel; 2b, an inner barrel; 2b-1, concave curved groove; 2c, a ring-shaped bracket; 2c-1, a rubber fastening ring; 2c-2, an aluminum foil heat insulation film; 2d, an annular supporting seat; 21. a sealing cover; 22. a seawater inlet pipe; 23. a heating base; 23a, an electric heater; 23a-1, a thermal head; 24. a blowoff valve; 3. a condensing unit; 3a, a sealing cover; 3a-1 and a water inlet; 3a-2 and a water outlet; 3b, a condensation cylinder; 31. a support bar; 4. a circulating cooling device; 41. a ventilation filter screen; 42. a circulation pump; 43. a main water tank; 43a, a water injection pipe; 43b, a water injection cover; 44. a front water tank; 44a, a water return joint; 45. a rear water tank; 45a, a water outlet joint; 46. a cooling fan; 46a, a shock-absorbing sealing strip; 46b, a connecting sheet; 47. a cooling tube bank; 48. a vent; 5. a fresh water collection barrel; 6. a water intake device; 61. a drinking pipe; 62. a miniature electric water pump; 63. a bellows; 7. an electronic control module box; 71. a mounting frame; 8. a power amplifier.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In an embodiment, referring to fig. 1 and 5, an efficient condensing and distilling apparatus includes a damping base 1, a distilling apparatus 2, a condensing apparatus 3, a circulating cooling apparatus 4, a fresh water collecting bucket 5, and a water intake apparatus 6 mounted on the damping base 1, wherein a sealing cover 21 is disposed on a top of the distilling apparatus 2 and connected to an air inlet end of the condensing apparatus 3 through a conduit on the top of the sealing cover 21, the sealing cover 21 can be connected by a screw or a snap connection, and is easy to detach, a water discharge end of the condensing apparatus 3 is connected to a top of the fresh water collecting bucket 5 through a conduit, the water intake apparatus 6 includes a drinking tube 61, the drinking tube 61 is connected to a lower end sidewall of the fresh water collecting bucket 5, a micro electric water pump 62 is mounted on the drinking tube 61, and the micro electric water pump 62 can be selected according to relative match in power of the existing water dispenser, and drinking water pipe 61 water outlet end threaded connection has flexible bellows 63, then pulls flexible bellows 63 and prolongs when needing to carry out the water injection to the drinking water bucket, matches the bung hole department and carries out the water injection, reduces extravagantly, and it can to go back the compression flexible bellows 63 after the use is accomplished.

In the embodiment, referring to fig. 1 and 2, a main water tank 43, a front water tank 44 and a rear water tank 45 are installed inside the circulating cooling device 4, the main water tank 43 is located between the front water tank 44 and the rear water tank 45 and is connected through a cooling pipe group 47, cooling fans 46 are respectively installed at ends of the front water tank 44 and the rear water tank 45, which are far away from the main water tank 43, a damping sealing strip 46a is installed at a joint when each cooling fan 46 is connected with the corresponding water tank for pressing contact, so that damping and sealing effects can be achieved, and meanwhile, a plurality of connecting pieces 46b are used for connecting and fixing at two sides to maintain the stability of the cooling fans 46 during operation, two ventilation filters 41 are symmetrically embedded on side plates at two ends of the circulating cooling device 4, the two ventilation filters 41 respectively correspond to the two cooling fans 46 connected with the front water tank 44 and the rear water tank 45, and cold air enters the ventilation filter 41 at, the ventilation filter screen 41 at the other end discharges hot air to realize a smooth heat exchange process, the tops of the front water tank 44 and the rear water tank 45 are respectively provided with a water return connector 44a and a water outlet connector 45a, and the water return connector 44a and the water outlet connector 45a respectively form a circulating cooling connection structure of cooling liquid with the condensing device 3 through water pipes;

specifically, referring to fig. 2, the cooling tube groups 47 are divided into two groups, each group is divided into three rows from top to bottom, each row is provided with four cooling tubes from left to right, heat in the cooling water can be dispersed to a greater extent, each cooling tube is a thin-walled stainless steel tube, the wall thickness of each cooling tube is about 2-3mm, two ventilation openings 48 are respectively formed in the main water tank 43, the front water tank 44 and the rear water tank 45 at intervals of the three rows of cooling tubes in each group, and the positions of the ventilation openings 48 can cover the range of the peripheral cooling tubes to perform accurate heat dissipation.

In the embodiment, referring to fig. 1, 3 and 6, the distillation apparatus 2 is a vertical barrel and includes an outer barrel 2a and an inner barrel 2b, the upper end and the lower end of the outer barrel 2a are respectively connected with a seawater inlet pipe 22 and a blowoff valve 24, the water discharge pipes of the seawater inlet pipe 22 and the blowoff valve 24 penetrate through the outer barrel 2a and are connected with the inner barrel 2b, two threaded holes are formed on the inner barrel 2b in the connection mode, then the water discharge pipes of the seawater inlet pipe 22 and the blowoff valve 24 are embedded in the respective threaded holes and are in sealed threaded connection, a cavity is arranged between the outer barrel 2a and the inner barrel 2b, the outer barrel 2a and the inner barrel 2b are hollow and designed to be beneficial to heat preservation after heating, a ring-shaped support 2c is arranged in the cavity and is sleeved around the inner barrel 2b, a ring-shaped support seat 2d is arranged between the bottom of the ring-shaped support 2c and the, the annular support 2c is sequentially provided with three rubber fastening rings 2c-1 at equal intervals from top to bottom, each rubber fastening ring 2c-1 is tightly connected with the outer wall of the inner barrel 2b, an aluminum foil heat insulation film 2c-2 is arranged around the outer periphery of the annular support 2c, the three rubber fastening rings 2c-1 on the annular support 2c are matched with the annular support seat 2d to stably support and fix the inner barrel 2b, and meanwhile, the aluminum foil heat insulation film 2c-2 is adopted to surround the outer periphery of the annular support 2c to further realize the heat insulation effect on the heat of the inner barrel 2 b.

Specifically, referring to fig. 1 and 3, a heating seat 23 is disposed at the bottom of the distillation apparatus 2, an electric heater 23a is disposed in the heating seat 23, a heat conducting head 23a-1 is disposed at the top of the electric heater 23a, the top surface of the heat conducting head 23a-1 is a circular curved surface, an inner concave curved surface groove 2b-1 is disposed at the bottom surface of the inner barrel 2b, the inner concave curved surface groove 2b-1 is matched with the top of the heat conducting head 23a-1, and the inner concave curved surface groove 2b-1 at the bottom of the inner barrel 2b can increase a contact surface and improve heat conducting efficiency after being matched and connected with the heat conducting head 23 a-1.

In an embodiment, referring to fig. 1 and 4, the condensing device 3 includes a sealing cover 3a, a support rod 31 is welded at the bottom of the sealing cover 3a, the bottom of the support rod 31 is fixed to the upper surface of the damping base 1 through a bolt, a water inlet 3a-1 is arranged at the bottom of the sealing cover 3a near one end of the fresh water collecting barrel 5, a water outlet 3a-2 is arranged at the top of the distilling device 2 near one end, the water inlet 3a-1 and the water outlet 3a-2 are respectively connected to a water pipe connected to the water return joint 44a and the water outlet joint 45a, a condensing barrel 3b is arranged inside the sealing cover 3a, the condensing barrel 3b is arranged in the middle, and a conduit at the top of the sealing cover 21 and a conduit at the top of the fresh water collecting barrel 5 respectively penetrate through casings at two ends of the sealing cover 3a and extend to the inside to be connected to, whole condensing equipment 3 is close to the height that highly is less than the other end of fresh water collecting vessel 5 one end on bracing piece 31 and is the slope form design, and the cooling water gets into to surround after the sealed cowling 3a and carries out thermal exchange around condensing cylinder 3b, has accelerateed the inside quick liquefaction of steam of condensing cylinder 3 b.

In an embodiment, referring to fig. 1 and 2, a circulation pump 42 is connected to a water pipe between the water outlet connector 45a and the water outlet 3a-2, the circulation pump 42 is fixed to an upper surface of a top plate of the circulation cooling device 4, a water injection pipe 43a is disposed at a top of the main water tank 43, the top of the water injection pipe 43a penetrates through the top plate of the circulation cooling device 4 and extends to an upper end of the top plate to be in threaded connection with a water injection cap 43b, and the water injection cap 43b can be opened to add cooling water into the main water tank 43 through the water injection pipe 43 a.

In an embodiment, referring to fig. 1, an electronic control module box 7 is disposed on one side of the distillation apparatus 2, the electronic control module box 7 can be connected to a circulation pump 42, two cooling fans 46, a micro electric water pump 62, and an electric heater 23a through wires, the operation of the electrical apparatus is performed by controlling the on/off of a working power supply, a power amplifier 8 is disposed at the lower end of the electronic control module box 7, the power amplifier 8 is electrically connected to the electric heater 23a through wires, the control of the heating power of the power amplifier 8 on the electronic control module box 7 can enhance the heating operation of the electric heater 23a, and the temperature detection function can be performed by connecting a conventional temperature sensor to the electronic control module box 7, so as to adjust the heating operation of the electric heater 23a according to the temperature, and mounting frames 71 are fixed to two sides of the electronic control module box 7 and the power amplifier 8 through bolts, the bottom of the mounting frame 71 is fixed to the upper surface of the shock absorption base 1 through bolts.

The utility model discloses a concrete flow is as follows:

firstly, filtered seawater is introduced into an inner barrel 2b of a distillation device 2 through a seawater inlet pipe 22, then an electric heater 23a and a power amplifier 8 are started on a matched control screen of an electric control module box 7 to be electrified to work, the seawater is rapidly heated, generated steam enters a condensation barrel 3b in the condensation device 3 along a conduit, a circulating pump 42 and two cooling fans 46 are started to be electrified to work simultaneously, cooling water with heat in a sealing cover 3a flows through a front water tank 44, a main water tank 43 and a rear water tank 45 in the circulation cooling device 4 in order, heat dissipation is carried out by virtue of a plurality of cooling pipes, air currents generated by the two cooling fans 46 flow rapidly through two air vents 48 on each water tank so as to take away a large amount of heat, the liquefaction speed of the steam in the condensation barrel 3b is accelerated, and finally liquefied fresh water flows into a fresh water collection barrel 5 through the conduit to be stored, can place the below of drinking water pipe 61 play water end at water intake device 6 with the scuttlebutt of flourishing water usefulness when needing fresh water, and tear and pull bellows 63 and prolong, match bung hole department, open miniature electronic suction pump 62 circular telegram work immediately and carry out the water injection, close miniature electronic suction pump 62 after the water injection is accomplished and go back to compress bellows 63 again can, the same thing, also can connect the connecting pipe that carries fresh water usefulness in the water supply system on fresh water collecting bucket 5, the cooperation delivery pump carries out the transportation of fresh water.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above-mentioned manner, if the method and the technical solution of the present invention are adopted, the present invention can be directly applied to other occasions without substantial improvement, and the present invention is within the protection scope of the present invention.

Claims (10)

1. A high-efficiency condensation distillation device comprises a damping base (1), a distillation device (2), a condensation device (3), a circulating cooling device (4), a fresh water collecting barrel (5) and a water taking device (6), wherein the distillation device (2), the condensation device (3), the circulating cooling device (4), the fresh water collecting barrel (5) and the water taking device (6) are mounted on the damping base (1), the top of the distillation device (2) is provided with a sealing cover (21) and is connected with the air inlet end of the condensation device (3) through a guide pipe at the top of the sealing cover (21), the water discharging end of the condensation device (3) is connected with the top of the fresh water collecting barrel (5) through a guide pipe, the water taking device (6) comprises a drinking water pipe (61), and the drinking water;

a main water tank (43), a front water tank (44) and a rear water tank (45) are arranged in the circulating cooling device (4), the main water tank (43) is positioned between the front water tank (44) and the rear water tank (45) and is connected with the front water tank (44) and the rear water tank (45) through a cooling pipe group (47), one ends, far away from the main water tank (43), of the front water tank (44) and the rear water tank (45) are respectively provided with a water return connector (44 a) and a water outlet connector (45 a), and the water return connector (44 a) and the water outlet connector (45 a) respectively form a circulating cooling connection structure of cooling liquid with the condensing device (3) through water pipes;

the cooling pipe groups (47) are divided into two groups, each group is divided into three rows from top to bottom, four cooling pipes are arranged in each row from left to right, each cooling pipe is a thin-wall stainless steel pipe, the wall thickness of each cooling pipe is 2-3mm, and two ventilation openings (48) are formed in the main water tank (43), the front water tank (44) and the rear water tank (45) one by one in the three rows of cooling pipe intervals of each group.

2. The high efficiency condensing and distilling apparatus according to claim 1, wherein said distilling apparatus (2) is in the shape of a vertical barrel and comprises an outer barrel (2 a) and an inner barrel (2 b), a cavity is provided between said outer barrel (2 a) and said inner barrel (2 b), a ring support (2 c) is provided in said cavity, said ring support (2 c) is sleeved around said inner barrel (2 b), and a ring support (2 d) is provided between the bottom of said ring support (2 c) and the bottom of said inner barrel (2 b).

3. The high-efficiency condensing and distilling device according to claim 2, wherein the ring-shaped bracket (2 c) is provided with three rubber fastening rings (2 c-1) at equal intervals from top to bottom, each rubber fastening ring (2 c-1) is tightly connected with the outer wall of the inner barrel (2 b), and the outer periphery of the ring-shaped bracket (2 c) is provided with an aluminum foil heat insulation film (2 c-2) in a surrounding manner.

4. The high-efficiency condensation and distillation device according to claim 3, wherein the bottom of the distillation device (2) is provided with a heating seat (23), the heating seat (23) is hollow and is provided with an electric heater (23 a), the top of the electric heater (23 a) is provided with a heat conducting head (23 a-1), the top surface of the heat conducting head (23 a-1) is a circular curved surface, the bottom surface of the inner barrel (2 b) is provided with an inner concave curved surface groove (2 b-1), and the inner concave curved surface groove (2 b-1) is matched with the top of the heat conducting head (23 a-1).

5. The high-efficiency condensation and distillation device according to claim 1, wherein the condensation device (3) comprises a sealing cover (3 a), a support rod (31) is welded at the bottom of the sealing cover (3 a), the bottom of the support rod (31) is fixed with the upper surface of the damping base (1) through a bolt, a water inlet (3 a-1) is arranged at the bottom of the sealing cover (3 a) close to one end of the fresh water collecting barrel (5), a water outlet (3 a-2) is arranged at the top of the sealing cover close to one end of the distillation device (2), and the water inlet (3 a-1) and the water outlet (3 a-2) are respectively connected with a water pipe connected with the water return joint (44 a) and the water outlet joint (45 a).

6. A high-efficiency condensation and distillation device according to claim 5, characterized in that a condensation cylinder (3 b) is arranged inside the sealing cover (3 a), the condensation cylinder (3 b) is arranged in the middle, and the conduit at the top of the sealing cover (21) and the conduit at the top of the fresh water collecting barrel (5) respectively penetrate through the shells at the two ends of the sealing cover (3 a) and extend to the inside to be connected with the two ends of the condensation cylinder (3 b).

7. A high-efficiency condensation and distillation device according to claim 5, wherein a circulating pump (42) is connected to the water pipe between the water outlet joint (45 a) and the water outlet (3 a-2), the circulating pump (42) is fixed on the upper surface of the top plate of the circulation cooling device (4), a water injection pipe (43 a) is arranged at the top of the main water tank (43), and the top of the water injection pipe (43 a) penetrates through the top plate of the circulation cooling device (4) and extends to the upper end to be connected with a water injection cover (43 b) in a threaded manner.

8. A high-efficiency condensing and distilling device according to claim 1, wherein two ventilation filters (41) are symmetrically embedded on the side plates at the two ends of the circulating cooling device (4), and the two ventilation filters (41) respectively correspond to the two cooling fans (46) connected with the front water tank (44) and the rear water tank (45).

9. The high-efficiency condensing and distilling device according to claim 1, wherein a micro electric water pump (62) is installed on the drinking water pipe (61), and a telescopic corrugated pipe (63) is connected to the water outlet end of the drinking water pipe (61) in a threaded manner.

10. The high-efficiency condensation and distillation device according to claim 4, wherein an electric control module box (7) is arranged on one side of the distillation device (2), a power amplifier (8) is arranged at the lower end of the electric control module box (7), the power amplifier (8) is electrically connected with the electric heater (23 a) through a wire, mounting frames (71) are respectively fixed on two sides of the electric control module box (7) and the power amplifier (8) through bolts, and the bottoms of the mounting frames (71) are fixed on the upper surface of the damping base (1) through bolts.

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