CN209128075U - A kind of water still of high production efficiency - Google Patents

Abstract

The utility model relates to a kind of water stills of high production efficiency, including pedestal and main body, it further include water compensation mechanism and wiper mechanism, the water compensation mechanism includes heat-exchanging component, water inlet, baffle, drive rod, fixed sleeving, spring, fixed pulley, connecting line and buoy, the heat-exchanging component includes the first steam pipe, crossover sub, water tank, condensation chamber, first water inlet pipe, second water inlet pipe and at least two second steam pipes, the wiper mechanism includes driving assembly, first feed pipe, second feed pipe, rotary joint and at least two nozzles, in the water still of the high production efficiency, pass through water compensation mechanism, automatically moisturizing can be carried out in the inside to water still, to reduce the probability that water still is burned, pass through wiper mechanism, each nozzle rotation can be driven, to pass through nozzle to the water inside water still Dirt is cleaned, so that the heat conduction efficiency of water still is improved, to improve the working efficiency of water still.

Description

A kind of water still of high production efficiency

Technical field

The utility model relates to field of water treatment equipment, in particular to a kind of water still of high production efficiency.

Background technique

Water still is the equipment with electric-heating water Pure-water Making, and the departments such as laboratory are typically all to adopt using water still It with good stainless steel material, is formed by specially treated post-processing, has not only fully ensured that the quality of distilled water in this way, but also Also service life is substantially increased, this instrument is mainly made of condenser, evaporation boiler, electrothermal tube three parts, and material of main part is adopted It is made of stainless sheet steel and stainless steel seamless pipe, good appearance, heating partial uses immersion type heating element, and the thermal efficiency is high.

The one kind of water still as water treatment facilities, widely used in people's lives, general water still is in length After the use of time, the bulk deposition of scale easy to form on the inner wall of water still, scale will reduce water still Heat conduction efficiency, to reduce the working efficiency of water still, moreover, with water still normal work into It goes, the water inside water still can be reduced gradually, if moisturizing timely cannot be carried out to water still inside, it will cause to steam Anhydrous or water is seldom in distilled water device, burns out so as to cause the electrothermal tube of water still, to bring huge damage It loses.

Utility model content

Technical problem to be solved by the utility model is: for overcome the deficiencies in the prior art, providing a kind of production efficiency High water still.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of water still of high production efficiency, Including pedestal and main body, the top of pedestal is arranged in the main body, further includes water compensation mechanism and wiper mechanism, the water compensation mechanism The side of main body is set, and the inside of main body is arranged in the wiper mechanism；

The water compensation mechanism includes heat-exchanging component, water inlet, baffle, drive rod, fixed sleeving, spring, fixed pulley, connection The side of main body is arranged in line and buoy, the heat-exchanging component, and the top of the inner wall of main body, the gear is arranged in the water inlet Plate is horizontally disposed, and the inside of water inlet is arranged in one end of the baffle, and the drive rod is horizontally disposed, and the one of the drive rod End is connect with the other end of baffle, and the side of the close drive rod of the top inner wall of main body is arranged in the fixed sleeving, described Drive rod passes through fixed sleeving, and the fixed pulley is hinged in the top inner wall of main body, and drive rod is arranged in the fixed pulley Side far from water inlet, one end of the connecting line and the other end of drive rod connect, and the connecting line bypasses fixed pulley, institute Buoy is stated to be arranged on the other end of connecting line；

The heat-exchanging component includes the first steam pipe, crossover sub, water tank, condensation chamber, the first water inlet pipe, the second water inlet The side of main body is arranged in pipe and at least two second steam pipes, the condensation chamber, and the upper of condensation chamber is arranged in the water tank Side, one end of second water inlet pipe are connected to water inlet, and the other end of second water inlet pipe is connected to the side of water tank, One end of second water inlet pipe is connected to the other side of water tank, and the top of water tank is arranged in the crossover sub, described One end of first steam pipe is connected to crossover sub, the side of the close condensation chamber of the other end and main body of first steam pipe Top connection, each second steam pipe is vertically provided at the inside of water tank, and the top of each second steam pipe connects with conversion Head connection, the bottom end of each second steam pipe is connected to condensation chamber；

The wiper mechanism includes driving assembly, the first feed pipe, the second feed pipe, rotary joint and at least two sprays Mouth, the rotary joint are arranged in the bottom interior wall of main body, and second feed pipe is vertically provided at the top of rotary joint, The bottom end of second feed pipe is connected to rotary joint, and each nozzle is uniformly arranged on the surrounding of the second feed pipe from top to bottom, The inside of pedestal is arranged in first feed pipe, and one end of first feed pipe is connected to rotary joint, described first into The other end of expects pipe passes through the side inner wall of pedestal, and the outside of pedestal is arranged in first feed pipe.

Preferably, in order to improve the intelligence degree of water still, the inside of the pedestal is additionally provided with wireless signal receipts Hair module and PLC, the wireless signal transceiver module are electrically connected with PLC.

Preferably, the driving component includes motor, first gear in order to provide power to the rotation of the second feed pipe And second gear, at the top of the base on inner wall, the inside of main body, the electricity is arranged in the second gear for the motor setting Machine and second gear are sequentially connected, and the center point of the first gear is equipped with through-hole, and the first gear is set in the second charging On the periphery of the bottom end of pipe, the first gear is engaged with second gear.

Preferably, the nozzle is high pressure nozzle in order to improve nozzle to the cleaning effect of water still.

Preferably, the making material of the main body is stainless steel for the service life of prolongation main body.

Preferably, being also enclosed with heat-preservation cotton on the periphery of the main body to reduce the heat losses of body interior.

Preferably, in order to realize that the bottom of the side of the main body is additionally provided with to the automatic control of water still draining One discharge outlet, the inside of the discharge outlet are additionally provided with a motor-driven valve.

Preferably, in order to improve the conduction of the heat of the steam inside the water and the second steam pipe inside water tank effect Rate, the inside of the water tank are additionally provided at least two cooling fins, and each cooling fin is horizontally disposed, and each second steam pipe both passes through Each cooling fin.

Preferably, in order to further increase the biography of the heat of the steam inside the water and the second steam pipe inside water tank Efficiency is led, the making material of the cooling fin is aluminium alloy.

Preferably, second water inlet pipe is wrapped on the periphery of condensation chamber in order to improve the radiating efficiency of condensation chamber, Second water inlet pipe is upward along the axis spiral of condensation chamber.

The utility model has the beneficial effects that, by water compensation mechanism, making distilled water in the water still of the high production efficiency When water level inside device is too low, automatically moisturizing can be carried out in the inside to water still, to reduce water still The probability being burned, compared with existing mechanism, which can conduct the heat in vapor under the action of heat-exchanging component To the inside of make-up water, to not only increase the efficiency of vapor condensation, make-up water can also be preheated, thus not only The working efficiency for improving water still also reduces the energy consumption of water still, moreover, can by wiper mechanism To drive each nozzle rotation, to be cleaned by the cleaning agent that nozzle sprays to the scale inside water still, to mention The high heat conduction efficiency of water still, so that the working efficiency of water still is improved, compared with existing mechanism, the mechanism knot Structure is relatively simple, to reduce the quantity of fault point, so that the probability that water still breaks down is reduced, to reduce The maintenance cost of water still.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is the structural schematic diagram of the water still of the high production efficiency of the utility model；

Fig. 2 is the structural schematic diagram of the heat-exchanging component of the water still of the high production efficiency of the utility model；

Fig. 3 is the structural schematic diagram of the water compensation mechanism of the water still of the high production efficiency of the utility model；

Fig. 4 is the portion the A enlarged drawing of Fig. 1；

In figure: 1. fixed pulleys, 2. fixed sleevings, 3. drive rods, 4. water inlets, 5. baffles, 6. main bodys, 7. first water inlets Pipe, 8. first steam pipes, 9. crossover subs, 10. second steam pipes, 11. cooling fins, 12. water tanks, 13. condensation chambers, 14. the Two water inlet pipes, 15. pedestals, 16. first feed pipes, 17. second gears, 18. motors, 19. rotary joints, 20. discharge outlet, 21. Nozzle, 22. buoys, 23. second feed pipes, 24. connecting lines, 25. springs, 26. first gears.

Specific embodiment

The utility model is described in further detail presently in connection with attached drawing.These attached drawings are simplified schematic diagram, Only illustrate the basic structure of the utility model in a schematic way, therefore it only shows composition related with the utility model.

As shown in Figure 1, a kind of water still of high production efficiency, including pedestal 15 and main body 6, the setting of main body 6 exist The top of pedestal 15, further includes water compensation mechanism and wiper mechanism, and the side of main body 6, the cleaning is arranged in the water compensation mechanism The inside of main body 6 is arranged in mechanism；

As Figure 2-3, the water compensation mechanism include heat-exchanging component, water inlet 4, baffle 5, drive rod 3, fixed sleeving 2, The side of main body 6 is arranged in spring 25, fixed pulley 1, connecting line 24 and buoy 22, the heat-exchanging component, and the water inlet 4 is arranged At the top of the inner wall of main body 6, the baffle 5 is horizontally disposed, and the inside of water inlet 4 is arranged in one end of the baffle 5, described Drive rod 3 is horizontally disposed, and one end of the drive rod 3 is connect with the other end of baffle 5, and the fixed sleeving 2 is arranged in main body 6 Top inner wall close drive rod 3 side, the drive rod 3 passes through fixed sleeving 2, and the fixed pulley 1 is hinged on main body 6 Top inner wall on, the fixed pulley 1 is arranged in the side of the separate water inlet 4 of drive rod 3, one end of the connecting line 24 with The other end of drive rod 3 connects, and the connecting line 24 bypasses fixed pulley 1, and the other end of connecting line 24 is arranged in the buoy 22 On；

Wherein, when the water level inside main body 6 is normal, drive drive rod 3 along fixation under the action of spring 25 Casing 2 moves right, thus drive baffle 5 to move right by drive rod 3, thus blocked water inlet 4 by baffle 4, from And make-up water is made to cannot be introduced into the inside of main body 6, when the water level inside main body 6 is lower, water subtracts the buoyancy of buoy 22 It is small, to pull one end of connecting line 24 to move down by buoy 22, thus determining cunning under the action of the gravity of buoy 22 Under the action of wheel 1, drive rod 3 is pulled to move right along fixed sleeving 2 by connecting line 24, to drive by drive rod 3 Cover board 5 moves right, to make water inlet 4 open, to allow make-up water into the inside of main body 6, to make in main body 6 The water level in portion can keep normal level, to reduce the probability that water still is damaged, while in the work of heat-exchanging component Under, the heat in vapor can be transmitted to the inside of make-up water, to not only increase the efficiency of vapor condensation, also Make-up water can be preheated, to not only increase the working efficiency of water still, also reduce the energy of water still Consumption；

As shown in Fig. 2, the heat-exchanging component includes the first steam pipe 8, crossover sub 9, water tank 12, condensation chamber 13, the The side of main body 6, institute is arranged in one water inlet pipe 7, the second water inlet pipe 14 and at least two second steam pipes 10, the condensation chamber 13 State the top that condensation chamber 13 is arranged in water tank 12, one end of second water inlet pipe 14 is connected to water inlet 4, described second into The other end of water pipe 14 is connected to the side of water tank 12, and one end of second water inlet pipe 14 and the other side of water tank 12 connect Logical, the top of water tank 12 is arranged in the crossover sub 9, and one end of first steam pipe 8 is connected to crossover sub 9, institute The top for stating the side of the other end of the first steam pipe 8 and the close condensation chamber 13 of main body 6 is connected to, and each second steam pipe 10 is perpendicular To the inside that water tank 12 is arranged in, the top of each second steam pipe 10 is connected to crossover sub 9, each second steam pipe 10 Bottom end is connected to condensation chamber 13；

Wherein, the steam inside main body 6 enters the inside of each second steam pipe 10 by the first steam pipe 7, passes through each the Two steam pipes 10 increase the contact area with make-up water, so that the heat conduction of velocity between steam and make-up water is accelerated, Enter the inside of condensation chamber 13 by each second steam pipe 10 later, while make-up water enters water tank by the second water inlet pipe 14 12 inside, in the process by the heat conduction between the second water inlet pipe 14 and condensation chamber 13, inside condensation chamber 13 The heat of steam is transmitted to the inside of the make-up water inside the second water inlet pipe 14, so that the temperature of make-up water is improved, thus plus The speed of steam condensation Cheng Shui inside fast condensation chamber 13, so that the vacuum degree inside condensation chamber 13 is improved, to accelerate Steam enters the efficiency inside condensation chamber 13, and the make-up water entered inside water tank 12 later can by each second steam pipe 8 The heat absorption of internal steam, to further improve the temperature of make-up water, the make-up water by preheating is by the later One water inlet pipe 7 enters the inside of water inlet 4, enters the inside of main body 6 later, to reduce water still heating make-up water institute The heat needed, to reduce the energy consumption of water still, while the steam inside each second steam pipe 10 is by cooling Later, the speed of steam condensation Cheng Shui is accelerated, to improve the working efficiency of water still；

As shown in Figure 1, the wiper mechanism includes driving assembly, the first feed pipe 16, the second feed pipe 23, rotary joint 19 and at least two nozzles 21, the rotary joint 19 be arranged in the bottom interior wall of main body 6, second feed pipe 23 is vertical The top of rotary joint 19 is set, and the bottom end of second feed pipe 23 is connected to rotary joint 19, and each nozzle 21 is from upper past Under be uniformly arranged on the surrounding of the second feed pipe 23, first feed pipe 16 is arranged in the inside of pedestal 15, described first into One end of expects pipe 16 is connected to rotary joint 19, and the other end of first feed pipe 16 passes through the side inner wall of pedestal 15, institute State the outside that pedestal 15 is arranged in the first feed pipe 16；

Wherein, when water still needs to clean, discharge outlet 20 is controlled by motor-driven valve and arranges the water inside main body 6 Out, people are by the inside of cleaning agent the first feed pipe 16 of feeding later, and cleaning agent enters second by the first feed pipe 16 later The inside of feed pipe 23, while under the action of rotary joint 19, the rotation of the second feed pipe 23 is driven by driving assembly, thus Cleaning agent is sprayed onto everywhere in the inner wall of main body 6 by each nozzle 21, thus by cleaning agent to the water inside water still Dirt is cleaned, so that the heat conduction efficiency of water still is improved, to improve the working efficiency of water still.

Preferably, in order to improve the intelligence degree of water still, the inside of the pedestal 15 is additionally provided with wireless signal Transceiver module and PLC, the wireless signal transceiver module are electrically connected with PLC, by wireless signal transceiver module allow PLC with Mobile device establishes communication, sends control signal to PLC by mobile device remote later, controls distilled water by PLC later Device operation, to improve the intelligence degree of water still.

As shown in figure 4, the driving component includes motor 18, first gear 26 and second gear 17, the motor 18 is set It sets in the top inner wall of pedestal 15, the inside of main body 6, the motor 18 and second gear 17 is arranged in the second gear 17 The center point of transmission connection, the first gear 26 is equipped with through-hole, and the first gear 26 is set in the bottom of the second feed pipe 23 On the periphery at end, the first gear 26 is engaged with second gear 17；

Wherein, it drives second gear 17 to rotate by motor 18, drives 26 turns of first gear by second gear 17 later It is dynamic, to drive the rotation of the second feed pipe 23 by first gear 26.

Preferably, the nozzle 21 is high pressure nozzle in order to improve nozzle 21 to the cleaning effect of water still, due to The pressure for the detergent that high pressure nozzle sprays is higher, so as to sweep away the scale on the inner wall of main body 6, to improve spray Cleaning effect of the mouth 21 to water still.

Preferably, the making material of the main body 6 is stainless steel, due to stainless for the service life of prolongation main body 6 Steel has preferable corrosion resistance, so that the speed that main body 6 is corroded is slowed down, to extend the service life of main body 6.

Preferably, it is also enclosed with heat-preservation cotton on the periphery of the main body 6 in order to reduce the heat losses inside main body 6, The speed that the heat inside main body 6 distributes is slowed down by heat-preservation cotton, so that the heat losses inside main body 6 are reduced, to mention The high working efficiency of water still.

Preferably, in order to realize that the bottom of the side of the main body 6 is additionally provided with to the automatic control of water still draining One discharge outlet 20, the inside of the discharge outlet 20 are additionally provided with a motor-driven valve, can will be inside main body 6 by discharge outlet 20 Water discharge, the opening and closing of control discharge outlet 20 is controlled by motor-driven valve, to realize the automatic control to water still draining.

Preferably, in order to improve the heat between the steam inside the make-up water and the second steam pipe 10 inside water tank 12 The conduction efficiency of amount, the inside of the water tank 12 are additionally provided at least two cooling fins 11, and each cooling fin 11 is horizontally disposed, respectively Second steam pipe 10 both passes through each cooling fin 11.The contact surface of each second steam pipe 10 and make-up water is increased by cooling fin 11 Product, to improve the conduction effect of the heat between the steam inside the make-up water and the second steam pipe 10 inside water tank 12 Rate.

Preferably, in order to further increase steam inside the make-up water and the second steam pipe 10 inside water tank 12 it Between heat conduction efficiency, the making material of the cooling fin 11 is aluminium alloy, since aluminium alloy has preferable thermal conductivity Can, thus improve can cooling fin 11 heat transfer efficiency, to further improve make-up water water tank 12 inside and the second steaming The conduction efficiency of the heat between steam inside steam pipe 10.

Preferably, in order to improve the radiating efficiency of condensation chamber 13, second water inlet pipe 14 is wrapped in condensation chamber 13 On periphery, second water inlet pipe 14 is upward along the axis spiral of condensation chamber 13, when the second water inlet pipe 14 is wrapped in condensation chamber When on 13 periphery, the contact area between condensation chamber 13 and the second water inlet pipe 14 is increased, to improve condensation chamber 13 radiating efficiency.

When water level inside main body 6 is normal, baffle 5 is driven to move right under the action of spring 25, thus logical It crosses baffle 4 to block water inlet 4, so that make-up water be made to cannot be introduced into the inside of main body 6, the water level inside main body 6 is lower When, water reduces the buoyancy of buoy 22, to drive cover board 5 to the right by buoy 22 under the action of the gravity of buoy 22 It is mobile, to make water inlet 4 open, to allow make-up water into the inside of main body 6, to make the water level inside main body 6 Normal level can be kept, to reduce the probability that water still is damaged, when water still needs to clean, is led to It crosses motor-driven valve control discharge outlet 20 water inside main body 6 is discharged, cleaning agent is sent into the first feed pipe 16 by people later Portion, cleaning agent enters the inside of the second feed pipe 23 by the first feed pipe 16 later, while under the action of rotary joint 19, The rotation of the second feed pipe 23 is driven by driving assembly, so that cleaning agent to be sprayed onto the inner wall of main body 6 by each nozzle 21 Everywhere, to be cleaned by cleaning agent to the scale inside water still, to improve the heat transfer effect of water still Rate, to improve the working efficiency of water still.

Compared with prior art, in the water still of the high production efficiency, by water compensation mechanism, make inside water still When water level is too low, automatically moisturizing can be carried out in the inside to water still, to reduce what water still was burned Probability, compared with existing mechanism, which can be transmitted to make-up water for the heat in vapor under the action of heat-exchanging component Inside, thus not only increase vapor condensation efficiency, make-up water can also be preheated, to not only increase steaming The working efficiency of distilled water device also reduces the energy consumption of water still, moreover, by wiper mechanism, can drive each Nozzle 21 rotates, to be cleaned by the cleaning agent that nozzle 21 sprays to the scale inside water still, to improve The heat conduction efficiency of water still, to improve the working efficiency of water still, compared with existing mechanism, the mechanism structure compared with To be simple, to reduce the quantity of fault point, so that the probability that water still breaks down is reduced, to reduce distillation The maintenance cost of hydrophone.

It is enlightenment, through the above description, related work people with the above-mentioned desirable embodiment according to the utility model Member can carry out various changes and amendments in the range of without departing from this item utility model technical idea completely.This item is real It is not limited to the contents of the specification with novel technical scope, it is necessary to its technology is determined according to scope of the claims Property range.

Claims (10)

1. a kind of water still of high production efficiency, including pedestal (15) and main body (6), the main body (6) is arranged in pedestal (15) top, which is characterized in that further include water compensation mechanism and wiper mechanism, the water compensation mechanism is arranged the one of main body (6) Side, inside of the wiper mechanism setting in main body (6)；

The water compensation mechanism includes heat-exchanging component, water inlet (4), baffle (5), drive rod (3), fixed sleeving (2), spring (25), fixed pulley (1), connecting line (24) and buoy (22), the heat-exchanging component are arranged in the side of main body (6), the water inlet At the top of the inner wall of main body (6), the baffle (5) is horizontally disposed for mouthful (4) setting, one end setting of the baffle (5) into The inside at the mouth of a river (4), the drive rod (3) is horizontally disposed, and one end of the drive rod (3) is connect with the other end of baffle (5), The side of the close drive rod (3) of top inner wall of fixed sleeving (2) setting in main body (6), the drive rod (3) pass through Fixed sleeving (2), the fixed pulley (1) are hinged in the top inner wall of main body (6), and the fixed pulley (1) is arranged in drive rod (3) one end of the side of separate water inlet (4), the connecting line (24) is connect with the other end of drive rod (3), the connection Line (24) bypasses fixed pulley (1), and the buoy (22) is arranged on the other end of connecting line (24)；

The heat-exchanging component includes the first steam pipe (8), crossover sub (9), water tank (12), condensation chamber (13), the first water inlet (7), the second water inlet pipe (14) and at least two second steam pipes (10) are managed, the condensation chamber (13) is arranged the one of main body (6) Side, water tank (12) setting is in the top of condensation chamber (13), and one end and water inlet (4) of second water inlet pipe (14) are even Logical, the other end of second water inlet pipe (14) is connected to the side of water tank (12), one end of second water inlet pipe (14) It is connected to the other side of water tank (12), the crossover sub (9) is arranged in the top of water tank (12), first steam pipe (8) one end is connected to crossover sub (9), the other end of first steam pipe (8) and the close condensation chamber (13) of main body (6) Side top connection, each second steam pipe (10) is vertically provided at the inside of water tank (12), each second steam pipe (10) top is connected to crossover sub (9), and the bottom end of each second steam pipe (10) is connected to condensation chamber (13)；

The wiper mechanism includes driving assembly, the first feed pipe (16), the second feed pipe (23), rotary joint (19) and at least Two nozzles (21), the rotary joint (19) are arranged in the bottom interior wall of main body (6), and second feed pipe (23) is vertical Top in rotary joint (19) is set, and the bottom end of second feed pipe (23) is connected to rotary joint (19), each nozzle (21) it is uniformly arranged on the surrounding of the second feed pipe (23) from top to bottom, first feed pipe (16) is arranged in pedestal (15) One end of inside, first feed pipe (16) is connected to rotary joint (19), and the other end of first feed pipe (16) is worn Cross the side inner wall of pedestal (15), outside of the first feed pipe (16) setting in pedestal (15).

2. the water still of high production efficiency as described in claim 1, which is characterized in that the inside of the pedestal (15) is also set There are wireless signal transmitting and receiving module and PLC, the wireless signal transceiver module is electrically connected with PLC.

3. the water still of high production efficiency as described in claim 1, which is characterized in that the driving component includes motor (18), first gear (26) and second gear (17), the motor (18) are arranged in the top inner wall of pedestal (15), and described the Two gears (17) setting is sequentially connected in the inside of main body (6), the motor (18) and second gear (17), the first gear (26) the center point is equipped with through-hole, described on the periphery for the bottom end that the first gear (26) is set in the second feed pipe (23) First gear (26) is engaged with second gear (17).

4. the water still of high production efficiency as described in claim 1, which is characterized in that the nozzle (21) is high pressure spray Mouth.

5. the water still of high production efficiency as described in claim 1, which is characterized in that the making material of the main body (6) For stainless steel.

6. the water still of high production efficiency as described in claim 1, which is characterized in that on the periphery of the main body (6) also It is enclosed with heat-preservation cotton.

7. the water still of high production efficiency as described in claim 1, which is characterized in that the bottom of the side of the main body (6) Portion is additionally provided with a discharge outlet (20), and the inside of the discharge outlet (20) is additionally provided with a motor-driven valve.

8. the water still of high production efficiency as described in claim 1, which is characterized in that the inside of the water tank (12) is also Equipped at least two cooling fins (11), each cooling fin (11) is horizontally disposed, and each second steam pipe (10) both passes through each cooling fin (11)。

9. the water still of high production efficiency as claimed in claim 8, which is characterized in that the production material of the cooling fin (11) Material is aluminium alloy.

10. the water still of high production efficiency as described in claim 1, which is characterized in that second water inlet pipe (14) twines It is wound on the periphery of condensation chamber (13), second water inlet pipe (14) is upward along the axis spiral of condensation chamber (13).