CN114409143B

CN114409143B - Sea water desalination treatment equipment and treatment method thereof

Info

Publication number: CN114409143B
Application number: CN202210144453.6A
Authority: CN
Inventors: 程克闯
Original assignee: Zhejiang Qiming Electric Power Group Co ltd
Current assignee: Zhejiang Qiming Electric Power Group Co ltd
Priority date: 2022-02-17
Filing date: 2022-02-17
Publication date: 2023-10-31
Anticipated expiration: 2042-02-17
Also published as: CN114409143A

Abstract

The invention belongs to the technical field of sea water desalination, and particularly relates to sea water desalination treatment equipment and a treatment method thereof. The invention controls the water inflow and timely cleans the reverse osmosis membrane to improve the efficiency of sea water desalination.

Description

Sea water desalination treatment equipment and treatment method thereof

Technical Field

The invention belongs to the technical field of sea water desalination, and particularly relates to sea water desalination treatment equipment and a sea water desalination treatment method.

Background

Sea water desalination is a high and new technology for obtaining fresh water resources from the sea, and has been widely used and developed worldwide. Seawater is a salt solution with high salt content, high hardness and large turbidity fluctuation variation, and simultaneously organic and inorganic particles with different particle diameters and microorganisms are suspended, so that the seawater desalination process is a quite complex desalination process. The traditional sea water desalination method can be divided into a thermal method and a membrane method according to different desalination principles, wherein the membrane method sea water desalination is wider in application due to low energy consumption. The existing sea water desalination treatment equipment has poor sea water desalination efficiency of a reverse osmosis membrane.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides a sea water desalination treatment device and a sea water desalination treatment method, which can improve sea water desalination efficiency through intake control and timely cleaning.

The aim of the invention can be achieved by the following technical scheme: the sea water desalting treatment equipment comprises a treatment box and a permeation control component, wherein the permeation control component is positioned at one end of the inside of the treatment box, a fixed cylinder is fixedly arranged at one end of the inside of the treatment box, a water inlet is formed in the direction of a water inlet telescopic pipe of the fixed cylinder, the water inlet is connected with the inside of the water inlet telescopic pipe and the inside of the fixed cylinder, a rotating shaft is rotatably arranged in the fixed cylinder, four rotating blocks are fixedly arranged on the circumferential surface of the rotating shaft, four permeation filtration channels are arranged in the four rotating blocks, and four reverse osmosis membranes are fixedly arranged in the four permeation filtration channels.

Preferably, two ends of the four rotating blocks are arc-shaped, one end, far away from the rotating shaft, of the four rotating blocks is in sealed rotation with the inner circumferential surface of the fixed cylinder, and the four rotating blocks are in sealed rotation fit with the inner circumferential surface of the fixed cylinder to be fixed with the rotating shaft and the four rotating blocks so as to control water inflow.

Preferably, the direction rotation axis direction slides on four reverse osmosis membranes is equipped with four brush pieces, and brush piece upper end is sealed slider structure, and brush piece lower extreme is brush piece structure and reverse osmosis membrane upper end sliding contact and clear up reverse osmosis membrane upper end, and four reverse osmosis membrane top is kept away from brush piece direction and is equipped with four rotations group in four rotations, and the rotations group is by axis of rotation and dwang constitution to prevent stifled blowdown effect, and four rotations group below is equipped with four blowdown chambeies in four rotations, and four blowdown chambeies are connected with four rotations group periphery.

Preferably, the water inlet top is equipped with slide switch in the slip of fixed section of thick bamboo, is arc structure in the middle of the slide switch, and slide switch lower extreme is the floater structure, and slide switch lower extreme floater structure is arc slider structure with the half slide switch upper end of water inlet lower extreme, and slide switch upper end's arc slider structure has frictional sliding action with the turning block, and the water inlet below slides in fixed section of thick bamboo and is equipped with the extrusion ball, and the extrusion ball top slides in fixed section of thick bamboo and is equipped with the push rod, and the push rod lower extreme is semi-circular structure and extrusion ball and carries out the contact slip, and the push rod upper end is rectangle structure and slide switch lower extreme and is the floater structure contact.

Preferably, a sterilizing cavity is arranged in the rotating shaft, a plurality of discharging channels are arranged in the sterilizing cavity and are connected with the outer part of the rotating shaft, and sterilizing solution in the sterilizing cavity enters the fixing cylinder through the plurality of discharging channels for sterilizing.

Preferably, the reverse osmosis membrane below is equipped with two dogs in the sliding of rotating block, and two dogs are trapezium structure, and two dogs are in opposite direction upper end for the slope, and the slip is equipped with sealed slider between two dogs, and sealed slider is rectangular structure, and sealed slider slides to and seals between two dogs, is equipped with two springs between two dogs and the rotating block.

Preferably, one end of the treatment box is provided with a water inlet component which is connected with the seawater box in a telescopic way; the water inlet part comprises a water inlet connector and a water inlet telescopic pipe, wherein the water inlet connector is of a conical cylindrical structure, the water inlet telescopic pipe is stretched and straightened and rotated in an angle, the water inlet telescopic pipe is fixedly connected to one end outside the treatment box, one end, far away from the treatment box, of the water inlet telescopic pipe is fixedly connected with the water inlet connector, and the water inlet connector is connected with the inside of the water inlet telescopic pipe in the treatment box.

Preferably, an extrusion penetration component is arranged in the treatment box in a direction away from the water inlet component; the extrusion infiltration part is including the extrusion chamber, the extrusion chamber is located the inside water inlet part direction of keeping away from of processing box, extrusion chamber and fixed section of thick bamboo internal connection are equipped with the delivery port, the extrusion chamber top is equipped with flexible post in the processing box in the slip, flexible post lower extreme has set firmly the stripper plate, the stripper plate seals the slip in the extrusion chamber, the extrusion chamber is equipped with the fresh water chamber to water outlet part direction, set firmly filtration membrane between fresh water chamber and the extrusion chamber, the stripper plate seals the slip extrusion sea water in the extrusion chamber and permeates filtration through filtration membrane and enter into fresh water intracavity.

Preferably, one end of the treatment box, which is far away from the water inlet component, is provided with a water outlet component which is in telescopic connection with the fresh water tank; the water outlet component comprises a water outlet connector and a water outlet telescopic pipe, wherein the water outlet connector is of a conical cylindrical structure, the water outlet telescopic pipe is stretched and straightened and rotated in an angle, the water outlet telescopic pipe is fixedly connected to one end, away from the direction of the water inlet component, of the treatment box, the water outlet telescopic pipe is fixedly connected to one end, away from the treatment box, of the treatment box, the water outlet connector is connected to the inside of the treatment box, and a water outlet channel is connected between the inside of the water outlet telescopic pipe and the fresh water cavity.

The beneficial effects are that:

1. the rotary blocks and the inner circumferential surface of the fixed cylinder are matched with the rotary shaft in a sealing and rotating way to be fixed with the four rotary blocks so as to control the water quantity to enter, thereby being beneficial to making the sea water desalination effect of the reverse osmosis membrane the same.

2. Through the setting of infiltration accuse volume part, carry out accuse volume filtration and in time clear up reverse osmosis membrane, be favorable to keeping reverse osmosis membrane filtration.

3. The degree of fresh water is improved by secondary extrusion and permeation through the arrangement of the extrusion and permeation component.

4. The quality of fresh water is improved by sterilizing and disinfecting the seawater by controlling the amount.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a flow chart of the method of the present invention.

FIG. 2 is a schematic view of an isometric structure of the present invention.

Fig. 3 is a schematic top view of the present invention.

FIG. 4 is a schematic cross-sectional view of the structure at A-A in FIG. 3.

Fig. 5 is a partially enlarged structural schematic view at B in fig. 4.

Fig. 6 is a partially enlarged structural schematic view at C in fig. 4.

In the figure, a treatment tank 10, a water inlet part 11, a water outlet part 12, a permeation control part 13, an extrusion permeation part 14, a water inlet connector 15, a water inlet telescopic pipe 16, a water outlet connector 17, a water outlet telescopic pipe 18, a fixed cylinder 19, a rotating shaft 20, a disinfection cavity 21, a discharge channel 22, a rotating block 23, a water inlet 24, a sliding switch 25, an extrusion ball 26, a push rod 27, a permeation filtration channel 28, a reverse osmosis membrane 29, a brush block 30, a rotating group 31, a sewage draining cavity 32, a stop block 33, a sealing slide 34, a spring 35, a water outlet 36, a telescopic column 37, an extrusion plate 38, an extrusion cavity 39, a filtering membrane 40, a fresh water cavity 41 and a water outlet channel 42.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1-6, a sea water desalination treatment device and a treatment method thereof, the sea water desalination treatment device comprises a treatment box 10 and a permeation control component 13, wherein the permeation control component 13 is positioned at one end of the inside of the treatment box 10, a fixed cylinder 19 is fixedly arranged at one end of the inside of the treatment box 10, a water inlet 24 is arranged in the direction of a water inlet telescopic pipe 16 of the fixed cylinder 19, the water inlet 24 is connected with the inside of the water inlet telescopic pipe 16 and the inside of the fixed cylinder 19, a rotating shaft 20 is rotatably arranged in the fixed cylinder 19, four rotating blocks 23 are fixedly arranged on the circumferential surface of the rotating shaft 20, four permeation filtration channels 28 are arranged in the four rotating blocks 23, and four reverse osmosis membranes 29 are fixedly arranged in the four permeation filtration channels 28.

Further, with reference to fig. 1 to 6, two ends of the four rotating blocks 23 are arc-shaped, one end of the four rotating blocks 23 far away from the rotating shaft 20 is in sealed rotation with the inner circumferential surface of the fixed cylinder 19, and the four rotating blocks 23 are in sealed rotation with the inner circumferential surface of the fixed cylinder 19 to be matched with the rotating shaft 20 and the four rotating blocks 23 to be fixed so as to control the water amount.

Further, in combination with fig. 1-6, four brush blocks 30 are slidably arranged on the four reverse osmosis membranes 29 in the direction of the rotating shaft 20, the upper ends of the brush blocks 30 are of a sealing sliding block structure, the lower ends of the brush blocks 30 are of a brush block structure and are in sliding contact with the upper ends of the reverse osmosis membranes 29 to clean the upper ends of the reverse osmosis membranes 29, four rotating groups 31 are rotationally arranged on the four reverse osmosis membranes 29 in the direction away from the brush blocks 30 in the four rotating blocks 23, the rotating groups 31 are composed of rotating shafts and rotating rods to perform anti-blocking pollution discharge, four pollution discharge cavities 32 are arranged in the four rotating blocks 23 below the four rotating groups 31, and the four pollution discharge cavities 32 are peripherally connected with the four rotating groups 31.

Further, referring to fig. 1-6, a sliding switch 25 is slidably disposed on the fixed cylinder 19 above the water inlet 24, an arc structure is disposed in the middle of the sliding switch 25, a floating ball structure is disposed at the lower end of the sliding switch 25, a sliding block structure is disposed at the upper end of the sliding switch 25 and a sliding block 23, a squeeze ball 26 is slidably disposed below the water inlet 24 in the fixed cylinder 19, a push rod 27 is slidably disposed above the squeeze ball 26 in the fixed cylinder 19, a semicircular structure is disposed at the lower end of the push rod 27 and is in contact sliding with the squeeze ball 26, and a rectangular structure is disposed at the upper end of the push rod 27 and is in contact with the sliding switch 25.

Further, referring to fig. 1 to 6, a sterilizing chamber 21 is disposed in the rotating shaft 20, a plurality of discharging channels 22 are connected between the sterilizing chamber 21 and the outside of the rotating shaft 20, and a sterilizing solution in the sterilizing chamber 21 enters the inside of the fixed cylinder 19 through the plurality of discharging channels 22 for sterilizing.

Further, referring to fig. 1-6, two stoppers 33 are slidably disposed below the reverse osmosis membrane 29 in the rotating block 23, the two stoppers 33 are in a trapezoid structure, upper ends of the two stoppers 33 in opposite directions are inclined, a sealing slide 34 is slidably disposed between the two stoppers 33, the sealing slide 34 is in a rectangular structure, the sealing slide 34 slides between the two stoppers 33 to perform a sealing function, and two springs 35 are connected between the two stoppers 33 and the rotating block 23.

Further, referring to fig. 1 to 6, one end of the treatment tank 10 is provided with a water inlet component 11 connected with the seawater tank in a telescopic manner; the water inlet part 11 comprises a water inlet connector 15 and a water inlet telescopic pipe 16, the water inlet connector 15 is of a conical cylindrical structure, the water inlet telescopic pipe 16 is stretched and straightened and rotated in an angle, the water inlet telescopic pipe 16 is fixedly connected to one end outside the treatment box 10, one end, far away from the treatment box 10, of the water inlet telescopic pipe 16 is fixedly connected with the water inlet connector 15, and the water inlet connector 15 is connected with the inside of the water inlet telescopic pipe 16 in the treatment box 10.

Further, referring to fig. 1 to 6, the inside of the treatment tank 10 is provided with an extrusion penetration member 14 in a direction away from the water inlet member 11; the extrusion infiltration part 14 includes extrusion chamber 39, extrusion chamber 39 is located the inside water inlet part 11 direction of keeping away from of processing box 10, extrusion chamber 39 and fixed section of thick bamboo 19 internal connection are equipped with delivery port 36, the top of extrusion chamber 39 is equipped with telescopic column 37 in the slip of processing box 10, telescopic column 37 lower extreme has set firmly stripper plate 38, stripper plate 38 is sealed in extrusion chamber 39 and slides, extrusion chamber 39 is equipped with fresh water chamber 41 to water outlet part 12 direction, set firmly filtration membrane 40 between fresh water chamber 41 and the extrusion chamber 39, stripper plate 38 is sealed in extrusion chamber 39 and is filtered the fresh water chamber 41 through filtration membrane 40 infiltration.

Further, referring to fig. 1-6, a water outlet component 12 which is connected with the fresh water tank in a telescopic way is arranged at one end of the treatment box 10 away from the water inlet component 11; the water outlet component 12 comprises a water outlet connector 17 and a water outlet telescopic pipe 18, the water outlet connector 17 is of a conical cylindrical structure, the water outlet telescopic pipe 18 is stretched and straightened and rotated in an angle, the water outlet telescopic pipe 18 is fixedly connected to one end, away from the water inlet component 11, of the outside of the treatment tank 10, the water outlet telescopic pipe 18 is fixedly connected with the water outlet connector 17 at one end, away from the treatment tank 10, of the water outlet telescopic pipe 18, the water outlet connector 17 is connected with the inside of the water outlet telescopic pipe 18 into the treatment tank 10, and a water outlet channel 42 is arranged between the inside of the water outlet telescopic pipe 18 and the fresh water cavity 41.

Principle of operation

S1, connecting, namely connecting the water inlet connector 15 into a seawater tank through telescopic extension of the water inlet telescopic pipe 16, and connecting the water outlet connector 17 into a fresh water storage tank through telescopic extension of the water outlet telescopic pipe 18.

S2, primarily penetrating, namely enabling seawater to enter the treatment box 10 through the water inlet connector 15 and the inside of the water inlet telescopic pipe 16, enabling the rotating shaft 20 to rotate so as to drive the rotating block 23 to rotate so as to squeeze and slide the squeeze ball 26, enabling the squeeze ball 26 to slide into the fixed barrel 19 so as to drive the push rod 27 to slide upwards, enabling the push rod 27 to slide upwards in the fixed barrel 19 so as to jack up the lower end of the sliding switch 25 into the fixed barrel 19 through the floating ball structure, and enabling the seawater to enter the fixed barrel 19 through the water inlet 24, and enabling the lower end of the sliding switch 25 to slide upwards in an arc shape in the fixed barrel 19 through the floating ball structure; the seawater is primarily filtered by osmosis through the reverse osmosis membrane 29 by gravity pressing down to remove impurities and a part of salt in the seawater, and the two stoppers 33 are slid to both sides by the force of the seawater falling down, and the seawater enters between the two rotating blocks 23 through the osmosis filtration passage 28.

S3: after the seawater is filled with water between the two rotating blocks 23, the rotating shaft 20 starts to rotate to drive the rotating blocks 23 to rotate, the rotating blocks 23 rotate to drive the sliding switch 25 to slide downwards in an arc shape through an arc-shaped sliding block structure at the upper end of the sliding switch 25 to contact with the push rod 27 in the fixed cylinder 19, the outside of the extrusion ball 26 is not blocked by the rotating blocks 23, the push rod 27 slides downwards in the fixed cylinder 19, the extrusion ball 26 slides out of the fixed cylinder 19, the lower end of the sliding switch 25 is matched with the floating ball structure and the fixed cylinder 19 to block the water inlet 24 to control the seawater inlet amount, the two blocks 33 slide towards the middle through the action of the two springs 35 to seal between the two blocks 33, and the rotating blocks 23 rotate to block the water between the two rotating blocks 23 through the two blocks 33 to drive the infiltration filtering channel 28 to perform rotation transmission movement.

S4: cleaning, namely, rotating the rotating shaft 20 to drive the rotating block 23 to rotate below the rotating shaft 20, sliding the brush block 30 in the rotating block 23 through gravity, cleaning the surface of the reverse osmosis membrane 29 through the brush block at the lower end of the brush block 30 to the periphery of the rotating group 31, and rotating the rotating group 31 to drive impurities to enter the sewage cavity 32 for discharge.

S5: the sterilizing solution in the sterilizing chamber 21 enters the seawater through the discharging channel 22 for static reaction sterilization.

S6: extrusion infiltration, rotation of the rotation shaft 20 drives the rotation block 23 to rotate to drive water in the fixed cylinder 19 to enter the extrusion cavity 39 through the water outlet 36, the telescopic column 37 stretches and pushes the extrusion plate 38 to slide down in the extrusion cavity 39 in a sealing manner to extrude seawater, and the extrusion plate 38 extrudes the seawater to enter the fresh water cavity 41 through the filtration membrane 40 for infiltration filtration, so that fresh water is obtained.

And S7, discharging, namely, enabling fresh water in the fresh water cavity 41 to enter the water outlet telescopic pipe 18 through the water outlet channel 42, and then discharging the fresh water into a fresh water tank through the internal connection of the water outlet connector 17.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims

1. The sea water desalination treatment equipment comprises a treatment box (10) and a permeation control component (13), and is characterized in that the permeation control component (13) is positioned at one end of the inside of the treatment box (10), a fixed cylinder (19) is fixedly arranged at one end of the inside of the treatment box (10), a water inlet (24) is formed in the direction of a water inlet telescopic pipe (16) of the fixed cylinder (19), the water inlet (24) is connected with the inside of the water inlet telescopic pipe (16) and the inside of the fixed cylinder (19), a rotating shaft (20) is rotationally arranged in the fixed cylinder (19), four rotating blocks (23) are fixedly arranged on the circumferential surface of the rotating shaft (20), four permeation filtration channels (28) are arranged in the four rotating blocks (23), and four reverse osmosis membranes (29) are fixedly arranged in the four permeation filtration channels (28); the two ends of the four rotating blocks (23) are arc-shaped, one end, far away from the rotating shaft (20), of the four rotating blocks (23) rotates in a sealing way with the inner circumferential surface of the fixed cylinder (19), and the four rotating blocks (23) rotate in a sealing way with the inner circumferential surface of the fixed cylinder (19) to be matched with the rotating shaft (20) and the four rotating blocks (23) in a sealing way so as to control the water quantity to enter; four reverse osmosis membranes (29) are arranged in the direction of a rotating shaft (20) in a sliding manner, four brush blocks (30) are arranged at the upper ends of the brush blocks (30) in a sealing sliding block structure, brush block structures are arranged at the lower ends of the brush blocks (30), the lower ends of the brush blocks (30) are in sliding contact with the upper ends of the reverse osmosis membranes (29) in a sliding manner to clean the upper ends of the reverse osmosis membranes (29), four rotating groups (31) are arranged above the four reverse osmosis membranes (29) in the direction away from the brush blocks (30) in the rotating direction of the four rotating blocks (23), the rotating groups (31) are formed by rotating shafts and rotating rods to perform anti-blocking pollution discharge, four pollution discharge cavities (32) are arranged in the four rotating blocks (23) below the four rotating groups (31), and the four pollution discharge cavities (32) are peripherally connected with the four rotating groups (31); the water inlet (24) is provided with a sliding switch (25) in a sliding manner on the fixed cylinder (19), an arc-shaped structure is arranged in the middle of the sliding switch (25), the lower end of the sliding switch (25) is of a floating ball structure, the floating ball structure at the lower end of the sliding switch (25) and the half of the lower end of the water inlet (24) are of an arc-shaped sliding block structure, the arc-shaped sliding block structure at the upper end of the sliding switch (25) has a friction sliding effect with the rotating block (23), an extrusion ball (26) is arranged below the water inlet (24) in the fixed cylinder (19) in a sliding manner, a push rod (27) is arranged above the extrusion ball (26) in the fixed cylinder (19) in a sliding manner, the lower end of the push rod (27) is of a semicircular structure and is in contact sliding with the extrusion ball (26), and the upper end of the push rod (27) is of a rectangular structure and is in contact with the lower end of the sliding switch (25) in a floating ball structure. A disinfection cavity (21) is arranged in the rotating shaft (20), the disinfection cavity (21) is connected with the outside of the rotating shaft (20) and provided with a plurality of discharging channels (22), and a disinfection solution in the disinfection cavity (21) enters the inside of the fixed cylinder (19) through the plurality of discharging channels (22) for disinfection; the reverse osmosis membrane (29) below is equipped with two dog (33) in the sliding of turning block (23), two dog (33) are trapezium structure, two dog (33) are the slope in opposite direction upper end, it is equipped with sealed slider (34) to slide between two dog (33), sealed slider (34) are rectangular structure, sealed effect is carried out between two dog (33) to sealed slider (34), be connected between two dog (33) and turning block (23) and be equipped with two springs (35).

2. A desalination treatment apparatus as defined in claim 1, wherein: a water inlet component (11) which is connected with the seawater tank in a telescopic way is arranged at one end of the treatment tank (10); the water inlet component (11) comprises a water inlet connector (15) and a water inlet telescopic pipe (16), the water inlet connector (15) is of a conical cylindrical structure, the water inlet telescopic pipe (16) is stretched and straightened in a telescopic manner and rotates in an angle, the water inlet telescopic pipe (16) is fixedly connected to one end outside the treatment box (10), one end, far away from the treatment box (10), of the water inlet telescopic pipe (16) is fixedly connected with the water inlet connector (15), and the water inlet connector (15) is connected to the inside of the water inlet telescopic pipe (16) in the treatment box (10).

3. A desalination treatment apparatus as defined in claim 1, wherein: an extrusion penetration component (14) is arranged in the treatment box (10) in a direction away from the water inlet component (11); extrusion infiltration part (14) are including extrusion chamber (39), extrusion chamber (39) are located the inside water inlet part (11) direction of keeping away from of processing box (10), extrusion chamber (39) are equipped with delivery port (36) with fixed section of thick bamboo (19) internal connection, extrusion chamber (39) top is equipped with telescopic column (37) in processing box (10) internal sliding, telescopic column (37) lower extreme has set firmly extrusion board (38), extrusion board (38) seal slip in extrusion chamber (39), extrusion chamber (39) are equipped with fresh water chamber (41) to water outlet part (12) direction, filtration membrane (40) have been set firmly between fresh water chamber (41) and extrusion chamber (39), extrusion board (38) seal slip extrusion sea water is through filtration membrane (40) infiltration filtration entering fresh water chamber (41) in extrusion chamber (39).

4. A desalination treatment apparatus as defined in claim 1, wherein: one end of the treatment box (10) far away from the water inlet component (11) is provided with a water outlet component (12) which is connected with the fresh water tank in a telescopic way; the water outlet component (12) comprises a water outlet connector (17) and a water outlet telescopic pipe (18), the water outlet connector (17) is of a conical cylindrical structure, the water outlet telescopic pipe (18) is stretched and straightened and rotated in an angle, the water outlet telescopic pipe (18) is fixedly connected to one end, away from the water inlet component (11), of the outside of the treatment tank (10), the water outlet telescopic pipe (18) is away from one end, away from the treatment tank (10), of the treatment tank and is fixedly connected with the water outlet connector (17), the water outlet connector (17) is connected with the inside of the water outlet telescopic pipe (18) into the treatment tank (10), and a water outlet channel (42) is connected between the inside of the water outlet telescopic pipe (18) and the fresh water cavity (41).