CN114455653A

CN114455653A - Distillation type water source treatment facility for sewage treatment

Info

Publication number: CN114455653A
Application number: CN202111586029.9A
Authority: CN
Inventors: 朱建华
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-23
Filing date: 2021-12-23
Publication date: 2022-05-10

Abstract

The invention relates to water source treatment equipment, in particular to distillation type water source treatment equipment for sewage treatment. The invention provides a distillation type water source treatment device for sewage treatment, which can realize automatic impurity cleaning, rapid steam cooling and uniform sewage heating. A distilled water source treatment facility for sewage treatment comprising: two supports are arranged on two sides of the lower part of the liquid storage tank; the rotating mechanism is arranged on the liquid storage tank; the rotating mechanism is provided with a heating rod; the cleaning mechanism is arranged on the liquid storage tank; the leakage-proof mechanism is arranged on the liquid storage tank; the upper part of the liquid storage tank is provided with a sealing mechanism. According to the invention, the first fixing block drives the heating rod to rotate, so that the heat emitted by the heating rod uniformly heats the sewage, the sewage is rapidly boiled, steam is generated, and the effect of heating the sewage by the heating rod is realized.

Description

Distillation type water source treatment facility for sewage treatment

Technical Field

The invention relates to water source treatment equipment, in particular to distillation type water source treatment equipment for sewage treatment.

Background

Sewage, generally refers to effluent water from life and production that is contaminated to some extent. The sewage mainly comprises domestic sewage, industrial wastewater and initial rainwater, and the main pollutants of the sewage comprise pathogen pollutants, oxygen-consuming pollutants, solid floating objects, solid particles and the like.

Traditional sewage treatment is mostly through adding various additives in to sewage, realize the purification of sewage, purification process is very complicated, simultaneously pathogen etc. in the sewage is difficult for killing totally, some distillation purification technology utilize the purification treatment of distillation column realization sewage, because can pass through high temperature during the sewage distillation, consequently distillation purification is very showing to the effect of killing of pathogen in the sewage, but because there are a large amount of solid particle thing and floccule in the sewage, in the distillation process, after the water evaporation, solid particle thing and floccule adhesion are at the distillation column inner wall, very difficult washing, it is huge to the distillation column damage, and need the workman to clear up solid particle thing and floccule, the work task of workman has been increased, simultaneously can't turn into the distilled water with vapor fast.

Therefore, the distillation type water source treatment equipment for sewage treatment is designed, and can automatically clean impurities, quickly cool water vapor and uniformly heat sewage.

Disclosure of Invention

In order to overcome the defects that the traditional sewage treatment equipment cannot automatically clean impurities, quickly cool water vapor and uniformly heat sewage, the invention provides the distillation type water source treatment equipment for sewage treatment, which can automatically clean impurities, quickly cool water vapor and uniformly heat sewage.

The present invention is achieved as such, a distillation type water source treatment apparatus for sewage treatment, comprising:

two supports are arranged on two sides of the lower part of the liquid storage tank;

the rotating mechanism is arranged on the liquid storage tank;

the rotating mechanism is provided with a heating rod;

the cleaning mechanism is arranged on the liquid storage tank;

the leakage-proof mechanism is arranged on the liquid storage tank;

the upper part of the liquid storage tank is provided with a sealing mechanism.

Further, the rotating mechanism includes:

the bottom of the liquid storage tank is provided with a first support frame;

the middle part of the first support frame is rotatably provided with a second rotating shaft;

the mounting plate is arranged at the upper part of the second rotating shaft;

four first fixed blocks are arranged on two sides of the mounting plate and connected with the heating rod;

the mounting rack is arranged at the bottom of the liquid storage tank;

the mounting frame is rotatably provided with a first rotating shaft;

the first rotating belt is connected between the first rotating shaft and the second rotating shaft.

Further, the cleaning mechanism includes:

the liquid storage tank is provided with a second fixed block;

the servo motor is arranged on the second fixing block;

two supporting blocks are arranged on two sides of the liquid storage tank;

the screw rod is connected between the two supporting blocks at the same side in a threaded manner;

a second rotating belt is connected between the screw rod on one side and the output shaft of the servo motor;

the two screw rods are both provided with a movable frame in a sliding manner;

the upper parts of the two moving frames are respectively provided with a first top block;

the upper side in the liquid storage tank is provided with a guide frame in a sliding manner, and the guide frame is connected with the first ejector block;

the lower side inside the liquid storage tank is provided with a scraper in a sliding way;

the number of the first elastic assemblies connected between the scraper and the guide frame is five;

and a third rotating belt is connected between the two screw rods.

Further, the leakage preventing mechanism includes:

the two moving frames are provided with a first top block;

the lower part of the liquid storage tank is provided with three third fixed blocks;

the lower part of the liquid storage tank is provided with a clamping block in a sliding manner;

the second elastic assemblies are connected between the clamping blocks and the third fixing blocks, and the number of the second elastic assemblies is three;

the two sides of the clamping block are provided with pushing blocks which are matched with the second ejector block;

the protective shell is arranged at the lower part of the liquid storage tank.

Further, the fitting mechanism includes:

four fourth fixed blocks are arranged on two sides of the top of the liquid storage tank;

the sealing clamping plates are arranged on both sides of the upper part of the liquid storage tank in a sliding manner;

the telescopic assemblies are connected between the sealing clamping plates and the fourth fixing blocks, and the number of the telescopic assemblies is eight.

As a preferable aspect of the present invention, the collecting mechanism includes:

the top of the liquid storage tank is provided with a conversion tank;

the inner part of the conversion box is provided with a conical air outlet;

the top of the liquid storage tank is provided with a liquefaction tank;

the gas guide pipe is connected between the upper parts of the liquefaction box and the conversion box;

the lower part of the liquid outlet pipe and the liquefaction box is provided with a liquid outlet pipe.

As a preferable aspect of the present invention, the accelerated cooling mechanism includes:

the upper part of the conversion box is rotatably provided with a third rotating shaft;

the middle part of the third rotating shaft is provided with a fan blade;

the second support frame is connected between the conversion tank and the liquefaction tank;

the upper part of the second support frame is rotatably provided with a fourth rotating shaft;

the liquefaction box is rotatably provided with a fifth rotating shaft;

the upper side in the liquefaction box is rotatably provided with a condensation pipe;

a spur gear set is connected between the condensing pipe and the fifth rotating shaft;

the first bevel gear component is connected between the third rotating shaft and the fourth rotating shaft;

and a second bevel gear component is connected between the fourth rotating shaft and the fifth rotating shaft.

As a preferred technical scheme of the invention, the fan blades are made of alloy steel.

The invention provides a distillation type water source treatment device for sewage treatment. The method has the following beneficial effects:

1. according to the invention, the heating rod is driven to rotate by the first fixing block, so that the sewage is uniformly heated by heat emitted by the heating rod, the sewage is rapidly boiled, steam is generated, and the effect of heating the sewage by the heating rod is realized;

2. according to the invention, after the scraper moves forwards to contact with impurities in the liquid storage tank, the scraper scrapes off the impurities, so that the impurities are separated from the liquid storage tank, and the effect of scraping off the impurities by the scraper is realized;

3. according to the invention, the fifth rotating shaft drives the straight gear set to rotate, and the straight gear set drives the condensing pipe to rotate, so that after water vapor enters the liquefaction box, the condensing pipe rapidly cools the water vapor and natural water is formed, and the rapid cooling effect of the water vapor is realized;

4. according to the invention, after the fixture block moves forwards to be separated from the liquid storage tank, the outlet of the liquid storage tank is opened, and impurities fall on the ground through the outlet of the liquid storage tank, so that the impurity falling effect is realized.

Drawings

Fig. 1 is a schematic perspective view of a first perspective structure according to the present invention.

Fig. 2 is a perspective view of a second perspective structure according to the present invention.

Fig. 3 is a schematic cross-sectional perspective view of the present invention.

Fig. 4 is a schematic sectional perspective view of the rotating mechanism of the present invention.

FIG. 5 is a schematic cross-sectional perspective view of a cleaning mechanism according to the present invention.

FIG. 6 is a schematic cross-sectional perspective view of a second perspective of the cleaning mechanism of the present invention.

FIG. 7 is a schematic cross-sectional perspective view of the leakage preventing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the closing mechanism of the present invention.

Fig. 9 is a schematic sectional perspective view of the collecting mechanism of the present invention.

Fig. 10 is a schematic sectional perspective view of the accelerated cooling mechanism of the present invention.

Fig. 11 is an enlarged perspective view of the accelerated cooling mechanism a of the present invention.

Fig. 12 is an enlarged perspective view of the accelerated cooling mechanism B according to the present invention.

In the reference symbols: 1. a bracket, 2, a liquid storage box, 3, a heating rod, 4, a rotating mechanism, 41, a first support frame, 42, a mounting plate, 43, a first fixed block, 44, a mounting frame, 45, a first rotating shaft, 46, a second rotating shaft, 47, a first rotating belt, 5, a cleaning mechanism, 51, a second fixed block, 52, a servo motor, 53, a supporting block, 54, a screw rod, 55, a second rotating belt, 56, a moving frame, 57, a first top block, 58, a scraper, 59, a first elastic component, 510, a guide frame, 511, a third rotating belt, 6, a leakage-proof mechanism, 61, a second top block, 62, a third fixed block, 63, a second elastic component, 64, a clamping block, 65, a pushing block, 66, a protective shell, 7, a sealing mechanism, 71, a fourth fixed block, 72, a telescopic component, 73, a sealing clamping plate, 8, a collecting mechanism, 81, a conversion box, 82 and a conical air outlet, 83. air duct, 84, liquefaction case, 85, drain pipe, 9, accelerated cooling mechanism, 91, third pivot, 92, flabellum, 93, second support frame, 94, fourth pivot, 95, fifth pivot, 96, condenser pipe, 97, spur gear group, 98, first bevel gear subassembly, 99, second bevel gear subassembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 12, the present invention provides a technical solution: the utility model provides a distillation formula water source treatment facility for sewage treatment, is including support 1, liquid reserve tank 2, heating rod 3, slewing mechanism 4, clearance mechanism 5, leak protection mechanism 6 and driving fit mechanism 7, and the 2 lower part left and right sides of liquid reserve tank all are equipped with two

supports

1, and 2 left sides of liquid reserve tank are equipped with slewing mechanism 4, are equipped with heating rod 3 on the slewing mechanism 4, are equipped with clearance mechanism 5 on the

liquid reserve tank

2, and 2 front sides of liquid reserve tank are equipped with

leak protection mechanism

6, and 2 upper portions of liquid reserve tank are equipped with driving fit mechanism 7.

Slewing mechanism 4 is including first support frame 41, mounting panel 42, first fixed block 43, mounting bracket 44, first pivot 45, second pivot 46 and first

rotating belt

47, 2 bottoms of liquid reserve tank are equipped with first support frame 41, first support frame 41 middle part rotary type is equipped with second pivot 46, second pivot 46 upper portion is equipped with mounting panel 42, the mounting panel 42 left and right sides all is equipped with four first fixed blocks 43, first fixed block 43 is connected with

heating rod

3, 2 bottoms of liquid reserve tank left sides are equipped with mounting bracket 44, the last rotation type of mounting bracket 44 is equipped with first pivot 45, be connected with first rotating belt 47 between first pivot 45 and the second pivot 46.

The cleaning mechanism 5 comprises a second fixed block 51, a servo motor 52, a supporting block 53, a screw rod 54, a second rotating belt 55, a moving frame 56, a first top block 57, a scraping plate 58, a first elastic component 59, a guide frame 510 and a third rotating belt 511, the second fixed block 51 is arranged on the right side of the rear part of the liquid storage box 2, the servo motor 52 is installed on the second fixed block 51, the two supporting blocks 53 are arranged on the left side and the right side of the liquid storage box 2, the screw rod 54 is in threaded connection between the two supporting blocks 53 on the same side, the second rotating belt 55 is connected between the screw rod 54 on the right side and the output shaft of the servo motor 52, the moving frame 56 is arranged on the two screw rods 54 in a sliding mode, the first top blocks 57 are arranged on the upper parts of the two moving frames 56, the guide frame 510 is arranged on the upper side in the liquid storage box 2 in a sliding mode, the guide frame 510 is connected with the first top block 57, the scraping plate 58 is arranged on the lower side in the liquid storage box 2, the scraping plate 58 is connected with the first elastic component 59, the number of the first elastic assemblies 59 is five, and a third rotating belt 511 is connected between the two screw rods 54.

Leak protection mechanism 6 is including second kicking block 61, third fixed block 62, second elastic component 63, fixture block 64, ejector pad 65 and protective housing 66, two removal frame 56 front sides all are equipped with

second kicking block

61, 2 front side lower parts of liquid reserve tank are equipped with third fixed block 62, third fixed block 62 quantity is three, 2 front side lower parts of liquid reserve tank are slidingtype and are equipped with fixture block 64, be connected with second elastic component 63 between fixture block 64 and the third fixed block 62, second elastic component 63 quantity is three groups, the fixture block 64 left and right sides all is equipped with ejector pad 65, ejector pad 65 and the cooperation of

second kicking block

61, 2 front side lower parts of liquid reserve tank are equipped with protective housing 66.

Driving fit mechanism 7 all is equipped with four fourth fixed blocks 71 including fourth fixed block 71, telescopic component 72 and sealed cardboard 73, 2 top left and right sides of liquid reserve tank, and 2 upper portion left and right sides all slidingtype of liquid reserve tank are equipped with sealed cardboard 73, are connected with telescopic component 72 between sealed cardboard 73 and the fourth fixed block 71, and telescopic component 72 quantity is eight groups.

Still including collecting mechanism 8, collect mechanism 8 including conversion case 81, toper gas outlet 82, air duct 83, liquefaction case 84 and

drain pipe

85, 2 top front sides of liquid reserve tank are equipped with conversion case 81, the inside toper gas outlet 82 that is equipped with of

conversion case

81, 2 top rear sides of liquid reserve tank are equipped with liquefaction case 84, be connected with air duct 83 between liquefaction case 84 and the conversion case 81 upper portion, liquefaction case 84 lower part rear side is equipped with drain pipe 85.

Still including cooling mechanism 9 with higher speed, cooling mechanism 9 with higher speed is including third pivot 91, flabellum 92, second support frame 93, fourth pivot 94, fifth pivot 95, condenser pipe 96, straight-teeth gear group 97, first bevel gear subassembly 98 and second bevel gear subassembly 99, conversion case 81 upper portion rotary type is equipped with third pivot 91, third pivot 91 middle part is equipped with flabellum 92, be connected with second support frame 93 between conversion case 81 and the liquefaction case 84, second support frame 93 upper portion rotary type is equipped with fourth pivot 94, liquefaction case 84 left side rotary type is equipped with fifth pivot 95, the inside upside rotary type of liquefaction case 84 is equipped with condenser pipe 96, be connected with straight-teeth gear group 97 between condenser pipe 96 and the fifth pivot 95, be connected with first bevel gear subassembly 98 between third pivot 91 and the fourth pivot 94, be connected with second bevel gear subassembly 99 between fourth pivot 94 and the fifth pivot 95.

The working principle of the invention is that when people want to distill sewage, the distilled water source treatment equipment for sewage treatment can be used, firstly, a user connects a sewage pipeline into a liquid storage tank 2 to make the sewage flow into the liquid storage tank 2, then the user starts a heating rod 3 to emit heat, the heat emitted by the heating rod 3 heats the sewage in the liquid storage tank 2, then the user rotates a rotating mechanism 4, the rotating mechanism 4 drives the heating rod 3 to rotate, so that the heating rod 3 uniformly heats the sewage, then the user controls a cleaning mechanism 5 to operate, the cleaning mechanism 5 scrapes off impurities in the liquid storage tank 2, the cleaning mechanism 5 is operated to be in contact fit with a leakage-proof mechanism 6, so that the leakage-proof mechanism 6 opens an outlet of the liquid storage tank 2, the impurities fall on the ground through the outlet of the liquid storage tank 2, the cleaning mechanism 5 is operated to be in contact fit with a sealing mechanism 7, make driving fit mechanism 7 open 2 gas vents of liquid reserve tank, unnecessary vapor passes through 2 gas vents of liquid reserve tank and flows out, breaks away from leak protection mechanism 6 and driving fit mechanism 7 when 5 operations of clearance mechanism for 2 exports of liquid reserve tank are closed to leak protection mechanism 6, and driving fit mechanism 7 closes 2 gas vents of liquid reserve tank, and after the sewage heating was accomplished, the user stopped rotating mechanism 4, closed clearance mechanism 5 after that, closed heating rod 3 afterwards.

After sewage flowed into liquid reserve tank 2, the user started heating rod 3, heating rod 3 gave out the heat, the heat that heating rod 3 gave out heats the sewage in liquid reserve tank 2, user rotates first pivot 45 afterwards, first pivot 45 drives first rotating belt 47 and rotates, first rotating belt 47 drives second pivot 46 and rotates, second pivot 46 drives mounting panel 42 and rotates, mounting panel 42 drives first fixed block 43 and rotates, first fixed block 43 drives heating rod 3 and rotates, make the heat that heating rod 3 gave out carry out the even heating to sewage, make sewage carry out the quick boiling, thereby produce vapor, after the sewage heating was accomplished, user stall first pivot 45, above-mentioned action stops thereupon, the user closes heating rod 3 after that, heating rod 3 stops giving out the heat.

In the process of heating sewage, impurities are attached to the liquid storage tank 2, in order to clean the impurities, a user starts the servo motor 52, an output shaft of the servo motor 52 drives the second rotating belt 55 to rotate, the second rotating belt 55 drives the right lead screw 54 to rotate, the right lead screw 54 drives the third rotating belt 511 to rotate, the third rotating belt 511 drives the left lead screw 54 to rotate, the lead screw 54 drives the movable frame 56 to move forward, the movable frame 56 drives the first top block 57 to move forward, the first top block 57 drives the guide frame 510 to move forward, the guide frame 510 drives the first elastic assembly 59 to move forward, the first elastic assembly 59 drives the scraper 58 to move forward, the scraper 58 moves forward to be in contact with the impurities in the back liquid storage tank 2, so that the impurities are scraped off the liquid storage tank 2, when the output shaft of the servo motor 52 rotates reversely, the output shaft of the servo motor 52 drives the second rotating belt 55, the screw rod 54 and the third rotating belt 511 to rotate reversely, the screw rod 54 drives the moving frame 56 to move backwards, the moving frame 56 drives the first ejecting block 57, the guide frame 510, the first elastic assembly 59 and the scraping plate 58 to move backwards, the scraping plate 58 moves backwards to contact with impurities in the liquid storage box 2, the scraping plate 58 scrapes the impurities for the second time, and after the impurities are scraped, the servo motor 52 is closed by a user, and the actions are stopped.

When the moving frame 56 moves forward, the moving frame 56 drives the first ejector block 57, the guide frame 510, the first elastic assembly 59 and the scraper 58 to move forward, after the scraper 58 scrapes impurities, the scraper 58 moves forward to contact with the scraped impurities, so that the scraper 58 pushes the impurities, the moving frame 56 drives the second ejector block 61 to move forward, the second ejector block 61 moves forward to contact and match with the ejector block 65, so as to drive the ejector block 65 to move forward, the ejector block 65 drives the fixture block 64 to move forward, the second elastic assembly 63 is compressed, the fixture block 64 moves forward to separate from the liquid storage tank 2, so as to open the outlet of the liquid storage tank 2, the impurities fall on the ground through the outlet of the liquid storage tank 2, after the impurities fall, when the moving frame 56 moves backward, the moving frame 56 drives the first ejector block 57, the guide frame 510, the second ejector block 61, the first elastic assembly 59 and the scraper 58 to move backward, and the second ejector block 61 separates from the ejector block 65, the second elastic assembly 63 is reset, so as to drive the fixture block 64 and the pushing block 65 to move backwards to the original position, so that the fixture block 64 closes the outlet of the liquid storage tank 2.

In order to make unnecessary vapor discharge liquid reserve tank 2, when first kicking block 57 forward motion, first kicking block 57 forward motion to with sealed cardboard 73 contact cooperation, thereby drive sealed cardboard 73 upward movement, the extensible component 72 is compressed, make sealed cardboard 73 open liquid reserve tank 2 gas vent, unnecessary vapor passes through liquid reserve tank 2 gas vent and flows, when first kicking block 57 backward motion, first kicking block 57 backward motion breaks away from behind the sealed cardboard 73, the extensible component 72 resets, thereby drive sealed cardboard 73 downstream and resume the normal position, make sealed cardboard 73 close liquid reserve tank 2 gas vent.

The vapor in the liquid storage tank 2 flows into the conversion tank 81 through the tapered gas outlet 82, then flows into the gas guide pipe 83 through the conversion tank 81, and flows into the liquefaction tank 84 through the gas guide pipe 83, so that the vapor is converted into natural water, and the natural water flows down to the ground through the liquid outlet pipe 85.

After the vapor in the liquid storage tank 2 flows into the conversion tank 81 through the tapered air outlet 82, the vapor blows the fan blade 92, thereby driving the fan blade 92 to rotate, the fan blade 92 drives the third rotating shaft 91 to rotate, the third rotating shaft 91 drives the first bevel gear assembly 98 to rotate, the first bevel gear assembly 98 drives the fourth rotating shaft 94 to rotate, the fourth rotating shaft 94 drives the second bevel gear assembly 99 to rotate, the second bevel gear assembly 99 drives the fifth rotating shaft 95 to rotate, the fifth rotating shaft 95 drives the spur gear set 97 to rotate, the spur gear set 97 drives the condenser pipe 96 to rotate, so that after the vapor enters the liquefaction tank 84, the condenser pipe 96 rapidly cools the vapor, natural water is formed, and when the fan blade 92 stops rotating, the actions are stopped.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. A distillation type water source treatment equipment for sewage treatment is characterized by comprising:

two supports (1) are respectively arranged on two sides of the lower part of the liquid storage tank (2);

the rotating mechanism (4) is arranged on the liquid storage tank (2);

the heating rod (3) is arranged on the rotating mechanism (4);

the cleaning mechanism (5) is arranged on the liquid storage tank (2);

the leakage-proof mechanism (6) is arranged on the liquid storage tank (2);

a sealing mechanism (7), and the upper part of the liquid storage tank (2) is provided with the sealing mechanism (7).

2. The distilled water source treatment apparatus for sewage treatment as claimed in claim 1, wherein the rotating mechanism (4) comprises:

the bottom of the liquid storage tank (2) is provided with a first support frame (41);

the middle part of the first support frame (41) is rotatably provided with a second rotating shaft (46);

the mounting plate (42) is arranged at the upper part of the second rotating shaft (46);

the four first fixing blocks (43) are arranged on two sides of the mounting plate (42), and the first fixing blocks (43) are connected with the heating rod (3);

the mounting rack (44) is arranged at the bottom of the liquid storage tank (2);

the first rotating shaft (45) is rotatably arranged on the mounting rack (44);

a first rotating belt (47), wherein the first rotating belt (47) is connected between the first rotating shaft (45) and the second rotating shaft (46).

3. The apparatus for treating a distilled water source for sewage treatment as claimed in claim 2, wherein said cleaning means (5) comprises:

the second fixed block (51) is arranged on the liquid storage tank (2);

the servo motor (52) is mounted on the second fixing block (51);

two supporting blocks (53) are arranged on two sides of the liquid storage tank (2);

the screw rod (54) is connected between the two supporting blocks (53) on the same side in a threaded manner;

a second rotating belt (55), wherein a second rotating belt (55) is connected between the screw rod (54) at one side and the output shaft of the servo motor (52);

the two screw rods (54) are both provided with a moving frame (56) in a sliding way;

the upper parts of the two moving frames (56) are respectively provided with a first top block (57);

the upper side in the liquid storage tank (2) is provided with the guide frame (510) in a sliding manner, and the guide frame (510) is connected with the first ejector block (57);

the scraper (58) is arranged at the lower side inside the liquid storage tank (2) in a sliding way;

the first elastic assemblies (59) are connected between the scraper (58) and the guide frame (510), and the number of the first elastic assemblies (59) is five;

a third rotating belt (511), and the third rotating belt (511) is connected between the two screw rods (54).

4. A distilled water source treating apparatus for sewage treatment as claimed in claim 3, wherein the leakage preventing mechanism (6) comprises:

the second ejector blocks (61) are arranged on the two moving frames (56);

the lower part of the liquid storage tank (2) is provided with three third fixed blocks (62), and the number of the third fixed blocks (62) is three;

the clamping block (64) is arranged at the lower part of the liquid storage tank (2) in a sliding way;

the second elastic assemblies (63) are connected between the fixture blocks (64) and the third fixing blocks (62), and the number of the second elastic assemblies (63) is three;

the pushing blocks (65) are arranged on the two sides of the clamping block (64), and the pushing blocks (65) are matched with the second ejector block (61);

the protective shell (66) is arranged at the lower part of the liquid storage tank (2).

5. The apparatus for treating a distilled water source for sewage treatment as claimed in claim 4, wherein the closing mechanism (7) comprises:

four fourth fixed blocks (71) are arranged on two sides of the top of the liquid storage tank (2);

the sealing clamping plates (73) are arranged on both sides of the upper part of the liquid storage tank (2) in a sliding manner;

the telescopic assemblies (72) are connected between the sealing clamping plate (73) and the fourth fixing block (71), and the number of the telescopic assemblies (72) is eight.

6. The apparatus for treating a distilled water source for sewage treatment as claimed in claim 5, further comprising a collecting means (8), wherein the collecting means (8) comprises:

the top of the liquid storage tank (2) is provided with a conversion tank (81);

a conical air outlet (82), wherein the conical air outlet (82) is arranged in the conversion box (81);

the top of the liquid storage tank (2) is provided with a liquefaction tank (84);

the air guide pipe (83) is connected between the upper part of the liquefaction box (84) and the upper part of the conversion box (81);

the lower part of the liquid outlet pipe (85) and the liquefaction box (84) is provided with the liquid outlet pipe (85).

7. The apparatus for distilled water source treatment for sewage treatment as claimed in claim 6, further comprising an accelerated cooling mechanism (9), the accelerated cooling mechanism (9) comprising:

the upper part of the conversion box (81) at the front side is rotatably provided with a third rotating shaft (91);

the middle part of the third rotating shaft (91) is provided with a fan blade (92);

the second supporting frame (93) is connected between the conversion box (81) and the liquefaction box (84);

the upper part of the second supporting frame (93) is rotatably provided with a fourth rotating shaft (94);

a fifth rotating shaft (95), wherein the liquefaction box (84) is rotatably provided with the fifth rotating shaft (95);

the upper side inside the liquefaction box (84) is rotatably provided with a condensation pipe (96);

a spur gear set (97), a spur gear set (97) is connected between the condensation pipe (96) and the fifth rotating shaft (95);

the first bevel gear assembly (98) is connected between the third rotating shaft (91) and the fourth rotating shaft (94);

and a second bevel gear component (99) is connected between the fourth rotating shaft (94) and the fifth rotating shaft (95).

8. The apparatus of claim 7, wherein the fan blades (92) are made of alloy steel.