CN115872513A - Weak-base drinking water treatment device and method - Google Patents

Abstract

The invention discloses a weak-base drinking water treatment device and method, and belongs to the technical field of water treatment. A weak-alkaline drinking water treatment device comprises a shell and a stirring device, wherein the inside of the shell is divided into two parts, namely an upper alkalization cavity and a lower control cavity, drinking water is contained in the alkalization cavity, and a ph sensor is arranged on the outer side of the alkalization cavity; the stirring device is located inside the alkalization cavity, a plurality of storage bins are arranged outside the stirring device, a rotatable stirring rod is arranged inside the storage bins, the outer edge of the stirring rod is tightly attached to the storage bins, the bottom of the storage bins is fixedly connected with the output end of a rotating motor, and the rotating motor is located inside the control cavity. The invention effectively solves the problems that the existing alkaline water is difficult to buy in many places, the ph value of the existing alkaline water is determined, the existing alkaline water is difficult to change, and people are difficult to drink drinking water with the desired ph value.

Description

Weak-base drinking water treatment device and method

Technical Field

The invention relates to the technical field of water treatment, in particular to a weak-base drinking water treatment device and method.

Background

With the development of society and the improvement of living standard of people, the influence of daily diet on health becomes a topic which is increasingly concerned by people, and alkaline water is gradually known and accepted by people as alkaline food which can change the unhealthy acidic constitution of human bodies. Under the influence of various factors such as geological change, environmental pollution and the like, natural alkaline water is less and less.

The body fluid of health personnel is alkalescent, and the body fluid is easier to absorb when drinking alkalescent water, and most of people want to drink alkalescent water and buy finished barreled alkaline water, but the ready-made alkaline water can not be bought in all places, and the ph value of the ready-made alkaline water is determined, so that the change is difficult, and people cannot drink the drinking water with the desired ph value. If a household weakly alkaline drinking water treatment device is designed, people need to adjust the configuration by themselves, change the raw materials from time to time, and easily make mistakes during the configuration, so that the drinking water is too alkaline.

Disclosure of Invention

The invention aims to provide a weak-base drinking water treatment device and a method, which aim to solve the problems in the background technology:

the ready-made alkaline water is difficult to buy in many places, the pH value of the ready-made alkaline water is determined, the ready-made alkaline water is difficult to change, and people have difficulty in drinking the drinking water with the desired pH value. If a household weakly alkaline drinking water treatment device is designed, people need to adjust the configuration by themselves, change the raw materials from time to time, and easily make mistakes during the configuration, so that the drinking water is too alkaline.

A weak-alkali drinking water treatment device comprises a shell and a stirring device, wherein the inside of the shell is divided into two parts, namely an upper alkalization cavity and a lower control cavity, drinking water is contained in the alkalization cavity, and a ph sensor is arranged on the outer side of the alkalization cavity; the stirring device is located inside the alkalization cavity, a plurality of storage bins are arranged outside the stirring device, a rotatable stirring rod is arranged inside the storage bins, the outer edge of the stirring rod is tightly attached to the storage bins, the bottom of the storage bins is fixedly connected with the output end of a rotating motor, and the rotating motor is located inside the control cavity.

Preferably, a control groove is arranged above the containing bin of the stirring device, and a spherical cavity is formed between the containing bin and the control groove;

preferably, the puddler includes the spheroid, the spheroid sets up in the inside of delivery port and the two frictional contact, spheroidal top fixedly connected with control lever, the control lever is located the inside of control tank, spheroidal below is provided with the rubber slab just the outside of collecting storage bin is covered completely to the rubber slab, the one end of control spring is connected at the top of control lever, the other end and the inner wall connection of control tank of control spring.

Preferably, the bottom of the rubber plate is provided with a connecting hook body, the top of the connecting hook body is embedded with a rotating sheet, and the rotating sheet is located inside the storage bin.

Preferably, the rotor plate is made of magnesium-zinc alloy, and a plurality of ravines are arranged in the rotor plate.

Preferably, a drainage tank penetrating through the stirring device is formed in the middle of the stirring device, and switch assemblies are arranged at the top and the bottom of the stirring device;

preferably, the switch assembly comprises a rotary table, a plurality of moving grooves are arranged in the rotary table, the moving grooves are distributed in a central symmetry manner around the center of the rotary table, switch springs are arranged at positions of the moving grooves close to the center of the rotary table, moving blocks are connected to positions of the switch springs far away from the center of the rotary table, and drain holes are formed in positions of the moving grooves far away from the center of the rotary table;

preferably, the drain holes are communicated with a drain groove, and the inner gullies of the rotary vane are communicated with the drain groove.

Preferably, still include lifting unit, lifting unit includes elevator motor and lifter plate, elevator motor is located the control intracavity, the lifter plate be located alkalization intracavity and with the inner wall frictional contact in alkalization chamber, elevator motor's output is connected with the threaded rod, threaded rod and lifter plate threaded connection, the round hole that equals with the agitating unit radius is seted up at the middle part of lifter plate.

Preferably, an exhaust groove is formed in the lifting plate, and a clamping groove is formed in the exhaust groove;

preferably, the below of air discharge duct is connected with the stopper, the stopper includes the round platform piece, the top of round platform piece is provided with the connecting rod, connecting rod and draw-in groove gomphosis and connecting rod liftable, the bottom of round platform piece is connected with the gasbag.

Preferably, the lifting device further comprises a connecting disc, the connecting disc is located at the connecting position of the threaded rod and the lifting plate and can rotate at the connecting position, and a slot is formed in the outer side of the connecting disc;

preferably, the spread groove has been seted up to the inside of lifter plate, the inside of spread groove is provided with mobilizable connecting plate, one side that the spread groove was kept away from to the connecting plate is provided with wedge and fixture block, the wedge is located the exhaust duct, fixture block and slot gomphosis, one side that the connecting plate is close to the spread groove is provided with the extrusion spring, the extrusion spring is located a straight line with the wedge, one side that the extrusion spring was kept away from to the inside of spread groove is provided with the gag lever post, the gag lever post runs through the connecting plate.

Preferably, the inside in control chamber is provided with retrieves the storehouse, retrieve the storehouse and communicate with the switch module of bottom, the inside in retrieving the storehouse is provided with the water pump, the water injection pipe is connected to the play water end of water pump, the other end of water injection pipe inserts the inside in alkalization chamber.

Preferably, a water inlet and a water outlet are respectively arranged on two sides of the alkalization cavity, and an air hole is formed in the top of the alkalization cavity.

A weak-base drinking water treatment method comprises the following steps:

s1, when the ph value is smaller than 8.0, a rotating motor connected with a ph sensor is started to increase the contact strength of a stirring rod and water and ensure that the pH value of the water is not lower than 8.0.

And S2, when the ph value is larger than 9.0, the rotating motor connected with the ph sensor decelerates until the rotating motor stops operating so as to reduce the friction strength between water and the stirring rod.

S3, when the pH value of the drinking water is equal to 8.0, the rotating motor stops running to ensure that the pH value of the drinking water is always between 8.0 and 9.0

Compared with the prior art, the invention has the advantages that:

7) The magnesium-zinc alloy rotates at a high speed in the drinking water and makes sound friction, so that magnesium ions and zinc ions can be generated, the pH value in the drinking water is improved, the drinking water is alkalescent and can be absorbed more easily, and the magnesium ions and the zinc ions can be absorbed by a human body, so that trace elements are provided for the human body, and the resistance of the human body is improved.

2) According to the invention, by utilizing the centrifugal force effect, when the rotating motor is started, the rubber plate is automatically opened, the rotor plate is contacted with drinking water to start working, when the rotating motor is stopped, the rubber plate is automatically closed, and the rotor plate is protected from being contacted with the drinking water, so that the loss of the rotor plate is reduced, and the drinking water is prevented from being continuously and slowly alkalized.

3) The centrifugal water discharge device drives the switch assembly to be opened and closed through centrifugal force, water in the storage bin can be automatically discharged when the device is not used through the design, the rotating sheet is prevented from being corroded, and drinking water cannot be consumed when the motor is started.

4) After the stopper contacted water and risen, can promote the wedge and remove, the fixture block removed thereupon this moment, and the fixture block breaks away from the gomphosis with the slot, and the rotation of connection pad is unrestricted, and along with elevator motor's rotation, the lifter plate can not rotate along with it again, and when drinking water level descends, the stopper descends, and the wedge returns to the throne under extrusion spring's effect, and the fixture block continues with the slot gomphosis, and the lifter plate descends, so reciprocal, can reduce the contact time of drinking water and air, reduces the speed of drinking water acidizing.

Drawings

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

FIG. 2 is a cutaway view of the housing of the present invention;

FIG. 3 is a cut-away view of the stirring apparatus of the present invention;

FIG. 4 is a cross-sectional view of a stirring device of the present invention;

FIG. 5 is a schematic view of a stir bar of the present invention;

FIG. 6 is a cut-away view of the switch assembly of the present invention;

FIG. 7 is a schematic view of the lift assembly of the present invention;

FIG. 8 is an internal view of the lifter plate of the present invention;

FIG. 9 is a schematic view of a stopper of the present invention;

FIG. 10 is a schematic diagram of a land of the present invention.

The reference numbers in the figures illustrate: 1. a housing; 101. an alkalization chamber; 102. a control chamber; 103. a water inlet; 104. a water outlet; 105. air holes; 106. a ph sensor; 107. a recovery bin; 108. a water injection pipe; 2. a stirring device; 201. a storage bin; 202. a water discharge tank; 203. a control slot; 204. a spherical cavity; 205. a control spring; 206. rotating the motor; 3. a switch assembly; 301. a turntable; 302. a moving groove; 303. a switch spring; 304. a moving block; 305. a drain hole; 4. a stirring rod; 401. a sphere; 402. a control lever; 403. a rubber plate; 404. connecting the hook body; 5. rotating the sheet; 6. a lifting assembly; 601. a lifting motor; 602. a threaded rod; 603. a lifting plate; 604. an exhaust groove; 605. a card slot; 606. connecting grooves; 607. a compression spring; 608. a limiting rod; 609. a connecting plate; 610. a wedge block; 611. a clamping block; 7. a connecting disc; 701. a slot; 8. a plug; 801. a round table block; 802. an air bag; 803. a connecting rod.

Detailed Description

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "fitted/connected", "connected", and the like, are to be interpreted broadly, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

The embodiment is as follows:

referring to fig. 1-10, a weak alkaline drinking water treatment device comprises a shell 1 and a stirring device 2, wherein the shell 1 is a 304 stainless steel water tank body, the inside of the shell 1 is divided into two parts, namely an upper alkalization cavity 101 and a lower control cavity 102, the alkalization cavity 101 is filled with disinfected drinking water, the inside of the control cavity 102 is not communicated with the alkalization cavity 101, the outside of the alkalization cavity 101 is provided with a ph sensor 106, and the ph sensor 106 can detect the pH value inside the alkalization cavity 101; agitating unit 2 is located the inside of alkalization chamber 101, several containing storehouse 201 has been seted up in agitating unit 2's the outside, containing storehouse 201's inside is provided with rotatable puddler 4, and the material of puddler 4 is magnesium zinc alloy, and magnesium zinc alloy is at the high-speed rotatory friction of making a sound in the inside of drinking water, can react with chloride ion hydroxyl ion etc. in aqueous, produces magnesium ion and zinc ion, improves the ph value in the drinking water, the outward flange and the containing storehouse 201 of puddler 4 are hugged closely, containing storehouse 201's bottom and the output fixed connection who rotates motor 206, it is located the inside of control chamber 102 to rotate motor 206. A water inlet 103 and a water outlet 104 are respectively arranged on two sides of the alkalization cavity 101, and an air hole 105 is formed in the top of the alkalization cavity 101.

When the invention is used, when the ph value is more than 9.0, the rotating motor 206 connected with the ph sensor 106 is decelerated until the operation is stopped, so as to reduce the friction strength between water and the stirring rod 4. When the ph value is less than 8.0, the rotating motor 206 connected with the ph sensor 106 is started to increase the contact strength of the impeller and the water and ensure that the pH value of the water is not lower than 8.0. When the ph of the drinking water is equal to 8.0, the rotation motor 206 stops operating, ensuring that the ph of the drinking water is always between 8.0 and 9.0.

The magnesium-zinc alloy rotates at a high speed in the drinking water and generates sound friction, magnesium ions and zinc ions are generated, the pH value of the drinking water is improved, and the magnesium ions and the zinc ions can be absorbed by a human body to provide trace elements for the human body.

As a further scheme of the present invention, referring to fig. 3-5, a control groove 203 is disposed above the storage bin 201 of the stirring device 2, and a spherical cavity 204 is disposed between the storage bin 201 and the control groove 203; the stirring rod 4 comprises a ball 401, the ball 401 is arranged inside the water outlet 104 and in friction contact with the water outlet, the top of the ball 401 is fixedly connected with a control rod 402, the control rod 402 is located inside the control groove 203, a rubber plate 403 is arranged below the ball 401, the rubber plate 403 completely covers the outer side of the storage bin 201, the top of the control rod 402 is connected with one end of a control spring 205, and the other end of the control spring 205 is connected with the inner wall of the control groove 203.

When the rotation motor 206 rotates, the stirring device 2 rotates along with the rotation motor, and at this time, the bottom movable end of the rubber plate 403 tends to move outward under the centrifugal force, and at this time, the rubber plate 403 rotates around the sphere 401, and the stirring rod 4 is unfolded. When rotating motor 206 stall, control spring 205 resets, drives rubber slab 403 and resets this moment, and rubber slab 403 covers storage 201 completely for when rotating motor 206 out of work, the drinking water does not contact with storage 201 inner space.

Further, a connecting hook body 404 is arranged at the bottom of the rubber plate 403, a rotating piece 5 is embedded at the top of the connecting hook body 404, and the rotating piece 5 is located inside the storage bin 201.

Along with the increase of device number of times of operation, rotor 5 has certain loss, needs to change it this moment, sets up the connection and colludes body 404 and can change fast, and when rotating motor 206 does not operate, rotor 5 is difficult to break away from under the action of gravity, and when rotating motor 206 operates, rotor 5 also is difficult to break away from under the action of centrifugal force.

Further, the rotor 5 is made of magnesium-zinc alloy, and a plurality of ravines are arranged inside the rotor 5, so that the contact area between the rotor 5 and drinking water is increased, and the alkalization speed is increased.

According to the invention, by utilizing the centrifugal force effect, when the rotating motor 206 is started, the rubber plate 403 is automatically opened, the rotor plate 5 is contacted with drinking water to start working, when the rotating motor 206 is stopped, the rubber plate 403 is automatically closed, and the rotor plate 5 is protected from being contacted with the drinking water, so that the loss of the rotor plate 5 is reduced, and the drinking water is prevented from being continuously and slowly alkalized.

However, since the slits are formed in the rotor 5, when the rubber plate 403 is stored, a part of the drinking water is stored in the storage chamber 201, and as time goes by, the water in the storage chamber 201 corrodes the rotor 5, the ph of the water in the storage chamber 201 increases, and when the rotating motor 206 is started next time, the water in the storage chamber 201 flows into the alkalization chamber 101, thereby affecting the drinking water therein.

As a further scheme of the present invention, referring to fig. 6, a drainage tank 202 penetrating through the stirring device 2 is disposed in the middle of the stirring device 2, and switch assemblies 3 are disposed at the top and the bottom of the stirring device 2; the bottom switch assembly 3 can control the opening and closing of the drainage groove 202, the top switch assembly 3 can ensure the circulation of gas, so that water in the drainage groove 202 can be output, the switch assembly 3 comprises a rotary table 301, a plurality of moving grooves 302 are arranged in the rotary table 301, the moving grooves 302 are distributed in a central symmetry manner around the center of the rotary table 301, a switch spring 303 is arranged at a position of the moving groove 302 close to the center of the circle, a moving block 304 is connected to a position of the switch spring 303 far away from the center of the circle, and a drainage hole 305 is formed in the position of the moving groove 302 far away from the center of the circle; the drain holes 305 communicate with the drain grooves 202, and the inner corrugations of the rotary plate 5 communicate with the drain grooves 202.

When the rotating motor 206 is started, the storage bin 201 is opened, the moving block 304 moves outwards under the action of centrifugal force and blocks the water drain hole 305, and at the moment, the switch assembly 3 is closed, so that drinking water cannot be drained; when the motor 206 is turned off, the storage chamber 201 is blocked by the rubber plate 403, the moving block 304 returns to its original position by the opening and closing spring 303, the water discharge hole 305 is opened, and the water in the storage chamber 305 is discharged. Utilize this kind of design can realize the water in the automatic discharge collecting bin 201 when not using, prevent that rotor 5 from receiving the corruption to when the motor starts, can not cause the loss of drinking water.

Since the air contains acidic gas such as carbon dioxide, it is partially dissolved in water, and the dissolution rate increases with the progress of the stirring work, thereby affecting the progress of the alkalization work.

As a further scheme of the present invention, referring to fig. 7-10, the present invention further includes a lifting assembly 6, the lifting assembly 6 includes a lifting motor 601 and a lifting plate 603, the lifting plate 603 is lifted to discharge air inside the alkalization chamber 101, the lifting motor 601 is located in the control chamber 102, the lifting plate 603 is located in the alkalization chamber 101 and is in frictional contact with an inner wall of the alkalization chamber 101, an output end of the lifting motor 601 is connected with a threaded rod 602, the threaded rod 602 is in threaded connection with the lifting plate 603, and a circular hole having a radius equal to that of the stirring device 2 is formed in a middle portion of the lifting plate 603.

Further, an exhaust groove 604 is formed in the lifting plate 603, the exhaust groove 604 allows air to be exhausted, so that the lifting plate 603 is prevented from extruding drinking water, and a clamping groove 605 is formed in the exhaust groove 604;

further, the below of exhaust groove 604 is connected with stopper 8, stopper 8 includes round platform piece 801, the top of round platform piece 801 is provided with connecting rod 803, connecting rod 803 and draw-in groove 605 gomphosis and connecting rod 803 liftable, the bottom of round platform piece 801 is connected with gasbag 802, and when gasbag 802 did not contact water, it was located the below under the effect of gravity, and exhaust groove 604 was opened this moment, and after gasbag 802 contacted water, buoyancy was greater than gravity, stopper 8 rose, and round platform piece 801 blocked exhaust groove 604, and the drinking water was isolated with outside air this moment.

Further, the lifting device comprises a connecting disc 7, wherein the connecting disc 7 is positioned at the joint of the threaded rod 602 and the lifting plate 603, the connecting disc 7 can rotate at the joint, and a slot 701 is formed in the outer side of the connecting disc 7;

further, a connecting groove 606 is formed in the lifting plate 603, a movable connecting plate 609 is arranged in the connecting groove 606, a wedge block 610 and a clamping block 611 are arranged on one side, away from the connecting groove 606, of the connecting plate 609, the wedge block 610 is located in the exhaust groove 604, the clamping block 611 is embedded with the slot 701, an extrusion spring 607 is arranged on one side, close to the connecting groove 606, of the connecting plate 609, the extrusion spring 607 and the wedge block 610 are located on the same straight line, a limiting rod 608 is arranged on one side, away from the extrusion spring 607, of the connecting groove 606, and the limiting rod 608 penetrates through the connecting plate 609.

After the plug 8 is contacted with water and rises, the wedge block 610 can be pushed to move, the clamping block 611 moves along with the plug, the clamping block 611 is separated from the inserting groove 701 and embedded, the connecting disc 7 is not limited in rotation, the lifting plate 603 cannot rotate along with the lifting motor 601, when the drinking water level descends, the plug 8 descends, the wedge block 610 returns under the action of the extrusion spring 607, the clamping block 611 is continuously embedded with the inserting groove 701, the lifting plate 603 descends, the reciprocating motion is achieved, the contact time of the drinking water and the air can be reduced, and the acidification speed of the drinking water is reduced.

As a further scheme of the present invention, a recovery bin 107 is disposed inside the control chamber 102, the recovery bin 107 is communicated with the switch assembly 3 at the bottom, a water pump is disposed inside the recovery bin 107, a water outlet end of the water pump is connected to a water injection pipe 108, and the other end of the water injection pipe 108 is inserted into the alkalization chamber 101.

When the initial ph value of the drinking water is too low, the drinking water in the recovery bin 107 can be input into the alkalization cavity 101, so that the alkalization speed is increased.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A weak base drinking water treatment facilities, includes shell (1) and agitating unit (2), its characterized in that:

the interior of the shell (1) is divided into two parts, namely an alkalization cavity (101) at the upper part and a control cavity (102) at the lower part, drinking water is contained in the alkalization cavity (101), and a ph sensor (106) is arranged on the outer side of the alkalization cavity (101);

agitating unit (2) are located the inside of alkalization chamber (101), several containing storehouse (201) have been seted up in the outside of agitating unit (2), the inside of containing storehouse (201) is provided with rotatable puddler (4), the outward flange and the containing storehouse (201) of puddler (4) are hugged closely, the bottom and the output fixed connection who rotates motor (206) of containing storehouse (201), it is located the inside of control chamber (102) to rotate motor (206).

2. A weak alkaline drinking water treatment apparatus as claimed in claim 1, wherein: a control groove (203) is formed in the stirring device (2) above the containing bin (201), and a spherical cavity (204) is formed between the containing bin (201) and the control groove (203);

puddler (4) are including spheroid (401), spheroid (401) set up in the inside of delivery port (104) and the two frictional contact, top fixedly connected with control lever (402) of spheroid (401), control lever (402) are located the inside of control tank (203), the below of spheroid (401) is provided with rubber slab (403) just rubber slab (403) cover the outside of collecting storage (201) completely, the one end of top connection control spring (205) of control lever (402), the other end and the interior wall connection of control tank (203) of control spring (205).

3. A weak alkaline drinking water treatment apparatus as claimed in claim 2, wherein: the bottom of rubber slab (403) is provided with the connection and colludes body (404), the top gomphosis of connection and collude body (404) has rotor (5), rotor (5) are located the inside of collecting storage (201).

4. A weak alkaline drinking water treatment apparatus as claimed in claim 3, wherein: the rotating plate (5) is made of magnesium-zinc alloy, and a plurality of ravines are arranged inside the rotating plate (5).

5. A weak alkaline drinking water treatment apparatus as claimed in claim 4, wherein: a drainage tank (202) penetrating through the stirring device (2) is formed in the middle of the stirring device (2), and switch assemblies (3) are arranged at the top and the bottom of the stirring device (2);

the switch assembly (3) comprises a rotary table (301), a plurality of moving grooves (302) are arranged inside the rotary table (301), the moving grooves (302) are symmetrically distributed with the center of a circle of the rotary table (301), switch springs (303) are arranged at positions, close to the center of the circle, of the moving grooves (302), moving blocks (304) are connected at positions, far away from the center of the circle, of the switch springs (303), and drain holes (305) are formed at positions, far away from the center of the circle, of the moving grooves (302);

the drain hole (305) is communicated with the drain groove (202), and the internal gullies of the rotary vane (5) are communicated with the drain groove (202).

6. A weak alkaline drinking water treatment apparatus as claimed in claim 1, wherein: still include lifting unit (6), lifting unit (6) include elevator motor (601) and lifter plate (603), elevator motor (601) are located control chamber (102), lifter plate (603) be located alkalization chamber (101) and with the inner wall frictional contact who alkalizes chamber (101), the output of elevator motor (601) is connected with threaded rod (602), threaded rod (602) and lifter plate (603) threaded connection, the round hole that equals with agitating unit (2) radius is seted up at the middle part of lifter plate (603).

7. A weak base drinking water treatment apparatus as claimed in claim 6, wherein: an exhaust groove (604) is formed in the lifting plate (603), and a clamping groove (605) is formed in the exhaust groove (604);

the air exhaust device is characterized in that a plug (8) is connected to the lower portion of the air exhaust groove (604), the plug (8) comprises a circular platform block (801), a connecting rod (803) is arranged at the top of the circular platform block (801), the connecting rod (803) is embedded with the clamping groove (605), the connecting rod (803) can ascend and descend, and an air bag (802) is connected to the bottom of the circular platform block (801).

8. A weak alkaline drinking water treatment apparatus as claimed in claim 7, wherein: the lifting device is characterized by further comprising a connecting disc (7), wherein the connecting disc (7) is located at the connecting position of the threaded rod (602) and the lifting plate (603), the connecting disc (7) can rotate at the connecting position, and a slot (701) is formed in the outer side of the connecting disc (7);

connecting groove (606) have been seted up to the inside of lifter plate (603), the inside of connecting groove (606) is provided with mobilizable connecting plate (609), one side that connecting groove (606) were kept away from in connecting plate (609) is provided with wedge (610) and fixture block (611), wedge (610) are located exhaust groove (604), fixture block (611) and slot (701) gomphosis, one side that connecting plate (609) are close to connecting groove (606) is provided with extrusion spring (607), extrusion spring (607) and wedge (610) are located a straight line, one side that extrusion spring (607) was kept away from in the inside of connecting groove (606) is provided with gag lever post (608), gag lever post (608) runs through connecting plate (609).

9. A weak base drinking water treatment apparatus as claimed in claim 5, wherein: the inside in control chamber (102) is provided with retrieves storehouse (107), retrieve storehouse (107) and switch module (3) intercommunication of bottom, the inside in retrieving storehouse (107) is provided with the water pump, water injection pipe (108) are connected to the play water end of water pump, the inside in alkalization chamber (101) is inserted to the other end of water injection pipe (108), the both sides in alkalization chamber (101) are provided with water inlet (103) and delivery port (104) respectively, gas pocket (105) are seted up at the top in alkalization chamber (101).

10. A weak base drinking water treatment method, a weak base drinking water treatment apparatus according to any one of claims 1 to 9, characterized by comprising the steps of:

s1, when the ph value is smaller than 8.0, starting a rotating motor (206) connected with a ph sensor (106) to increase the contact strength of a stirring rod (4) and water and ensure that the pH value of the water is not lower than 8.0;

s2, when the ph value is larger than 9.0, the rotating motor (206) connected with the ph sensor (106) decelerates until the rotating motor stops to reduce the friction strength between water and the stirring rod (4);

and S3, when the ph value of the drinking water is equal to 8.0, stopping the rotation of the rotating motor (206), and ensuring that the ph value of the drinking water is always between 8.0 and 9.0.

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