CN114436432B - Environment-friendly intelligent efficient defluorination equipment for drinking water - Google Patents

Abstract

The invention discloses an environment-friendly intelligent efficient defluorination device for drinking water, which comprises a filtering bin, a pair of water pressure attachment-free mechanisms, a synchronous power mechanism, a pipe expanding mechanism, a hydraulic flushing mechanism and a striking attachment-free mechanism, wherein the defluorination bin is arranged on one side of the filtering bin, a communication pipeline is connected between the filtering bin and the defluorination bin, the water pressure attachment-free mechanisms are arranged in the filtering bin and the defluorination bin respectively, each water pressure attachment-free mechanism comprises a contraction bin, a driven fluted disc and a guide disc are arranged in the contraction bin, and a plurality of pressure boosting plates are arranged between the driven fluted disc and the guide disc. According to the invention, through the arrangement of the corresponding mechanism on the defluorination equipment, the attachment of impurities to the defluorination pipeline is reduced, the possibility of agglomeration of the impurities in the defluorination pipeline is reduced, the water inflow of the defluorination pipeline is improved, meanwhile, the probability of blockage of the defluorination pipeline is reduced, the influence on the normal work of the defluorination equipment is reduced, time and labor are saved, the defluorination efficiency of drinking water is improved, and the loss of users is reduced.

Description

Environment-friendly intelligent efficient defluorination equipment for drinking water

Technical Field

The invention belongs to the technical field of defluorination equipment, and particularly relates to environment-friendly intelligent high-efficiency defluorination equipment for drinking water.

Background

The defluorinating equipment is a regenerating device composed of defluorinating tank and filtering material, when raw water flows through the defluorinating device and the natural mineral filtering material which is the core filtering layer in the defluorinating device, the water contacts with the natural mineral filtering material in the defluorinating device, and the adsorption and ion exchange are carried out through physical or chemical reaction, the fluorine ions in the water are adsorbed and exchanged by the filtering material, the fluorine ions in the water are removed, and the fluorine content in the water reaches the national sanitary standard of drinking water.

At present, the drinking water is before carrying out the fluorine removal, need carry out the prefiltration in filtering the storehouse, nevertheless filter and can remain certain impurity at the inner chamber of fluorine removal equipment filtration storehouse, these impurity exist for a long time in filtering the storehouse inner chamber, easy adhesion is on the fluorine removal pipeline, produce the caking, reduce the inflow of fluorine removal pipeline, block up the fluorine removal pipeline even, need clear up, this can influence the normal work of fluorine removal equipment, not only waste time and energy, reduce the fluorine removal efficiency of drinking water by a wide margin still, cause user's loss.

Therefore, in order to solve the above technical problems, there is a need for an environment-friendly intelligent efficient fluorine removal device for drinking water.

Disclosure of Invention

The invention aims to provide environment-friendly intelligent high-efficiency fluorine removal equipment for drinking water, and aims to solve the problems that the impurities block a fluorine removal pipeline, the normal work of the fluorine removal equipment is influenced, and the fluorine removal efficiency of the drinking water is reduced.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

an environmental protection intelligent high-efficiency defluorination equipment for drinking water, comprising: the device comprises a filter bin, a pair of water pressure attachment-free mechanisms, a synchronous power mechanism, a pipe expanding mechanism, a hydraulic flushing mechanism and a striking attachment-free mechanism;

a fluorine removal bin is arranged on one side of the filtering bin, and a communicating pipeline is connected between the filtering bin and the fluorine removal bin;

a hydraulic pressure attachment-free mechanism is arranged in each of the filtering bin and the defluorination bin, the hydraulic pressure attachment-free mechanism comprises a contraction bin, a driven fluted disc and a guide disc are arranged in the contraction bin, a plurality of pressure increasing plates are arranged between the driven fluted disc and the guide disc, and a pressure increasing arc is arranged between a pair of the pressure increasing plates;

a synchronous power mechanism is arranged between the filtering bin and the defluorination bin and is used for synchronizing the rotation of the pair of driven fluted discs;

a pipe expanding mechanism is connected between the pair of pressurizing arcs and is used for avoiding drinking water leakage;

the pipe expanding mechanism comprises a pair of receiving shafts, a pipe expanding film is arranged between the pair of receiving shafts, and a rotary spring is connected between each pair of receiving shafts and the pipe expanding film;

a hydraulic flushing mechanism is arranged in the communication pipeline and is used for cleaning the inner wall of the pressurization arc;

and a striking attachment-free mechanism is arranged in the communicating pipeline and used for improving the cleaning effect of the inner wall of the supercharging arc.

Furthermore, a guided rod is connected in the pressure increasing plate and can slide in the guide groove, and when the driven fluted disc rotates, the pressure increasing plate can be driven to move;

all open on driven fluted disc and the guiding disc have with receive the guide arm assorted guide way, when driven fluted disc is rotatory, receive the guide arm can slide in the guide way, make things convenient for opening and closing of a plurality of pressure boost boards.

Furthermore, a follow-up shaft is connected in the pressurizing arcs and can support the pressurizing arcs, and when the angle of the pressurizing plate deviates, the follow-up shaft and the pressurizing arcs can rotate, so that the plurality of pressurizing arcs can still accommodate the passing of drinking water;

the follow-up shaft penetrates through the pressurization arc, so that the pressurization arc is conveniently supported, and meanwhile, the follow-up shaft and the pressurization arc are convenient to rotate relatively;

the bearings are connected to the two ends of the follow-up shaft, so that the follow-up shaft can rotate conveniently, friction between the follow-up shaft and the vibration air bag is reduced, and the possibility of damage of the vibration air bag is reduced.

Furthermore, the synchronous power mechanism comprises a synchronous shaft, so that a pair of synchronous gears can synchronously rotate, and the opening and closing of the plurality of pressure increasing plates can be synchronous;

the synchronous shaft penetrates through the filtering bin and the defluorination bin, so that the installation of the synchronous shaft is facilitated, the balance of the synchronous shaft is improved, and the precision of the synchronous shaft and the driven fluted disc is improved;

the both ends of synchronizing shaft all are connected with synchronizing gear, can rotate through the power that the motor provided, can drive driven fluted disc and rotate, synchronizing gear and driven fluted disc phase-match.

Furthermore, a supporting plate is connected in the filter bin, so that the motor is convenient to mount, and the stability of the motor is improved;

the supporting plate is connected with an electric motor which can drive the synchronous gear to rotate, corresponding power is provided for the rotation of the synchronous gear, a user can conveniently control the synchronous gear, and the electric motor is connected with the synchronous gear.

Furthermore, an installation groove matched with the containing shaft is formed in the pressurizing arc in a chiseled mode, so that the containing shaft is convenient to install, and meanwhile, a contracted pipe expanding film can be contained;

the expand tub membrane runs through the setting of pressure boost arc, can reduce the possibility that the drinking water got into in the pressure boost arc, has reduced the possibility that the drinking water was revealed.

Furthermore, the hydraulic flushing mechanism comprises a rotating shaft which can rotate and drive the flushing brush to brush the pressurization arc and the pipe expanding film, so that the possibility of impurity adhesion is reduced, and the probability of impurity agglomeration is further reduced;

the both ends of rotation shaft all are connected with the mounting bracket, can support the rotation shaft, make the stability and the equilibrium of rotation shaft obtain the guarantee, and is a pair of the mounting bracket is connected with filtration storehouse and defluorination storehouse respectively.

Furthermore, one end of the rotating shaft, which is far away from the defluorination bin, is connected with a water guide ring, and water flow can enter the rotating shaft through the water guide ring, so that the flushing brush can conveniently flush the pressurization arc;

be connected with a plurality of wash brushes in the axis of rotation, adopt flexible material, can bend, when a plurality of pressure boost arc distances are drawn far away, can brush the pressure boost arc, can erode the pressure boost arc through the rivers simultaneously, when a plurality of pressure boost arc distances are drawn in, still can brush and erode the pressure boost arc through crooked.

Furthermore, the rotation shaft is provided with a circulation groove, the flushing brush is provided with a water pressure groove, the water guide ring and the water pressure groove are communicated with the circulation groove, water flow in the circulation groove can be discharged through the water pressure groove, and sufficient water pressure can be formed to flush the pressurization arc.

Furthermore, a fixing ring is arranged outside the rotating shaft, and the stressed page can be fixed through the mutual matching of the fixing ring and the rotating shaft, so that the stressed page is more stable;

the water-saving flushing brush is characterized in that a plurality of stressed pages are connected between the rotating shaft and the fixing ring, and when water flow impacts the stressed pages, the stressed pages can drive the rotating shaft to rotate, so that the flushing brush can brush the pressurization arc.

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

according to the invention, through the arrangement of the corresponding mechanism on the defluorination equipment, the attachment of impurities to the defluorination pipeline is reduced, the possibility of agglomeration of the impurities in the defluorination pipeline is reduced, the water inflow of the defluorination pipeline is improved, meanwhile, the probability of blockage of the defluorination pipeline is reduced, the influence on the normal work of the defluorination equipment is reduced, time and labor are saved, the defluorination efficiency of drinking water is improved, and the loss of users is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a first perspective view of an environmentally-friendly intelligent efficient fluorine removal device for drinking water according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a sectional front view of an intelligent efficient fluorine removal device for drinking water according to an embodiment of the present invention;

FIG. 4 is a schematic view of the structure of FIG. 3 at B;

FIG. 5 is a schematic view of the structure of FIG. 3 at C;

FIG. 6 is a sectional side view of an intelligent environmental-friendly efficient fluorine removal device for drinking water according to an embodiment of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 6 at D;

FIG. 8 is a schematic view of the structure at E in FIG. 6;

FIG. 9 is a schematic view of a part of the structure of an intelligent environmental-friendly efficient fluorine removal device for drinking water according to an embodiment of the present invention;

fig. 10 is a second perspective view of an environmental protection intelligent type efficient fluorine removal device for drinking water according to an embodiment of the present invention.

In the figure: 1. the device comprises a filter bin, 101, a fluorine removal bin, 102, a communication pipeline, 2, a water pressure attachment-free mechanism, 201, a contraction bin, 202, a driven fluted disc, 203, a guide disc, 204, a pressure increasing plate, 205, a pressure increasing arc, 206, a guide rod, 207, a follower shaft, 208, a bearing, 3, a synchronous power mechanism, 301, a synchronous shaft, 302, a synchronous gear, 303, a support plate, 304, a motor, 4, a pipe expanding mechanism, 401, a receiving shaft, 402, a pipe expanding membrane, 403, a rotary spring, 5, a hydraulic flushing mechanism, 501, a rotating shaft, 502, a mounting frame, 503, a water guide ring, 504, a flushing brush, 505, a fixing ring, 506, a force bearing page, 6, a striking attachment-free mechanism, 601, a striking rod, 602, a striking block and 603, and a vibration air bag.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The present invention is not limited to the embodiments, and structural, methodological or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses an environment-friendly intelligent high-efficiency defluorination device for drinking water, which is shown in a figure 1-a figure 10 and comprises: the device comprises a filter bin 1, a pair of water pressure attachment-free mechanisms 2, a synchronous power mechanism 3, a pipe expanding mechanism 4, a hydraulic scouring mechanism 5 and a beating attachment-free mechanism 6.

Referring to fig. 1, a fluorine removal bin 101 is disposed at one side of the filter bin 1, the filter bin 1 provides a space for filtering drinking water, and the fluorine removal bin 101 provides a space for removing fluorine from the drinking water.

Wherein, be connected with communicating pipe 102 between filtration storehouse 1 and the fluorine removal storehouse 101, communicating pipe 102 can communicate filtration storehouse 1 and fluorine removal storehouse 101, can make the drinking water after filtering in the filtration storehouse 1 get into fluorine removal storehouse 101 and carry out the fluorine removal.

Referring to fig. 1 to 9, the water pressure attachment-free mechanism 2 is disposed in each of the filtration bin 1 and the fluorine removal bin 101, and the water pressure attachment-free mechanism 2 includes a contraction bin 201, so that the installation of the driven fluted disc 202 and the guide disc 203 is facilitated, the stability of the driven fluted disc 202 and the guide disc 203 is improved, and a corresponding space is provided for the rotation of the driven fluted disc 202.

Wherein, be equipped with driven fluted disc 202 and guiding disc 203 in the shrink storehouse 201, driven fluted disc 202 can rotate through the drive of synchronous gear 302, can drive by the guide pole 206 removal of receiving through the direction to receiving the guide pole 206 to this open and shut of control pressure boost board 204.

In addition, guide plate 203 may cooperate with driven toothed plate 202 to limit the position of movement of pressure increasing plate 204, making movement of pressure increasing plate 204 more controllable.

Optionally, be equipped with a plurality of pressure boost boards 204 between driven fluted disc 202 and the guiding disc 203, pressure boost board 204 can be through the circulation of the open-close control drinking water, when pressure boost board 204 contracts, can reduce the circulation of drinking water, the water pressure of corresponding drinking water can correspondingly promote, the velocity of flow can be correspondingly become fast, can carry out quick the washing out to pressure boost arc 205 through the rivers, can reduce adnexed impurity on the pressure boost arc 205, and then reduce the probability of impurity caking on the pressure boost arc 205.

Preferably, a pressurizing arc 205 is arranged between the pair of pressurizing plates 204, and the pressurizing plates 204 can be matched to limit the flow of the drinking water through opening and closing.

Referring to fig. 1-9, a guided rod 206 is coupled to the pressure increasing plate 204 and slides in the guiding slot, so that the pressure increasing plate 204 is moved when the driven gear plate 202 rotates.

Guide grooves matched with the guided rods 206 are formed in the driven fluted disc 202 and the guide disc 203, and when the driven fluted disc 202 rotates, the guided rods 206 can slide in the guide grooves, so that the plurality of pressure increasing plates 204 can be conveniently opened and closed.

Referring to fig. 1-9, a follower shaft 207 is connected to the pressurizing arcs 205 to support the pressurizing arcs 205, and when the pressurizing plate 204 is angularly offset, the follower shaft 207 can rotate with the pressurizing arcs 205, so that the pressurizing arcs 205 can still accommodate the passage of drinking water.

Wherein, the follower shaft 207 is arranged through the pressurization arc 205, which facilitates the support of the pressurization arc 205 and facilitates the relative rotation with the pressurization arc 205.

In addition, the bearings 208 are connected to both ends of the follow-up shaft 207, so that the follow-up shaft 207 can rotate conveniently, friction between the follow-up shaft 207 and the vibration air bag 603 is reduced, and the possibility of damage to the vibration air bag 603 is reduced.

Referring to fig. 3, a synchronous power mechanism 3 is disposed between the filtration cabin 1 and the fluorine removal cabin 101 for synchronizing rotation of the pair of driven fluted discs 202, and the synchronous power mechanism 3 includes a synchronizing shaft 301 for synchronizing rotation of the pair of synchronizing gears 302 so as to synchronize opening and closing of the plurality of pressure increasing plates 204.

The synchronous shaft 301 penetrates through the filter bin 1 and the fluorine removal bin 101, so that the installation of the synchronous shaft 301 is facilitated, the balance of the synchronous shaft 301 is improved, and the precision of the synchronous shaft 301 and the driven fluted disc 202 is improved.

In addition, both ends of synchronizing shaft 301 are connected with synchronizing gear 302, can rotate through the power that motor 304 provided, can drive driven fluted disc 202 and rotate, and synchronizing gear 302 and driven fluted disc 202 phase-match.

Referring to fig. 3, the support plate 303 is connected to the filter cartridge 1, so that the motor 304 can be conveniently installed, and the stability of the motor 304 can be improved.

The supporting plate 303 is connected to a motor 304, which can drive the synchronizing gear 302 to rotate, so as to provide corresponding power for the rotation of the synchronizing gear 302, thereby facilitating the control of the synchronizing gear 302 by a user, and the motor 304 is connected to the synchronizing gear 302.

Referring to fig. 6-8, a pipe expanding mechanism 4 is connected between the pair of pressurizing arcs 205 for preventing drinking water from leaking, and the pipe expanding mechanism 4 includes a pair of receiving shafts 401 for fixing the position of the pipe expanding film 402 and providing corresponding shafts for contraction of the pipe expanding film 402.

In addition, be equipped with expand tub membrane 402 between a pair of storage shaft 401, when a pair of pressure boost arc 205 was kept away from each other, can compensate the gap between a pair of pressure boost arc 205, can make the probability that the drinking water is revealed reduce, and when rivers strikeed, expand tub membrane 402 can produce vibrations, reduces the adhesion of impurity simultaneously.

Preferably, a rotary spring 403 is connected between each pair of the accommodating shafts 401 and the tube expanding film 402, when the pair of pressurizing arcs 205 are close to each other, the tube expanding film 402 can be contracted, the possibility of damage to the tube expanding film 402 is reduced, the service life of the tube expanding film 402 is prolonged, and the probability that the tube expanding film 402 blocks the pressurizing arcs 205 is reduced.

Referring to fig. 6-8, the pressurizing arc 205 is chiseled with an installation groove matching with the receiving shaft 401, which facilitates the installation of the receiving shaft 401 and can accommodate the contracted pipe expanding film 402.

Wherein, the expand tube membrane 402 runs through pressure boost arc 205 and sets up, can reduce the probability that the drinking water got into in the pressure boost arc 205, has reduced the probability that the drinking water leaked.

Referring to fig. 1-5, a hydraulic flushing mechanism 5 is disposed in the communication pipe 102 for cleaning the inner wall of the pressurization arc 205, and the hydraulic flushing mechanism 5 includes a rotation shaft 501, which can rotate and drive a flushing brush 504 to brush the pressurization arc 205 and the pipe expansion film 402, so as to reduce the possibility of impurity adhesion and further reduce the probability of impurity agglomeration.

Wherein, the both ends of rotation shaft 501 all are connected with mounting bracket 502, can support rotation shaft 501, make rotation shaft 501's stability and equilibrium obtain the guarantee, and a pair of mounting bracket 502 is connected with filtration storehouse 1 and defluorination storehouse 101 respectively.

Referring to fig. 1-5, a water guide ring 503 is connected to an end of the rotation shaft 501 away from the fluorine removal bin 101, and water can enter the rotation shaft 501 through the water guide ring 503, so that the flushing brush 504 can flush the pressurization arc 205 conveniently.

Wherein, be connected with a plurality of wash brushes 504 on the axis of rotation 501, adopt flexible material, can bend, when a plurality of pressure boost arcs 205 are apart from drawing far away, can brush pressure boost arc 205, can wash pressure boost arc 205 through the rivers simultaneously, when a plurality of pressure boost arcs 205 are apart from drawing in, still can brush pressure boost arc 205 and erode through crooked.

Referring to fig. 1-5, a circulation groove is drilled on the rotation shaft 501, a water pressure groove is drilled on the flushing brush 504, the water guide ring 503 and the water pressure groove are both communicated with the circulation groove, and water in the circulation groove can be discharged through the water pressure groove, so that sufficient water pressure can be formed to flush the boost arc 205.

Referring to fig. 1-5, a fixing ring 505 is provided outside the rotation shaft 501, and the force-bearing sheet 506 can be fixed by cooperating with the rotation shaft 501, so that the force-bearing sheet 506 is more stable.

Wherein, a plurality of stressed leaves 506 are connected between the rotation shaft 501 and the fixing ring 505, when water flow impacts the stressed leaves 506, the stressed leaves 506 can drive the rotation shaft 501 to rotate, so that the flushing brush 504 can brush the pressurizing arc 205.

Referring to fig. 1 to 7, a striking and attachment-free mechanism 6 is arranged in the communication pipe 102 and is used for improving the cleaning effect of the inner walls of the pressurization arcs 205, the striking and attachment-free mechanism 6 includes a pair of striking rods 601, when the pressurization arcs 205 are contracted, the striking rods 601 can be driven by the rotation shaft 501 to strike the striking blocks 602, so that the pressurization arcs 205 vibrate, impurities attached to the pressurization arcs 205 drop, and the striking rods 601 are connected with the rotation shaft 501.

Wherein, the pressure boost arc 205 is connected with a hit block 602, which can be hit by the hit rod 601 and drive the pressure boost arc 205 to vibrate.

In addition, a vibration airbag 603 is connected between the bearing 208 and the pressure increasing plate 204, and when the pressure increasing arc 205 vibrates, the vibration airbag 603 can provide a corresponding space for the vibration of the follow-up shaft 207, so that the vibration of the pressure increasing arc 205 cannot damage the pressure increasing plate 204.

Specifically, when drinking water in the filtration bin 1 enters the fluorine removal bin 101, water flow impacts the force-bearing leaf 506, so that the force-bearing leaf 506 drives the rotation shaft 501 to rotate, the rotation shaft 501 can drive the flushing brush 504 to brush the pressurization arc 205, meanwhile, the water flow enters the circulation tank and is discharged through the water pressure tank, so that the pressurization arc 205 can be flushed, the possibility of impurities adhering to the pressurization arc 205 is reduced, then the motor 304 is started, the synchronizing gear 302 drives the driven toothed disc 202 to rotate, the pressurization plates 204 drive the pressurization arc 205 to contract, so that a passage from the filtration bin 1 to the fluorine removal bin 101 is reduced, the water pressure in the filtration bin 1 synchronously rises, the flow rate of the water in the communication pipeline 102 correspondingly rises, the pressurization arc 205 can be flushed through the flow rate, the probability of impurities adhering to and blocking is further reduced, and meanwhile, when the pressurization arc 205 contracts, the impact rod 601 on the rotation shaft 501 can strike the impact block 602, so that the pressurization arc 205 vibrates, and the possibility of impurities adhering to the pressurization arc 205 is reduced again.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the specification has been described in terms of embodiments, not every embodiment includes every single embodiment, and such description is for clarity purposes only, and it will be appreciated by those skilled in the art that the specification as a whole can be combined as appropriate to form other embodiments as will be apparent to those skilled in the art.

Claims (8)

1. The utility model provides a high-efficient defluorinating equipment of environmental protection intelligent for drinking water which characterized in that includes:

the device comprises a filtering bin (1), wherein a fluorine removal bin (101) is arranged on one side of the filtering bin (1), and a communication pipeline (102) is connected between the filtering bin (1) and the fluorine removal bin (101);

the pair of hydraulic attachment-free mechanisms (2) are respectively arranged in the filter bin (1) and the fluorine removal bin (101), each hydraulic attachment-free mechanism (2) comprises a shrinkage bin (201), a driven fluted disc (202) and a guide disc (203) are arranged in the shrinkage bin (201), a plurality of pressure increasing plates (204) are arranged between the driven fluted disc (202) and the guide disc (203), a pressure increasing arc (205) is arranged between the pair of pressure increasing plates (204), a guided rod (206) is connected in the pressure increasing plates (204), guide grooves matched with the guided rod (206) are respectively drilled in the driven fluted disc (202) and the guide disc (203), a follow-up shaft (207) is connected in the pressure increasing arc (205), the follow-up shaft (207) penetrates through the pressure increasing arc (205), and two ends of the follow-up shaft (207) are respectively connected with bearings (208);

the synchronous power mechanism (3) is arranged between the filtering bin (1) and the defluorination bin (101) and is used for synchronizing the rotation of the pair of driven fluted discs (202);

the pipe expanding mechanism (4) is connected between the pair of pressurizing arcs (205) and is used for avoiding leakage of drinking water;

the pipe expanding mechanism (4) comprises a pair of receiving shafts (401), a pipe expanding film (402) is arranged between the pair of receiving shafts (401), and a rotary spring (403) is connected between each pair of receiving shafts (401) and the pipe expanding film (402);

the hydraulic flushing mechanism (5) is arranged in the communication pipeline (102) and is used for cleaning the inner wall of the pressurization arc (205);

and the striking attachment-free mechanism (6) is arranged in the communicating pipeline (102) and is used for improving the cleaning effect of the inner wall of the pressurization arc (205).

2. The environment-friendly intelligent efficient fluorine removal device for drinking water as claimed in claim 1, wherein the synchronous power mechanism (3) comprises a synchronous shaft (301), the synchronous shaft (301) penetrates through the filtration bin (1) and the fluorine removal bin (101), and both ends of the synchronous shaft (301) are connected with synchronous gears (302).

3. The environment-friendly intelligent efficient fluorine removal device for drinking water as claimed in claim 2, wherein a support plate (303) is connected in the filter bin (1), a motor (304) is connected on the support plate (303), and the motor (304) is connected with a synchronous gear (302).

4. The intelligent environment-friendly efficient fluorine removal device for drinking water as claimed in claim 1, wherein the pressurizing arc (205) is provided with an installation groove matched with the storage shaft (401), and the pipe expanding film (402) is arranged through the pressurizing arc (205).

5. The environment-friendly intelligent efficient defluorination equipment for drinking water as claimed in claim 1, wherein said hydraulic flushing mechanism (5) comprises a rotation shaft (501), said rotation shaft (501) has mounting frames (502) connected to both ends, and a pair of said mounting frames (502) are respectively connected to said filtration bin (1) and said defluorination bin (101).

6. The environment-friendly intelligent efficient defluorination apparatus for drinking water as claimed in claim 5, wherein one end of said rotation shaft (501) far away from the defluorination chamber (101) is connected with a water guide ring (503), and said rotation shaft (501) is connected with a plurality of flushing brushes (504).

7. The intelligent environmental-friendly efficient defluorinating equipment for drinking water as set forth in claim 6, wherein the spinning shaft (501) is provided with a circulation groove, the flushing brush (504) is provided with a water pressure groove, and the water guide ring (503) and the water pressure groove are both communicated with the circulation groove.

8. The environment-friendly intelligent efficient fluorine removal device for drinking water as claimed in claim 7, wherein a fixing ring (505) is arranged outside the rotation shaft (501), and a plurality of stress sheets (506) are connected between the rotation shaft (501) and the fixing ring (505).

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