CN114028963A - Micro-nano bubble mixer - Google Patents

Abstract

The invention discloses a micro-nano bubble mixer, relates to the technical field of hydrogen-enriched water purifiers, and solves the problems that the existing bubble mixer for the hydrogen-enriched water purifier cannot fully crush and refine bubbles when in use, so that the gas-liquid mixing effect is poor, the bubbles are easy to separate out from a water body, the assembly is inconvenient, and the like. The utility model provides a micro-nano bubble blender, includes into water recoil mechanism, the mechanism of recoil of intaking is including intaking seat, inlet opening, first internal thread of intaking, recoil inner tube, recoil water conservancy diversion hole and second internal thread of intaking, the inner wall of the seat upper end of intaking is provided with first internal thread of intaking, the inboard at the seat middle part of intaking is provided with the inlet opening, the bottom fixed mounting of the seat of intaking has the recoil inner tube, the inboard that the outside of recoil inner tube upper end is located the seat of intaking is provided with recoil water conservancy diversion hole. According to the invention, the air bubbles in the water body are separated out, crushed and refined, so that the gas-liquid mixing efficiency is effectively improved, the air bubble content in the water body is ensured, and the water-gas mixing device is convenient to assemble and use.

Description

Micro-nano bubble mixer

Technical Field

The invention relates to the technical field of hydrogen-rich water purifiers, in particular to a micro-nano bubble mixer.

Background

Along with social economy's rapid development, people's standard of living constantly improves for the requirement to the drinking water is higher and higher, and wherein hydrogen-rich water indicates the water that contains trace hydrogen molecule, can make hydrogen-rich water through hydrogen-rich water purifier, need use the bubble mixer to carry out the intensive mixing to hydrogen and water that the electrolysis produced in hydrogen-rich water production process.

However, the existing bubble mixer for the hydrogen-enriched water purifier cannot fully crush and refine bubbles when in use, so that the gas-liquid mixing effect is poor, the bubbles are easy to separate out from a water body, and the assembly is inconvenient; therefore, the existing requirements are not met, and a micro-nano bubble mixer is provided for the requirements.

Disclosure of Invention

The invention aims to provide a micro-nano bubble mixer to solve the problems that the existing bubble mixer for the hydrogen-rich water purifier in the background art cannot fully crush and refine bubbles when in use, so that the gas-liquid mixing effect is poor, the bubbles are easy to separate out from a water body, the assembly is inconvenient and the like.

In order to achieve the purpose, the invention provides the following technical scheme: a micro-nano bubble mixer comprises a water inlet backflushing mechanism, wherein the water inlet backflushing mechanism comprises a water inlet seat, a water inlet hole, a first water inlet internal thread, a backflushing inner barrel, a backflushing flow guide hole and a second water inlet internal thread, the first water inlet internal thread is arranged on the inner wall of the upper end of the water inlet seat, the water inlet hole is arranged on the inner side of the middle part of the water inlet seat, the backflushing inner barrel is fixedly arranged at the bottom end of the water inlet seat, the backflushing flow guide hole is arranged on the outer side of the upper end of the backflushing inner barrel and located on the inner side of the water inlet seat, the second water inlet internal thread is arranged on the inner wall of the bottom end of the water inlet seat, a refining mixing mechanism is arranged at the bottom end of the backflushing inner barrel and comprises a first limiting sleeve, a second limiting sleeve, a positioning insertion rod, a mixing flow guide ball, an elastic connecting sleeve and a refining mixing flow guide ball are arranged on the lower end face of the first limiting sleeve, the second limiting sleeve and the inner side of the first limiting sleeve are connected in a sliding mode, mix water conservancy diversion ball and second stop collar and pass through the location inserted bar and be connected, the outside at location inserted bar middle part is located the inboard at mixed water conservancy diversion ball middle part and is provided with the elastic connection cover, the surface of mixing the water conservancy diversion ball evenly is provided with four and refines the mixing tank.

Preferably, bleed water conservancy diversion mechanism is installed to the bottom of intaking recoil mechanism, bleed water conservancy diversion mechanism includes bleed adapter sleeve, first water conservancy diversion external screw thread, second water conservancy diversion external screw thread and bleed through-hole, the surface of bleed adapter sleeve bottom is provided with second water conservancy diversion external screw thread, the surface of bleed adapter sleeve upper end is provided with first water conservancy diversion external screw thread, bleed adapter sleeve's inboard is provided with the bleed through-hole.

Preferably, the bottom of bleed water conservancy diversion mechanism installs out water mechanism, it includes out water base, toper water conservancy diversion seat, spacing locking ring, first broken piece, the broken piece of second, guiding gutter, first play water internal thread and second play water internal thread to go out water mechanism, the inner wall of play water base upper end is provided with first play water internal thread, the up end of going out the water base is provided with the guiding gutter, go out the inboard at water base middle part and install toper water conservancy diversion seat, the bottom of toper water conservancy diversion seat is connected through spacing locking ring with a water base, first broken piece is installed to the inboard of toper water conservancy diversion seat, the second broken piece is installed to the inboard that lies in toper water conservancy diversion seat bottom below of first broken piece, the inner wall of play water base bottom is provided with the second and goes out the water internal thread.

Preferably, go out the outside of water seat and install the outer protection mechanism that separates the temperature, the outer protection mechanism that separates the temperature includes first protection casing, second protection casing, connection fixture block and sealing washer, first protection casing is installed in the outside of sealing washer, the second protection casing is installed to the upper end of first protection casing, the upper end of first protection casing is connected fixedly through six connection fixture blocks with the second protection casing.

Preferably, the upper end of the first limiting sleeve is inserted into the inner side of the bottom end of the backflushing inner tube, the upper end of the second limiting sleeve is connected with the bottom end of the backflushing inner tube through threads, the first limiting sleeve is connected with the backflushing inner tube through the second limiting sleeve, the mixed guide ball is connected with the positioning inserted rod through the elastic connecting sleeve, and the inner side of the backflushing inner tube, the inner side of the first limiting sleeve, the inner side of the bottom end of the second limiting sleeve and the refining mixing groove are in through connection.

Preferably, the recoil inner cylinder and the water inlet seat are integrally formed by injection molding, and the water inlet hole is communicated with the recoil inner cylinder and the recoil flow guide hole.

Preferably, bleed adapter sleeve's upper end and the seat of intaking are through first water conservancy diversion external screw thread and the internal thread connection that intakes of second, bleed adapter sleeve's bottom and the seat of play water are through second water conservancy diversion external screw thread and first internal thread connection that goes out, bleed adapter sleeve's upper end is provided with the ladder groove, the ladder groove passes through bleed through-hole through connection with the guiding gutter.

Preferably, the limiting locking ring is in threaded connection with the water outlet base, the first crushing piece is in threaded connection with the limiting locking ring, the second crushing piece is in threaded connection with the conical diversion base through the limiting locking ring, and the upper end surfaces of the first crushing piece and the second crushing piece are provided with micro holes which are arranged in a staggered manner.

Preferably, the inner side of the water outlet seat, the diversion trench, the first crushing piece and the second crushing piece are all in through connection, and the first protective cover is connected with the water outlet seat through a sealing ring.

Preferably, the upper end of first protection casing and the bottom of second protection casing all are provided with the snap ring, six connect the fixture block and fix with two snap ring joint.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the water body is input into the inner side of the backflushing inner cylinder, so that when the water body is contacted with the mixed guide ball, the mixed guide ball can rotate at the inner sides of the first limit sleeve and the second limit sleeve, and then a small amount of water body is refined and crushed through the refining and mixing groove, a large amount of water body is blocked by the mixed guide ball to form backflow at the inner side of the backflushing inner cylinder, and at the moment, the backflow water body and the input water body form convection, so that the speed gradient in the liquid is improved, the cutting of bubbles is increased, and the size of the bubbles is effectively reduced;

2. according to the invention, larger bubbles in the water body are separated to the inner side of the upper end of the air-entraining connecting sleeve and accumulated continuously, the crushed small bubbles are mixed with the water body and then are conveyed from the inner side of the air-entraining connecting sleeve, and the bubbles are sucked by negative pressure at the inner side of the air-entraining through hole to be crushed when being accumulated, so that the bubbles are mixed with the water body conveniently, and the mixed water body is guided to the inner side of the water outlet seat conveniently, namely a fourth stage; can further refine the operation to the microbubble in the water through first broken piece and second broken piece, be convenient for improve the gas-liquid mixture effect, discharge from the bottom of play water stand, this is the fifth stage.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic structural diagram of a water-intake back-flushing mechanism according to the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a schematic cross-sectional view of the water outlet mechanism according to the present invention;

FIG. 5 is a schematic structural view of the bleed air deflector mechanism of the present invention;

FIG. 6 is a schematic structural view of the recoil inner barrel of the present invention;

FIG. 7 is a schematic cross-sectional view of the refining and mixing mechanism of the present invention;

fig. 8 is a schematic structural view of the hybrid guide ball of the present invention.

In the figure: 1. an outer layer heat insulation protection mechanism; 101. a first shield; 102. a second shield; 103. connecting a clamping block; 104. a seal ring; 2. a water outlet mechanism; 201. a water outlet base; 202. a conical diversion seat; 203. a limiting locking ring; 204. a first fragmentation slice; 205. a second crushing slice; 206. a diversion trench; 207. a first water outlet internal thread; 208. a second water outlet internal thread; 3. a bleed air guide mechanism; 301. a bleed air connection sleeve; 302. a first flow guide external thread; 303. a second flow guide external thread; 304. a bleed air through hole; 4. a water inlet backflushing mechanism; 401. a water inlet seat; 402. a water inlet hole; 403. a first water inlet internal thread; 404. back flushing the inner cylinder; 405. backflushing the diversion hole; 406. a second water inlet internal thread; 5. a refining and mixing mechanism; 501. a first stop collar; 502. a second stop collar; 503. positioning the inserted rod; 504. mixing the flow guide balls; 505. an elastic connecting sleeve; 506. a refining mixing tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a micro-nano bubble mixer comprises a water inlet backflushing mechanism 4, wherein the water inlet backflushing mechanism 4 comprises a water inlet seat 401, a water inlet hole 402, a first water inlet internal thread 403, a backflushing inner cylinder 404, a backflushing diversion hole 405 and a second water inlet internal thread 406, the first water inlet internal thread 403 is arranged on the inner wall of the upper end of the water inlet seat 401, the water inlet hole 402 is arranged on the inner side of the middle part of the water inlet seat 401, the backflushing inner cylinder 404 is fixedly installed at the bottom end of the water inlet seat 401, the backflushing diversion hole 405 is arranged on the inner side, which is positioned on the outer side of the upper end of the backflushing inner cylinder 404, the second water inlet internal thread 406 is arranged on the inner wall of the bottom end of the water inlet seat 401, a refining mixing mechanism 5 is installed at the bottom end of the backflushing inner cylinder 404, the refining mixing mechanism 5 comprises a first limiting sleeve 501, a second limiting sleeve 502, a positioning insertion rod 503, a mixing ball 504, an elastic connecting sleeve 505 and a refining mixing groove 506, the lower end surface of the first limiting sleeve 501 is installed, second stop collar 502 has mixed water conservancy diversion ball 504 with the inboard sliding connection of first stop collar 501, be convenient for carry out the gas-liquid mixture to a small amount of water through mixing water conservancy diversion ball 504, and can block a large amount of water, it is connected through location inserted bar 503 with second stop collar 502 to mix water conservancy diversion ball 504, the inboard that the outside at location inserted bar 503 middle part is located mixed water conservancy diversion ball 504 middle part is provided with elastic connection cover 505, the surface of mixing water conservancy diversion ball 504 evenly is provided with four and refines mixing tank 506, wholly separate out through the bubble to in the water, it is broken and refine, effectively improve gas-liquid mixing efficiency, and guarantee bubble content in the water, and the equipment of being convenient for is used.

Further, bleed water conservancy diversion mechanism 3 is installed to the bottom of intaking recoil mechanism 4, bleed water conservancy diversion mechanism 3 includes bleed water adapter sleeve 301, first water conservancy diversion external screw thread 302, second water conservancy diversion external screw thread 303 and bleed through-hole 304, the surface of bleed water adapter sleeve 301 bottom is provided with second water conservancy diversion external screw thread 303, the surface of bleed water adapter sleeve 301 upper end is provided with first water conservancy diversion external screw thread 302, the inboard of bleed water adapter sleeve 301 is provided with bleed through-hole 304, be convenient for through bleed water conservancy diversion mechanism 3 to appear and the breakage to the big bubble in the water.

Further, the bottom end of the air-entraining guide mechanism 3 is provided with a water outlet mechanism 2, the water outlet mechanism 2 comprises a water outlet base 201, a conical guide base 202, a limiting locking ring 203 and a first crushing piece 204, the water outlet device comprises a second crushing piece 205, a diversion trench 206, a first water outlet internal thread 207 and a second water outlet internal thread 208, wherein the first water outlet internal thread 207 is arranged on the inner wall of the upper end of the water outlet base 201, the diversion trench 206 is arranged on the upper end surface of the water outlet base 201, a conical diversion base 202 is arranged on the inner side of the middle part of the water outlet base 201, the bottom end of the conical diversion base 202 is connected with the water outlet base 201 through a limiting locking ring 203, the first crushing piece 204 is arranged on the inner side of the conical diversion base 202, the second crushing piece 205 is arranged on the inner side, below the first crushing piece 204, of the bottom end of the conical diversion base 202, the second water outlet internal thread 208 is arranged on the inner wall of the bottom end of the water outlet base 201, and further mixing of bubbles and water is facilitated through the water outlet mechanism 2.

Further, go out the outside of water seat 201 and install outer temperature protection mechanism 1 that separates, outer temperature protection mechanism 1 that separates includes first protection casing 101, second protection casing 102, connect fixture block 103 and sealing washer 104, first protection casing 101 is installed in the outside of sealing washer 104, second protection casing 102 is installed to the upper end of first protection casing 101, the upper end of first protection casing 101 is connected fixedly through six connection fixture blocks 103 with second protection casing 102, it is convenient for protect whole to separate temperature protection mechanism 1 through the outer layer, and can separate the temperature.

Further, the upper end of the first stop collar 501 is inserted into the inner side of the bottom end of the backflushing inner cylinder 404, the upper end of the second stop collar 502 is connected with the bottom end of the backflushing inner cylinder 404 through threads, the first stop collar 501 is connected with the backflushing inner cylinder 404 through the second stop collar 502, the mixed guide ball 504 is connected with the positioning insertion rod 503 through the elastic connecting sleeve 505, the inner side of the backflushing inner cylinder 404, the inner side of the first stop collar 501, the inner side of the bottom end of the second stop collar 502 and the refining mixing groove 506 are in through connection, gas-liquid mixing is conveniently performed on a small amount of water body through the mixed guide ball 504, and a large amount of water body can be blocked.

Further, the backflushing inner cylinder 404 and the water inlet seat 401 are integrally formed in an injection molding mode, the water inlet hole 402 is communicated with the backflushing inner cylinder 404 and the backflushing diversion hole 405, and the backflushing water body forms convection with the inlet water when flowing out of the backflushing diversion hole 405.

Further, the upper end of the air-entraining connecting sleeve 301 is connected with the water inlet seat 401 through a first flow guide external thread 302 and a second water inlet internal thread 406, the bottom end of the air-entraining connecting sleeve 301 is connected with the water outlet seat 201 through a second flow guide external thread 303 and a first water outlet internal thread 207, the upper end of the air-entraining connecting sleeve 301 is provided with a stepped groove, the stepped groove is in through connection with the flow guide groove 206 through an air-entraining through hole 304, and the air bubbles can be conveniently sucked and broken through the air-entraining through hole 304.

Further, the limiting locking ring 203 is connected with the water outlet seat 201 through threads, the first crushing piece 204 is connected with the limiting locking ring 203 through threads, the second crushing piece 205 is connected with the conical diversion seat 202 through the limiting locking ring 203, micro holes are formed in the upper end faces of the first crushing piece 204 and the second crushing piece 205, the micro holes are arranged in a staggered mode, and the conical diversion seat 202 can be conveniently installed in a limiting mode through the limiting locking ring 203.

Further, the inner side of the water outlet seat 201, the flow guide groove 206, the first crushing piece 204 and the second crushing piece 205 are all connected in a penetrating manner, the first protective cover 101 is connected with the water outlet seat 201 through the sealing ring 104, and the micro bubbles in the water body can be further refined through the first crushing piece 204 and the second crushing piece 205.

Further, the upper end of the first protection cover 101 and the bottom end of the second protection cover 102 are provided with clamping rings, six connecting clamping blocks 103 are clamped and fixed with the two clamping rings, and the structure is protected in a sealing mode conveniently through the first protection cover 101 and the second protection cover 102.

The working principle is as follows: when the device is used, whether the functions of all parts are intact is checked, the whole device is fixedly connected with a water pipeline of the hydrogen-enriched water purifier through the first water inlet internal thread 403 and the second water outlet internal thread 208, the upper end of the air-entraining connecting sleeve 301 is connected with the water inlet seat 401 through the first flow guide external thread 302 and the second water inlet internal thread 406, the bottom end of the air-entraining connecting sleeve 301 is fixedly connected with the upper end of the water outlet seat 201 through the second flow guide external thread 303 and the first water outlet internal thread 207, and a water body with the gas-liquid ratio of five percent is injected into the inner side of the water inlet seat 401 through the water inlet hole 402, so that the first stage is realized; the upper end of the backflushing inner cylinder 404 and the water inlet seat 401 are integrally injection-molded, so that water is input into the inner side of the backflushing inner cylinder 404, the bottom end of the backflushing inner cylinder 404 is connected with the second limiting sleeve 502 through threads, wherein the inner side of the backflushing inner cylinder 404, the inner side of the first limiting sleeve 501, the inner side of the bottom end of the second limiting sleeve 502 and the refining and mixing groove 506 are in through connection, so that when the water is in contact with the mixing guide ball 504, the mixing guide ball 504 can rotate on the inner sides of the first limiting sleeve 501 and the second limiting sleeve 502 through the connection of the positioning insertion rod 503, then a small amount of water is refined and crushed through the refining and mixing groove 506, a large amount of water is blocked by the mixing guide ball 504 to form backflow on the inner side of the backflushing inner cylinder 404, and then flows to the inner side of the water inlet seat 401 and the air-entraining connecting sleeve 301 from the backflushing guide hole 405, at the backflow and the water form convection, and the speed gradient in the liquid is improved, the cutting of the bubbles is increased, and the size of the bubbles is effectively reduced, which is the second stage; when the water body is conveyed to the inner side of the air-entraining connecting sleeve 301, the larger bubbles in the water body are separated to the inner side of the upper end of the air-entraining connecting sleeve 301 and are accumulated continuously, and the crushed small bubbles are mixed with the water body and then conveyed from the inner side of the air-entraining connecting sleeve 301, which is the third stage; the air-entraining through holes 304 are formed in the inner sides of the air-entraining connecting sleeves 301, so that when the bubbles are gathered, water is guided and conveyed synchronously from the inner sides of the air-entraining connecting sleeves 301 and the inner sides of the air-entraining through holes 304, the bubbles are sucked by negative pressure in the inner sides of the air-entraining through holes 304 to be broken, and are further conveniently mixed with the water, the air-entraining through holes 304 are communicated with the flow guide grooves 206, and the mixed water is conveniently guided to the inner sides of the water outlet seats 201, namely a fourth stage; the inboard of toper water conservancy diversion seat 202 is carried to the water after the broken mixture, first broken piece 204 all is connected with toper water conservancy diversion seat 202 through the screw thread with second broken piece 205, all be provided with miniature hole at the up end of first broken piece 204 with second broken piece 205, miniature hole is dislocation arrangement, make and to further refine the operation to the microbubble in the water through first broken piece 204 and second broken piece 205, be convenient for improve the gas-liquid mixture effect, discharge from the bottom of play water seat 201, this is the fifth stage.

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.

Claims (10)

1. The utility model provides a micro-nano bubble blender, includes into water recoil mechanism (4), its characterized in that: the water inlet backflushing mechanism (4) comprises a water inlet seat (401), a water inlet hole (402), a first water inlet internal thread (403), a backflushing inner cylinder (404), a backflushing diversion hole (405) and a second water inlet internal thread (406), wherein the first water inlet internal thread (403) is arranged on the inner wall of the upper end of the water inlet seat (401), the water inlet hole (402) is arranged on the inner side of the middle part of the water inlet seat (401), the backflushing inner cylinder (404) is fixedly arranged at the bottom end of the water inlet seat (401), the water diversion hole (405) is arranged on the inner side, located on the water inlet seat (401), of the outer side of the upper end of the backflushing inner cylinder (404), the second water inlet internal thread (406) is arranged on the inner wall of the bottom end of the water inlet seat (401), the refining mixing mechanism (5) is arranged at the bottom end of the backflushing inner cylinder (404), and the refining mixing mechanism (5) comprises a first limiting sleeve (501), a second limiting sleeve (502), Location inserted bar (503), mix water conservancy diversion ball (504), elastic connection cover (505) and refine mixing tank (506), second stop collar (502) are installed to the lower terminal surface of first stop collar (501), the inboard sliding connection of second stop collar (502) and first stop collar (501) has mixed water conservancy diversion ball (504), mixed water conservancy diversion ball (504) is connected through location inserted bar (503) with second stop collar (502), the outside at location inserted bar (503) middle part is located the inboard at mixed water conservancy diversion ball (504) middle part and is provided with elastic connection cover (505), the surface of mixed water conservancy diversion ball (504) evenly is provided with four and refines mixing tank (506).

2. The micro-nano bubble mixer of claim 1, wherein: bleed water conservancy diversion mechanism (3) are installed to the bottom of intaking recoil mechanism (4), bleed water conservancy diversion mechanism (3) are including bleed adapter sleeve (301), first water conservancy diversion external screw thread (302), second water conservancy diversion external screw thread (303) and bleed through-hole (304), the surface of bleed adapter sleeve (301) bottom is provided with second water conservancy diversion external screw thread (303), the surface of bleed adapter sleeve (301) upper end is provided with first water conservancy diversion external screw thread (302), the inboard of bleed adapter sleeve (301) is provided with bleed through-hole (304).

3. The micro-nano bubble mixer of claim 2, wherein: the water outlet mechanism (2) is installed at the bottom end of the air guide diversion mechanism (3), the water outlet mechanism (2) comprises a water outlet base (201), a conical diversion base (202), a limiting locking ring (203), a first crushing piece (204), a second crushing piece (205), a diversion trench (206), a first water outlet internal thread (207) and a second water outlet internal thread (208), the first water outlet internal thread (207) is arranged on the inner wall of the upper end of the water outlet base (201), the diversion trench (206) is arranged on the upper end surface of the water outlet base (201), the conical diversion base (202) is installed on the inner side of the middle part of the water outlet base (201), the bottom end of the conical diversion base (202) is connected with the water outlet base (201) through the limiting locking ring (203), the first crushing piece (204) is installed on the inner side of the conical diversion base (202), and the second crushing piece (205) is installed on the inner side of the lower part of the conical diversion base (202) below the first crushing piece (204), the inner wall of the bottom end of the water outlet seat (201) is provided with a second water outlet internal thread (208).

4. The micro-nano bubble mixer of claim 3, wherein: go out the outside of water stand (201) and install outer temperature-insulating protection mechanism (1), outer temperature-insulating protection mechanism (1) includes first protection casing (101), second protection casing (102), connects fixture block (103) and sealing washer (104), first protection casing (101) are installed in the outside of sealing washer (104), second protection casing (102) are installed to the upper end of first protection casing (101), the upper end of first protection casing (101) is connected fixedly through six connection fixture block (103) with second protection casing (102).

5. The micro-nano bubble mixer of claim 1, wherein: the upper end of first stop collar (501) is inserted to the inboard of recoil inner tube (404) bottom, threaded connection is passed through with the bottom of recoil inner tube (404) to the upper end of second stop collar (502), first stop collar (501) is connected through second stop collar (502) with recoil inner tube (404), mix water conservancy diversion ball (504) and location inserted bar (503) and be connected through elastic connection cover (505), the inboard of recoil inner tube (404), the inboard of first stop collar (501), the inboard of second stop collar (502) bottom and refine mixing groove (506) through connection.

6. The micro-nano bubble mixer of claim 1, wherein: the backflushing inner cylinder (404) and the water inlet seat (401) are integrally formed in an injection molding mode, and the water inlet hole (402) is communicated with the backflushing inner cylinder (404) and the backflushing diversion hole (405).

7. The micro-nano bubble mixer of claim 4, wherein: the upper end and the seat of intaking (401) of bleed adapter sleeve (301) are connected through first water conservancy diversion external screw thread (302) and second internal thread of intaking (406), the bottom and the seat of water outlet (201) of bleed adapter sleeve (301) are connected through second water conservancy diversion external screw thread (303) and first internal thread of water (207), the upper end of bleed adapter sleeve (301) is provided with the ladder groove, the ladder groove is through bleed through-hole (304) through connection with guiding gutter (206).

8. The micro-nano bubble mixer of claim 4, wherein: the water outlet seat is characterized in that the limiting locking ring (203) is in threaded connection with the water outlet seat (201), the first crushing piece (204) is in threaded connection with the limiting locking ring (203), the second crushing piece (205) is connected with the conical diversion seat (202) through the limiting locking ring (203), and micro holes are formed in the upper end faces of the first crushing piece (204) and the second crushing piece (205) and are arranged in a staggered mode.

9. The micro-nano bubble mixer of claim 4, wherein: the inner side of the water outlet seat (201), the flow guide groove (206), the first crushing piece (204) and the second crushing piece (205) are all in through connection, and the first protective cover (101) is connected with the water outlet seat (201) through a sealing ring (104).

10. The micro-nano bubble mixer of claim 4, wherein: the upper end of the first protective cover (101) and the bottom end of the second protective cover (102) are provided with clamping rings, and the six connecting clamping blocks (103) are clamped and fixed with the two clamping rings.

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