CN114988407A - Water flow surrounding impact type flexible rinsing equipment for activated carbon - Google Patents

Abstract

The invention discloses a water flow surrounding impact type flexible rinsing device for activated carbon, which comprises a water flow surrounding impact type flexible rinsing component, a quick taking-out sliding mechanism, a rinsing base, a rinsing liquid outlet and a rinsing container. The invention belongs to the field of activated carbon rinsing, and particularly relates to water flow surrounding impact type flexible rinsing equipment for activated carbon; according to the invention, through the research on the problem that the activated carbon cannot cause serious abrasion of granular activated carbon during rinsing while achieving a better rinsing effect, the water flow surrounding impact type flexible rinsing assembly is arranged, and the rotary drums I and II are filled with the activated carbon, so that the abrasion of the granular activated carbon can be reduced to the greatest extent while ensuring a higher rinsing effect, and the quality of the finished activated carbon is improved.

Description

Water flow surrounding impact type flexible rinsing equipment for activated carbon

Technical Field

The invention belongs to the technical field of activated carbon rinsing, and particularly relates to water flow surrounding impact type flexible rinsing equipment for activated carbon.

Background

In the prior art, the granular activated carbon needs rinsing and other processes in practical application, and aims to reduce ash content of the granular activated carbon, regulate pH value of the granular activated carbon, remove floating ash and improve strength. At present, the traditional water rinsing or water washing and polishing method is mainly completed by a mechanical stirring tank. A fixed amount of water and hydrochloric acid was added to the tank, and the tank was rinsed by mechanical agitation.

However, the existing activated carbon rinsing method is relatively serious in abrasion to the granular activated carbon, floating ash on the surfaces of the granules cannot be removed, the washing is not sufficient, and the rinsed activated carbon and rinsing liquid are inconvenient to take out separately, so that a water flow surrounding impact type flexible rinsing device for the activated carbon is required to be provided to solve the technical problems.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides water flow surrounding impact type flexible rinsing equipment for activated carbon, which effectively solves the technical problems that the activated carbon and rinsing liquid are inconvenient to take out independently after the activated carbon is rinsed and the granular activated carbon is seriously abraded during rinsing in the current market.

The technical scheme adopted by the invention is as follows: the invention provides water flow surrounding impact type flexible rinsing equipment for activated carbon, which comprises a water flow surrounding impact type flexible rinsing component, a quick taking-out sliding mechanism, a rinsing base, a rinsing liquid outlet and a rinsing container, wherein the rinsing container is fixedly connected in the rinsing base, the rinsing liquid outlet is formed in the side wall of the rinsing container, the quick taking-out sliding mechanism is formed in the rinsing container, and the water flow surrounding impact type flexible rinsing component is arranged on the quick taking-out sliding mechanism in a transmission connection mode.

Preferably, the water flow surrounding impact type flexible rinsing component comprises a fixed circular ring, inner side teeth, a central driving gear, a first rolling gear, a second rolling gear, a central driving shaft, a first rolling gear shaft, a second rolling gear shaft, a central stirring rod, a first rotating roller, a second rotating roller, a first activated carbon shielding hole and a second activated carbon shielding hole, wherein the fixed circular ring is arranged on the quick-taking-out sliding mechanism, the inner side teeth are arranged on the inner wall of the fixed circular ring in a surrounding manner, the central driving shaft is arranged on the quick-taking-out sliding mechanism, the central driving gear penetrates through and is fixedly connected onto the central driving shaft, one end of the first rolling gear is meshed with the central driving gear, the other end of the first rolling gear is meshed with the inner side teeth, one end of the second rolling gear is meshed with the central driving gear, the other end of the second rolling gear is meshed with the inner side teeth in a rolling manner, the first rolling gear shaft is arranged on the first rolling gear, the rolling gear shaft II is arranged on the rolling gear shaft II, the first rotating roller is fixedly connected to the bottom of the rolling gear shaft I, the second rotating roller is fixedly connected to the bottom of the rolling gear shaft II, the central stirring rod is fixedly connected to the bottom of the central driving shaft, the active carbon shielding hole array penetrates through the side wall of the first rotating roller, and the active carbon shielding hole array penetrates through the side wall of the second rotating roller.

Further, the sliding mechanism capable of being quickly taken out comprises a top sliding plate, a sliding groove, a sliding guide rail, a fixed vertical plate, an electric cylinder, a cylinder body bracket, a circular ring fixing rod, an annular guide groove, a first arc-shaped sliding block, a second arc-shaped sliding block, a bending fixing frame, a rinsing driving motor, a driving bevel gear and a driven bevel gear, wherein the fixed vertical plate is fixedly connected to the top of a rinsing container, the sliding guide rail is fixedly connected to the fixed vertical plate, the cylinder body bracket is fixedly connected to the fixed vertical plate, a machine body of the electric cylinder is fixedly connected to the bottom of the cylinder body bracket, the top sliding plate is fixedly connected to the output end of the electric cylinder, the sliding groove is arranged on the top sliding plate, the top sliding plate is slidably arranged on the sliding guide rail through the embedded sliding groove, one end of the circular ring fixing rod is fixedly connected to the bottom of the top sliding plate, the other end of the circular ring fixing rod is fixedly connected to the fixed circular ring, and the annular guide groove is arranged at the bottom of the top sliding plate, the first arc-shaped sliding block is arranged in the annular guide groove in a sliding mode in an embedded mode, the second arc-shaped sliding block is arranged in the annular guide groove in a sliding mode in an embedded mode, the bending fixing frame is fixedly connected to the bottom of the top sliding plate, the machine body of the rinsing driving motor is arranged on the bending fixing frame, the driving bevel gear is arranged on the output end of the rinsing driving motor, and the driven bevel gear is arranged on the bending fixing frame in a rotating mode.

Furthermore, the first rotary roller is hinged with a first active carbon taking and placing door, and the second rotary roller is hinged with a second active carbon taking and placing door.

The first rolling gear shaft is rotatably arranged at the bottom of the first arc-shaped sliding block, and the second rolling gear shaft is rotatably arranged at the bottom of the second arc-shaped sliding block.

Preferably, the first rotary drum and the second rotary drum are hollow cylinders.

In order to control the entire water flow around the impact type flexible rinsing assembly by the movement of the driving bevel gear, the shaft of the driven bevel gear is connected to the top of the central driving shaft.

Furthermore, two groups of circular fixing rods are arranged.

Further, the driving bevel gear and the driven bevel gear are in meshed connection.

In order to guide the first rolling gear and the second rolling gear, the first arc-shaped sliding block rotates circumferentially in the annular guide groove through the first rolling gear shaft, and the second arc-shaped sliding block rotates circumferentially in the annular guide groove through the second rolling gear shaft.

Wherein, the tip of central puddler extends to the bottom in the rinsing container, and central puddler does not contact with rotary drum one, rotary drum two mutually.

The invention adopting the structure has the following beneficial effects: this scheme provides a rivers for active carbon encircle flexible rinsing equipment of striking formula, has effectively solved the inconvenient technical problem who takes out alone of active carbon and rinsing liquid after the active carbon rinsing on the existing market, granule active carbon wearing and tearing are comparatively serious when rinsing, and this kind of method possesses following advantage:

(1) the invention not only achieves better rinsing effect when rinsing the active carbon, but also can not cause serious abrasion of the granular active carbon during rinsing, a water flow surrounding impact type flexible rinsing component is arranged, when in use, a rinsing driving motor is only started to control a driving bevel gear to rotate, a driven bevel gear rotates to drive a central driving shaft to rotate, a central driving gear rotates to drive a rolling gear I and a rolling gear II to rotate respectively, the rolling gear I and the rolling gear II roll along inner side teeth in a circumferential meshing manner, a fixed circular ring is kept fixed through a circular ring fixing rod in the rolling process of the rolling gear I and the rolling gear II, a rolling gear shaft I and a rolling gear shaft II synchronously rotate along with the rolling gear I and the rolling gear II, and an arc sliding block I and an arc sliding block II circumferentially slide along an annular guide groove, the first rotary roller and the second rotary roller synchronously move along with the first rolling gear shaft and the second rolling gear shaft, namely the first rotary roller and the second rotary roller rotate circularly and rotate per se, the first active carbon taking and placing door and the second active carbon taking and placing door are opened in advance, sufficient active carbon needing rinsing is put into the first rotary roller and the second rotary roller, so that the first rotary roller and the second rotary roller are filled with active carbon, the first active carbon taking and placing door and the second active carbon taking and placing door are closed, the first rotary roller and the second rotary roller are sealed, the active carbon cannot leak out from the first active carbon shielding hole and the second active carbon shielding hole, prepared rinsing liquid is poured into a rinsing container in advance, the central stirring rod rotates along with the central driving shaft, and the first rotary roller and the second rotary roller are synchronously moved, The rotary drum II rotates circularly and rotates per se, so that the active carbon in the rotary drum I and the rotary drum II is fully combined with the rinsing liquid in the rinsing container, and the active carbon is filled in the rotary drum I and the rotary drum II, so that the abrasion of the granular active carbon per se can be reduced as much as possible when a high rinsing effect is ensured, and the quality of the finished active carbon is improved;

(2) the defect that the active carbon is difficult to rapidly take out in the prior art is overcome, a rapid taking-out sliding mechanism is designed, the output end of an electric cylinder is controlled to withdraw after rinsing is finished, then a top sliding plate slides upwards along a sliding guide rail through a sliding groove, and due to the arrangement of a circular fixing rod, a first rolling gear shaft, a second rolling gear shaft and a central driving shaft, the top sliding plate synchronously drives a first rotating roller, a second rotating roller and a central stirring rod to ascend when ascending, so that the first rotating roller and the second rotating roller are separated from a rinsing container quickly, the first active carbon taking-out door and the second active carbon taking-out door can be opened, the active carbon after rinsing in the first rotating roller and the second rotating roller can be conveniently and rapidly taken out, the rinsing liquid can be discharged by opening a rinsing liquid outlet, and the electric cylinder is controlled again to enable the first rotating roller, the second rotating roller, The central stirring rod enters the rinsing container, so that the activated carbon can be quickly taken out after rinsing.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a water flow surrounding impact type flexible rinsing device for activated carbon provided by the invention;

FIG. 2 is a schematic view of the inside of a part of the structure of a water flow surrounding impact type flexible rinsing device for activated carbon provided by the invention;

FIG. 3 is a schematic structural diagram of a water flow circulating impact type flexible rinsing assembly provided by the present invention;

FIG. 4 is a perspective view of a stationary ring, inner teeth, a central drive gear, a first roller gear, a second roller gear, a central drive shaft, a drive bevel gear and a driven bevel gear according to the present invention;

FIG. 5 is a partial bottom view of the water flow circulating impact type flexible rinsing assembly provided by the present invention;

FIG. 6 is a bottom sectional view of a part of the structure of the water flow circulating impact type flexible rinsing assembly provided by the present invention;

fig. 7 is a schematic bottom view of the top sliding plate, the sliding groove, the annular guide groove, the first arc-shaped sliding block, the second arc-shaped sliding block, the first rolling gear shaft and the second rolling gear shaft provided by the invention.

Wherein, 1, a water flow surrounding impact type flexible rinsing component, 2, a quick taking-out sliding mechanism, 3, a rinsing base, 4, a rinsing liquid outlet, 5, a rinsing container, 6, a fixed ring, 7, inner side teeth, 8, a central driving gear, 9, a first rolling gear, 10, a second rolling gear, 11, a central driving shaft, 12, a first rolling gear shaft, 13, a second rolling gear shaft, 14, a central stirring rod, 15, a first rotating roller, 16, a second rotating roller, 17, a first activated carbon shielding hole, 18, a second activated carbon shielding hole, 19, a top sliding plate, 20, a sliding groove, 21, a sliding guide rail, 22, a fixed vertical plate, 23, an electric cylinder, 24, a cylinder body bracket, 25, a ring fixing rod, 26, an annular guide groove, 27, a first arc sliding block, 28, a second arc sliding block, 29, a bending fixing frame, 30, a rinsing driving motor, 31 and a driving bevel gear, 32. driven bevel gear, 33, active carbon access door I, 34, active carbon access door II.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

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; all other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, the invention provides a water flow surrounding impact type flexible rinsing device for activated carbon, which comprises a water flow surrounding impact type flexible rinsing component 1, a quick taking-out sliding mechanism 2, a rinsing base 3, a rinsing liquid outlet 4 and a rinsing container 5, wherein the rinsing container 5 is fixedly connected in the rinsing base 3, the rinsing liquid outlet 4 is arranged on the side wall of the rinsing container 5, the quick taking-out sliding mechanism 2 is arranged on the rinsing container 5, and the water flow surrounding impact type flexible rinsing component 1 is in transmission connection with the quick taking-out sliding mechanism 2.

As shown in fig. 2-6, the water flow surrounding impact type flexible rinsing component 1 comprises a fixed ring 6, inner side teeth 7, a central driving gear 8, a first rolling gear 9, a second rolling gear 10, a central driving shaft 11, a first rolling gear shaft 12, a second rolling gear shaft 13, a central stirring rod 14, a first rotating roller 15, a second rotating roller 16, a first activated carbon shielding hole 17 and a second activated carbon shielding hole 18, wherein the fixed ring 6 is arranged on the quick-taking out sliding mechanism 2, the inner side teeth 7 are arranged on the inner wall of the fixed ring 6 in a surrounding manner, the central driving shaft 11 is arranged on the quick-taking out sliding mechanism 2, the central driving gear 8 penetrates and is fixedly connected onto the central driving shaft 11, one end of the first rolling gear 9 is meshed with the central driving gear 8, the other end of the first rolling gear 9 is meshed with the inner side teeth 7 in a rolling manner, one end of the second rolling gear 10 is meshed with the central driving gear 8, the other end of the rolling gear II 10 is meshed with the rolling gear II and is arranged on the inner side teeth 7 in a rolling mode, the rolling gear shaft I12 is arranged on the rolling gear I9, the rolling gear shaft II 13 is arranged on the rolling gear II 10, the rotary roller I15 is fixedly connected to the bottom of the rolling gear shaft I12, the rotary roller II 16 is fixedly connected to the bottom of the rolling gear shaft II 13, the central stirring rod 14 is fixedly connected to the bottom of the central driving shaft 11, the active carbon shielding hole I17 array penetrates through the side wall of the rotary roller I15, and the active carbon shielding hole II 18 array penetrates through the side wall of the rotary roller II 16.

As shown in fig. 2-7, the quick-removal sliding mechanism 2 includes a top sliding plate 19, a sliding groove 20, a sliding guide rail 21, a fixed vertical plate 22, an electric cylinder 23, a cylinder bracket 24, a ring fixing rod 25, an annular guide groove 26, a first arc-shaped slider 27, a second arc-shaped slider 28, a bending fixing frame 29, a rinsing driving motor 30, a driving bevel gear 31 and a driven bevel gear 32, wherein the fixed vertical plate 22 is fixedly connected to the top of the rinsing container 5, the sliding guide rail 21 is fixedly connected to the fixed vertical plate 22, the cylinder bracket 24 is fixedly connected to the fixed vertical plate 22, a body of the electric cylinder 23 is fixedly connected to the bottom of the cylinder bracket 24, the top sliding plate 19 is fixedly connected to an output end of the electric cylinder 23, the sliding groove 20 is disposed on the top sliding plate 19, the top sliding plate 19 is slidably disposed on the sliding guide rail 21 through the sliding groove 20, one end of the ring fixing rod 25 is fixedly connected to the bottom of the top sliding plate 19, the other end rigid coupling of ring dead lever 25 is on fixed ring 6, the bottom of top sliding plate 19 is located to annular guide way 26, one 27 gomphosis of arc-shaped sliding block slides and locates in annular guide way 26, two 28 gomphosis of arc-shaped sliding block slide and locate in annular guide way 26, buckle mount 29 rigid couplings in the bottom of top sliding plate 19, rinse driving motor 30's fuselage is located and is buckled on mount 29, drive bevel gear 31 is located on rinse driving motor 30's the output, driven bevel gear 32 rotates and locates on the mount 29 of buckling.

As shown in FIG. 3, the first rotary drum 15 is hinged with a first activated carbon access door 33, and the second rotary drum 16 is hinged with a second activated carbon access door 34.

As shown in fig. 3 and 7, the first rolling gear shaft 12 is rotatably disposed at the bottom of the first arc-shaped slider 27, the second rolling gear shaft 13 is rotatably disposed at the bottom of the second arc-shaped slider 28, the first rotating roller 15 and the second rotating roller 16 are hollow cylinders, the shaft of the driven bevel gear 32 is connected to the top of the central driving shaft 11, and two sets of circular fixing rods 25 are disposed, and the driving bevel gear 31 and the driven bevel gear 32 are in meshed connection.

As shown in fig. 7, the first arc slider 27 is circumferentially rotated in the annular guide groove 26 by the first rolling gear shaft 12, and the second arc slider 28 is circumferentially rotated in the annular guide groove 26 by the second rolling gear shaft 13.

As shown in fig. 2, the end of the central stirring rod 14 extends to the bottom of the rinsing container 5, and the central stirring rod 14 is not in contact with the first rotary drum 15 and the second rotary drum 16.

When the device is used specifically, the driving bevel gear 31 can be controlled to rotate only by starting the rinsing driving motor 30, then the driven bevel gear 32 rotates to drive the central driving shaft 11 to rotate, then the central driving gear 8 rotates to drive the first rolling gear 9 and the second rolling gear 10 to rotate respectively, then the first rolling gear 9 and the second rolling gear 10 respectively carry out circumferential meshing rolling along the inner side teeth 7, in the rolling process of the first rolling gear 9 and the second rolling gear 10, the fixed ring 6 is kept fixed through the ring fixing rod 25, the first rolling gear shaft 12 and the second rolling gear shaft 13 synchronously rotate along with the first rolling gear 9 and the second rolling gear 10, at the moment, the first arc sliding block 27 and the second arc sliding block 28 circumferentially slide along the annular guide groove 26 to provide support and guide for the first rolling gear 9 and the second rolling gear 10, and then the first rotary roller 15, The rotating drum II 16 moves synchronously along with the rolling gear shaft I12 and the rolling gear shaft II 13, namely the rotating drum I15 and the rotating drum II 16 rotate along with the circumferential rotation, the first active carbon taking and placing door I33 and the second active carbon taking and placing door I34 are opened in advance, sufficient active carbon needing to be rinsed is put into the rotating drum I15 and the rotating drum II 16, the rotating drum I15 and the rotating drum II 16 are filled with the active carbon, then the first active carbon taking and placing door I33 and the second active carbon taking and placing door I34 are closed, the rotating drum I15 and the rotating drum II 16 are sealed at the moment, the active carbon cannot leak out from the first active carbon shielding hole I17 and the second active carbon shielding hole 18, rinsing liquid prepared is poured into the rinsing container 5 in advance, the central stirring rod 14 rotates along with the central driving shaft 11, and the rotating drum I15 and the rotating drum II 16 rotate along with the circumferential rotation, the active carbon in the first rotary roller 15 and the second rotary roller 16 is fully combined with the rinsing liquid in the rinsing container 5, and the first rotary roller 15 and the second rotary roller 16 are filled with the active carbon, so that the abrasion of the granular active carbon can be reduced as much as possible when a higher rinsing effect is ensured The second rotary drum 16 and the central stirring rod 14 ascend, so that the first rotary drum 15 and the second rotary drum 16 are separated from the rinsing container 5 quickly, the first active carbon taking and placing door 33 and the second active carbon taking and placing door 34 can be opened, the rinsed active carbon in the first rotary drum 15 and the rinsed active carbon in the second rotary drum 16 can be taken out conveniently and quickly, the rinsing liquid can be discharged by opening the rinsing liquid outlet 4, and the electric cylinder 23 is controlled again when the device is used next time, so that the first rotary drum 15, the second rotary drum 16 and the central stirring rod 14 can enter the rinsing container 5, and the rinsed active carbon can be taken out quickly.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A water current surrounding impact type flexible rinsing equipment for activated carbon is characterized in that: encircle striking flexible rinsing subassembly (1), swiftly take out slide mechanism (2), rinsing base (3), rinsing liquid export (4) and rinsing container (5) including rivers, rinsing container (5) rigid coupling is in rinsing base (3), on the lateral wall of rinsing container (5) is located in rinsing liquid export (4), swiftly take out slide mechanism (2) and locate on rinsing container (5), rivers encircle striking flexible rinsing subassembly (1) transmission connection and locate swiftly take out on slide mechanism (2).

2. The water flow surrounding impact type flexible rinsing apparatus for activated carbon according to claim 1, wherein: the water flow surrounding impact type flexible rinsing component (1) comprises a fixed circular ring (6), inner side teeth (7), a central driving gear (8), a rolling gear I (9), a rolling gear II (10), a central driving shaft (11), a rolling gear shaft I (12), a rolling gear shaft II (13), a central stirring rod (14), a rotary roller I (15), a rotary roller II (16), an active carbon shielding hole I (17) and an active carbon shielding hole II (18), wherein the fixed circular ring (6) is arranged on the quickly taken sliding mechanism (2), the inner side teeth (7) are arranged on the inner wall of the fixed circular ring (6) in a surrounding manner, the central driving shaft (11) is arranged on the quickly taken sliding mechanism (2), the central driving gear (8) penetrates through and is fixedly connected to the central driving shaft (11), one end of the rolling gear I (9) is meshed with the central driving gear (8), the other end of the first rolling gear (9) is meshed with and arranged on the inner side teeth (7) in a rolling way, one end of the second rolling gear (10) is meshed with the central driving gear (8), the other end of the rolling gear II (10) is meshed with and rolled on the inner side teeth (7), the rolling gear shaft I (12) is arranged on the rolling gear I (9), the rolling gear shaft II (13) is arranged on the rolling gear II (10), the first rotating roller (15) is fixedly connected to the bottom of the first rolling gear shaft (12), the second rotary roller (16) is fixedly connected to the bottom of the second rolling gear shaft (13), the central stirring rod (14) is fixedly connected with the bottom of the central driving shaft (11), the first active carbon shielding holes (17) are arranged on the side wall of the first rotary drum (15) in an array penetrating way, and the second active carbon shielding holes (18) are arranged on the side wall of the second rotary drum (16) in an array manner.

3. The water flow surrounding impact type flexible rinsing apparatus for activated carbon according to claim 2, wherein: the quick-taking-out sliding mechanism (2) comprises a top sliding plate (19), a sliding groove (20), a sliding guide rail (21), a fixed vertical plate (22), an electric cylinder (23), a cylinder body support (24), a circular ring fixing rod (25), an annular guide groove (26), a first arc-shaped sliding block (27), a second arc-shaped sliding block (28), a bending fixing frame (29), a rinsing driving motor (30), a driving bevel gear (31) and a driven bevel gear (32), wherein the fixed vertical plate (22) is fixedly connected to the top of a rinsing container (5), the sliding guide rail (21) is fixedly connected to the fixed vertical plate (22), the cylinder body support (24) is fixedly connected to the fixed vertical plate (22), the body of the electric cylinder (23) is fixedly connected to the bottom of the cylinder body support (24), the top sliding plate (19) is fixedly connected to the output end of the electric cylinder (23), the sliding groove (20) is formed in the top sliding plate (19), the top sliding plate (19) is embedded and arranged on the sliding guide rail (21) in a sliding way through the sliding groove (20), one end of the circular ring fixing rod (25) is fixedly connected with the bottom of the top sliding plate (19), the other end of the circular ring fixing rod (25) is fixedly connected to the fixed circular ring (6), the annular guide groove (26) is arranged at the bottom of the top sliding plate (19), the first arc-shaped sliding block (27) is embedded and slidably arranged in the annular guide groove (26), the second arc-shaped sliding block (28) is embedded and slidably arranged in the annular guide groove (26), the bending fixed frame (29) is fixedly connected with the bottom of the top sliding plate (19), the body of the rinsing drive motor (30) is arranged on the bending fixed frame (29), the drive bevel gear (31) is arranged on the output end of the rinsing drive motor (30), the driven bevel gear (32) is rotatably arranged on the bending fixing frame (29).

4. The water flow surrounding impact type flexible rinsing apparatus for activated carbon according to claim 3, wherein: and a first active carbon taking and placing door (33) is hinged on the first rotary drum (15), and a second active carbon taking and placing door (34) is hinged on the second rotary drum (16).

5. The water flow circulating impact type flexible rinsing device for activated carbon according to claim 4, characterized in that: the rolling gear shaft I (12) is rotatably arranged at the bottom of the arc-shaped sliding block I (27), and the rolling gear shaft II (13) is rotatably arranged at the bottom of the arc-shaped sliding block II (28).

6. The water flow surrounding impact type flexible rinsing apparatus for activated carbon according to claim 5, wherein: the first rotary drum (15) and the second rotary drum (16) are hollow drums.

7. The water flow circulating impact type flexible rinsing device for activated carbon according to claim 6, characterized in that: the shaft of the driven bevel gear (32) is connected to the top of the central driving shaft (11).

8. The water flow surrounding impact type flexible rinsing apparatus for activated carbon according to claim 7, wherein: two groups of circular ring fixing rods (25) are arranged.

9. The water flow surrounding impact type flexible rinsing apparatus for activated carbon according to claim 8, wherein: the driving bevel gear (31) and the driven bevel gear (32) are in meshed connection.

10. The water flow surrounding impact type flexible rinsing apparatus for activated carbon according to claim 9, wherein: arc slider (27) carry out the circular rotation in annular guide way (26) through rolling gear axle one (12), arc slider two (28) carry out the circular rotation in annular guide way (26) through rolling gear axle two (13), the tip of center puddler (14) extends to the bottom in rinsing container (5), center puddler (14) and rotary drum one (15), rotary drum two (16) are not contacted each other.

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