CN117142563A

CN117142563A - Water purifying treatment device

Info

Publication number: CN117142563A
Application number: CN202311408324.4A
Authority: CN
Inventors: 孙振坤; 高印军; 刘建; 卜庆伟; 刘强强; 于成忠; 孙欣然
Original assignee: Qingdao Xinyuan Environmental Protection Group Co ltd
Current assignee: Qingdao Xinyuan Environmental Protection Group Co ltd
Priority date: 2023-10-27
Filing date: 2023-10-27
Publication date: 2023-12-01
Anticipated expiration: 2043-10-27
Also published as: CN117142563B

Abstract

The invention relates to the technical field of sewage treatment, in particular to a water purifying treatment device, which comprises a top cover, wherein two ends of the top cover are connected with baffle plates, reinforcing rods are distributed in parallel on two sides of the top cover, the ends of the reinforcing rods are fixed on the baffle plates, one side of one baffle plate, which is opposite to the top cover, is provided with a feeding device, the other side of the other baffle plate, which is opposite to the top cover, is fixedly provided with two discharging pipes, and a power tool is distributed above the top cover.

Description

Water purifying treatment device

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a water purifying treatment device.

Background

The water pollution is caused by industrial and agricultural production of human beings and other social activities, and pollution of nitrate in water is no exception, agricultural nitrogen fertilizer, livestock and poultry excrement application, domestic sewage, leakage of nitrogenous industrial wastewater, leaching and infiltration of solid waste, recharging of sewage, acid rain, excessive exploitation of water and the like can cause the rise of nitrate concentration in water, the nitrate removal mechanism in water is basically the same as that of wastewater treatment, the nitrate removal technology is mainly divided into two types of physical and chemical treatment technology and biological treatment technology, the physical and chemical removal technology comprises an ion exchange resin method, a reverse osmosis membrane method, an electrodialysis membrane method and a catalysis method, and the biological treatment technology is technology for reducing nitrate in water by utilizing denitrification effect existing in nature and further adopting measures to strengthen the effect.

Aiming at the defects of low efficiency, high regeneration difficulty, poor stability, high operation cost, difficult byproduct treatment and the like of the existing domestic drinking water denitrification technology, a one-stop solution is provided around the problems of underground water and surface water nitrate treatment, and the aspects of water treatment materials, specific process and scheme guidance and the like, the nitrogen fixation adsorption, carrier replacement and autotrophic denitrification processes are fully combined, the Bio-IX denitrification concept is provided and successfully converted into a mature process package, the water treatment process is to control the inflow of raw water through an electric regulating butterfly valve, the automatic operation of dosing equipment is controlled through the feedback of inflow flow, the dosing amount is automatically regulated, the internal filling materials of the equipment are layered, the bottom, middle and high layers are different, each layer of filling material has different effects, the three stages of process treatments of nitrogen fixation adsorption, adsorption degradation and biological denitrification are sequentially carried out from bottom to top, and the nitrate removal efficiency is enhanced in a layer-by-layer progression.

The sewage treatment process involves the process of intercepting and adsorbing sewage by the adsorbent, a plurality of floating ball adsorbents float in the sewage flowing upwards, the adsorbent is encountered in the rising of the sewage, harmful substances in the sewage are sucked into the adsorbent, an interception net is required to be arranged above the adsorbent, so that the adsorbent cannot be carried away by a rising water flow, the service life of the adsorbent is limited, the adsorbent needs to be replaced periodically, and the problem of automatic material replacement is a technical research and development.

Disclosure of Invention

The present invention is directed to a water purifying apparatus, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a water purification treatment device, includes the top cap, the both ends of top cap all are connected with the baffle, and the equal parallel distribution in both sides of top cap has the stiffener, and the stiffener tip is fixed on the baffle, and one side of back to the top cap on one baffle is provided with the feed utensil, and one side of back to the top cap on another baffle is fixed with two discharging pipes, top cap top distribution has the power utensil, the top cap includes accuse frame, square screen panel, striking unit and semiconductor utensil, the inside slip of accuse frame is provided with square screen panel, is connected with a plurality of evenly distributed's striking unit between square screen panel and the accuse frame, the accuse frame both sides all are provided with the semiconductor utensil, and the both ends semiconductor utensil symmetric distribution.

Preferably, the swing control frame comprises a long square frame and shaft bodies fixed at two ends of the long square frame, the square net cover is plugged in the long square frame of the swing control frame, and the shaft bodies of the swing control frame are sleeved in through holes formed in the baffle plates.

Preferably, the striking unit includes unit frame, reset spring and direction post, direction post one end is fixed on square net cover, and the cover has reset spring on the direction post, and reset spring supports between the bulge loop on unit frame and reset spring, the unit frame includes the fixed concave folded plate of arc inboard and arc, and the arc tip of unit frame is fixed on the long square frame of accuse frame, and the direction post slides and passes two through-holes of seting up on the unit frame.

Preferably, the semiconductor device comprises a horizontal long plate, L-shaped branch pipes, a horizontal main pipe, an interception half cover and a screw conveyer, wherein the arc-shaped outer wall on one side of the horizontal long plate and a long square frame of the swing control frame are in sliding contact, the interception half cover is fixed on the other side of the horizontal long plate, a plurality of uniformly distributed L-shaped branch pipes penetrate through the horizontal long plate, one end of the horizontal main pipe penetrates through a baffle plate in parallel distribution above the horizontal long plate, the horizontal main pipe is connected with a feeding device, one end of the L-shaped branch pipe is fixedly communicated with the horizontal main pipe, and the other end of the L-shaped branch pipe faces the outer wall of the rectangular frame of the swing control frame.

Preferably, the interception half cover comprises an inclined screen plate and a U-shaped screen plate fixed on one side of the inclined screen plate, the spiral conveyer is distributed in the U-shaped screen plate, one end of the spiral conveyer penetrates through a discharge hole formed in the baffle plate, and the discharge hole in the baffle plate is communicated with the bottom end opening of the discharge pipe.

Preferably, the power tool comprises a rubber conveying belt, rubber blocks, limiting wheels, a transverse plate frame, auxiliary shifting frames, pushing wheels and long concave rails, a plurality of pushing wheels which are uniformly distributed are fixed below the transverse plate frame, direction columns are distributed on the moving path of the pushing wheels, two long concave rails which are symmetrically distributed are distributed above the pushing wheels, two rows of limiting wheels are clamped between the two long concave rails, the transverse plate frame supports and controls the limiting wheels, one rubber conveying belt is distributed above each pushing wheel, the transverse plate frame is driven by the rubber conveying belt through the fixed rubber blocks, one end of each auxiliary shifting frame is fixed on the transverse plate frame, and the auxiliary shifting frames and the feeding tools are in contact transmission.

Preferably, the cross plate frame is perpendicular to the long concave rail, the cross plate frame is parallel to the swing control frame, the cross plate frame above each push wheel is provided with a bump, and the bump is inserted into a groove formed in the rubber block.

Preferably, the feeding device comprises a feeding part, a pressure frame and a guide square cylinder, wherein the guide square cylinder slides through the pressure frame, the pressure frame comprises a folding column and an arc column with one end fixed, the arc column is in contact transmission with the auxiliary shifting frame, the other end of the folding column of the pressure frame is connected with the feeding part, and the guide square cylinder is fixed on the baffle plate.

Preferably, the feeding part comprises a one-way valve elastic sheet, a square cylinder shell, a reset elastic sheet, a square box and an L-shaped collecting and distributing pipe, one end of the transverse main pipe is fixedly communicated with the L-shaped collecting and distributing pipe, two one-way valve elastic sheets are distributed in the L-shaped collecting and distributing pipe, one end of the square cylinder shell is fixedly communicated with the L-shaped collecting and distributing pipe, the other end of the square cylinder shell is slidably inserted into the square box, and the reset elastic sheet is fixedly connected between the square box and the square cylinder shell.

Preferably, the edge of one side of the elastic sheet of the one-way valve is fixed on the inner wall of the L-shaped collecting and distributing pipe, the port of the square cylinder shell is distributed between the two elastic sheets of the one-way valve, one end of the L-shaped collecting and distributing pipe is a feeding port, and the other end of the L-shaped collecting and distributing pipe is blocked.

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

1. the invention can complete the replacement of the adsorbent in the sewage flow treatment, so that the whole water purification treatment work is not interrupted, the adsorbent replacement process realizes automatic control, and the old adsorbent can be collected and treated after being transferred through the discharge pipe set.

2. According to the invention, the old adsorbent is replaced by conveying the new adsorbent through the top cover, the older adsorbent is gradually far away from the top cover and is gradually close to the edge of the top cover, and finally the old adsorbent is transferred away by the spiral conveyor, so that the conveying mode can ensure that each adsorbent floating ball can sufficiently purify sewage.

Drawings

FIG. 1 is a schematic view of the present invention.

FIG. 2 is a schematic diagram of the structure of the present invention.

Fig. 3 is a schematic view of a top cover structure.

Fig. 4 is a schematic view of the structure of the striking unit.

FIG. 5 is a schematic view of the structure of the tapping pipe.

Fig. 6 is a schematic view of the position of the screw conveyor.

FIG. 7 is a schematic view of the position of the tapping pipe.

Fig. 8 is a schematic diagram of the power tool.

FIG. 9 is a schematic diagram of a feed tool.

Fig. 10 is a schematic view of the position of the push wheel.

Fig. 11 is a schematic diagram of a feeding section.

In the figure: top cover 1, baffle 2, reinforcing rod 3, feeding tool 4, discharging pipe 5, swing control frame 6, square screen 7, impact unit 8, semiconductor tool 9, power tool 10, unit frame 11, return spring 12, steering column 13, horizontal long plate 14, L-shaped branch pipe 15, horizontal main pipe 16, interception half cover 17, screw conveyor 18, rubber conveyer 19, rubber block 20, limiting wheel 21, horizontal plate frame 22, auxiliary pulling frame 23, push wheel 24, long concave rail 25, feeding part 26, pressure frame 27, guiding square cylinder 28, one-way valve spring 29, square cylinder shell 30, return spring 31, square box 32, L-shaped collecting and distributing pipe 33, spiral blade 181, small shaft frame 182, auxiliary shaft 183, auxiliary frame 231, and cushion wheel 232.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. Based on the technical solutions of the present invention, all other embodiments obtained by a person skilled in the art without making any creative effort fall within the protection scope of the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: the utility model provides a water purification treatment device, including top cap 1, the both ends of top cap 1 all are connected with baffle 2, the equal parallel distribution in both sides of top cap 1 has stiffener 3, stiffener 3 tip is fixed on baffle 2, one baffle 2 is gone up and is provided with feed utensil 4 to the one side of top cap 1 dorsad, one baffle 2 is gone up and is fixed with two discharging pipes 5 to the one side of top cap 1 dorsad, top cap 1 top distributes has power utensil 10, top cap 1 includes pendulum accuse frame 6, square screen panel 7, striking unit 8 and semiconductor 9, the inside slip of pendulum accuse frame 6 is provided with square screen panel 7, be connected with a plurality of evenly distributed's striking unit 8 between square screen panel 7 and the pendulum accuse frame 6, pendulum accuse frame 6 both sides all are provided with semiconductor 9, and both ends semiconductor 9 symmetric distribution.

As understood by referring to fig. 1 to 3, each top cover 1 is distributed on the ascending sewage flow path, a plurality of adsorbent floating balls are distributed under the top cover 1, the top cover 1 intercepts and holds the adsorbent, so that the sewage flow ascends to impact the adsorbent, the adsorbent absorbs harmful substances in the sewage, as the working time increases, old adsorbent needs to be transferred away, new adsorbent is filled under the top cover 1, and thus the sewage is guaranteed to be fully adsorbed and treated.

The swing control frame 6 comprises a long square frame and shaft bodies fixed at two ends of the long square frame, the square net cover 7 is plugged in the long square frame of the swing control frame 6, and the shaft bodies of the swing control frame 6 are sleeved in through holes formed in the baffle plate 2.

The striking unit 8 comprises a unit frame 11, a return spring 12 and a direction column 13, one end of the direction column 13 is fixed on the square net cover 7, the direction column 13 is sleeved with the return spring 12, the return spring 12 is supported between the unit frame 11 and a convex ring on the return spring 12, the unit frame 11 comprises an arc plate and a concave folded plate fixed on the inner side of the arc plate, the end part of the arc plate of the unit frame 11 is fixed on a long square frame of the swing control frame 6, and the direction column 13 slides through two through holes formed in the unit frame 11.

The semi-conductor 9 comprises a horizontal long plate 14, L-shaped branch pipes 15, a transverse main pipe 16, an interception half cover 17 and a screw conveyer 18, wherein one side of the horizontal long plate 14 is in sliding contact with the arc-shaped outer wall on the long square frame of the swing control frame 6, the interception half cover 17 is fixed on the other side of the horizontal long plate 14, a plurality of uniformly distributed L-shaped branch pipes 15 penetrate through the horizontal long plate 14, one end of the transverse main pipe 16 penetrates through the baffle 2 in parallel above the horizontal long plate 14, the transverse main pipe 16 is connected with the feeding device 4, one end of the L-shaped branch pipe 15 is fixedly communicated with the transverse main pipe 16, and the other end of the L-shaped branch pipe 15 faces the outer wall of the rectangular frame of the swing control frame 6.

The interception half cover 17 comprises an inclined screen plate and a U-shaped screen plate fixed on one side of the inclined screen plate, the spiral conveyer 18 is distributed in the U-shaped screen plate, one end of the spiral conveyer 18 penetrates through a discharge hole formed in the baffle plate 2, the discharge hole in the baffle plate 2 is communicated with the bottom end opening of the discharge pipe 5, referring to fig. 7, the spiral conveyer 18 comprises a spiral blade 181, a small shaft bracket 182 and a secondary shaft 183, the spiral blade 181 is fixed on the secondary shaft 183, the small shaft bracket 182 is distributed on two ends of the spiral blade 181, the small shaft bracket 182 is fixed on the interception half cover 17, the secondary shaft 183 is sleeved in a through hole in the small shaft bracket 182, a shaft body on the swing control frame 6 and the small shaft bracket 182 are respectively externally connected with driving mechanisms in the prior art, the shaft body of the swing control frame 6 can be driven through worm rotation, so that the swing control frame 6 is controlled to turn over and be static, and after the swing control frame 6 is turned over anticlockwise by a small angle, the bottom end opening of the L-shaped branch pipe 15 on the right side is not blocked by the right side of the horizontal 16 frame body, and the left side of the main pipe 15 is always blocked by the left side of the main pipe 15.

The power tool 10 comprises a rubber conveying belt 19, rubber blocks 20, limiting wheels 21, a transverse plate frame 22, auxiliary pushing frames 23, pushing wheels 24 and long concave rails 25, wherein a plurality of pushing wheels 24 which are uniformly distributed are fixed below the transverse plate frame 22, direction columns 13 are distributed on the moving path of the pushing wheels 24, two long concave rails 25 which are symmetrically distributed are distributed above the pushing wheels 24, two rows of limiting wheels 21 are clamped between the two long concave rails 25, the transverse plate frame 22 supports and controls the limiting wheels 21, one rubber conveying belt 19 is distributed above each pushing wheel 24, the transverse plate frame 22 is driven by the rubber blocks 20 on the rubber conveying belt 19, one end of each auxiliary pushing frame 23 is fixed on the transverse plate frame 22, and the auxiliary pushing frames 23 and the feeding tool 4 are in contact driving.

The transverse plate frame 22 is mutually perpendicular to the long concave rail 25, the transverse plate frame 22 is mutually parallel to the swing control frame 6, the transverse plate frame 22 above each push wheel 24 is provided with a convex block, the convex blocks are inserted into grooves formed in the rubber blocks 20, each push wheel 24 comprises an L-shaped towing bar and a large wheel, each auxiliary push frame 23 comprises an auxiliary frame 231 and a cushion wheel 232, the large wheel moves to meet the direction column 13 and can stir the direction column 13 once, the cushion wheel 232 can drive the primary feeding device 4 in the process, the specific drive on the power device 10 is that the rubber conveying belt 19 is externally connected with a driving mechanism in the prior art, the drawing top cover 1 is combined to understand that a row of water purifying devices are horizontally distributed, all the water purifying devices share one rubber conveying belt 19, the rubber conveying belt 19 conveys the rubber blocks 20, the rubber blocks 20 move to drive the transverse plate frame 22, the top cover 1 and the feeding device 4 on a one-by-one transmission path in the transverse plate frame 22, particularly the transverse plate frame 22 controls the large wheel, the large wheel toggles the direction column 13, the direction column 13 moves axially to drive the square screen 7, the square screen 7 drops quickly, when the swing control frame 6 tilts, and in combination with fig. 4, the square screen 7 drops obliquely to impact the adsorbent, and the pad wheel 232 toggles the control feeding tool 4 to complete one-time feeding, the cooperative process is that the square screen 7 impacts the adsorbent downwards quickly, the feeding tool 4 absorbs new adsorbent from the external feeding mechanism, the square screen 7 rises and resets, the feeding tool 4 injects part of the new adsorbent into a neutral gear zone below the square screen 7, the old adsorbent floats below the square screen 7 and the interception half cover 17, the old adsorbent rises quickly after impacting the old adsorbent, the old adsorbent floats slowly, thus a neutral space is reserved, the new adsorbent discharged from the L-shaped branch pipe 15 is padded between the two, the filling mode can ensure that the old adsorbent is discharged and transferred preferentially, new adsorbents are increasingly being presented to the clean water sites.

The feeding device 4 comprises a feeding part 26, a pressure frame 27 and a guide square cylinder 28, wherein the guide square cylinder 28 slides through the pressure frame 27, the pressure frame 27 comprises a folding column and an arc column with one end fixed, the arc column and the auxiliary shifting frame 23 are in contact transmission, the other end of the folding column of the pressure frame 27 is connected with the feeding part 26, and the guide square cylinder 28 is fixed on the baffle plate 2.

The feeding part 26 comprises a one-way valve elastic sheet 29, a square cylinder shell 30, a reset elastic sheet 31, a square box 32 and an L-shaped collecting and distributing pipe 33, one end of the transverse main pipe 16 is fixedly communicated with the L-shaped collecting and distributing pipe 33, two one-way valve elastic sheets 29 are distributed in the L-shaped collecting and distributing pipe 33, one end of the square cylinder shell 30 is fixedly communicated with the L-shaped collecting and distributing pipe 33, the other end of the square cylinder shell 30 is slidably inserted into the square box 32, and the reset elastic sheet 31 is fixedly connected between the square box 32 and the square cylinder shell 30.

One side edge of the one-way valve elastic sheet 29 is fixed on the inner wall of the L-shaped collecting and distributing tube 33, the port of the square cylinder shell 30 is distributed between the two one-way valve elastic sheets 29, one end of the L-shaped collecting and distributing tube 33 is a feeding port, and the other end of the L-shaped collecting and distributing tube is plugged.

Numerous adsorbent floating balls are gathered below the top cover 1, the top cover 1 wraps the adsorbent, so that the adsorbent is subjected to sewage purification treatment in a designated space, if the adsorbent needs to be replaced, the control side net cover 7 is required to impact the adsorbent floating balls obliquely downwards, the floating balls are impacted and obliquely fall down, then rise under the action of water buoyancy, after the floating balls are intercepted by the top cover 1 again, the floating balls are arranged in U-shaped net plate grooves of the interception half cover 17, namely the area controlled by the spiral conveyor 18, the spiral conveyor 18 rotates to guide the adsorbent floating balls to transfer and flow away, and referring to fig. 4, the state that the swing control frame 6 and the square net cover 7 face downwards is shown, if the adsorbent needs to be transferred, the control side net cover 7 and the swing control frame 6 face downwards in a right inclined mode or face downwards in a left inclined mode, the transmission control is realized by rotating a shaft body on the swing control frame 6 and then the inclined rear net cover 7 is used for impacting the adsorbent floating balls rapidly.

Referring to fig. 10, the push wheel 24 and the cushion wheel 232 move synchronously, the push wheel 24 presses the steering column 13, the cushion wheel 232 presses the pressure frame 27 at the same time, then the square screen 7 ascends and resets after impacting the adsorbent floating ball, the pressure frame 27 and the cushion wheel 232 separate, the pressure frame 27 is in the pressing stage, the feeder 4 absorbs the adsorbent supplied from the outside, the pressure frame 27 is in the resetting stage, the new adsorbent floating ball is injected under the top cover 1, referring to fig. 4 and 7, the old adsorbent is impacted and then floats up to the screw conveyor 18, the auxiliary shaft 183 rotates to convey the old adsorbent to the bottom opening of the discharge pipe 5, and then the old adsorbent ascends and transfers through the discharge pipe 5 to be discharged.

Referring to fig. 9 and 11, the principle of the new adsorbent delivery caused by the reciprocating movement of the pressure frame 27 is that when the pressure frame 27 is pressed, the pressure frame 27 drives the square box 32, the square box 32 moves away from the L-shaped collecting and distributing pipe 33, the L-shaped collecting and distributing pipe 33 is externally connected with a new adsorbent supply mechanism, thus the new adsorbent is sucked by the suction inside the L-shaped collecting and distributing pipe 33, after the pressure frame 27 loses pressing, the square box 32 is controlled to reset by the reset spring piece 31, the square box 32 approaches the L-shaped collecting and distributing pipe 33, the new adsorbent between the two one-way valve spring pieces 29 is extruded, the new adsorbent is then injected into the transverse main pipe 16, and then is discharged through the row of L-shaped branch pipes 15, and referring to fig. 4, when the swing control frame 6 and the square screen 7 are synchronously inclined, only one row of L-shaped branch pipes 15 can discharge the new adsorbent, and the new adsorbent floating balls are delivered along with the flow of water in the L-shaped collecting and distributing pipe 33.

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

Claims

1. A water purification treatment device comprising a top cover (1), characterized in that: the utility model discloses a high-speed impact device for the automobile, including top cap (1), baffle (2) are all connected with in both ends of top cap (1), and the equal parallel distribution in both sides of top cap (1) has stiffener (3), and stiffener (3) tip is fixed on baffle (2), and one side of one baffle (2) back to top cap (1) is provided with feed utensil (4), and one side of another baffle (2) back to top cap (1) is fixed with two discharging pipes (5), top cap (1) top distribution has power utensil (10), top cap (1) are including accuse frame (6), fang Wangzhao (7), striking unit (8) and semiconductor utensil (9), the inside slip of accuse frame (6) is provided with square screen (7), is connected with a plurality of evenly distributed's striking unit (8) between square screen (7) and the accuse frame (6), pendulum accuse frame (6) both sides all are provided with semiconductor utensil (9), and both ends semiconductor utensil (9) symmetric distribution.

2. A water purification apparatus according to claim 1, wherein: the swing control frame (6) comprises a long square frame and shaft bodies fixed at two ends of the long square frame, fang Wangzhao (7) is plugged in the long square frame of the swing control frame (6), and the shaft bodies of the swing control frame (6) are sleeved in through holes formed in the baffle plate (2).

3. A water purification apparatus according to claim 2, wherein: the impact unit (8) comprises a unit frame (11), a reset spring (12) and a direction column (13), one end of the direction column (13) is fixed on a Fang Wangzhao (7), the direction column (13) is sleeved with the reset spring (12), the reset spring (12) is supported between the unit frame (11) and a convex ring on the reset spring (12), the unit frame (11) comprises an arc plate and a concave folded plate fixed on the inner side of the arc plate, the end part of the arc plate of the unit frame (11) is fixed on a long square frame of the swing control frame (6), and the direction column (13) slides through two through holes formed in the unit frame (11).

4. A water treatment apparatus according to claim 3, wherein: the semiconductor device comprises a semiconductor device body and is characterized in that the semiconductor device body comprises a horizontal long plate (14), L-shaped branch pipes (15), a transverse main pipe (16), an interception half cover (17) and a screw conveyer (18), wherein one side of the horizontal long plate (14) is in sliding contact with an arc-shaped outer wall on a long square frame of a swing control frame (6), the interception half cover (17) is fixed on the other side of the horizontal long plate (14), a plurality of uniformly distributed L-shaped branch pipes (15) penetrate through the horizontal long plate (14), one end of the transverse main pipe (16) penetrates through a baffle (2) in parallel distribution above the horizontal long plate (14), the transverse main pipe (16) is connected with a feeding device (4), one end of the L-shaped branch pipe (15) is fixedly communicated with the transverse main pipe (16), and the other end of the L-shaped branch pipe (15) faces the outer wall of the rectangular frame of the swing control frame (6).

5. The water purifying apparatus according to claim 4, wherein: the interception half cover (17) comprises an inclined screen plate and a U-shaped screen plate fixed on one side of the inclined screen plate, the spiral conveyor (18) is distributed in the U-shaped screen plate, one end of the spiral conveyor (18) penetrates through a discharge hole formed in the baffle plate (2), and the discharge hole in the baffle plate (2) is communicated with the bottom end opening of the discharge pipe (5).

6. The water purifying apparatus according to claim 4, wherein: the power tool (10) comprises a rubber conveying belt (19), rubber blocks (20), limiting wheels (21), a transverse plate frame (22), auxiliary shifting frames (23), push wheels (24) and long concave rails (25), a plurality of push wheels (24) which are uniformly distributed are fixed below the transverse plate frame (22), direction columns (13) are distributed on the moving path of the push wheels (24), two long concave rails (25) which are symmetrically distributed are distributed above the push wheels (24), two rows of limiting wheels (21) are clamped between the two long concave rails (25), the transverse plate frame (22) supports the limiting wheels (21), one rubber conveying belt (19) is distributed above each push wheel (24), the transverse plate frame (22) is driven by the rubber conveying belt (19) through the fixed rubber blocks (20), one end of each auxiliary shifting frame (23) is fixed on the transverse plate frame (22), and the auxiliary shifting frame (23) and a feeding tool (4) are in contact transmission.

7. A water purification apparatus according to claim 6, wherein: the transverse plate frame (22) is perpendicular to the long concave rail (25), the transverse plate frame (22) is parallel to the swing control frame (6), the transverse plate frame (22) above each push wheel (24) is provided with a convex block, and the convex blocks are inserted into grooves formed in the rubber blocks (20).

8. A water purification apparatus according to claim 7, wherein: the feeding tool (4) comprises a feeding part (26), a pressure frame (27) and a guide square cylinder (28), wherein the guide square cylinder (28) slides through the pressure frame (27), the pressure frame (27) comprises a folding column and an arc column with one end fixed, the arc column is in contact transmission with an auxiliary shifting frame (23), the other end of the folding column of the pressure frame (27) is connected with the feeding part (26), and the guide square cylinder (28) is fixed on the baffle (2).

9. A water purification apparatus according to claim 8, wherein: the feeding part (26) comprises a one-way valve elastic piece (29), a Fang Tongke (30), a reset elastic piece (31), a square box (32) and an L-shaped collecting and distributing pipe (33), one end of the transverse main pipe (16) is fixedly communicated with the L-shaped collecting and distributing pipe (33), two one-way valve elastic pieces (29) are distributed in the L-shaped collecting and distributing pipe (33), one end of the square cylinder shell (30) is fixedly communicated with the L-shaped collecting and distributing pipe (33), the other end of the square cylinder shell (30) is slidably inserted into the square box (32), and the reset elastic piece (31) is fixedly connected between the square box (32) and the Fang Tongke (30).

10. A water purification apparatus according to claim 9, wherein: one side edge of the one-way valve elastic sheet (29) is fixed on the inner wall of the L-shaped collecting and distributing pipe (33), ports of the square cylinder shell (30) are distributed between the two one-way valve elastic sheets (29), one end of the L-shaped collecting and distributing pipe (33) is a feeding port, and the other end of the L-shaped collecting and distributing pipe is blocked.