CN108558036B

CN108558036B - Shallow water formula quality of water normal position environment remediation's of environmental protection field device

Info

Publication number: CN108558036B
Application number: CN201810242176.6A
Authority: CN
Inventors: 谢远平
Original assignee: Jiangsu Nanshui Ecological Engineering Co Ltd
Current assignee: Jiangsu Nanshui Ecological Engineering Co.,Ltd.
Priority date: 2018-03-22
Filing date: 2018-03-22
Publication date: 2020-08-25
Anticipated expiration: 2038-03-22
Also published as: CN108558036A

Abstract

The invention discloses a shallow water type water quality in-situ environment restoration device in the environmental protection field, which structurally comprises a balance support mechanism, a water quality in-situ restoration barrel and a solar power device, wherein the lower surface of the solar power device is welded with the upper surface of the water quality in-situ restoration barrel and is vertical to the upper surface of the water quality in-situ restoration barrel, the lower surface of the water quality in-situ restoration barrel is welded with the upper surface of the balance support mechanism and is vertical to the upper surface of the balance support mechanism, the upper surface of the balance support mechanism is parallel to the lower surface of the solar power device, the water quality in-situ restoration barrel comprises a water raising aeration mechanism, a water storage mechanism and a barrel wall, the two water raising aeration mechanisms are embedded and installed at two ends of the barrel wall, and the water storage mechanism is arranged in the barrel wall. Thereby achieving the effect of restoring the water environment.

Description

Shallow water formula quality of water normal position environment remediation's of environmental protection field device

Technical Field

The invention relates to a shallow water type water quality in-situ environment restoration device in the field of environmental protection, and belongs to the technical field of environment restoration.

Background

The conventional water quality restoration in China usually adopts a centralized treatment method, in detail, polluted water is drained to a fixed sewage treatment place through a ditch or a pipeline, the place consists of water pools with various sizes and shapes and various devices, the polluted water flows through each water pool, and the water is purified and restored by the prior art under the action of microorganisms, medicaments and devices.

In the prior art, various medicaments are usually added to repair a water body, and when the medicament dosage is too large, reverse pollution is easily caused, so that algae overgrowth is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a shallow water type water quality in-situ environment restoration device in the field of environmental protection, and solves the problem that reverse pollution is easily caused when the dosage of a medicament is too large to cause excessive growth of algae when various medicaments are added to restore a water body in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a device that shallow water formula quality of water normal position environment was restoreed in environmental protection field, its structure includes balanced supporting mechanism, quality of water normal position restoration section of thick bamboo, solar power ware lower surface welds and mutually perpendicular with quality of water normal position restoration section of thick bamboo upper surface mutually, quality of water normal position restoration section of thick bamboo lower surface welds and mutually perpendicular with balanced supporting mechanism upper surface mutually, balanced supporting mechanism upper surface and solar power ware lower surface are and be parallel to each other, quality of water normal position restoration section of thick bamboo is including pumping up water aeration mechanism, retaining mechanism, section of thick bamboo wall, pumping up water aeration mechanism total two and the embedding is installed at section of thick bamboo wall both ends, be equipped with retaining mechanism in the section of thick bamboo wall, retaining mechanism locates pumping up water aeration mechanism.

Further, the solar power device comprises a solar power storage mechanism, a water pumping mechanism, a power mechanism and a power device shell, wherein the solar power storage mechanism is arranged in the power device shell, the water pumping mechanism is arranged at the lower end of the solar power storage mechanism, the power mechanism is arranged on each of two sides of the water pumping mechanism, and the power mechanism is arranged at the lower end of the solar power storage mechanism.

Further, balanced supporting mechanism includes kickboard, screw rod, gravity board, nut, the laminating of kickboard lower surface and gravity board upper surface, the screw rod upper end runs through in gravity board lower extreme and mutually perpendicular, screw rod upper end embedding is installed at the kickboard lower extreme and mutually perpendicular, nut upper end embedding is installed at the gravity board lower extreme.

Further, the water pumping and aerating mechanism comprises a first transmission belt, a telescopic rod, a balance wheel, a telescopic rod sleeve, a first support rod, a vertical rod, a punching sleeve, a punching rod, a second support rod, a fixed column and a guide sleeve, the upper end of the fixing column is welded with the lower end of the punching sleeve and is vertical to the lower end of the punching sleeve, the outer surface of the punching rod is attached to the inner surface of the punching sleeve and is positioned at the same axis, the right lower end of the second supporting rod is connected with the stamping rod through a pin, the left upper end of the second supporting rod is connected with the vertical rod through a pin, the upper end of the vertical rod is connected with the lower end of the first supporting rod through a pin, the outer surface of the lower end of the telescopic rod is attached to the inner surface of the upper end of the telescopic rod sleeve and is positioned at the same axis, the lower end of the telescopic rod sleeve is connected with the upper end of the first supporting rod through a pin, and the inner surface of the guide sleeve is attached to the outer surface of the vertical rod and is positioned in the same axis.

Further, the water storage mechanism comprises a water storage tank, a sleeve ring and a sealing plate, wherein the water storage tank is arranged at the upper end of the sealing plate, and the lower end of the sleeve ring is embedded in the middle of the sealing plate and is positioned on the same axis.

Further, solar energy power storage mechanism includes waterproof glass board, power cord, solar power source conversion group, battery, fixed bolster, power supply terminal, laminating and mutually perpendicular on waterproof glass board lower surface and the solar power source conversion group, the left end of solar power source conversion group is installed in the embedding of power cord right-hand member, the battery upper end is installed in the embedding of power cord lower extreme, the right-hand member is installed in the embedding of fixed bolster left end, the power supply terminal left end welds and mutually perpendicular with the battery right-hand member.

Further, the mechanism of drawing water includes first little ratchet, chain, leads smooth frame, the little ratchet of second, fixed sliding block, soft gluey head, drinking-water pipe, sealing ring, pull rod, the embedding of pull rod lower extreme is installed at soft gluey first upper end and mutually perpendicular, the laminating of soft gluey first surface and drinking-water pipe internal surface, the embedding of drinking-water pipe lower extreme is installed at the sealing ring lower extreme, the pull rod upper end with lead smooth frame lower extreme welding and mutually perpendicular, lead fixed sliding block back embedding and install smooth frame front end and mutually perpendicular, fixed sliding block back and chain front end welding, the little ratchet of second upper end meshes with the chain upper end mutually, first little ratchet lower extreme meshes with the chain lower extreme mutually.

Further, the power mechanism comprises a first bevel gear, a first large ratchet wheel, a motor, a second bevel gear, a worm wheel, a first belt pulley, a first small support rod, a second belt pulley, a swing clamping knife, a second transmission belt, an inclined ratchet wheel, a third support rod, a circular wheel, a rear top knife, a fixing block, a sliding frame, a rotating shaft, a worm wheel rod, a third transmission belt, an intermittent turntable, an intermittent fish head wheel, a bottom plate and a conducting wire, wherein the upper end of the bottom plate is welded with the lower end of the motor and is vertical to the lower end of the motor, the front end of the motor is embedded and installed in the middle of the first large ratchet wheel and is vertical to the first large ratchet wheel, the front end of the first large ratchet wheel is welded with the back of the first bevel gear and is in the same axis, the front end of the first bevel gear is meshed with the back of the second bevel gear, the left end of the rotating shaft is embedded and installed at, the upper end of the worm wheel rod is meshed with the lower end of the worm wheel and is perpendicular to the lower end of the worm wheel, the worm wheel is connected with the intermittent rotary table through a third transmission belt, the right end of the intermittent rotary table is attached to the left end of an intermittent fish head wheel, the right end of the intermittent fish head wheel is embedded and installed at the left end of a sliding frame, the left end of a conducting wire is embedded and installed on a bottom plate, the back of the sliding frame is embedded and installed at the front end of a fixed block, the upper end of the sliding frame is connected with a round wheel through a pin, the lower end of a third supporting rod is connected with the round wheel through a pin, the upper left end of a swinging clamping knife is connected with the upper left end of a third supporting rod through a pin, the lower.

Furthermore, the lower end of the chain is meshed with the upper end of a first large pulley, the lower surface of the bottom plate is welded with the inner surface of the lower end of the power device shell and is perpendicular to the inner surface of the lower end of the power device shell, the right end of the conductive wire is welded with the left end of the power terminal, the lower end of the fixed support is welded with the inner surface of the lower end of the power device shell, the left end of the stamping sleeve is embedded and penetrates through the cylinder wall, and the balance wheel is connected with the first pulley through a transmission.

Furthermore, the upper end of the cylinder wall is welded with the lower end of the solar power device and is positioned at the same axis, the lower end of the cylinder wall is welded with the upper end of the balance support mechanism and is perpendicular to the upper end of the balance support mechanism, the lower end of the sealing ring is embedded in the upper end of the balance support mechanism, the upper end of the guide sleeve is embedded in the lower end of the solar power device and is perpendicular to the lower end of the solar power device, the upper end of the pull rod is embedded in the lower end of the solar power device and is perpendicular to the lower end of the.

Advantageous effects

The invention relates to a shallow water type water quality in-situ environment restoration device in the environmental protection field, which converts solar energy into electric energy through a solar energy power supply conversion group in a solar energy power storage mechanism, transmits the electric energy to a storage battery through a power line for storage and standby use, leads the electric energy out through a power supply terminal, transmits the electric energy to a motor through a round wheel in a power mechanism, starts to work after the motor is electrified, drives a fixed slide block welded on a chain to move along with the chain by driving a first large ratchet wheel to transfer motion from three directions, the first large ratchet wheel is meshed with the lower end of the chain through the upper end, drives the chain to rotate around a first small ratchet wheel and a second small ratchet wheel, drives a sliding guide frame to slide along with the chain, drives a pull rod welded with the sliding guide slide block to reciprocate under the sliding of the fixed slide block, generates suction in a water pumping pipe when a soft rubber head moves upwards along with the pull rod, and leads water to enter a, the first bevel gear welded with the first large ratchet wheel rotates along with the motor and is meshed with the second bevel gear, so that the rotating shaft transmits the motion to the worm wheel rod welded with the rotating shaft, the worm wheel is meshed with the worm wheel rod and is used for transmitting the motion, when a balance wheel in the water pumping aeration mechanism upwards pulls the telescopic rod sleeve, the second support rod fixed on the storage battery and the stamping rod through pins moves upwards and simultaneously pushes the stamping rod outwards and rapidly, the stamping rod pushes partial water to impact outwards, the water is sprayed outwards at high pressure through the vertical rod to complete aeration, the stamping rod realizes reciprocating high-pressure impact motion through the rotation of the telescopic rod, the left end motion and the right end motion of the first small ratchet wheel are in reverse same transmission, and the design adopts a pollution-free mechanical water pumping aeration mode to spray oxygenated water in a high-pressure mode, so that the release of bottom mud pollutants and the growth inhibition effect of algae can be realized, thereby achieving the effect of restoring the water environment.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a shallow water type water quality in-situ environment remediation device in the environmental protection field;

FIG. 2 is a schematic view of the internal structure of a shallow water type water quality in-situ environment remediation device in the environmental protection field;

FIG. 3 is a detailed structural diagram of the interior of the shallow water type water quality in-situ environmental remediation device in the environmental protection field;

FIG. 4 is an enlarged partial schematic view of FIG. 3;

FIG. 5 is a schematic diagram of the detailed internal structure of the shallow water type water quality in-situ environmental remediation device in the environmental protection field;

FIG. 6 is an enlarged partial schematic view of FIG. 5;

fig. 7 is a partially enlarged schematic view of fig. 5.

In the figure: the device comprises a balance supporting mechanism-1, a water quality in-situ restoration cylinder-2, a solar power device-3, a water pumping and aerating mechanism-21, a water storage mechanism-22, a cylinder wall-23, a solar power storage mechanism-31, a water pumping mechanism-32, a power mechanism-33, a power device shell-34, a floating plate-11, a screw-12, a gravity plate-13, a screw cap-14 and a water pumping and aerating mechanism-21, wherein the water pumping and aerating mechanism-21 comprises a first transmission belt-211, a telescopic rod-212, a balance wheel-213, a telescopic rod sleeve-214, a first support rod-215, a vertical rod-216, a punching sleeve-217, a punching rod-218, a second support rod-219, a fixed rod-2110, a guide sleeve-2111, a water storage tank-221, a sleeve-222, a sealing plate, A waterproof glass plate-311, a power line-312, a solar power supply conversion group-313, a storage battery-314, a fixed support-315, a power supply terminal-316, a first small ratchet-321, a chain-322, a guide sliding frame-323, a second small ratchet-324, a fixed sliding block-325, a soft rubber head-326, a water pumping pipe-327, a sealing ring-328, a pull rod-329, a first bevel gear-331, a first large ratchet-332, a motor-333, a second bevel gear-334, a worm wheel-335, a first belt wheel-336, a first small support rod-337, a second small support rod-338, a second belt wheel-339, a swing clamp knife-3310, a second transmission belt-3311, an inclined ratchet wheel-3312, a third support rod-3313, a round wheel-3314, a power supply terminal-316, a first large ratchet-, Rear top knife-3315, fixed block-3316, carriage-3317, rotary shaft-3318, worm-gear-3319, third driving belt-3320, intermittent rotary disc-3321, intermittent fish head wheel-3322, bottom plate-3323, and conducting wire-3324.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, and fig. 7, the present invention provides a technical solution of a shallow water type water quality in-situ environmental remediation apparatus in the environmental protection field: the structure of the solar water quality in-situ restoration device comprises a balance supporting mechanism 1, a water quality in-situ restoration cylinder 2 and a solar power device 3, wherein the lower surface of the solar power device 3 is welded with the upper surface of the water quality in-situ restoration cylinder 2 and is vertical to the upper surface of the water quality in-situ restoration cylinder 2, the lower surface of the water quality in-situ restoration cylinder 2 is welded with the upper surface of the balance supporting mechanism 1 and is vertical to the upper surface of the balance supporting mechanism, the upper surface of the balance supporting mechanism 1 is parallel to the lower surface of the solar power device 3, the water quality in-situ restoration cylinder 2 comprises a water pumping aeration mechanism 21, a water storage mechanism 22 and a cylinder wall 23, the two water pumping aeration mechanisms 21 are embedded and installed at two ends of the cylinder wall 23, the water storage mechanism 22 is arranged in the cylinder wall 23, the water storage mechanism 22 is arranged at the lower end of the water pumping aeration mechanism 21, the solar power device, the lower end of the solar electric power storage mechanism 31 is provided with a water pumping mechanism 32, the power mechanism 33 is respectively arranged at two sides of the water pumping mechanism 32, the power mechanism 33 is arranged at the lower end of the solar electric power storage mechanism 31, the balance support mechanism 1 comprises a floating plate 11, a screw 12, a gravity plate 13 and a nut 14, the lower surface of the floating plate 11 is attached to the upper surface of the gravity plate 13, the upper end of the screw 12 penetrates through the lower end of the gravity plate 13 and is mutually vertical, the upper end of the screw 12 is embedded in the lower end of the floating plate 11 and is mutually vertical, the upper end of the nut 14 is embedded in the lower end of the gravity plate 13, the lift water aeration mechanism 21 comprises a first transmission belt 211, a telescopic rod 212, a balance wheel 213, a telescopic rod sleeve 214, a first support rod 215, a vertical rod 216, a stamping sleeve 217, a stamping rod 218, a second support rod 219,

fixed columns

2110 and 2111, the upper ends of the fixed columns 2110, the outer surface of the stamping rod 218 is attached to the inner surface of the stamping sleeve 217 and located at the same axis, the right lower end of the second support rod 219 is connected with the stamping rod 218 through a pin, the left upper end of the second support rod 219 is connected with the vertical rod 216 through a pin, the upper end of the vertical rod 216 is connected with the lower end of the first support rod 215 through a pin, the outer surface of the lower end of the telescopic rod 212 is attached to the inner surface of the upper end of the telescopic rod sleeve 214 and located at the same axis, the lower end of the telescopic rod sleeve 214 is connected with the upper end of the first support rod 215 through a pin, the inner surface of the guide sleeve 2111 is attached to the outer surface of the vertical rod 216 and located at the same axis, the water storage mechanism 22 comprises a water storage tank 221, a collar 222 and a sealing plate 223, the upper end of the sealing plate 223 is provided with the water, The water pumping mechanism 32 comprises a first small ratchet 321, a chain 322, a guide sliding frame 323, a second small ratchet 324, a fixed sliding block 325, a soft rubber head 326, a water pumping pipe 327, a sealing ring 328 and a pull rod 329, the lower end of the pull rod 329 is embedded and installed at the upper end of the soft rubber head 326 and is mutually vertical, the outer surface of the soft rubber head 326 is attached to the inner surface of the water pumping pipe 327, the lower end of the pumping pipe 327 is embedded in the lower end of the sealing ring 328, the upper end of the pull rod 329 is welded to the lower end of the guide sliding frame 323 and is perpendicular to the lower end, the back of the guide fixing sliding block 325 is embedded in the front end of the sliding frame 323 and is perpendicular to the same, the back of the fixing sliding block 325 is welded to the front end of the chain 322, the upper end of the second small ratchet wheel 324 is engaged with the upper end of the chain 322, the lower end of the first small ratchet wheel 321 is engaged with the lower end of the chain 322, the power mechanism 33 comprises a first bevel gear 331, a first large ratchet wheel 332, a motor 333, a second bevel gear 334, a worm wheel 335, a first belt pulley 336, a first small support rod 337, a second small support rod 338, a second belt pulley 339, a swing clamp 3310, a second transmission belt 3311, an inclined ratchet wheel 3312, a third support rod 3313, a circular wheel 3314, a rear top knife 5, a fixing block 6, a carriage 3317, a rotating, An intermittent rotary table 3321, an intermittent fish head wheel 3322, a bottom plate 3323, a conductive wire 3324, wherein the upper end of the bottom plate 3323 is welded to the lower end of the motor 333 and is perpendicular to each other, the front end of the motor 333 is embedded in the middle of the first large ratchet wheel 332 and is perpendicular to each other, the front end of the first large ratchet wheel 332 is welded to the back of the first bevel gear 331 and is coaxially located, the front end of the first bevel gear 331 is engaged with the back of the second bevel gear 334, the left end of the rotating shaft 3318 is embedded in the right end of the second bevel gear 334 and is perpendicular to each other, the right end of the rotating shaft 3318 is welded to the left end of the worm rod 3319 and is coaxially located, the upper end of the worm rod 3319 is engaged with the lower end of the worm wheel 335 and is perpendicular to each other, the worm wheel 335 is connected to the intermittent rotary table 3321 through a third transmission belt 3320, the right end of the intermittent rotary table 3321 is attached to the, the left end of the conductive wire 3324 is embedded and installed on the bottom plate 3323, the back of the carriage 3317 is embedded and installed at the front end of the fixing block 3316, the upper end of the carriage 3317 is connected with the round wheel 3314 through a pin, the lower end of the third support rod 3313 is connected with the round wheel 3314 through a pin, the upper left end of the swing clamp 3310 is connected with the upper left end of the third support rod 3313 through a pin, the lower right end of the swing clamp 3310 is attached with the upper left end of the inclined ratchet 3312, the lower end of the inclined ratchet 3312 is attached with the upper end of the rear top knife 3315, the lower end of the chain 322 is engaged with the upper end of the first large ratchet 332, the lower surface of the bottom plate 3323 is welded and mutually perpendicular to the inner surface of the lower end of the power unit housing 34, the right end of the conductive wire 3324 is welded with the left end of the power terminal, the lower end of the fixing support 315 is welded with the inner surface of the lower end of the power, the upper end of the cylinder wall 23 is welded with the lower end of the solar power device 3 and is positioned at the same axis, the lower end of the cylinder wall 23 is welded with the upper end of the balance support mechanism 1 and is perpendicular to the upper end of the balance support mechanism 1, the lower end of the sealing ring 328 is embedded in the upper end of the balance support mechanism 1, the upper end of the guide sleeve 2111 is embedded in the lower end of the solar power device 3 and is perpendicular to the lower end of the solar power device 3, the upper end of the pull rod 329 is embedded in the lower end of the solar power device 3 and is perpendicular to the lower

The chain 322 described in this patent is typically a metallic link or ring that is used for mechanical transmission, traction, and links that obstruct traffic paths (e.g., chains used mechanically in streets, rivers, or harbor entrances, the worm 3319 is typically used to transmit motion and power between two alternating shafts, the worm gear and worm correspond to a gear and rack in the middle plane, and the worm is similar to a screw in shape.

When the solar water storage device is used, the solar power is converted into electric energy by the solar power conversion group 313 in the solar power storage mechanism 31, the electric energy is transmitted to the storage battery 314 through the power cord 312 for storage, standby and use, the electric energy is led out through the power terminal 316 and is transmitted to the motor 333 by the round wheel 3324 in the power mechanism 33, the motor 333 starts to work after being electrified, the first large ratchet wheel 332 automatically rotates to transmit motion in three directions, the first large ratchet wheel 332 is meshed with the lower end of the chain 322 through the upper end, the chain 322 is driven to rotate around the first small ratchet wheel 321 and the second small ratchet wheel 324, the fixed sliding block 325 welded on the chain 322 is driven to move along with the chain 322, the guide sliding frame 323 drives the pull rod 329 welded with the guide sliding block 325 to do reciprocating motion under the sliding of the fixed sliding block 325, when the soft rubber head 326 moves upwards along with the pull rod 329, suction force is generated in the water pumping pipe 327, and water enters the water pumping and aerating mechanism 21, the first bevel gear 331 welded to the first large ratchet 332 rotates along with the motor 333 and is engaged with the second bevel gear 334, so that the rotating shaft 3318 transmits the motion to the worm wheel rod 3319 welded to the rotating shaft 3318, the worm wheel 335 transmits the motion to the worm wheel rod 3319 due to the engagement of the worm wheel 335 and the worm wheel rod 3319, when the balance wheel 213 in the water pumping aeration mechanism 21 pulls the telescopic rod sleeve 214 upwards, the second support rod 219 fixed to the storage battery 314 and the ram rod 218 through the pin moves upwards and simultaneously pushes the ram rod 218 outwards, the ram rod 218 pushes part of the water to impact outwards, the water is sprayed outwards at high pressure through the vertical rod 216 to complete aeration, the ram rod 218 realizes reciprocating high-pressure impact motion through the rotation of the telescopic rod 212, and the left end motion and the right end motion of the first small ratchet 331 are in the same reverse transmission.

The invention solves the problem that the prior art usually repairs the water body by adding various medicaments, and reverse pollution is easily caused when the medicament dosage is too large, so that the excessive growth of algae is caused.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a prosthetic device of shallow water formula quality of water normal position environment in environmental protection field, its structure includes balanced supporting mechanism (1), quality of water normal position restoration section of thick bamboo (2), solar power ware (3), its characterized in that:

the solar water quality in-situ restoration device comprises a solar power device (3), a balance support mechanism (1), a water storage mechanism (22) and a cylinder wall (23), wherein the lower surface of the solar power device (3) is welded with the upper surface of a water quality in-situ restoration cylinder (2) and is vertical to the upper surface of the water quality in-situ restoration cylinder (2), the lower surface of the water quality in-situ restoration cylinder (2) is welded with the upper surface of the balance support mechanism (1) and is vertical to the upper surface of the balance support mechanism (1), the upper surface of the balance support mechanism (1) is parallel to the lower surface of the solar power device (3), the water quality in-situ restoration cylinder (2) comprises two water raising aeration mechanisms (21), the water storage mechanisms (22) are arranged in the cylinder wall (23), and;

the solar power device (3) comprises a solar power storage mechanism (31), a water pumping mechanism (32), a power mechanism (33) and a power device shell (34), wherein the solar power storage mechanism (31) is arranged in the power device shell (34), the water pumping mechanism (32) is arranged at the lower end of the solar power storage mechanism (31), the power mechanism (33) is respectively arranged at two sides of the water pumping mechanism (32), and the power mechanism (33) is arranged at the lower end of the solar power storage mechanism (31);

the balance supporting mechanism (1) comprises a floating plate (11), a screw rod (12), a gravity plate (13) and a screw cap (14), wherein the lower surface of the floating plate (11) is attached to the upper surface of the gravity plate (13), the upper end of the screw rod (12) penetrates through the lower end of the gravity plate (13) and is perpendicular to the gravity plate, the upper end of the screw rod (12) is embedded in the lower end of the floating plate (11) and is perpendicular to the gravity plate, and the upper end of the screw cap (14) is embedded in the lower end of the gravity plate (13);

the water raising and aerating mechanism (21) comprises a first transmission belt (211), an expansion link (212), a balance wheel (213), an expansion link sleeve (214), a first support rod (215), a vertical rod (216), a punching sleeve (217), a punching rod (218), a second support rod (219), a fixed column (2110) and a guide sleeve (2111), wherein the upper end of the fixed column (2110) is welded with the lower end of the punching sleeve (217) and is vertical to each other, the outer surface of the punching rod (218) is attached to the inner surface of the punching sleeve (217) and is positioned at the same axis, the right lower end of the second support rod (219) is connected with the punching rod (218) through a pin, the left upper end of the second support rod (219) is connected with the vertical rod (216) through a pin, the upper end of the vertical rod (216) is connected with the lower end of the first support rod (215) through a pin, the outer surface of the lower end of the expansion link (212) is, the lower end of the telescopic rod sleeve (214) is connected with the upper end of the first support rod (215) through a pin, and the inner surface of the guide sleeve (2111) is attached to the outer surface of the vertical rod (216) and is positioned at the same axis;

the water storage mechanism (22) comprises a water storage tank (221), a sleeve ring (222) and a sealing plate (223), the water storage tank (221) is arranged at the upper end of the sealing plate (223), and the lower end of the sleeve ring (222) is embedded in the middle of the sealing plate (223) and is positioned on the same axis;

the solar power storage mechanism (31) comprises a waterproof glass plate (311), a power line (312), a solar power conversion group (313), a storage battery (314), a fixed support (315) and a power terminal (316), wherein the lower surface of the waterproof glass plate (311) is attached to the upper end of the solar power conversion group (313) and is mutually perpendicular to the upper end of the waterproof glass plate, the right end of the power line (312) is embedded in the left end of the solar power conversion group (313), the lower end of the power line (312) is embedded in the upper end of the storage battery (314), the left end of the storage battery (314) is embedded in the right end of the fixed support (315), and the left end of the power terminal (316) is welded to the right end of the storage battery;

the water pumping mechanism (32) comprises a first small ratchet wheel (321), a chain (322), a guide sliding frame (323), a second small ratchet wheel (324), a fixed sliding block (325), a soft rubber head (326), a water pumping pipe (327), a sealing ring (328) and a pull rod (329), wherein the lower end of the pull rod (329) is embedded and installed at the upper end of the soft rubber head (326) and is vertical to each other, the outer surface of the soft rubber head (326) is attached to the inner surface of the water pumping pipe (327), the lower end of the water pumping pipe (327) is embedded and installed at the lower end of the sealing ring (328), the upper end of the pull rod (329) is welded and vertical to the lower end of the guide sliding frame (323), the back of the fixed sliding block (325) is embedded and installed at the front end of the sliding frame (323) and is vertical to each other, the fixed sliding block (325) is welded to the front end of the chain (322), and the, the lower end of the first small ratchet wheel (321) is meshed with the lower end of the chain (322);

the power mechanism (33) comprises a first bevel gear (331), a first large ratchet wheel (332), a motor (333), a second bevel gear (334), a worm wheel (335), a first belt pulley (336), a first small support rod (337), a second small support rod (338), a second belt pulley (339), a swing clamping knife (3310), a second transmission belt (3311), an inclined ratchet wheel (3312), a third support rod (3313), a round wheel (3314), a rear top knife (3315), a fixed block (3316), a carriage (3317), a rotating shaft (3318), a worm wheel rod (3319), a third transmission belt (3320), an intermittent rotary disc (3321), an intermittent fish head wheel (3322), a bottom plate (3323) and a conductive wire (3324), wherein the upper end of the bottom plate (3323) is welded with the lower end of the motor (333) and mutually perpendicular to the lower end of the motor (333), the front end of the motor (333) is embedded in the middle of the first large ratchet wheel (332) and mutually, the front end of the first large ratchet wheel (332) is welded with the back of a first bevel gear (331) and is positioned at the same axis, the front end of the first bevel gear (331) is meshed with the back of a second bevel gear (334), the left ends of the rotating shafts (3318) are embedded and installed at the right end of the second bevel gear (334) and are perpendicular to each other, the right end of the rotating shafts (3318) is welded with the left end of a worm gear rod (3319) and is positioned at the same axis, the upper end of the worm gear rod (3319) is meshed with the lower end of a worm gear (335) and is perpendicular to each other, the worm gear (335) is connected with an intermittent rotary disc (3321) through a third transmission belt (3320), the right end of the intermittent rotary disc (3321) is attached to the left end of an intermittent fish head wheel (3322), the right end of the intermittent fish head wheel (33122) is embedded and installed at the left end of a carriage (3317), the left end of the conductive wire (3324) is embedded and installed on a bottom plate (, the upper end of the sliding frame (3317) is connected with a round wheel (3314) through a pin, the lower end of the third supporting rod (3313) is connected with the round wheel (3314) through a pin, the left upper end of the swing clamping knife (3310) is connected with the left upper end of the third supporting rod (3313) through a pin, the right lower end of the swing clamping knife (3310) is attached to the left upper end of the inclined ratchet wheel (3312), and the lower end of the inclined ratchet wheel (3312) is attached to the upper end of the rear top knife (3315);

the lower end of the chain (322) is meshed with the upper end of a first large ratchet wheel (332), the lower surface of the bottom plate (3323) is welded with the inner surface of the lower end of the power device shell (34) and is vertical to the inner surface of the lower end of the power device shell (34), the right end of the conductive wire (3324) is welded with the left end of a power terminal, the lower end of the fixed support (315) is welded with the inner surface of the lower end of the power device shell (34), the left end of the punching sleeve (217) is embedded and penetrates through the cylinder wall (23), and the balance wheel (213) is connected with a first belt pulley (336) through a;

the upper end of the cylinder wall (23) is welded with the lower end of the solar power device (3) and is positioned at the same axis, the lower end of the cylinder wall (23) is welded with the upper end of the balance support mechanism (1) and is vertical to the balance support mechanism, the lower end of the sealing ring (328) is embedded in the upper end of the balance support mechanism (1), the upper ends of the guide sleeves (2111) are embedded in the lower end of the solar power device (3) and are vertical to each other, the upper end of the pull rod (329) is embedded in the lower end of the solar power device (3) and is vertical to each other, and the lower end of the water pumping pipe (327) is embedded in the upper end;

when the solar water storage device is used, solar energy is converted into electric energy through a solar energy power supply conversion group in a solar energy power storage mechanism, the electric energy is transmitted to a storage battery through a power line for standby storage and use, the electric energy is led out through a power supply terminal and is transmitted to a motor through a round wheel in a power mechanism, the motor starts to work after being electrified, a first large ratchet wheel is enabled to transmit motion in three directions from turning, the first large ratchet wheel is meshed with the lower end of a chain through the upper end, the chain is driven to rotate around a first small ratchet wheel and a second small ratchet wheel, a fixed sliding block welded on the chain is driven to move along with the chain, a sliding frame drives a pull rod welded with the sliding frame to reciprocate under the sliding of the fixed sliding block, when a soft rubber head moves upwards along with the pull rod, suction force is generated in a water pumping pipe, water enters a water pumping and aerating mechanism in the water storage mechanism through the water pumping pipe, and a first bevel gear welded with the first large ratchet wheel, the motion of the rotating shaft is transmitted to a worm wheel rod welded with the rotating shaft, the worm wheel is meshed with the worm wheel rod, the motion is transmitted by the worm wheel, when a balance wheel in the water pumping aeration mechanism upwards pulls a telescopic rod sleeve, a second support rod fixed on a storage battery and a stamping rod through pins moves upwards and simultaneously pushes the stamping rod outwards and rapidly, the stamping rod pushes partial water to impact outwards, the water is sprayed outwards at high pressure through a vertical rod to complete aeration, the stamping rod realizes reciprocating high-pressure impact motion through the rotation of the telescopic rod, and the left end motion and the right end motion of a first small ratchet wheel are in reverse same transmission, so that the release of bottom sediment pollutants is inhibited, the growth of algae is inhibited, and the water environment restoration effect is achieved.