CN109654030B - Sustainable pumping device for water supply and drainage - Google Patents

Abstract

The invention discloses a sustainable water pumping device for water supply and drainage, which structurally comprises a pressurizing anti-blocking water pumping pipeline device, a fixing pasting plate, a drainage pipeline positioning ring, a continuous water pumping pump rack, a continuous water pumping pump and a supporting connection block, wherein the pressurizing anti-blocking water pumping pipeline device is arranged on the front end face of the fixing pasting plate and is connected in a fixed installation mode, the fixing pasting plate is arranged on the front end face of the continuous water pumping pump rack and is connected in a pasting mode, the drainage pipeline is arranged at the upper end of the continuous water pumping pump rack and is connected in a sealing installation mode, the sustainable water pumping device is provided with a structure which automatically changes the water pumping caliber to pressurize and accelerate when the current output quantity of power supply equipment is weaker, the water pumping device is beneficial to preventing the water flow speed from slowing and influencing the water supply and drainage work, and simultaneously, a structure which vibrates, prevent the filter mesh from causing blockage.

Description

Sustainable pumping device for water supply and drainage

Technical Field

The invention relates to the field of water pumping devices, in particular to a sustainable water pumping device for water supply and drainage.

Background

The artificial water pump adopted by people for pumping underground water in the past is widely applied to the life of people along with the development of science and technology, and the water pumping device has the advantages of labor saving and simplicity in operation. However, the existing water pumping device has the following disadvantages:

1. in the process of pumping water, if the current output by the external power supply equipment is too small, the power of a motor in the water pumping device is reduced, the power for pumping water is weakened, and the water flow speed is reduced under the water pumping pipeline with the same caliber, so that the water supply and drainage work is influenced.

2. Meanwhile, in the process of extracting and filtering underground water, water flow generates vertical acting force on a filtering grid due to unidirectional flow, so that filtered particulate matters are easily concentrated, and the pipeline is blocked along with time change.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a sustainable water pumping device for water supply and drainage, which aims to solve the problems that in the water pumping process in the prior art, if the current output by external power supply equipment is too small, the power of a motor in the water pumping device is reduced, the power for pumping water is weakened, the water flow speed is reduced under a water pumping pipeline with the same caliber, the water supply and drainage work is influenced, meanwhile, in the process of pumping and filtering water underground, the water flow generates vertical acting force on a filtering grid due to unidirectional flow, filtered particulate matters are easily excessively concentrated, and pipeline blockage is caused along with time change.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a sustainable pumping device is used in feedwater drainage, its structure includes that the pressure boost prevents blockking up pumping pipe device, fixed flitch, drainage pipe holding ring, lasts the suction pump frame, lasts the suction pump, supports and links up the piece, the pressure boost prevents blockking up pumping pipe device locates the positive terminal surface of fixed flitch and is connected through fixed mounting's mode, fixed flitch is located the positive terminal surface of lasting suction pump frame and is connected through the mode of laminating, drainage pipe locates lasting suction pump frame upper end and is connected through seal installation's mode, drainage pipe and drainage pipe holding ring are located same axle center and are connected through the welded mode, drainage pipe holding ring locates lasting suction pump frame upper end and is connected through the welded mode, lasting suction pump locates inside the lasting suction pump frame and is connected through fixed mounting's mode, support linking up the piece and locate and last suction pump frame lower extreme and be connected through the adhesive mode, the pressure boost prevents blockking up water pipe installation and includes pumping water flow mechanism, velocity of flow detection mechanism, pressure boost actuating mechanism, rivers pressure boost mechanism, hydrodynamic force trigger mechanism, vibration actuating mechanism, rivers filtering mechanism, pumping water flow mechanism locates inside and the mode through fixed mounting of rivers pressure boost mechanism and is connected, velocity of flow detection mechanism adopts the electricity to be connected with pressure boost actuating mechanism, pressure boost actuating mechanism locates rivers pressure boost mechanism upper end and is connected through the mode of linkage, hydrodynamic force trigger mechanism locates the vibration actuating mechanism lower extreme and is connected through the mode of activity, vibration actuating mechanism locates rivers filtering mechanism left end and is connected through transmission complex mode.

As a further scheme of the present invention, the water pumping flow mechanism includes a joining sealing plate, a pipeline housing, and a water pumping channel, the joining sealing plate is disposed at the left end of the pipeline housing and connected by welding, and the water pumping channel is disposed inside the pipeline housing and is an integrated structure.

As a further scheme of the present invention, the flow velocity detection mechanism includes a central positioning shaft, a connection cable, a flow velocity detector, a runner positioning cover, and a water flow runner, the central positioning shaft and the water flow runner are located on the same axis and are connected in a rotating manner, the connection cable is electrically connected to the flow velocity detector, the runner positioning cover is disposed at the lower end of the flow velocity detector and is connected in a fixed installation manner, the water flow runner is disposed at the lower end of the runner positioning cover and is connected in an embedded installation manner, and the connection cable is electrically connected to the pressurization driving mechanism.

As a further scheme of the invention, the supercharging driving mechanism comprises a supercharging driving mechanism shell, a power transmission line, a conductive device, a metal moving plate, a linking spring, a spring positioning block, a connecting action rod, a terminal controller and a strong electromagnet, wherein the conductive device is electrically connected with the strong electromagnet through the power transmission line, the conductive device is arranged in the supercharging driving mechanism shell and is connected in a fixed installation mode, the metal moving plate is arranged at the lower end of the strong electromagnet and is connected in a fitting mode, the metal moving plate is arranged at the upper end of the connecting action rod and is connected in a welding mode, the linking spring is arranged at the lower end of the metal moving plate and is connected in a transmission matching mode, the linking spring is arranged at the upper end of the spring positioning block and is connected in an embedded installation mode, the spring positioning block is arranged in the supercharging driving mechanism shell, the terminal controller is electrically connected with the electric conductor.

As a further scheme of the invention, the water flow pressurization mechanism comprises a sliding groove, a sliding block, a water flow pressurization ring and a water flow pressurization block, wherein the sliding block is arranged at the right end of the sliding groove and is connected in a sliding manner, the sliding block is arranged at the left end of the water flow pressurization block and is of an integrated structure, and the water flow pressurization block is arranged inside the water flow pressurization ring and is in transition fit.

As a further aspect of the present invention, the hydrodynamic trigger mechanism includes a trigger switch, an engaging pressing block, a hydrodynamic block positioning sleeve, and a compression spring, the trigger switch is disposed at a left end of the engaging pressing block and connected by fitting, the engaging pressing block is disposed at an upper end of the hydrodynamic block and connected by welding, the hydrodynamic block penetrates through a center of the hydrodynamic block positioning sleeve and connected by sliding, the compression spring is disposed at a left end of the hydrodynamic block and connected by driving fit, and the trigger switch is electrically connected to the vibration driving mechanism.

As a further proposal of the invention, the vibration driving mechanism comprises a vibration driving mechanism shell, a motor controller, a driving motor, a mechanical turntable, an output rotating shaft, a hinge movable rod, a positioning movable column and a motor fixing plate, the motor controller is arranged in the shell of the vibration driving mechanism and is connected in a fixed installation way, the motor controller is electrically connected with the driving motor, the mechanical turntable and the output rotating shaft are positioned on the same axis and connected in a welding way, the output rotating shaft is arranged on the positive end surface of the driving motor and is connected in a rotating mode, one end of the hinge movable rod is connected with the mechanical turntable in a hinge movable mode, the other end of the hinge movable rod is connected with the positioning movable column in a hinge movable mode, and the motor fixing plate is arranged at the upper end of the driving motor and is connected in a fixed mounting mode.

As a further scheme of the invention, the water flow filtering mechanism comprises a vibrating rod sealing ring, a vibrating rod, a silica gel block, a filtering grid positioning block and a filtering grid, wherein the vibrating rod penetrates through the center of the vibrating rod sealing ring and is movably connected, the silica gel block is arranged at the right end of the vibrating rod and is connected in a bonding mode, and the filtering grid positioning block is arranged at the upper end of the filtering grid and is connected in an embedded installation mode.

Advantageous effects of the invention

The invention relates to a sustainable water pumping device for water supply and drainage, wherein a sustainable water pumping pump pumps water into a pressurized anti-clogging water pumping pipeline device and finally discharges the water from a drainage pipeline during working, water flows in a water pumping channel during the process of pumping into the pressurized anti-clogging water pumping pipeline device, when the current output by power supply equipment is weak, the power of the sustainable water pumping pump is reduced, the water pumping power is reduced, the speed of the water flow is reduced, a water flow rotating wheel rotates along with the water flow, a flow rate detector detects the rotating speed of the water flow rotating wheel, when the rotating speed is slow to a set value, the flow rate detector transmits data to a terminal controller, the terminal controller controls a conductive device, the conductive device enables a powerful electromagnet to be powered off, a metal moving plate loses adsorption force, a connecting spring in a stretching state removes elastic force limitation, retracts to drive the metal moving plate to move, and the metal moving plate drives a connecting action, the connecting action rod drives the water flow pressurizing block to move in the water flow pressurizing ring, the caliber of the water flow pressurizing ring is reduced, the pressure intensity is increased, the water flow speed is increased along with the increase of the pressure intensity, meanwhile, when water flows through the filtering grids, the water flow can be in contact with the hydrodynamic force block, the hydrodynamic force block moves under the action of water to drive the connected connecting pressing block to be in contact with the trigger switch, the motor controller controls the driving motor to start to operate, the driving motor transmits the rotating mechanical energy to the mechanical turntable through the output rotating shaft, and the hinge movable rod on the mechanical turntable performs reciprocating motion, acting force is generated on the vibrating rod in the reciprocating motion process, so that the vibrating rod generates acting force on the silica gel block in a reciprocating manner, the silica gel block generates deformation, and the filter mesh is vibrated, and the filtered particles on the filter mesh are dispersed along with the vibration.

The sustainable water pumping device for water supply and drainage is provided with a structure for automatically changing the water pumping caliber to boost and accelerate when the current output quantity of power supply equipment is weak, so that the sustainable water pumping device is beneficial to preventing the water flow speed from slowing and influencing the water supply and drainage work, and meanwhile, the sustainable water pumping device is provided with a structure for vibrating the sustainable water pumping device during the work of the filtering grid, so that particles in water are effectively dispersed, and the filtering grid is prevented from being blocked.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

FIG. 1 is a schematic structural view of a sustainable water pumping device for water supply and drainage according to the present invention.

Fig. 2 is a structural plan view of a pressurized anti-clogging pumping pipeline device according to the present invention.

Fig. 3 is a working state diagram of the pressurized anti-clogging pumping pipeline device of the present invention.

Fig. 4 is a detailed structural schematic diagram of a supercharging driving mechanism according to the present invention.

Fig. 5 is a detailed structural diagram of a vibration driving mechanism according to the present invention.

In the figure: the device comprises a pressurized anti-blocking water pumping pipeline device-1, a fixed flitch-2, a water drainage pipeline-3, a water drainage pipeline positioning ring-4, a continuous water pumping pump rack-5, a continuous water pumping pump-6, a supporting connection block-7, a water pumping flow mechanism-11, a flow rate detection mechanism-12, a pressurized driving mechanism-13, a water flow pressurization mechanism-14, a hydrodynamic trigger mechanism-15, a vibration driving mechanism-16, a water flow filtering mechanism-17, a connection sealing plate-1101, a pipeline shell-1102, a water pumping channel-1103, a central positioning shaft-1201, a connection cable-1202, a flow rate detector-1203, a rotating wheel positioning cover-1204, a water flow rotating wheel-1205, a pressurized driving mechanism shell-1301, a power transmission line-1302, a conductive device-1303, a water drainage pipeline-3, a metal moving plate-1304, a connecting spring-1305, a spring positioning block-1306, a connecting action rod-1307, a terminal controller-1308, a strong electromagnet-1309, a sliding groove-1401, a sliding block-1402, a water flow pressurizing ring-1403, a water flow pressurizing block-1404, a trigger switch-1501, a connecting pressure block-1502, a water power block-1503, a water power block positioning sleeve-1504, a compression spring-1505, a vibration driving mechanism shell-1601, a motor controller-1602, a driving motor-1603, a mechanical rotating disc-1604, an output rotating shaft-1605, a hinge movable rod-1606, a positioning movable column-1607, a motor fixing plate-1608, a vibration rod sealing ring-1701, a vibration rod-1702, a silica gel block-1703, a filter grid positioning block-1704, a filter grid positioning block-1703, a filter grid positioning block-1704, Filter grid-1705.

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.

As shown in fig. 1 to 5, the present invention provides a technical solution of a sustainable water pumping device for water supply and drainage:

the utility model provides a sustainable pumping device is used in water supply and drainage, its structure includes that the pressure boost prevents blockking up pumping pipe device 1, fixed flitch 2, drainage pipe 3, drainage pipe holding ring 4, lasts suction pump frame 5, lasts suction pump 6, supports and links up piece 7, pressure boost prevents blockking up pumping pipe device 1 locates fixed flitch 2 positive terminal surface and is connected through fixed mounting's mode, fixed flitch 2 is located and is lasted pumping pump frame 5 positive terminal surface and is connected through the mode of laminating, drainage pipe 3 locates and lasts suction pump frame 5 upper end and is connected through seal installation's mode, drainage pipe 3 is located same axle center and is connected through the welded mode with drainage pipe holding ring 4, drainage pipe holding ring 4 is located and is lasted pumping pump frame 5 upper end and is connected through the welded mode, it is inside and connected through fixed mounting's mode to last suction pump frame 5 to last suction pump 6, the supporting connection block 7 is arranged at the lower end of a continuous water suction pump rack 5 and connected in a bonding mode, the boosting anti-blocking water suction pipeline device 1 comprises a water suction flow mechanism 11, a flow velocity detection mechanism 12, a boosting driving mechanism 13, a water flow boosting mechanism 14, a hydrodynamic force trigger mechanism 15, a vibration driving mechanism 16 and a water flow filtering mechanism 17, the water suction flow mechanism 11 is arranged inside the water flow boosting mechanism 14 and connected in a fixed mounting mode, the flow velocity detection mechanism 12 is electrically connected with the boosting driving mechanism 13, the boosting driving mechanism 13 is arranged at the upper end of the water flow boosting mechanism 14 and connected in a linkage mode, the hydrodynamic force trigger mechanism 15 is arranged at the lower end of the vibration driving mechanism 16 and connected in a movable mode, the vibration driving mechanism 16 is arranged at the left end of the water flow filtering mechanism 17 and connected in a transmission matching mode, the water pumping flow mechanism 11 comprises a joint sealing plate 1101, a pipeline housing 1102 and a water pumping channel 1103, wherein the joint sealing plate 1101 is arranged at the left end of the pipeline housing 1102 and connected by welding, the water pumping channel 1103 is arranged inside the pipeline housing 1102 and is of an integrated structure, the flow rate detection mechanism 12 comprises a central positioning shaft 1201, a connecting cable 1202, a flow rate detector 1203, a wheel positioning cover 1204 and a water flow wheel 1205, the central positioning shaft 1201 and the water flow wheel 1205 are positioned on the same axis and connected by rotation, the connecting cable 1202 and the flow rate detector 1203 are electrically connected, the wheel positioning cover 1204 is arranged at the lower end of the flow rate detector 1203 and connected by fixed installation, the water flow wheel 1205 is arranged at the lower end of the wheel positioning cover and connected by embedded installation, and the connecting cable 1202 and the pressurizing drive mechanism 13 are electrically connected, the supercharging driving mechanism 13 comprises a supercharging driving mechanism housing 1301, a power line 1302, an electric conductor 1303, a metal moving plate 1304, an engaging spring 1305, a spring positioning block 1306, a connecting action rod 1307, a terminal controller 1308 and a strong electromagnet 1309, wherein the electric conductor 1303 is electrically connected with the strong electromagnet 1309 through the power line 1302, the electric conductor 1303 is arranged in the supercharging driving mechanism housing 1301 and is connected in a fixed installation manner, the metal moving plate 1304 is arranged at the lower end of the strong electromagnet 1309 and is connected in a bonding manner, the metal moving plate 1304 is arranged at the upper end of the connecting action rod 1307 and is connected in a welding manner, the engaging spring 1305 is arranged at the lower end of the metal moving plate 1304 and is connected in a transmission fit manner, the engaging spring 1305 is arranged at the upper end of the spring positioning block 1306 and is connected in an embedding manner, the spring positioning block 1306 is arranged inside a pressurizing driving mechanism shell 1301 and is of an integrated structure, the terminal controller 1308 is electrically connected with an electric conductor 1303, the water flow pressurizing mechanism 14 comprises a sliding groove 1401, a sliding block 1402, a water flow pressurizing ring 1403, a water flow pressurizing block 1404, the sliding block 1402 is arranged at the right end of the sliding groove 1401 and is connected in a sliding mode, the sliding block 1402 is arranged at the left end of the water flow pressurizing block 1404 and is of an integrated structure, the water flow pressurizing block 1404 is arranged inside the water flow pressurizing ring 1403 and is in transition fit, the hydrodynamic trigger mechanism 15 comprises a trigger switch 1501, an engagement pressing block 1502, a hydrodynamic block 1503, a hydrodynamic block positioning sleeve 1504 and a compression spring 1505, the trigger switch 1501 is arranged at the left end of the engagement pressing block 1502 and is connected in a fitting mode, the engagement pressing block 1502 is arranged at the upper end of the hydrodynamic block and is connected in a welding mode, the hydrodynamic block 1503 penetrates through the center of the hydrodynamic block positioning sleeve 1504 and is connected in a sliding manner, the compression spring 1505 is arranged at the left end of the hydrodynamic block 1503 and is connected in a transmission fit manner, the trigger switch 1501 is electrically connected with the vibration driving mechanism 16, the vibration driving mechanism 16 comprises a vibration driving mechanism housing 1601, a motor controller 1602, a driving motor 1603, a mechanical turntable 1604, an output rotating shaft 1605, a hinge movable rod 1606, a positioning movable column 1607 and a motor fixing plate 1608, the motor controller 1602 is arranged inside the vibration driving mechanism housing 1601 and is connected in a fixed installation manner, the motor controller 1602 is electrically connected with the driving motor 1603, the mechanical turntable 1604 and the output rotating shaft 1605 are arranged on the same axis and are connected in a welding manner, the output rotating shaft 1605 is arranged at the positive end face of the driving motor 1603 and is connected in a rotating manner, one end of the hinge moving rod 1606 is connected with the mechanical turntable 1604 through hinge movement, the other end of the hinge moving rod 1606 is connected with the positioning moving column 1607 through hinge movement, the motor fixing plate 1608 is arranged at the upper end of the driving motor 1603 and is connected through fixed installation, the water flow filtering mechanism 17 comprises a vibrating rod sealing ring 1701, a vibrating rod 1702, a silica gel block 1703, a filtering grid positioning block 1704 and a filtering grid 1705, the vibrating rod 1702 penetrates through the center of the vibrating rod sealing ring 1701 and is connected through movement, the silica gel block 1703 is arranged at the right end of the vibrating rod 1702 and is connected through adhesion, and the filtering grid positioning block 1704 is arranged at the upper end of the filtering grid 1705 and is connected through embedding installation.

The invention relates to a sustainable water pumping device for water supply and drainage, which has the working principle that: when the continuous water pump 6 works, water is pumped in from the pressure-increasing anti-clogging water pumping pipeline device 1 and is finally discharged from the water discharge pipeline 3, in the process of pumping in the pressure-increasing anti-clogging water pumping pipeline device 1, water flows in the water pumping channel 1103, when the current output by the power supply equipment is weak, the power of the continuous water pump 6 is reduced, the water pumping power is reduced, the speed of the water flow is reduced, the water flow rotating wheel 1205 rotates along with the water flow, the flow speed detector 1203 detects the rotating speed of the water flow rotating wheel 1205, when the rotating speed is reduced to a set value, the flow speed detector 1203 transmits data to the terminal controller 1308, the terminal controller 1308 controls the electric conductor 1303, the electric conductor 1303 enables the powerful electromagnet 1309 to be powered off, the metal moving plate 1304 loses adsorption force, the elastic force limitation of the tensile spring 1305 is removed, the moving plate retracts to drive the metal 1304 to move, the metal 1304 drives the connecting action rod, the connecting action rod 1307 drives the water flow pressurizing block 1404 to move in the water flow pressurizing ring 1403, so that the aperture of the water flow pressurizing ring 1403 is reduced, the pressure is increased, the water flow speed is increased along with the increase of the pressure, meanwhile, the water flow contacts with the water power block 1503 in the process of flowing through the filtering grid 1705, the water power block 1503 is moved by the acting force of the water to drive the connected connecting pressing block 1502 to contact with the trigger switch 1501, the motor controller 1602 controls the driving motor 1603 to start to operate, the driving motor 1603 transmits the rotating mechanical energy to the mechanical turntable 1604 through the output rotating shaft 1605, the hinge movable rod 1606 on the mechanical turntable 1604 reciprocates, the acting force is generated on the vibrating rod 1702 in the reciprocating process, so that the vibrating rod 1702 reciprocates to generate the acting force on the silica gel block 1703, the silica gel block 1703 deforms, and vibrates the filtering grid 1705, the filtered particles on the filter grid 1705 are dispersed as the vibration is applied.

The invention solves the problems that in the prior art, if the current output by external power supply equipment is too small in the pumping process, the power of a motor in a pumping device is reduced, the power for pumping water is weakened, the water flow speed is reduced under a pumping pipeline with the same caliber, the water supply and drainage work is influenced, and meanwhile, in the process of pumping and filtering water under a well, the water flow generates vertical acting force on a filtering grid due to unidirectional flow, so that filtered particulate matters are easily excessively concentrated, and the pipeline is blocked along with time change. The effectual granule that makes in aqueous disperses, prevents to filter the net and causes the jam.

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)

1. The utility model provides a sustainable pumping device is used in drainage that feeds water, its structure includes that the pressure boost prevents blockking up pumping pipe device (1), fixed flitch (2), drainage pipe (3), drainage pipe holding ring (4), lasts suction pump frame (5), lasts suction pump (6), supports and links up piece (7), its characterized in that:

the pressure-increasing anti-clogging water pumping pipeline device (1) is arranged on the positive end surface of the fixed attachment plate (2) and is connected with the positive end surface in a fixed installation mode, the fixed flitch (2) is arranged on the positive end surface of the continuous water pump frame (5) and is connected with the positive end surface in a fitting way, the drainage pipeline (3) is arranged at the upper end of the continuous water suction pump frame (5) and is connected with the continuous water suction pump frame in a sealing installation mode, the drainage pipeline (3) and the drainage pipeline positioning ring (4) are positioned on the same axis and connected in a welding way, the drainage pipeline positioning ring (4) is arranged at the upper end of the continuous water suction pump frame (5) and is connected with the continuous water suction pump frame in a welding mode, the continuous water suction pump (6) is arranged in the continuous water suction pump rack (5) and is connected with the continuous water suction pump rack in a fixed installation mode, the supporting connection block (7) is arranged at the lower end of the continuous water suction pump rack (5) and is connected with the continuous water suction pump rack in an adhesion mode;

the pressure-increasing anti-blocking water pumping pipeline device (1) comprises a water pumping flow mechanism (11), a flow speed detection mechanism (12), a pressure-increasing driving mechanism (13), a water flow pressure-increasing mechanism (14), a hydrodynamic force trigger mechanism (15), a vibration driving mechanism (16) and a water flow filtering mechanism (17), the water pumping flow mechanism (11) is arranged inside the water flow supercharging mechanism (14) and is connected in a fixed installation way, the flow velocity detection mechanism (12) is electrically connected with the pressurization driving mechanism (13), the pressurizing driving mechanism (13) is arranged at the upper end of the water flow pressurizing mechanism (14) and is connected in a linkage way, the hydrodynamic trigger mechanism (15) is arranged at the lower end of the vibration driving mechanism (16) and is movably connected with the vibration driving mechanism, the vibration driving mechanism (16) is arranged at the left end of the water flow filtering mechanism (17) and is connected in a transmission matching way;

the water pumping flow mechanism (11) comprises a connecting sealing plate (1101), a pipeline shell (1102) and a water pumping channel (1103), wherein the connecting sealing plate (1101) is arranged at the left end of the pipeline shell (1102) and is connected with the pipeline shell in a welding mode, and the water pumping channel (1103) is arranged inside the pipeline shell (1102) and is of an integrated structure;

the flow velocity detection mechanism (12) comprises a center positioning shaft (1201), a connecting cable (1202), a flow velocity detector (1203), a rotating wheel positioning cover (1204) and a water flow rotating wheel (1205), wherein the center positioning shaft (1201) and the water flow rotating wheel (1205) are positioned on the same axis and connected in a rotating mode, the connecting cable (1202) is electrically connected with the flow velocity detector (1203), the rotating wheel positioning cover (1204) is arranged at the lower end of the flow velocity detector (1203) and connected in a fixed installation mode, the water flow rotating wheel (1205) is arranged at the lower end of the rotating wheel positioning cover (1204) and connected in an embedded installation mode, and the connecting cable (1202) is electrically connected with the pressurization driving mechanism (13);

the supercharging driving mechanism (13) comprises a supercharging driving mechanism shell (1301), a power line (1302), an electric conductor (1303), a metal moving plate (1304), a linking spring (1305), a spring positioning block (1306), a connecting action rod (1307), a terminal controller (1308) and a powerful electromagnet (1309), wherein the electric conductor (1303) is electrically connected with the powerful electromagnet (1309) through the power line (1302), the electric conductor (1303) is arranged in the supercharging driving mechanism shell (1301) and is connected with the supercharging driving mechanism shell in a fixed mounting mode, the metal moving plate (1304) is arranged at the lower end of the powerful electromagnet (1309) and is connected with the powerful electromagnet in a fitting mode, the metal moving plate (1304) is arranged at the upper end of the connecting action rod (1307) and is connected with the supercharging driving mechanism shell through welding, the linking spring (1305) is arranged at the lower end of the metal moving plate (1304) and is connected, the connecting spring (1305) is arranged at the upper end of a spring positioning block (1306) and connected in an embedded installation mode, the spring positioning block (1306) is arranged in the pressurizing driving mechanism shell (1301) and is of an integrated structure, and the terminal controller (1308) is electrically connected with the electric conductor (1303);

the water flow pressurization mechanism (14) comprises a sliding groove (1401), a sliding block (1402), a water flow pressurization ring (1403) and a water flow pressurization block (1404), wherein the sliding block (1402) is arranged at the right end of the sliding groove (1401) and is connected in a sliding mode, the sliding block (1402) is arranged at the left end of the water flow pressurization block (1404) and is of an integrated structure, and the water flow pressurization block (1404) is arranged inside the water flow pressurization ring (1403) and is in transition fit;

the hydrodynamic trigger mechanism (15) comprises a trigger switch (1501), an engagement pressing block (1502), a hydrodynamic block (1503), a hydrodynamic block positioning sleeve (1504) and a compression spring (1505), wherein the trigger switch (1501) is arranged at the left end of the engagement pressing block (1502) and connected in a fitting mode, the engagement pressing block (1502) is arranged at the upper end of the hydrodynamic block (1503) and connected in a welding mode, the hydrodynamic block (1503) penetrates through the center of the hydrodynamic block positioning sleeve (1504) and is connected in a sliding mode, the compression spring (1505) is arranged at the left end of the hydrodynamic block (1503) and connected in a transmission matching mode, and the trigger switch (1501) is electrically connected with the vibration driving mechanism (16);

the vibration driving mechanism (16) comprises a vibration driving mechanism shell (1601), a motor controller (1602), a driving motor (1603), a mechanical turntable (1604), an output rotating shaft (1605), a hinge movable rod (1606), a positioning movable column (1607) and a motor fixing plate (1608), wherein the motor controller (1602) is arranged inside the vibration driving mechanism shell (1601) and is connected in a fixed mounting mode, the motor controller (1602) is electrically connected with the driving motor (1603), the mechanical turntable (1604) and the output rotating shaft (1605) are positioned on the same axis and are connected in a welding mode, the output rotating shaft (1605) is arranged on the positive end face of the driving motor (1603) and is connected in a rotating mode, one end of the hinge movable rod (1606) is connected with the mechanical turntable (1604) in a hinge movable mode, and the other end of the hinge movable rod (1606) is connected with the positioning movable column (1607) in a hinge movable mode, the motor fixing plate (1608) is arranged at the upper end of the driving motor (1603) and is connected in a fixed installation mode;

the water flow filtering mechanism (17) comprises a vibrating rod sealing ring (1701), a vibrating rod (1702), a silica gel block (1703), a filtering grid positioning block (1704) and a filtering grid (1705), wherein the vibrating rod (1702) penetrates through the center of the vibrating rod sealing ring (1701) and is connected in a movable mode, the silica gel block (1703) is arranged at the right end of the vibrating rod (1702) and is connected in an adhesion mode, and the filtering grid positioning block (1704) is arranged at the upper end of the filtering grid (1705) and is connected in an embedded installation mode.

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