CN111701337A

CN111701337A - Centrifugal water body impurity separation valve

Info

Publication number: CN111701337A
Application number: CN202010579897.3A
Authority: CN
Inventors: 刘荣文
Original assignee: Individual
Current assignee: Tongling Liuguo Veolia Water Co ltd
Priority date: 2020-06-23
Filing date: 2020-06-23
Publication date: 2020-09-25
Anticipated expiration: 2040-06-23
Also published as: CN111701337B

Abstract

The invention relates to an impurity separation valve, in particular to a centrifugal water body impurity separation valve. Therefore, the technical problems of the invention are as follows: the centrifugal water body impurity separation valve is convenient and intelligent to operate, and the speed of impurity sedimentation is high. The technical implementation scheme of the invention is as follows: a centrifugal water body impurity separation valve comprises a central water guide pipe, a control box, a first external connector, a second external connector, a control rod, a main switch, a rubber ring, a separation ring, a filter screen ring, a conical disc and the like; the upper part of the right side of the central water guide pipe is provided with a control box, and the lower end of the central water guide pipe is provided with a first external connector. The main water tank and the auxiliary water tank can store sewage when the first electric control valve is closed, and after workers clean impurities on the filter screen plate and press the reset switch, the main water tank and the auxiliary water tank can flow out of the central water guide pipe, so that the water quantity in the central water guide pipe is increased, more sewage can be simultaneously discharged, and the working efficiency of the device is improved.

Description

Centrifugal water body impurity separation valve

Technical Field

The invention relates to an impurity separation valve, in particular to a centrifugal water body impurity separation valve.

Background

People can produce a large amount of sewage in production and life, and in order to reduce environmental pollution and realize sustainable utilization of resources, the sewage needs to be discharged into a sewage disposal tank for primary purification treatment. When now carrying out preliminary purification treatment to sewage, in order to separate the insoluble impurity in the sewage, generally discharge sewage to the blowdown pond and stew a period of time, because the density of impurity is great, impurity can subside in the blowdown bottom of the pool, when sewage was comparatively limpid, the staff again with the log raft play that the blowdown pond upper strata contains less impurity, discharge the accumulational impurity clean up in blowdown bottom of the pool after accomplishing again. This method is cumbersome and the natural settling speed of impurities is slow, resulting in low efficiency of sewage treatment.

Disclosure of Invention

In order to overcome the defects of complex operation and slow settling speed of impurities in the water body in the prior art, the invention has the technical problems that: the centrifugal water body impurity separation valve is convenient and intelligent to operate, and the speed of impurity sedimentation is high.

The technical implementation scheme of the invention is as follows: a centrifugal water body impurity separation valve comprises a central water guide pipe, a control box, a first external connector, a second external connector, a control rod, a master switch, a rubber ring, a separation ring, a filter screen ring, a conical disc, a bearing seat, a mounting ring, a first gear, a motor seat, a driving motor, a second gear, a water storage ring, an impurity discharging device, a first flow guide pipe and a collecting ring, wherein the control box is arranged at the upper part of the right side of the central water guide pipe, the first external connector is arranged at the lower end of the central water guide pipe, the second external connector is arranged at the upper end of the central water guide pipe, the control rod is connected with the middle part of the right side of the central water guide pipe, the master switch is arranged at the front side of the control rod, the rubber ring is arranged at the lower part of the central water guide pipe, water guide holes are formed in the front side, the rear side, the left side and the right side of the lower, the top of the filter screen ring is provided with a conical disc, the bottom of the conical disc is contacted with the filter screen ring, the front, the back, the left and the right parts of the conical disc respectively penetrate through water guide holes on the front, the back, the left and the right sides, the conical disc is connected with the inner wall of the water guide hole, the lower part of the central water guide pipe is provided with a bearing seat, the bearing seat is positioned on the upper side of the rubber ring, the bearing seat is provided with a mounting ring, the mounting ring is provided with a first gear, the bottom of the mounting ring is connected with the top of the separating ring, the right side of the lower part of the central water guide pipe is provided with a motor seat, the motor seat is positioned on the upper side of the mounting ring, the lower side of the motor seat is provided with a driving motor, an output shaft of the driving motor is provided with a second gear, the second gear is positioned on the right side of the first gear, and a collecting ring is arranged between the tops of the first guide pipes on the left side and the right side and is positioned on the lower side of the impurity discharging device.

More preferably, the impurity removing device comprises a screw, a connecting rod, a rubber plate, a filter screen plate and a nut, drain holes are formed in the front, back, left and right sides of the lower wall of the water storage ring, telescopic holes are formed in the front, back, left and right sides of the water storage ring, the screw is arranged in the middle of the front, back, left and right sides of the water storage ring, guide holes are formed in the connecting rod and penetrate through the screw, the nut is arranged on the screw through threads, the rubber plate is arranged on the lower portion of the inner side of the connecting rod and blocks the telescopic holes, the filter screen plate is arranged on the inner side of the rubber plate and penetrates through the telescopic holes to extend into the water storage ring, and.

More preferably, the water distributor further comprises a first flow sensor, a second flow sensor, a first electric control valve, a reset switch and a first buzzer, the first flow sensor is arranged on the lower portion of the central water guide pipe, the first flow sensor is located between the motor base and the bearing seat, a detection probe of the first flow sensor extends into the central water guide pipe, the second flow sensor is arranged on the lower portion of the central water guide pipe, the second flow sensor is located on the upper side of the first external connector, the detection probe of the second flow sensor extends into the central water guide pipe, the first electric control valve is arranged on the upper portion of the central water guide pipe, the first electric control valve is located on the lower side of the second external connector, and the reset switch and the first buzzer are respectively arranged on the middle portion and the left portion of the front side of the control rod.

More preferably, the water tank further comprises a fixed block, a main water tank, an auxiliary water tank, a first communicating pipe, a second flow guide pipe, a second electric control valve, a second communicating pipe, a liquid sensor, a water level sensor, a second buzzer, a water inlet pipe and a third electric control valve, wherein the fixed block is arranged on the left side and the right side of the upper part of the central water guide pipe, the main water tank is arranged on the left fixed block, the auxiliary water tank is arranged on the right fixed block, the first communicating pipe is connected between the lower parts of the main water tank and the auxiliary water tank, the second flow guide pipe is connected to the bottom of the main water tank, the right end of the second flow guide pipe is connected with the central water guide pipe, the second electric control valve is arranged on the second flow guide pipe, the second communicating pipe is connected to the lower part of the left side of the main water tank, the liquid sensor is arranged on the lower part of the left, a detection probe of the water level sensor extends into the main water tank, the right side of the upper part of the main water tank is connected with a water inlet pipe, the water inlet pipe is connected with the central water guide pipe, and a third electric control valve is arranged on the water inlet pipe.

More preferably, including control module and power module in the control box, the battery passes through the circuit and is connected with power module, the battery is the power supply of whole equipment, power module passes through the circuit and is connected with control module, there is switch on the power module through the line connection, control module is last to be equipped with three button through the circuit, these three button is the setting key respectively, add 1 key and subtract 1 key, can set up relevant parameter through these three buttons, control module passes through circuit and master switch, first flow sensor, second flow sensor, reset switch, liquid sensor, level sensor, first buzzer, second buzzer and LCD display screen are connected, control module passes through peripheral circuit and driving motor, first automatically controlled valve second automatically controlled valve and third automatically controlled valve are connected.

Compared with the prior art, the invention has the following advantages: the main water tank and the auxiliary water tank can store sewage when the first electric control valve is closed, and after workers clean impurities on the filter screen plate and press the reset switch, the main water tank and the auxiliary water tank can flow out of the central water guide pipe, so that the water quantity in the central water guide pipe is increased, more sewage can be simultaneously discharged, and the working efficiency of the device is improved. When the impurity that piles up on the filter plate is too much, control module can control first bee calling organ and sound to can remind the staff in time to clear up the impurity that piles up on the filter plate.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a partially enlarged schematic view of the present invention.

FIG. 3 is an enlarged schematic view of the trash removal device of the present invention.

Fig. 4 is a circuit block diagram of the present invention.

The parts are labeled as follows: 1. a central water guide pipe 101, a control box 2, a first external connector 3, a second external connector 4, a control rod 5, a main switch 6, a rubber ring 7, a separating ring 71, a water guide hole 72, a filter screen ring 73, a cone disc 74, a bearing seat 75, a mounting ring 76, a first gear 77, a motor seat 78, a driving motor 79, a second gear 8, a water storage ring 9, a trash discharging device 10, a first guide pipe 11, a collecting ring 91, a water discharging hole 92, a telescopic hole 93, a screw rod 94, a connecting rod 95, a guide hole 96, a rubber plate 97, a filter screen plate 98, a nut 301, a first flow rate sensor 302, a second flow rate sensor 303, a first electric control valve 304, a reset switch 305, a first buzzer 311, a fixed block 312, a main water tank 313, an auxiliary water tank 314, a first communicating pipe 315, a second guide pipe, 316. the water level sensor comprises a second electric control valve 317, a second communicating pipe 318, a liquid sensor 319, a water level sensor 3191, a second buzzer 3110, a water inlet pipe 3111 and a third electric control valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

A centrifugal water body impurity separation valve is shown in figures 1-4 and comprises a central water guide pipe 1, a control box 101, a first external connector 2, a second external connector 3, a control rod 4, a main switch 5, a rubber ring 6, a separation ring 7, a filter screen ring 72, a conical disc 73, a bearing seat 74, a mounting ring 75, a first gear 76, a motor seat 77, a driving motor 78, a second gear 79, a water storage ring 8, an impurity discharging device 9, a first guide pipe 10 and a collecting ring 11, wherein the upper part of the right side of the central water guide pipe 1 is provided with the control box 101, the lower end of the central water guide pipe 1 is provided with the first external connector 2, the upper end of the central water guide pipe 1 is provided with the second external connector 3, the middle part of the right side of the central water guide pipe 1 is connected with the control rod 4, the central water guide pipe 1 is connected with the control rod 4 in a welding manner, the front side of the control rod 4 is provided with the main switch, the water guide holes 71 are formed in the front, the rear, the left and the right sides of the lower portion of the central water guide pipe 1, the water guide holes 71 are located in the rubber ring 6, the outer side of the rubber ring 6 is provided with a separating ring 7, the separating ring 7 is in contact with the rubber ring 6, the inner lower wall of the separating ring 7 is provided with a filter screen ring 72, the top of the filter screen ring 72 is provided with a conical disc 73, the bottom of the conical disc 73 is in contact with the filter screen ring 72, the front, the rear, the left and the right portions of the conical disc 73 respectively penetrate through the water guide holes 71 in the front, the rear, the left and the right sides of the front, the rear, the inner wall of the water guide hole 71 is connected with the conical disc 73, the lower portion of the central water guide pipe 1 is provided with a bearing seat 74, the bearing seat 74 is located on the upper side of the rubber ring 6, the bearing seat 74 is provided with, driving motor 78 is installed to motor cabinet 77 downside, be equipped with second gear 79 on driving motor 78's the output shaft, second gear 79 is located first gear 76 right side, second gear 79 and the meshing of first gear 76, the separating ring 7 outside is equipped with water storage ring 8, four sides all are equipped with row miscellaneous device 9 all around in the water storage ring 8, the left and right sides of 1 lower part of central aqueduct all is connected with first honeycomb duct 10, first honeycomb duct 10 is located separating ring 7 below, be equipped with between the first honeycomb duct 10 top of the left and right sides and collect ring 11, first honeycomb duct 10 is connected with collect ring 11 through welded connection's mode, collect ring 11 is located row miscellaneous device 9 downside.

Example 2

A centrifugal water body impurity separation valve is shown in figures 1-4 and comprises a central water guide pipe 1, a control box 101, a first external connector 2, a second external connector 3, a control rod 4, a main switch 5, a rubber ring 6, a separation ring 7, a filter screen ring 72, a conical disc 73, a bearing seat 74, a mounting ring 75, a first gear 76, a motor seat 77, a driving motor 78, a second gear 79, a water storage ring 8, an impurity discharging device 9, a first guide pipe 10 and a collecting ring 11, wherein the upper part of the right side of the central water guide pipe 1 is provided with the control box 101, the lower end of the central water guide pipe 1 is provided with the first external connector 2, the upper end of the central water guide pipe 1 is provided with the second external connector 3, the middle part of the right side of the central water guide pipe 1 is connected with the control rod 4, the front side of the control rod 4 is provided with the main switch 5, the lower part of the central water guide pipe 1 is provided with the rubber ring, the water guide hole 71 is positioned in the rubber ring 6, the outer side of the rubber ring 6 is provided with the separating ring 7, the separating ring 7 is contacted with the rubber ring 6, the inner lower wall of the separating ring 7 is provided with the filter screen ring 72, the top of the filter screen ring 72 is provided with the conical disc 73, the bottom of the conical disc 73 is contacted with the filter screen ring 72, the front, back, left and right parts of the conical disc 73 respectively pass through the water guide holes 71 on the front, back, left and right sides, the conical disc 73 is connected with the inner wall of the water guide hole 71, the lower part of the central water guide pipe 1 is provided with the bearing seat 74, the bearing seat 74 is positioned on the upper side of the rubber ring 6, the bearing seat 74 is provided with the mounting ring 75, the mounting ring 75 is provided with the first gear 76, the bottom of the mounting ring 75 is connected with the top of the separating ring 7, the right side of the lower part of the central water guide pipe 1 is, the second gear 79 is meshed with the first gear 76, the water storage ring 8 is arranged on the outer side of the separating ring 7, the impurity discharging devices 9 are arranged on the front, back, left and right sides in the water storage ring 8, the left and right sides of the lower portion of the central water guide pipe 1 are connected with first guide pipes 10, the first guide pipes 10 are located below the separating ring 7, collecting rings 11 are arranged between the tops of the first guide pipes 10 on the left and right sides, and the collecting rings 11 are located on the lower side of the impurity discharging devices 9.

The impurity discharging device 9 comprises a screw 93, a connecting rod 94, a rubber plate 96, a filter screen plate 97 and a nut 98, drain holes 91 are formed in the front, the back, the left and the right of the lower wall of the water storage ring 8, telescopic holes 92 are formed in the front, the back, the left and the right of the side wall of the water storage ring 8, the screw 93 is arranged in the middle of the front, the back, the left and the right of the water storage ring 8, the water storage ring 8 is connected with the screw 93 in a welding connection mode, guide holes 95 are formed in the connecting rod 94, the screw 93 penetrates through the guide holes 95, the nut 98 is arranged on the screw 93 through threads, the rubber plate 96 is arranged on the lower portion of the inner side of the connecting rod 94, the rubber plate 96 blocks the telescopic holes 92, the filter screen plate 97 is arranged on the inner side of the rubber plate 96.

Example 3

The impurity discharging device 9 comprises a screw 93, a connecting rod 94, a rubber plate 96, a filter screen plate 97 and a nut 98, drain holes 91 are formed in the front, the back, the left and the right of the lower wall of the water storage ring 8, telescopic holes 92 are formed in the front, the back, the left and the right of the side wall of the water storage ring 8, the screw 93 is arranged in the middle of the front, the back, the left and the right of the water storage ring 8, guide holes 95 are formed in the connecting rod 94, the screw 93 penetrates through the guide holes 95, the nut 98 is arranged on the screw 93 through threads, the rubber plate 96 is arranged on the lower portion of the inner side of the connecting rod 94, the telescopic holes 92 are blocked by the rubber plate 96, the filter screen plate 97 is arranged on the inner side of the rubber plate 96.

The water level meter is characterized by further comprising a first flow sensor 301, a second flow sensor 302, a first electric control valve 303, a reset switch 304 and a first buzzer 305, the first flow sensor 301 is arranged on the lower portion of the central water guide pipe 1, the first flow sensor 301 is located between the motor base 77 and the bearing base 74, a detection probe of the first flow sensor 301 extends into the central water guide pipe 1, the second flow sensor 302 is arranged on the lower portion of the central water guide pipe 1, the second flow sensor 302 is located on the upper side of the first external connector 2, the detection probe of the second flow sensor 302 extends into the central water guide pipe 1, the first electric control valve 303 is arranged on the upper portion of the central water guide pipe 1, the first electric control valve 303 is located on the lower side of the second external connector 3, and the reset switch 304 and the first buzzer 305 are respectively arranged in the middle portion and the left portion of the front side.

Example 4

The water level sensor also comprises a fixed block 311, a main water tank 312, an auxiliary water tank 313, a first communicating pipe 314, a second guide pipe 315, a second electric control valve 316, a second communicating pipe 317, a liquid sensor 318, a water level sensor 319, a second buzzer 3191, a water inlet pipe 3110 and a third electric control valve 3111, wherein the fixed block 311 is arranged on the left side and the right side of the upper part of the central water guide pipe 1, the central water guide pipe 1 is connected with the fixed block 311 in a welding connection mode, the main water tank 312 is arranged on the fixed block 311 on the left side, the auxiliary water tank 313 is arranged on the fixed block 311 on the right side, the fixed block 311 is connected with the auxiliary water tank 313 in a welding connection mode, the first communicating pipe 314 is connected between the lower parts of the main water tank 312 and the auxiliary water tank 313, the second guide pipe 315 is connected to the bottom of the main water tank 312, the right end of the second guide pipe 315 is, the lower part of the left side of the main water tank 312 is connected with a second communicating pipe 317, the lower part of the left side of the main water tank 312 is provided with a liquid sensor 318, the liquid sensor 318 is sleeved on the second communicating pipe 317, the left side of the top of the main water tank 312 is provided with a water level sensor 319 and a second buzzer 3191, the second buzzer 3191 is positioned on the right side of the water level sensor 319, a detection probe of the water level sensor 319 extends into the main water tank 312, the right side of the upper part of the main water tank 312 is connected with a water inlet pipe 3110, the water inlet pipe 3110 is connected with a central water guide pipe 1, and a third.

Example 5

The water level controller also comprises a fixed block 311, a main water tank 312, an auxiliary water tank 313, a first communicating pipe 314, a second guide pipe 315, a second electric control valve 316, a second communicating pipe 317, a liquid sensor 318, a water level sensor 319, a second buzzer 3191, a water inlet pipe 3110 and a third electric control valve 3111, wherein the fixed block 311 is arranged on the left side and the right side of the upper part of the central water guide pipe 1, the main water tank 312 is arranged on the fixed block 311 on the left side, the auxiliary water tank 313 is arranged on the fixed block 311 on the right side, the first communicating pipe 314 is connected between the lower parts of the main water tank 312 and the auxiliary water tank 313, the second guide pipe 315 is connected to the bottom of the main water tank 312, the right end of the second guide pipe 315 is connected with the central water guide pipe 1, the second electric control valve 316 is arranged on the second guide pipe 315, the second communicating pipe 317 is connected to the lower, a water level sensor 319 and a second buzzer 3191 are arranged on the left side of the top of the main water tank 312, the second buzzer 3191 is located on the right side of the water level sensor 319, a detection probe of the water level sensor 319 extends into the main water tank 312, a water inlet pipe 3110 is connected to the right side of the upper portion of the main water tank 312, the water inlet pipe 3110 is connected with the central water guide pipe 1, and a third electric control valve 3111 is arranged on the water inlet pipe 3110.

The control box 101 internally comprises a control module and a power module, the storage battery is connected with the power module through a circuit, the storage battery supplies power for the whole equipment, the power module is connected with the control module through a circuit, the power module is connected with a power switch through a circuit, the control module is provided with three keys through a circuit, the three keys are respectively a set key, a plus 1 key and a minus 1 key, relevant parameters can be set through the three keys, the control module is connected with a main switch 5 through a circuit, a first flow sensor 301, a second flow sensor 302, a reset switch 304, a liquid sensor 318, a water level sensor 319, a first buzzer 305, a second buzzer 3191 and an LCD display screen, the control module is connected with a driving motor 78 through a peripheral circuit, and the first electric control valve is connected with a second electric control valve 316 and a third electric control valve 3111.

When the device is used by a worker to separate water impurities, the drain pipe is connected with the second external connector 3, the other water pipe is connected with the first external connector 2, the valve on the drain pipe is opened to enable sewage to flow into the central water guide pipe 1, meanwhile, the worker can press the main switch 5 to enable the power supply of the device to be turned on, the control module can control the driving motor 78 to start working, the driving motor 78 drives the second gear 79 to rotate, the second gear 79 rotates along with the second gear, the mounting ring 75 can be rotated, the separating ring 7 connected with the mounting ring 75 can rotate, water in the central water guide pipe 1 can flow into the separating ring 7 through the four water guide holes 71, when the separating ring 7 rotates, the sewage in the separating ring 7 can rotate, and centrifugation is performed. Because the density of the impurities is high, the impurities are thrown to two sides of the water storage ring 8 in the centrifugal process, most of the water flows into the lower part of the central water guide pipe 1 after passing through the filter screen ring 72 and the lower parts of the four water guide holes 71, and finally flows out through the water pipe connected with the first external connector 2. The other part of water can flow into the collecting ring 11 after being filtered by the impurity discharging device 9, and then flows to the lower part of the central water guide pipe 1 through the first guide pipe 10. The conical disc 73 can divide the central water guide pipe 1 and the water guide hole 71 into two parts, and can block untreated sewage, so that all sewage can flow into the separating ring 7, and impurities in the sewage can be conveniently separated. The separation ring 7 and other related components rotate continuously, so that more sewage can be subjected to impurity separation. The impurity removing devices 9 on the front, back, left and right sides can simultaneously remove impurities, and the working efficiency can be improved. When the device is not needed, the main switch 5 is pressed again to turn off the power supply of the device.

Part of the centrifuged water flows into the water storage ring 8, the filter screen plate 97 can filter the water, the filtered water flows into the collecting ring 11 through the water discharge hole 91, and impurities are left on the filter screen plate 97. The mesh of the screen plate 97 is small, and most of the foreign substances can be filtered. When the impurities accumulated on the filter screen plate 97 are more, a worker can press the main switch 5 to power off the device, then unscrew the nut 98, take the connecting rod 94 off the screw 93, take the filter screen plate 97 out of the water storage ring 8, clean the impurities on the filter screen plate 97, then put the filter screen plate 97 back to the original position and tighten the nut 98. The rubber plate 96 blocks the telescopic hole 92, and prevents water from leaking out.

Before the device is used for the first time or when related parameters need to be adjusted, a worker needs to set operation parameters of related electric control equipment and related sensors through three keys on a control module, enters a mode setting interface through a setting key, displays the parameters on an LCD display screen, presses an additional 1 key or an additional 1 key to set related coefficients, stays for 3 seconds after setting, stores the set related parameters after 3 seconds, and then presses the setting key again to exit. After the power of the device is turned on, the control module can control the first flow rate sensor 301 and the second flow rate sensor 302 to start to work, the first flow rate sensor 301 and the second flow rate sensor 302 can detect the water flow rate at the corresponding position of the central water guide pipe 1, the difference between two values detected by the first flow rate sensor 301 and the second flow rate sensor 302 is compared with a set value in the control module, when the difference between the two detected values is greater than the set value in the control module, it indicates that the impurities accumulated on the screen plate 97 are too much, so that the water flow rate flowing into the central water guide pipe 1 near the second flow rate sensor 302 is too low, at this time, the control module can control the first buzzer 305 to sound for 10 seconds, and simultaneously control the first electric control valve 303 to close, and the driving motor 78 stops working. The first buzzer 305 sounds to remind workers of cleaning impurities accumulated on the filter screen plate 97 in time, the first electric control valve 303 is closed to stop sewage in the sewage discharge pipe from flowing into the central water guide pipe 1, and the driving motor 78 stops working to stop rotating relevant parts such as the separating ring 7 and the like, so that the workers can clean the sewage discharge pipe conveniently. After cleaning is completed and the screen plate 97 is installed back to the original position, the worker can press the reset switch 304, the control module can control the first electronic control valve 303 to open, the sewage in the sewage pipe continuously flows into the central water guide pipe 1, and simultaneously the driving motor 78 starts to work, so that the separating ring 7 and other related components continuously rotate.

When the first electronic control valve 303 is closed, the control module can control the third electronic control valve 3111 to be opened, the liquid sensor 318 and the water level sensor 319 start to work, sewage in the sewage discharge pipe can flow into the main water tank 312 through the water inlet pipe 3110, water in the main water tank 312 flows into the auxiliary water tank 313 through the first communication pipe 314, and water in the main water tank 312 and the auxiliary water tank 313 can be leveled with each other. Liquid sensor 318 and level sensor 319 can detect the water level in main water tank 312, and when level sensor 319 can detect liquid, it indicates that main water tank 312 and auxiliary water tank 313 are about to fill up water, and level sensor 319 signals this moment, and control module can control third automatically controlled valve 3111 after receiving the signal and close, and the sewage of blow off pipe stops to flow into in main water tank 312, and second bee calling organ 3191 sounds simultaneously, can remind staff main water tank 312 and auxiliary water tank 313 to be about to fill up water. When the operator presses the reset switch 304 to continue the operation of the device, the control module may control the second electronic control valve 316 to open, so that the water in the main water tank 312 flows into the central water conduit 1 through the second guide pipe 315, and the water in the sub-water tank 313 flows into the main water tank 312 through the first communication pipe 314 and finally flows into the central water conduit 1. When the liquid sensor 318 detects no liquid, indicating that the water in the main water tank 312 is about to run out, the control module may control the second electronic control valve 316 to close. The main water tank 312 and the auxiliary water tank 313 can store sewage when the first electric control valve 303 is closed, after the worker cleans up impurities on the filter screen plate 97 and presses the reset switch 304, the main water tank 312 and the auxiliary water tank 313 can flow out of the central water guide pipe 1, so that the water amount in the central water guide pipe 1 is increased, impurities can be discharged from more sewage simultaneously, and the working efficiency of the device is improved.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. A centrifugal water body impurity separation valve comprises a central water guide pipe, a control box, a first external connector, a second external connector, a control rod and a main switch, wherein the control box is installed at the upper part of the right side of the central water guide pipe, the first external connector is arranged at the lower end of the central water guide pipe, the second external connector is arranged at the upper end of the central water guide pipe, the control rod is connected with the middle part of the right side of the central water guide pipe, the main switch is arranged at the front side of the control rod, and the centrifugal water body impurity separation valve is characterized by further comprising a rubber ring, a separation ring, a filter screen ring, a conical disc, a bearing seat, a mounting ring, a first gear, a motor seat, a driving motor, a second gear, a water storage ring, an impurity discharging device, a first guide pipe and a collection ring, wherein the rubber ring is arranged at the lower part of the central water guide pipe, water guide holes are formed in the front, the lower wall in the separating ring is provided with a filter screen ring, the top of the filter screen ring is provided with a conical disc, the bottom of the conical disc is contacted with the filter screen ring, the front part, the rear part, the left part and the right part of the conical disc respectively pass through water guide holes on the front side, the rear part, the left side and the right side of the conical disc, the conical disc is connected with the inner wall of the water guide hole, the lower part of the central water guide pipe is provided with a bearing seat, the bearing seat is positioned on the upper side of the rubber ring, the bearing seat is provided with a mounting ring, the mounting ring is provided with a first gear, the bottom of the mounting ring is connected with the top of the separating ring, the right side of the lower part of the central water guide pipe is provided with a motor seat, the motor seat is positioned on the upper side of the mounting ring, the lower side of the motor seat is provided with a driving motor, the, the first guide pipe is positioned below the separating ring, a collecting ring is arranged between the tops of the first guide pipes on the left side and the right side, and the collecting ring is positioned on the lower side of the impurity discharging device.

2. A centrifugal water body impurity separating valve according to claim 1, wherein the impurity removing means comprises a screw, a connecting rod, a rubber plate, a filter screen plate and a nut, the water storage ring has a lower wall provided with drain holes on all the front, rear, left and right sides, the water storage ring has a telescopic hole on all the front, rear, left and right sides, the water storage ring is provided with a screw in the middle of all the front, rear, left and right sides, the connecting rod is provided with guide holes through which the screws pass, the screw is provided with a nut by a screw thread, the lower part of the inner side of the connecting rod is provided with a rubber plate, the rubber plate blocks the telescopic hole, the inner side of the rubber plate is provided with a filter screen plate, the filter screen plate passes through the telescopic hole.

3. A centrifugal water body impurity separating valve according to claim 2, characterized by further comprising a first flow sensor, a second flow sensor, a first electric control valve, a reset switch and a first buzzer, wherein the first flow sensor is arranged at the lower part of the central water guide pipe, the first flow sensor is positioned between the motor base and the bearing base, a detection probe of the first flow sensor extends into the central water guide pipe, the second flow sensor is arranged at the lower part of the central water guide pipe, the second flow sensor is positioned at the upper side of the first external connector, a detection probe of the second flow sensor extends into the central water guide pipe, the first electric control valve is arranged at the upper part of the central water guide pipe, the first electric control valve is positioned at the lower side of the second external connector, and the reset switch and the first buzzer are respectively arranged at the middle part and the left part of the front side of the control lever.

4. A centrifugal water body impurity separating valve according to claim 3, characterized by further comprising a fixed block, a main water tank, an auxiliary water tank, a first communicating pipe, a second flow guide pipe, a second electric control valve, a second communicating pipe, a liquid sensor, a water level sensor, a second buzzer, a water inlet pipe and a third electric control valve, wherein the fixed block is arranged on the left and right sides of the upper part of the central water guide pipe, the main water tank is arranged on the fixed block on the left side, the auxiliary water tank is arranged on the fixed block on the right side, the first communicating pipe is connected between the lower parts of the main water tank and the auxiliary water tank, the second flow guide pipe is connected with the bottom of the main water tank, the right end of the second flow guide pipe is connected with the central water guide pipe, the second electric control valve is arranged on the second flow guide pipe, the second communicating pipe is connected with the lower part on the left side of the main water tank, the liquid, the second buzzer is located on the right side of the water level sensor, a detection probe of the water level sensor extends into the main water tank, the right side of the upper portion of the main water tank is connected with a water inlet pipe, the water inlet pipe is connected with the central water guide pipe, and a third electric control valve is arranged on the water inlet pipe.

5. A centrifugal water body impurity separation valve according to claim 4, characterized in that the control box comprises a control module and a power module, the storage battery is connected with the power module through a circuit, the storage battery supplies power for the whole device, the power module is connected with the control module through a circuit, a power switch is connected with the power module through a circuit, the control module is provided with three keys through a circuit, the three keys are a setting key, an adding 1 key and a subtracting 1 key respectively, the control module is connected with the main switch, the first flow rate sensor, the second flow rate sensor, the reset switch, the liquid sensor, the water level sensor, the first buzzer, the second buzzer and the LCD display screen through circuits, and is connected with the driving motor, the first electric control valve, the second electric control valve and the third electric control valve through a peripheral circuit.