CN115040913A

CN115040913A - Temperature control flow dividing and regulating valve and use method thereof

Info

Publication number: CN115040913A
Application number: CN202210902224.6A
Authority: CN
Inventors: 肖传耀; 王靓健; 谢玉玲; 李梅
Original assignee: Parker Wuxi Valve Co ltd
Current assignee: Parker Wuxi Valve Co ltd
Priority date: 2022-07-29
Filing date: 2022-07-29
Publication date: 2022-09-13

Abstract

The invention discloses a temperature control shunt regulating valve and a use method thereof, relating to the technical field of temperature control shunt regulating valves. According to the invention, the reciprocating screw rod is matched with the first scraper and other parts, the second rotating rod drives the reciprocating screw rod to rotate while rotating, the second connecting shell is driven to drive the first scraper to reciprocate, impurities adhered to the surface of the first filter screen are scraped off, the suction force generated inside the filter shell through the sewage suction pipe is sucked into the first connecting shell and is filtered through the second filter screen, and the function of automatically cleaning the impurities accumulated on the surface of the first filter screen is realized through the matching of the parts, so that the frequency of cleaning the first filter screen by workers is reduced.

Description

Temperature control flow dividing and regulating valve and use method thereof

Technical Field

The invention relates to the technical field of temperature control shunt regulating valves, in particular to a temperature control shunt regulating valve and a using method thereof.

Background

The piston that control by temperature change reposition of redundant personnel governing valve can control the flow divider rises and descends for the liquid that does not conform to the temperature requirement flows from the backward flow export, and the liquid that conforms to the temperature requirement flows from qualified export and gets into next process, and temperature control is accurate, and the reposition of redundant personnel process need not wait for, and the unified processing of the liquid that the reposition of redundant personnel goes improves production efficiency.

For "control by temperature change reposition of redundant personnel governing valve" according to bulletin number "CN 214743632U", including the organism, be provided with three connecting pipe on the organism, wherein the one end of two connecting pipes all is provided with the distributive pipe, and the one end of another connecting pipe is provided with the conveyer pipe, conveyer pipe and two distributive pipes all run through and are provided with four screws, and the one week of three connecting pipe is run through respectively to the one end of twelve screws, and the nut has all been contradicted to one side of three connecting pipe, and twelve nuts are the screw thread respectively and cup joint the one end at twelve screws, the one end of conveyer pipe is run through and is provided with the rose box, be equipped with filtering mechanism on the rose box, the last filter stand that is equipped with of filtering mechanism. The utility model discloses can filter the liquid that enters into in the control by temperature change reposition of redundant personnel governing valve through the use of crossing filter stand and filter screen, prevent that impurity from entering into control by temperature change reposition of redundant personnel governing valve in, avoid control by temperature change reposition of redundant personnel governing valve to cause the problem of jam, effectual improvement control by temperature change reposition of redundant personnel governing valve's life.

The above patent has the following problems:

(1) in the patent, liquid entering the temperature control shunt regulating valve is filtered through the filter screen, and no special cleaning mechanism is used for cleaning the surface of the filter screen, so that the filter screen is easy to block in the using process, the use of the device is influenced, the filter screen needs to be replaced by a worker at an irregular period, and the trouble is avoided in the process;

(2) the mechanism that does not carry out the shutoff to the filter screen front end when changing the filter screen in above-mentioned patent often needs other equipment of staff manual operation will enter into the liquid pipeline of filter screen front end and close the operation, and this process is more troublesome.

Disclosure of Invention

The invention aims to: in order to solve the problems that a filter screen is easy to block and the front end of the filter screen cannot be automatically blocked when the filter screen is detached, a temperature control shunt regulating valve and a using method thereof are provided.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a control by temperature change reposition of redundant personnel governing valve, includes the valve body and passes through bolt assembly fixed connection and be in the support frame on valve body top, bolt assembly fixedly connected with pneumatic cylinder is passed through in the inside of support frame, the output of pneumatic cylinder passes through bolt assembly fixedly connected with valve rod, the bottom of valve rod run through to the inside fixedly connected with piston of valve body, the input of valve body passes through bolt assembly fixedly connected with and crosses the filter shell, cross the input welded fastening of filter shell and be connected with the conveyer pipe, cross the first filter screen of bolt assembly fixedly connected with through the inside of filter shell, cross the inside of filter shell and pass through bolt assembly fixedly connected with temperature sensor, the inside of filter shell is provided with and runs through to the impurity clearance mechanism of crossing outer wall of shell one side, be used for right the accumulational impurity in first filter screen surface clears up, impurity clearance mechanism includes through bolt assembly fixed connection the first connection of crossing outer wall of shell one side is in the first filter shell one side outer wall Connecting a shell;

the inside of conveyer pipe is provided with run through to the inside automatic shutoff mechanism of first connecting shell is used for right the conveyer pipe blocks up.

As a still further scheme of the invention: the impurity cleaning mechanism comprises a first connecting shell, a connecting pipe, a water pump, a telescopic hose, a sewage suction pipe, a second connecting shell, a telescopic sleeve, a reciprocating screw rod, a first scraper blade, a first rotating rod, a second scraper blade, a supporting seat, a discharging pipe, a one-way valve, a second filter screen, a first straight gear, a second rotating rod, a blade, a first big bevel gear, a first small bevel gear, a third rotating rod, a second straight gear and a guide seat, wherein the reciprocating screw rod is rotatably connected inside the filtering shell, the second connecting shell is slidably connected inside the filtering shell and is sleeved on the outer wall of the reciprocating screw rod, the telescopic sleeve is provided with two parts, one end of each of the two telescopic sleeves is respectively and fixedly connected with the second connecting shell, the other end of each telescopic sleeve is fixedly connected with the filtering shell, the two telescopic sleeves are arranged on the outer wall of the reciprocating screw rod, the first scraper blade is fixedly connected inside the second connecting shell, and is attached to the outer wall of the first filter screen, the sewage suction pipe is fixedly connected inside the second connecting shell and positioned at two sides of the first scraper blade, the water pump is fixedly connected at the top end of the filter shell through a bolt assembly, two connecting pipes are arranged and are respectively fixedly connected with the output end and the input end of the water pump through bolt assemblies, the flexible hose is connected with the connecting pipe connected with the input end of the water pump through a bolt assembly, one end of the connecting pipe connected with the output end of the water pump is fixedly connected with the input end of the first connecting shell, one end of the flexible hose is fixedly connected with the input end of the sewage suction pipe, the second rotating rod is fixedly connected with one end of the reciprocating screw rod, one end of the second rotating rod penetrates through the inside of the first connecting shell, and the first large bevel gear is fixedly connected with the outer wall of the second rotating rod, the guide seat is fixedly connected inside the first connecting shell and positioned above the second rotating rod, the blade is fixedly connected on the outer wall of the second rotating rod and positioned below the output end of the guide seat, the first small bevel gear is rotatably connected inside the guide seat, the two ends of the first small bevel gear respectively penetrate through the upper end and the lower end of the guide seat, the first small bevel gear is fixedly connected at the bottom end of the third rotating rod and meshed with the first large bevel gear, the second straight gear is fixedly connected at the top end of the first small bevel gear, the supporting seat is fixedly connected inside the first connecting shell and positioned above the guide seat, the second filter screen is fixedly connected inside the supporting seat and positioned below the feed inlet of the first connecting shell, the first rotating rod is rotatably connected at the top end inside the first connecting shell, and the bottom run through extremely the below of supporting seat, first spur gear fixed connection be in the bottom of first transfer line, and with the second spur gear meshes mutually, second scraper blade fixed connection be in the outer wall of first transfer line, row's material pipe fixed connection be in the below of supporting seat bin outlet, and the bottom run through extremely the bottom of first connection shell, check valve one end pass through bolt assembly with the output of first connection shell is connected, and the other end with the output of crossing the filter shell is connected.

As a still further scheme of the invention: the automatic plugging mechanism comprises a connecting seat, a first sliding block, a first rack, a sealing plug, a third straight gear, a one-way screw rod, a second large bevel gear, a second small bevel gear, a second sliding block, a centrifugal rod, a spherical rod, a trapezoidal block, a fourth straight gear, a second rack, a spring, a fourth rotating rod, a third small bevel gear and an elastic rubber block, the connecting seat is fixedly connected to the outer wall of the conveying pipe through a bolt assembly, the one-way screw rod is rotatably connected to the inner side of the connecting seat, the first sliding block is slidably connected to the inner side of the connecting seat and sleeved on the outer wall of the one-way screw rod, the first rack is fixedly connected to the outer wall of one side of the first sliding block through a bolt assembly, the sealing plug is rotatably connected to the inner part of the conveying pipe, the top end of the sealing plug penetrates through the upper part of the conveying pipe, and the third straight gear is fixedly connected to the outer wall of the sealing plug, and is engaged with the first rack, the second small bevel gear is fixedly connected with the outer wall of the one-way screw rod, the fourth rotating rod is rotatably connected with the inner side of the connecting seat, and two ends of the fourth rotating rod are respectively penetrated through the upper end and the lower end of the inner side of the connecting seat, the fourth straight gear is fixedly connected with the bottom end of the fourth rotating rod, the second large bevel gear is fixedly connected with the top end of the fourth rotating rod and is engaged with the second small bevel gear, the second rack is slidably connected with the bottom end of the connecting seat and is engaged with the fourth straight gear, one end of the spring is fixedly connected with the second rack, and the other end of the spring is fixedly connected with the connecting seat, the centrifugal rod is rotatably connected in the first connecting shell, one end of the centrifugal rod is penetrated through to the outer wall on one side of the first connecting shell, and the third small bevel gear is fixedly connected with one end of the centrifugal rod, and with first big bevel gear meshes mutually, second slider sliding connection be in the outer wall of centrifugal rod, and the outer wall with the laminating of second rack, the ball-bar passes through bolt assembly fixed connection in the one end of second slider, trapezoidal piece sliding connection be in the inside of centrifugal rod, and the outer wall with the ball-bar laminating, elastic rubber piece fixed connection be in the inside of centrifugal rod, and one end with trapezoidal piece fixed connection.

As a still further scheme of the invention: the bottom fixedly connected with first stopper of shell is connected to the second, filter the inside bottom of shell seted up with first stopper assorted first spacing spout, the inboard of shell is connected to the second be provided with reciprocal lead screw assorted crescent moon round pin.

As a still further scheme of the invention: the telescopic sleeve is composed of a plurality of sleeves which are mutually sleeved in a sliding mode.

As a still further scheme of the invention: a gap exists between the second connecting shell and the first filter screen, and a plurality of through holes communicated with the inside are formed in the outer wall of the sewage suction pipe.

As a still further scheme of the invention: the blade is provided with a plurality ofly, and is a plurality of the blade equidistance distribute in the outer wall of second dwang, one of them the blade is located under the guide holder bin outlet.

As a still further scheme of the invention: the inner side of the connecting seat is provided with a second limiting sliding groove matched with the first sliding block, the bottom end of the first sliding block is arranged in the second limiting sliding groove, and the inner wall of the first sliding block is provided with a thread groove matched with the one-way screw rod.

As a still further scheme of the invention: the centrifugal device comprises a connecting seat, a centrifugal rod, a first rack, a second rack, a centrifugal rod, a third limiting chute, a fourth limiting chute, a second limiting block, a fifth limiting chute, a centrifugal rod, a third limiting chute, a fourth limiting chute, a second limiting block, a centrifugal rod, a third limiting chute, a fifth limiting chute and a centrifugal rod, wherein the third limiting chute is matched with the second rack, the top end of the second rack is installed inside the third limiting chute, the outer wall of the centrifugal rod is provided with the fourth limiting chute, the second limiting block is fixedly connected with the second limiting block, the second limiting block is connected with the centrifugal rod in a sliding mode, the outer wall of the centrifugal rod is fixedly connected with the inner wall of the centrifugal rod, and the third limiting chute is connected with the trapezoidal block.

The invention also discloses a use method of the temperature control shunt regulating valve, and the temperature control shunt regulating valve comprises the following steps:

s1, when the device runs, the water pump is started, liquid entering the valve body is filtered through the first filter screen, when the water pump runs, suction is generated inside a connecting pipe connected with the output end of the water pump, then suction is generated inside the filter shell through the telescopic hose and the sewage suction pipe respectively, the liquid inside the filter shell is conveyed to the inside of the first connecting shell through the connecting pipe connected with the output end of the water pump, the liquid entering the inside of the first connecting shell is filtered through the second filter screen, the filtered liquid is guided through the guide seat, so that the liquid impacts the outer wall of one blade, one blade is pushed to drive the second rotating rod to rotate, and the blades are provided with a plurality of blades and continuously flow out through the output end of the guide seat, thereby continuously impacting one blade to rotate, and driving the second rotating rod to continuously rotate;

s2, the second rotating rod rotates and simultaneously drives the reciprocating screw rod to rotate, so that the second connecting shell is driven to drive the first scraper plate to reciprocate, impurities adhered to the surface of the first filter screen are scraped off by the first scraper plate, the impurities are sucked into the first connecting shell by suction force generated in the filter shell through the sewage suction pipe and are filtered through the second filter screen, the reciprocating screw rod is protected through the telescopic sleeve, the impurities are prevented from being adhered to the outer wall of the reciprocating screw rod, filtered liquid flows back to the inside of the filter shell through the one-way valve, and the function of automatically cleaning the impurities accumulated on the surface of the first filter screen is realized through the cooperation of the parts;

s3, when the second rotating rod rotates, the first big bevel gear is driven to rotate, so that the first small bevel gear is driven to rotate through the third rotating rod, the second straight gear is driven to rotate, the first straight gear is driven to rotate through rotation, so that the first rotating rod drives the second scraper blade to rotate, the second scraper blade rotates to push impurities at the top end of the second filter screen to rotate, the impurities are pushed into the discharging pipe through a discharging opening at the top end of the supporting seat, the impurities are discharged to the outside through the discharging pipe, and the function of automatically discharging the impurities at the bottom end of the second filter screen is realized through the matching of the parts;

s4, the first large bevel gear rotates and simultaneously drives the third small bevel gear to rotate quickly, the third small bevel gear rotates quickly and simultaneously drives the centrifugal rod to rotate quickly, centrifugal rod rotates quickly to generate centrifugal force to act on the trapezoidal block, so that the trapezoidal block pulls the elastic rubber block to move towards the direction far away from the centrifugal rod, the spherical rod is pushed to move towards one end far away from the trapezoidal block while the trapezoidal block moves, the second sliding block pushes the second rack to extrude the spring to move towards the direction far away from the centrifugal rod while moving, the second rack contacts the fourth straight gear when moving, the fourth straight gear is driven to drive the second large bevel gear to rotate through the fourth rotating rod, and the second small bevel gear is driven to rotate quickly, the quick pivoted of second bevel pinion drives one-way lead screw rotates simultaneously to the drive first slider drives first rack to the big bevel gear of second is close to, thereby first rack removes the drive the third straight-toothed gear drives the sealing plug rotates, works as when the trapezoidal piece removes the maximum position, first rack drive the third straight-toothed gear drives the rotatory one hundred eighty degree of sealing plug, thereby will the inside of conveyer pipe is opened, and it will to carry out reverse operation with above-mentioned step the inside shutoff of conveyer pipe is carried out.

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

1. through the mutual matching of parts such as a water pump, blades and the like, when the water pump runs, suction is generated inside a connecting pipe connected with the output end of the water pump, then suction is generated inside a filter shell through a flexible hose and a sewage suction pipe respectively, liquid inside the filter shell is conveyed into the first connecting shell through the connecting pipe connected with the output end of the water pump, the liquid entering the first connecting shell is filtered through a second filter screen, the filtered liquid is guided through a guide seat, so that the liquid impacts the outer wall of one blade, thereby pushing one blade to drive a second rotating rod to rotate, as a plurality of blades are arranged, the liquid continuously flows out through the output end of the guide seat, thereby continuously impacting one blade to rotate, thereby driving the second rotating rod to continuously rotate, and simultaneously driving a reciprocating screw rod to rotate, thereby realizing the function of driving the reciprocating screw rod to rotate;

2. through the mutual matching of the reciprocating screw rod and the first scraper blade and other parts, the reciprocating screw rod is driven to rotate while the second rotating rod rotates, so that the second connecting shell is driven to drive the first scraper blade to move in a reciprocating manner, impurities adhered to the surface of the first filter screen are scraped off through the first scraper blade, the suction force generated inside the filter shell is sucked into the first connecting shell through the sewage suction pipe and is filtered through the second filter screen, the reciprocating screw rod is protected through the telescopic sleeve, the impurities are prevented from being adhered to the outer wall of the reciprocating screw rod, the filtered liquid flows back to the inside of the filter shell through the one-way valve, the function of automatically cleaning the impurities accumulated on the surface of the first filter screen is realized through the matching of the parts, and the frequency of cleaning the first filter screen by a worker is reduced;

3. through the mutual matching of the reciprocating screw rod and the first scraper blade and other parts, the second rotating rod drives the reciprocating screw rod to rotate while rotating, the second connecting shell is driven to drive the first scraper blade to move in a reciprocating manner, impurities adhered to the surface of the first filter screen are scraped off, the suction force generated inside the filter shell is sucked into the first connecting shell through the suction pipe and is filtered through the second filter screen, the function of automatically cleaning the impurities accumulated on the surface of the first filter screen is realized through the matching of the parts, and the frequency of cleaning the first filter screen by workers is reduced;

4. by arranging the automatic plugging mechanism, the first large bevel gear rotates and simultaneously drives the third small bevel gear to rotate rapidly, the third small bevel gear rotates rapidly and simultaneously drives the centrifugal rod to rotate rapidly, the centrifugal rod rotates rapidly to generate centrifugal force to act on the trapezoidal block, so that the trapezoidal block pulls the elastic rubber block to move away from the direction of the centrifugal rod, when the trapezoidal block moves, the spherical rod is pushed to move towards one end away from the trapezoidal block, when the second sliding block moves, the second rack extrusion spring is pushed to move towards the direction away from the centrifugal rod, when the second rack moves, the second rack is contacted with the fourth straight gear, the fourth straight gear is driven to drive the second large bevel gear to rotate through the fourth rotating rod, thereby driving the second small bevel gear to rotate rapidly, and when the second small bevel gear rotates rapidly, the screw rod is driven to rotate unidirectionally, thereby drive first slider and drive first rack and be close to the big bevel gear of second, thereby first rack removes and drives third straight-teeth gear and drive the sealing plug and rotate, when the trapezoidal piece removed the maximum position, first rack drive third straight-teeth gear drove the rotatory one hundred eighty degrees of sealing plug to open the inside of conveyer pipe, carry out reverse operation with above-mentioned step and carry out the shutoff with the conveyer pipe is inside, with this make things convenient for the staff to dismantle first filter screen.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a cross-sectional view of the valve body and filter housing of the present invention.

Fig. 3 is an enlarged view of the invention at a.

Fig. 4 is a schematic view of the internal structure of the filter housing of the present invention.

Fig. 5 is an enlarged view of the invention at B.

Fig. 6 is a schematic view of the internal structure of the first connecting shell according to the present invention.

Fig. 7 is an enlarged view of the present invention at C.

Fig. 8 is a sectional view of a first coupling housing of the present invention.

FIG. 9 is a cross-sectional view of a centrifugal rod of the present invention.

FIG. 10 is a schematic structural diagram of a cleaning mechanism for removing impurities according to the present invention.

In the figure: 1. a valve body; 2. a valve stem; 3. a hydraulic cylinder; 4. a support frame; 5. a filter shell; 6. a delivery pipe; 7. a first filter screen; 8. an impurity cleaning mechanism; 801. a first connecting shell; 802. a connecting pipe; 803. a water pump; 804. a flexible hose; 805. a sewage suction pipe; 806. a second connection housing; 807. a telescopic sleeve; 808. a reciprocating screw rod; 809. a first squeegee; 810. a first rotating lever; 811. a second squeegee; 812. a supporting seat; 813. a discharge pipe; 814. a one-way valve; 815. a second filter screen; 816. a first straight gear; 817. a second rotating lever; 818. a blade; 819. a first large bevel gear; 820. a first bevel pinion; 821. a third rotating rod; 822. a second spur gear; 823. a guide seat; 9. an automatic plugging mechanism; 901. a connecting seat; 902. a first slider; 903. a first rack; 904. a sealing plug; 905. a third spur gear; 906. a one-way screw rod; 907. a second large bevel gear; 908. a second bevel pinion; 909. a second slider; 910. a centrifugal lever; 911. a spherical rod; 912. a trapezoidal block; 913. a fourth spur gear; 914. a second rack; 915. a spring; 916. a fourth rotating rod; 917. a third bevel pinion; 918. an elastic rubber block; 10. a piston; 11. a temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be 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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention based on its overall structure.

Referring to fig. 1 to 10, in an embodiment of the present invention, a temperature control shunt regulating valve includes a valve body 1 and a support frame 4 fixedly connected to a top end of the valve body 1 through a bolt assembly, a hydraulic cylinder 3 is fixedly connected to an inside of the support frame 4 through a bolt assembly, an output end of the hydraulic cylinder 3 is fixedly connected to a valve rod 2 through a bolt assembly, a piston 10 is fixedly connected to a bottom end of the valve rod 2 through an inside of the valve body 1, an input end of the valve body 1 is fixedly connected to a filter housing 5 through a bolt assembly, an input end of the filter housing 5 is fixedly connected to a delivery pipe 6 by welding, a first filter screen 7 is fixedly connected to an inside of the filter housing 5 through a bolt assembly, and a temperature sensor 11 is fixedly connected to an inside of the filter housing 5 through a bolt assembly, wherein an impurity cleaning mechanism 8 penetrating through an outer wall of one side of the filter housing 5 is provided inside of the filter housing 5 for cleaning impurities accumulated on a surface of the first filter screen 7, the impurity cleaning mechanism 8 comprises a first connecting shell 801 fixedly connected to the outer wall of one side of the filter shell 5 through a bolt assembly;

the delivery pipe 6 is provided inside with an automatic plugging mechanism 9 penetrating inside the first connection housing 801 for plugging the delivery pipe 6.

In this embodiment: temperature sensor 11 and pneumatic cylinder 3 pass through wire, switch and external controller electric connection, clear up the impurity of first filter screen 7 surface adhesion through impurity clearance mechanism 8, can realize carrying out the function of shutoff to conveyer pipe 6 through automatic shutoff mechanism 9.

Please refer to fig. 1 to 10, the impurity cleaning mechanism 8 includes a first connecting shell 801, a connecting pipe 802, a water pump 803, a flexible hose 804, a dirt suction pipe 805, a second connecting shell 806, a flexible sleeve 807, a reciprocating screw rod 808, a first scraping plate 809, a first rotating rod 810, a second scraping plate 811, a support base 812, a discharge pipe 813, a one-way valve 814, a second filter screen 815, a first straight gear 816, a second rotating rod 817, a blade 818, a first big bevel gear 819, a first small bevel gear 820, a third rotating rod 821, a second straight gear 822 and a guide base 823, the reciprocating screw rod 808 is rotatably connected inside the filter shell 5, the second connecting shell 806 is slidably connected inside the filter shell 5 and sleeved on the outer wall of the reciprocating screw rod 808, two flexible sleeve 807 are provided, one end of each of the two flexible sleeves 807 is fixedly connected with the second connecting shell 806 and the other end is fixedly connected with the filter shell 5, two telescopic sleeves 807 are arranged on the outer wall of the reciprocating screw rod 808, a first scraper 809 is fixedly connected inside the second connecting shell 806 and is attached to the outer wall of the first filter screen 7, a sewage suction pipe 805 is fixedly connected inside the second connecting shell 806 and is positioned at two sides of the first scraper 809, the water pump 803 is fixedly connected at the top end of the filter shell 5 through a bolt assembly, two connecting pipes 802 are arranged, the two connecting pipes 802 are respectively fixedly connected at the output end and the input end of the water pump 803 through bolt assemblies, a telescopic hose 804 is connected with the connecting pipe 802 connected with the input end of the water pump 803 through a bolt assembly, one end of the connecting pipe 802 connected with the output end of the water pump 803 is fixedly connected with the input end of the first connecting shell 801, one end of the telescopic hose 804 is fixedly connected with the input end of the sewage suction pipe 805, a second rotating rod 817 is fixedly connected at one end of the reciprocating screw rod 808, and one end of the second rotating rod 817 penetrates into the first connecting shell 801, a first big bevel gear 819 is fixedly connected to the outer wall of the second rotating rod 817, a guide seat 823 is fixedly connected to the inside of the first connecting shell 801 and located above the second rotating rod 817, a blade 818 is fixedly connected to the outer wall of the second rotating rod 817 and located below the output end of the guide seat 823, a first small bevel gear 820 is rotatably connected to the inside of the guide seat 823 and has two ends respectively penetrating through the upper and lower ends of the guide seat 823, a first small bevel gear 820 is fixedly connected to the bottom end of the third rotating rod 821 and is engaged with the first big bevel gear 819, a second spur gear 822 is fixedly connected to the top end of the first small bevel gear 820, a support seat 812 is fixedly connected to the inside of the first connecting shell 801 and is located above the guide seat 823, a second filter screen 815 is fixedly connected to the inner side of the support seat 812 and is located below the feed inlet of the first connecting shell 801, a first rotating rod 810 is rotatably connected to the top end of the inside of the first connecting shell 801, the bottom end of the first straight gear 816 is fixedly connected to the bottom end of the first rotating rod 810 and is meshed with the second straight gear 822, the second scraper 811 is fixedly connected to the outer wall of the first rotating rod 810, the discharge pipe 813 is fixedly connected to the bottom end of the discharge port of the support 812 and is connected to the bottom end of the first connecting shell 801, one end of the check valve 814 is connected to the output end of the first connecting shell 801 through a bolt assembly, the other end of the check valve is connected to the output end of the filter shell 5, a gap is formed between the second connecting shell 806 and the first filter screen 7, the outer wall of the dirt suction pipe 805 is provided with a plurality of through holes communicated with the inside, the blades 818 are arranged in a plurality, the blades are equidistantly distributed on the outer wall of the second rotating rod 817, and one blade 818 is positioned right below the discharge port of the guide seat 823.

In this embodiment: when the device runs, the water pump 803 is started, liquid entering the valve body 1 is filtered through the first filter screen 7, when the water pump 803 runs, suction is generated inside the connecting pipe 802 connected with the output end of the water pump 803, then suction is generated inside the filter shell 5 through the telescopic hose 804 and the sewage suction pipe 805 respectively, the liquid inside the filter shell 5 is conveyed to the inside of the first connecting shell 801 through the connecting pipe 802 connected with the output end of the water pump 803, the liquid entering the inside of the first connecting shell 801 is filtered through the second filter screen 815, the filtered liquid is guided through the guide seat 823, so that the liquid impacts the outer wall of one blade 818, thereby pushing one blade 818 to drive the second rotating rod 817 to rotate, and as a plurality of blades 818 are arranged, the liquid continuously flows out through the output end of the guide seat 823, thereby continuously impacting one blade 818 to rotate, thereby drive second dwang 817 and constantly rotate, second dwang 817 rotates and drives reciprocal lead screw 808 simultaneously and rotate, thereby drive second connection shell 806 and drive first scraper blade 809 and carry out reciprocating motion, scrape the impurity that adheres at first filter screen 7 surface through first scraper blade 809, suction through sewage suction pipe 805 to filtering the inside production of shell 5 is inhaled inside first connection shell 801 and is filtered through second filter screen 815, protect reciprocal lead screw 808 through telescopic sleeve 807, avoid impurity adhesion at the outer wall of reciprocal lead screw 808, liquid after the filtration flows back the inside of filtering shell 5 through check valve 814, the function of carrying out automatic clearance to the accumulational impurity in first filter screen 7 surface has been realized through the cooperation of above a plurality of parts.

Please refer to fig. 1 to 9, the automatic plugging mechanism 9 includes a connecting seat 901, a first sliding block 902, a first rack 903, a sealing plug 904, a third spur gear 905, a one-way lead screw 906, a second large bevel gear 907, a second small bevel gear 908, a second sliding block 909, a centrifugal rod 910, a spherical rod 911, a trapezoidal block 912, a fourth spur gear 913, a second rack 914, a spring 915, a fourth rotating rod 916, a third small bevel gear 917, and an elastic rubber block 918, the connecting seat 901 is fixedly connected to the outer wall of the conveying pipe 6 through a bolt assembly, the one-way lead screw 906 is rotatably connected to the inner side of the connecting seat 901, the first sliding block 902 is slidably connected to the inner side of the connecting seat 901 and is sleeved on the outer wall of the one-way lead screw 906, the first rack 903 is fixedly connected to the outer wall of one side of the first sliding block 902 through a bolt assembly, the sealing plug 904 is rotatably connected to the inside of the conveying pipe 6, and the top end of the sealing plug penetrates above the conveying pipe 6, a third straight gear 905 is fixedly connected to the outer wall of the sealing plug 904 and engaged with the first rack 903, a second small bevel gear 908 is fixedly connected to the outer wall of the one-way screw 906, a fourth rotating rod 916 is rotatably connected to the inner side of the connecting seat 901, and two ends of the fourth rotating rod 916 respectively penetrate through the upper end and the lower end of the inner side of the connecting seat 901, a fourth straight gear 913 is fixedly connected to the bottom end of the fourth rotating rod 916, a second large bevel gear 907 is fixedly connected to the top end of the fourth rotating rod 916 and engaged with the second small bevel gear 908, a second rack 914 is slidably connected to the bottom end of the connecting seat 901 and engaged with the fourth straight gear 913, one end of a spring 915 is fixedly connected to the second rack 914, and the other end of the spring is fixedly connected to the connecting seat 901, a centrifugal rod 910 is rotatably connected to the inside of the first connecting shell 801, and one end of the centrifugal rod 917 is fixedly connected to one end of the centrifugal rod 910, and is engaged with the first big bevel gear 819, the second slider 909 is slidably connected to the outer wall of the centrifugal rod 910, and the outer wall is attached to the second rack 914, the spherical rod 911 is fixedly connected to one end of the second slider 909 through a bolt assembly, the trapezoidal block 912 is slidably connected to the inside of the centrifugal rod 910, and the outer wall is attached to the spherical rod 911, the elastic rubber block 918 is fixedly connected to the inside of the centrifugal rod 910, and one end is fixedly connected to the trapezoidal block 912.

In this embodiment: the first big bevel gear 819 rotates and simultaneously drives the third small bevel gear 917 to rotate fast, the third small bevel gear 917 rotates fast and simultaneously drives the centrifugal rod 910 to rotate fast, the centrifugal rod 910 rotates fast to generate centrifugal force to act on the trapezoidal block 912, so that the trapezoidal block 912 pulls the elastic rubber block 918 to move away from the centrifugal rod 910, when the trapezoidal block 912 moves, the spherical rod 911 is pushed to drive the second slider 909 to move towards the end away from the trapezoidal block 912, when the second slider 909 moves, the second rack 914 is pushed to press the spring 915 to move towards the direction away from the centrifugal rod 910, when the second rack 914 moves, the second rack 914 is in contact with the fourth straight gear 913, the fourth straight gear 913 is driven to drive the second big bevel gear 907 to rotate through the fourth rotating rod 916, thereby driving the second small bevel gear 908 to rotate fast, and when the second small bevel gear 908 rotates fast, the one-way screw 906 is driven to rotate, thereby drive first slider 902 and drive first rack 903 and be close to second big bevel gear 907, first rack 903 moves thereby drive third straight-toothed gear 905 and drive sealing plug 904 and rotate, and when trapezoidal piece 912 moved to the maximum position, first rack 903 drive third straight-toothed gear 905 drove sealing plug 904 and rotate one hundred eighty degrees to open the inside of conveyer pipe 6, carry out the reverse operation with above-mentioned step and carry out the shutoff with conveyer pipe 6 inside.

Please refer to fig. 3 and 5, the bottom end of the second connecting shell 806 is fixedly connected with a first limiting block, the bottom end of the inside of the filtering shell 5 is provided with a first limiting chute matched with the first limiting block, and the inner side of the second connecting shell 806 is provided with a crescent pin matched with the reciprocating screw rod 808.

In this embodiment: be convenient for reciprocal lead screw 808 to rotate and drive second connecting shell 806 and remove along first spacing spout direction through first stopper, carry out spacingly through mutually supporting of first stopper and first spacing spout to second connecting shell 806, avoid second connecting shell 806 to take place the skew at the in-process that removes.

Referring to fig. 3 and 5, the retractable sleeve 807 is composed of a plurality of sleeves slidably engaged with each other.

In this embodiment: be convenient for telescopic sleeve 807 can stretch out and draw back, protect reciprocal lead screw 808 through telescopic sleeve 807, avoid impurity adhesion to the outer wall of reciprocal lead screw 808.

Please refer to fig. 7, the inner side of the connecting seat 901 is provided with a second limiting sliding slot matched with the first sliding block 902, the bottom end of the first sliding block 902 is installed inside the second limiting sliding slot, and the inner wall of the first sliding block 902 is provided with a thread groove matched with the one-way screw 906.

In this embodiment: the one-way lead screw 906 of being convenient for rotates first slider 902 along the removal of the spacing spout direction of second, carries out spacingly through the spacing spout of second to first slider 902, avoids first slider 902 to take place the skew at the in-process that removes.

Please refer to fig. 9, a third limiting sliding slot matched with the second rack 914 is formed at the bottom end of the connecting seat 901, the top end of the second rack 914 is installed inside the third limiting sliding slot, a fourth limiting sliding slot is formed on the outer wall of the centrifugal rod 910, a second limiting block is fixedly connected to the inner side of the second slider 909, the second slider 909 is slidably connected to the centrifugal rod 910 through the second limiting block fixedly connected to the inner side, a third limiting block is fixedly connected to the outer wall of the trapezoidal block 912, a fifth limiting sliding slot matched with the third limiting block is formed on the inner wall of the centrifugal rod 910, and the trapezoidal block 912 is slidably connected to the centrifugal rod 910 through the third limiting block fixedly connected to the outer wall.

In this embodiment: the centrifugal rod 910 can rotate fast to generate centrifugal force to act on the trapezoidal block 912, so that the trapezoidal block 912 pulls the elastic rubber block 918 to move along the direction of the fifth limiting sliding groove through the third limiting block, when the trapezoidal block 912 moves, the spherical rod 911 is pushed to drive the second sliding block 909 to move along the fourth limiting sliding groove to the end far away from the trapezoidal block 912 through the second limiting block, and when the second sliding block 909 moves, the second rack 914 is pushed to extrude the spring 915 to move along the third limiting sliding groove

The use method of the temperature control shunt regulating valve is provided by combining the temperature control shunt regulating valve, and specifically comprises the following steps:

s1, when the device is running, the water pump 803 is started, the liquid entering the valve body 1 is filtered through the first filter screen 7, when the water pump 803 runs, suction is generated inside the connecting pipe 802 connected with the output end of the water pump 803, then suction is generated inside the filter shell 5 through the telescopic hose 804 and the sewage suction pipe 805, the liquid inside the filter shell 5 is conveyed to the inside of the first connecting shell 801 through the connecting pipe 802 connected with the output end of the water pump 803, the liquid entering the inside of the first connecting shell 801 is filtered through the second filter screen 815, the filtered liquid is guided through the guide seat 823, so that the liquid impacts the outer wall of one blade 818, thereby pushing one blade 818 to drive the second rotating rod 817 to rotate, and as a plurality of blades 818 are arranged, the liquid continuously flows out through the output end of the guide seat 823, thereby continuously impacting one blade 818 to rotate, thereby driving the second rotating rod 817 to rotate continuously;

s2, the second rotating rod 817 rotates and simultaneously drives the reciprocating screw rod 808 to rotate, so that the second connecting shell 806 is driven to drive the first scraping plate 809 to move in a reciprocating mode, impurities adhered to the surface of the first filter screen 7 are scraped off through the first scraping plate 809, suction force generated inside the filter shell 5 through the sewage suction pipe 805 is sucked inside the first connecting shell 801 and filtered through the second filter screen 815, the reciprocating screw rod 808 is protected through the telescopic sleeve 807, the impurities are prevented from being adhered to the outer wall of the reciprocating screw rod 808, filtered liquid flows back to the inside of the filter shell 5 through the one-way valve 814, and the function of automatically cleaning the impurities accumulated on the surface of the first filter screen 7 is achieved through the matching of the parts;

s3, drive first big bevel gear 819 when second dwang 817 rotates and rotate, thereby drive first little bevel gear 820 and drive second spur gear 822 through third dwang 821 and rotate, second spur gear 822 rotates and drives first spur gear 816 and rotate, thereby drive second scraper blade 811 through first dwang 810 and rotate, second scraper blade 811 rotates and promotes second filter screen 815 top impurity and rotates, push the inside of row 'S material pipe 813 through the bin outlet on supporting seat 812 top, discharge to the external world through row' S material pipe 813, realize carrying out the function of automatic discharge with second filter screen 815 bottom impurity through the cooperation of above a plurality of parts;

s4, the first big bevel gear 819 rotates and simultaneously drives the third small bevel gear 917 to rotate fast, the third small bevel gear 917 rotates fast and simultaneously drives the centrifugal rod 910 to rotate fast, the centrifugal rod 910 rotates fast to generate centrifugal force to act on the trapezoidal block 912, so that the trapezoidal block 912 pulls the elastic rubber block 918 to move away from the centrifugal rod 910, the spherical rod 911 is pushed to move away from one end of the trapezoidal block 912 while the trapezoidal block 912 moves, the second slider 909 moves and simultaneously pushes the second rack 914 to press the spring 915 to move away from the centrifugal rod 910, the second rack 914 moves to contact with the fourth straight gear 913 while moving, the fourth straight gear 913 is driven to drive the second big bevel gear 907 to rotate through the fourth rotating rod 916, the second small bevel gear 908 rotates fast and simultaneously drives the one-way screw 906 to rotate fast, thereby drive first slider 902 and drive first rack 903 and be close to second big bevel gear 907, first rack 903 moves thereby drive third straight-toothed gear 905 and drive sealing plug 904 and rotate, and when trapezoidal piece 912 moved to the maximum position, first rack 903 drive third straight-toothed gear 905 drove sealing plug 904 and rotate one hundred eighty degrees to open the inside of conveyer pipe 6, carry out the reverse operation with above-mentioned step and carry out the shutoff with conveyer pipe 6 inside.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. A temperature control shunt regulating valve comprises a valve body (1) and a support frame (4) fixedly connected to the top end of the valve body (1) through a bolt assembly, a hydraulic cylinder (3) is fixedly connected to the inside of the support frame (4) through the bolt assembly, a valve rod (2) is fixedly connected to the output end of the hydraulic cylinder (3) through the bolt assembly, a piston (10) is fixedly connected to the inside of the valve body (1) through the bottom end of the valve rod (2), a filter shell (5) is fixedly connected to the input end of the valve body (1) through the bolt assembly, a conveying pipe (6) is fixedly connected to the input end of the filter shell (5) in a welding manner, a first filter screen (7) is fixedly connected to the inside of the filter shell (5) through the bolt assembly, and a temperature sensor (11) is fixedly connected to the inside of the filter shell (5) through the bolt assembly, the filter shell is characterized in that an impurity cleaning mechanism (8) penetrating through the outer wall of one side of the filter shell (5) is arranged in the filter shell (5) and used for cleaning impurities accumulated on the surface of the first filter screen (7), and the impurity cleaning mechanism (8) comprises a first connecting shell (801) fixedly connected to the outer wall of one side of the filter shell (5) through a bolt assembly;

the automatic plugging device is characterized in that an automatic plugging mechanism (9) penetrating into the first connecting shell (801) is arranged in the conveying pipe (6) and used for plugging the conveying pipe (6).

2. The temperature-controlled flow-dividing regulating valve according to claim 1, wherein the impurity cleaning mechanism (8) comprises a first connecting shell (801), a connecting pipe (802), a water pump (803), a telescopic hose (804), a sewage suction pipe (805), a second connecting shell (806), a telescopic sleeve (807), a reciprocating screw rod (808), a first scraper blade (809), a first rotating rod (810), a second scraper blade (811), a supporting seat (812), a discharging pipe (813), a one-way valve (814), a second filter screen (815), a first straight gear (816), a second rotating rod (817), a blade (818), a first big bevel gear (819), a first small bevel gear (820), a third rotating rod (821), a second straight gear (822) and a guide seat (823), the reciprocating screw rod (808) is rotatably connected inside the filter shell (5), the second connecting shell (806) is slidably connected inside the filter shell (5), the two telescopic sleeves (807) are arranged, one ends of the two telescopic sleeves (807) are fixedly connected with the second connecting shell (806) respectively, the other ends of the two telescopic sleeves are fixedly connected with the filtering shell (5), the two telescopic sleeves (807) are arranged on the outer wall of the reciprocating screw rod (808), the first scraping plate (809) is fixedly connected inside the second connecting shell (806) and attached to the outer wall of the first filter screen (7), the dirt suction pipe (805) is fixedly connected inside the second connecting shell (806) and located on two sides of the first scraping plate (809), the water pump (803) is fixedly connected to the top end of the filtering shell (5) through a bolt assembly, the two connecting pipes (802) are arranged, and the two connecting pipes (802) are fixedly connected to the output end and the input end of the water pump (803) through bolt assemblies respectively, the telescopic hose (804) is connected with a connecting pipe (802) connected with the input end of a water pump (803) through a bolt assembly, one end of the connecting pipe (802) connected with the output end of the water pump (803) is fixedly connected with the input end of a first connecting shell (801), one end of the telescopic hose (804) is fixedly connected with the input end of a sewage suction pipe (805), a second rotating rod (817) is fixedly connected with one end of a reciprocating screw rod (808), one end of the second rotating rod penetrates through the inside of the first connecting shell (801), a first large bevel gear (819) is fixedly connected with the outer wall of a second rotating rod (817), a guide seat (823) is fixedly connected with the inside of the first connecting shell (801) and is positioned above the second rotating rod (817), a blade (818) is fixedly connected with the outer wall of the second rotating rod (817) and is positioned below the output end of the guide seat (823), first bevel pinion (820) rotate connect in the inside of guide holder (823), and both ends run through respectively the upper and lower both ends of guide holder (823), first bevel pinion (820) fixed connection in the bottom of third dwang (821), and with first big bevel gear (819) mesh mutually, second spur gear (822) fixed connection in the top of first bevel pinion (820), supporting seat (812) fixed connection in the inside of first connection shell (801), and be located the top of guide holder (823), second filter screen (815) fixed connection in the inboard of supporting seat (812), and be located the below of first connection shell (801) feed inlet, first rotation pole (810) rotate connect in the inside top of first connection shell (801), and the bottom runs through to the below of supporting seat (812), first spur gear (816) fixed connection be in the bottom of first transfer pole (810), and with second spur gear (822) meshes mutually, second scraper blade (811) fixed connection be in the outer wall of first transfer pole (810), row material pipe (813) fixed connection be in the below of supporting seat (812) bin outlet, and the bottom run through extremely the bottom of first connection shell (801), check valve (814) one end pass through bolt assembly with the output of first connection shell (801) is connected, and the other end with the output of filtering shell (5) is connected.

3. The temperature-controlled flow-dividing regulating valve according to claim 2, wherein the automatic plugging mechanism (9) comprises a connecting seat (901), a first sliding block (902), a first rack (903), a sealing plug (904), a third straight gear (905), a one-way screw rod (906), a second large bevel gear (907), a second small bevel gear (908), a second sliding block (909), a centrifugal rod (910), a spherical rod (911), a trapezoidal block (912), a fourth straight gear (913), a second rack (914), a spring (915), a fourth rotating rod (916), a third small bevel gear (917) and an elastic rubber block (918), the connecting seat (901) is fixedly connected to the outer wall of the conveying pipe (6) through a bolt assembly, the one-way screw rod (906) is rotatably connected to the inner side of the connecting seat (901), the first sliding block (902) is slidably connected to the inner side of the connecting seat (901), the sealing plug (904) is rotatably connected inside the conveying pipe (6), the top end of the sealing plug (904) penetrates above the conveying pipe (6), the third straight gear (905) is fixedly connected to the outer wall of the sealing plug (904) and is meshed with the first rack (903), the second small bevel gear (908) is fixedly connected to the outer wall of the unidirectional screw rod (906), the fourth rotating rod (916) is rotatably connected to the inner side of the connecting seat (901), two ends of the fourth rotating rod respectively penetrate through the upper end and the lower end of the inner side of the connecting seat (901), the fourth straight gear (913) is fixedly connected to the bottom end of the fourth rotating rod (916), and the second large bevel gear (907) is fixedly connected to the top end of the fourth rotating rod (916), and is engaged with the second small bevel gear (908), the second rack (914) is slidably connected to the bottom end of the connecting seat (901) and is engaged with the fourth spur gear (913), one end of the spring (915) is fixedly connected with the second rack (914) and the other end is fixedly connected with the connecting seat (901), the centrifugal rod (910) is rotatably connected inside the first connecting shell (801) and one end of the centrifugal rod penetrates through the outer wall of one side of the first connecting shell (801), the third small bevel gear (917) is fixedly connected with one end of the centrifugal rod (910) and is engaged with the first large bevel gear (819), the second slider (909) is slidably connected to the outer wall of the centrifugal rod (910) and the outer wall of the second rack (914) is attached, the spherical rod (911) is fixedly connected to one end of the second slider (909) through a bolt assembly, the trapezoidal block (912) is connected to the inside of the centrifugal rod (910) in a sliding mode, the outer wall of the trapezoidal block is attached to the spherical rod (911), the elastic rubber block (918) is fixedly connected to the inside of the centrifugal rod (910), and one end of the elastic rubber block is fixedly connected with the trapezoidal block (912).

4. The temperature-control flow-dividing regulating valve according to claim 2, wherein a first limiting block is fixedly connected to the bottom end of the second connecting shell (806), a first limiting sliding groove matched with the first limiting block is formed in the bottom end of the interior of the filter shell (5), and a crescent pin matched with the reciprocating screw rod (808) is arranged on the inner side of the second connecting shell (806).

5. A temperature-controlled flow-dividing regulating valve according to claim 2, characterized in that the telescopic sleeve (807) consists of a plurality of sleeves slidably nested in one another.

6. The temperature control flow dividing and adjusting valve according to claim 2, wherein a gap exists between the second connecting shell (806) and the first filter screen (7), and a plurality of through holes communicated with the inside are formed in the outer wall of the sewage suction pipe (805).

7. A temperature-controlled flow-dividing regulating valve according to claim 2, wherein a plurality of vanes (818) are provided, a plurality of vanes (818) are equidistantly distributed on the outer wall of the second rotating rod (817), and one of the vanes (818) is positioned right below the discharge opening of the guide seat (823).

8. The temperature control flow distribution regulating valve according to claim 3, wherein a second limiting sliding groove matched with the first sliding block (902) is formed in the inner side of the connecting seat (901), the bottom end of the first sliding block (902) is installed in the second limiting sliding groove, and a threaded groove matched with the one-way screw rod (906) is formed in the inner wall of the first sliding block (902).

9. The temperature-controlled flow-dividing regulating valve according to claim 3, wherein a third limiting chute matched with the second rack (914) is formed at the bottom end of the connecting seat (901), the top end of the second rack (914) is arranged inside the third limiting sliding groove, the outer wall of the centrifugal rod (910) is provided with a fourth limiting sliding groove, the inner side of the second sliding block (909) is fixedly connected with a second limiting block, the second sliding block (909) is connected with the centrifugal rod (910) in a sliding way through the second limiting block fixedly connected with the inner side, the outer wall of the trapezoidal block (912) is fixedly connected with a third limiting block, the inner wall of the centrifugal rod (910) is provided with a fifth limiting sliding groove matched with the third limiting block, the trapezoidal block (912) is connected with the centrifugal rod (910) in a sliding manner through a third limiting block fixedly connected with the outer wall.

10. A method of using a temperature controlled split flow regulator valve, the method comprising the steps of:

s1, when the device is operated, the water pump (803) is started, liquid entering the valve body (1) is filtered through the first filter screen (7), when the water pump (803) is operated, suction is generated inside a connecting pipe (802) connected with the output end of the water pump (803), then suction is generated inside the filter shell (5) through the telescopic hose (804) and the sewage suction pipe (805), liquid inside the filter shell (5) is conveyed to the inside of the first connecting shell (801) through the connecting pipe (802) connected with the output end of the water pump (803), liquid entering the inside of the first connecting shell (801) is filtered through the second filter screen (815), and the filtered liquid is guided through the guide seat (823) so that the liquid impacts the outer wall of one blade (818), therefore, one blade (818) is pushed to drive the second rotating rod (817) to rotate, and as a plurality of blades (818) are arranged, liquid continuously flows out through the output end of the guide seat (823), so that one blade (818) is continuously impacted to rotate, and the second rotating rod (817) is driven to rotate continuously;

s2, the second rotating rod (817) rotates and simultaneously drives the reciprocating screw rod (808) to rotate, thereby driving the second connecting shell (806) to drive the first scraping plate (809) to move in a reciprocating way, the impurities adhered to the surface of the first filter screen (7) are scraped off by the first scraper blade (809), the suction force generated inside the filter housing (5) is sucked into the first connection housing (801) through the suction pipe (805) and filtered through the second filter net (815), the reciprocating screw rod (808) is protected by the telescopic sleeve (807), impurities are prevented from being adhered to the outer wall of the reciprocating screw rod (808), filtered liquid flows back to the inside of the filter shell (5) through the one-way valve (814), the function of automatically cleaning impurities accumulated on the surface of the first filter screen (7) is realized through the matching of the parts;

s3, when the second rotating rod (817) rotates, the first large bevel gear (819) is driven to rotate, so that the first small bevel gear (820) is driven to rotate through the third rotating rod (821), the second straight gear (822) rotates to drive the first straight gear (816) to rotate, the second scraper blade (811) rotates to drive impurities at the top end of the second filter screen (815) to rotate, the impurities are pushed into the discharge pipe (813) through a discharge port at the top end of the supporting seat (812), the impurities are discharged to the outside through the discharge pipe (813), and the impurities at the bottom end of the second filter screen (815) are automatically discharged through the matching of the parts;

s4, the first big bevel gear (819) rotates and simultaneously drives the third small bevel gear (917) to rotate fast, the third small bevel gear (917) rotates fast and simultaneously drives the centrifugal rod (910) to rotate fast, the centrifugal rod (910) rotates fast to generate centrifugal force to act on the trapezoidal block (912), so that the trapezoidal block (912) pulls the elastic rubber block (918) to move in a direction away from the centrifugal rod (910), the spherical rod (911) is pushed to move towards one end away from the trapezoidal block (912) while the trapezoidal block (912) moves, the second sliding block (909) pushes the second rack (914) to press the spring (915) to move in a direction away from the centrifugal rod (910) while moving, and the second rack (914) contacts with the fourth straight gear (913) while moving, the fourth straight gear (913) is driven to drive the second big bevel gear (907) to rotate through the fourth rotating rod (916), thereby driving the second small bevel gear (908) to rotate rapidly, the second small bevel gear (908) drives the one-way screw rod (906) to rotate while rotating rapidly, thereby driving the first slide block (902) to drive the first rack (903) to approach the second big bevel gear (907), the first rack (903) moves to drive the third straight gear (905) to drive the sealing plug (904) to rotate, when the trapezoid block (912) moves to the maximum position, the first rack (903) drives the third spur gear (905) to drive the sealing plug (904) to rotate by one hundred and eighty degrees, thereby opening the interior of the conveying pipe (6), and carrying out reverse operation on the steps to seal off the interior of the conveying pipe (6).