CN106731097A - A kind of intelligent rainwater storage pipe network spiral-flow filter and its installation method - Google Patents

Abstract

The invention discloses a kind of intelligent rainwater storage pipe network spiral-flow filter and its installation method, including cylinder and end cap, rain is set on the side of cylinder and flows into pipe, outlet pipe and blow-off pipe, convergence chamber and unhurried current chamber are provided with cylinder, converge and be provided with vertical damping muscle between chamber and unhurried current chamber, annular slot is provided with vertical damping muscle, pan was provided with annular slot, cross and rotating shaft is provided with above pan, supercharging blade is provided with rotating shaft, the top of rotating shaft is connected on the bottom surface of end cap by rotating mechanism, rainwater to be flowed into and be provided with flow controller on pipe, rainwater flows into pipe and is internally provided with first sensor, second sensor is provided with outlet pipe.Its method includes：The mouth of pipe is laid, crosses pan installation, rotating mechanism connection, end cap and cylinder installation connection and spiral-flow filter trial operation.Present invention process flow is simple, workable, adapts to the use of different rainwater storage pipe networks, improves the installation accuracy of spiral-flow filter.

Description

A kind of intelligent rainwater storage pipe network spiral-flow filter and its installation method

Technical field

The present invention relates to a kind of intelligent rainwater storage pipe network spiral-flow filter and its installation method.

Background technology

Water is the irreplaceable resource of survival and development of mankind, is the important substance basis of Sustainable Socioeconomic Development, is The indispensable control selector of ecological environment.But, with urbanization and the quickening of process of industrialization, demographic and economic activity Concentration, change river basin sewerage performance and landforms situation, change the characteristic of rainfall runoff, increased the impervious surface in city Product, such as street, roof, parking lot, make considerable part basin be covered by impermeable surface, cause rainwater directly to penetrate into Underground, depression retaining is largely reduced, and the flood that urban storm runoff is produced is serious all the more, and these Land_use change situations change Change substantially reduces rainfall to the time confluxed, and increased the speed and run-off confluxed, and makes the energy that drains off floodwaters of the original pipeline in city Power can't bear to bear a heavy burden, and waterlogging or the existing frequency of water cleared-out are also greatly increased.

As the development of urbanization, impermeable surface area increase, Rainfall runoff is promoted to increase.If in urban rainwater The storage pond of large volume is set in pipe-line system, the crest discharge of rainfall runoff is kept in it, after crest discharge declines, The water that will be stored in pond again is slowly discharged, and such storage pond has temporarily regulated and stored flood peak through flow, reduces flood peak, can be very big Ground reduces the cross dimensions of downstream Storm-water sewer.And spiral-flow filter is the pith in rainwater storage pipe network, its performance Quality directly determines the operational efficiency of rainwater storage pipe network.Spiral-flow filter of the prior art can only play filter bypass Effect, it is impossible to be controlled to flow, supercharging can not change the pressure of pipeline, and practicality is poor.

The content of the invention

Used present invention aim at a kind of intelligent rainwater storage pipe network is provided for the deficiency existing for prior art The technical scheme of spiral-flow filter and its installation method, can not only realize filtering the effect of debris dirt, and can realize Regulation and control to flow in pipe network, installation method of the invention, technological process is simple, workable, adapts to different rainwater and adjusts The use of pipe network is stored, the stability and operating efficiency of spiral-flow filter is improve, production line balance can be realized, improve eddy flow mistake The installation accuracy of filter.

In order to solve the above-mentioned technical problem, the present invention is adopted the following technical scheme that：

A kind of intelligent rainwater storage pipe network spiral-flow filter, including cylinder and end cap, pass through between end cap and cylinder Threaded connection, sets rain and flows into pipe, outlet pipe and blow-off pipe on the side of cylinder, blow-off pipe is located at rainwater and flows under pipe Side, outlet pipe is located at rainwater and flows between pipe and blow-off pipe, it is characterised in that：Convergence chamber and unhurried current chamber are provided with cylinder, are converged Poly- chamber is located at the top in unhurried current chamber, to converge and be provided with vertical damping muscle between chamber and unhurried current chamber, and ring is provided with vertical damping muscle Shape draw-in groove, was provided with pan on annular slot, cross above pan and be provided with rotating shaft, and supercharging blade is provided with rotating shaft, turned The bottom of axle was stretched into pan, and the top of rotating shaft is connected on the bottom surface of end cap by rotating mechanism, and rainwater flows into Guan Shangshe It is equipped with flow controller, what rainwater flowed into pipe is internally provided with first sensor, and second sensor is provided with outlet pipe；Pass through The design of vertical damping muscle, can not only play the choked flow effect of rainwater, and be easy to form vortex, and debris are dirty in improving rainwater The filter efficiency of dirt, while the annular slot on vertical damping muscle can be used for fixing pan, facilitated the installation of pan with Dismounting, free style turns shaft design, supercharging blade can be made to be rotated in the presence of rainwater, it is not necessary to connect reality by power again It is existing, the loss of energy is reduced, the separative efficiency of debris dirt is improve, prevented in pan because debris accumulation of mud is excessive And the filter efficiency of rainwater is influenceed, and the normal operation of rainwater storage pipe network is influenceed, first sensor and second sensor can divide Not by the signal transmission of inflow and water yield to flow controller, the digital difference by two sensors is that can obtain list The size of bit traffic, is easy to regulate and control rainwater storage pipe network, prevents spiral-flow filter from overload operation occur, influences it to make Use the life-span.

Further, crossing pan includes bracket and screen pack, and screen pack is fixedly connected on the lower section of bracket, on the side of bracket Snap ring is provided with, snap ring matches with annular slot, by the design of snap ring, facilitated the installation and dismounting, screen pack of pan Effectively the debris dirt in rainwater can be separated, be improved the utilization rate of rainwater, saving water resource.

Further, the S-shaped arrangement of blade is pressurized, S-shaped design can not only increase the contact area of supercharging blade and rainwater, Rainwater is improved to being pressurized the active force of blade, and the rotary speed of rotating shaft can be improved, and then realize supercharging blade to rainwater Supercharging reaction, realize the quick separating of debris dirt.

Further, be provided with support beam on end cap, rotating mechanism includes linking block and moving block, linking block and support beam it Between be threadedly coupled, moving block is fixedly connected on the top of rotating shaft, sets fluted on linking block, and moving block is rotatably connected on groove Interior, the bottom of moving block is provided with locating piece, and locating piece is spacing at the opening of groove, and threaded connection can be in order to be connected block Remove and install, while fixed effect can be played, moving block can freely be rotated in the presence of rotating shaft, reduce rotation When frictional force, locating piece can play a part of support, prevent moving block from being skidded off from groove, influence rotating mechanism it is normal Work.

Further, be respectively arranged with display screen and battery on the side and bottom surface of flow controller, flow controller it is another Side is provided with deflector, and deflector is located at rainwater and flows into pipe, and deflector is fixedly connected in rotating bar, the end of rotating bar First bevel gear is provided with, nut is provided with the top surface of flow controller, nut is connected with drive link, and the bottom of drive link sets Second bevel gear is equipped with, first bevel gear is intermeshed with second bevel gear, and battery may be used to provide electric energy, and display screen then may be used Shown with by the signal measured on first sensor and second sensor, be easy to adjust the flow of rainwater storage pipe network Control, when needed, only needs rotating screw cap, by bevel gear mechanism deflector can be driven to rotate, and realizes to being flowed in pipeline The control of amount.

A kind of method of intelligent rainwater storage pipe network spiral-flow filter described above is installed, it is characterised in that including such as Lower step：

1) mouth of pipe is laid

The size of a, the scale first according to rainwater storage pipe network, distribution situation and carrying capacity selects correspondingly sized cylinder Body, and the installation site according to spiral-flow filter and the position of the laying requirement determination mouth of pipe of pipe network, then on the mouth of pipe respectively Rainwater is installed and flows into pipe, outlet pipe and blow-off pipe；

B, then rainwater flow into pipe medial surface on first sensor is installed, install second on the medial surface of outlet pipe Sensor；

C and then the mounting guiding board in rainwater is flowed into and managed, are positioned deflector with rotary shaft, and in rotary shaft Second bevel gear is installed in end, and flow controller is installed on the lateral surface that pipe is then flowed into rainwater, makes in flow controller First bevel gear is intermeshed with second bevel gear, drives deflector to rotate by rotating screw cap, realizes flowing into pipe rainwater The control of flow；

D, the last port for flowing into pipe, outlet pipe and blow-off pipe in rainwater are sealed with sponge；

2) pan is crossed to install

A, the peace that snap ring on pan was determined according to the installation site of vertical damping muscle in cylinder and the size of annular slot Holding position, and marked with white powder, then bracket is upside down on scroll chuck, in bracket and the contact position of chuck Rubber blanket on pad, at the white marking that then snap ring is upside down on bracket side, is welded snap ring with bracket with bonding machine Connect；

B and then bracket is removed, screen pack is installed in the lower section of bracket, the mesh diameter size of screen pack meets rainwater tune The filtering requirement of pipe network is stored, the depth of screen pack reaches the vertical range of outlet pipe position when being and installing, in screen pack and bracket Junction welded；

C, finally the screen pack for crossing pan is vertically put into cylinder down, until snap ring is spacing in annular slot, so After rotate bracket, coordinate snap ring and annular slot firm；

3) rotating mechanism connection

A, the end cap that will be processed first are upside down in horizontal machine table, and are fixed end cap with disk is clamped, at end Cover and separated with rubber blanket with the contact position for clamping disk, internal thread is drilled through in the support beam of end cap with tapper mechanism after clamping, The depth of internal thread is 50~60mm, and internal threads hole is cleared up after withdrawing；

B and then choose and be connected block with internal thread diameter matches, block will be connected and be fixed on scroll chuck, first use car Knife opens up the groove that depth is 60mm in the end of linking block, then linking block is inverted into clamping on scroll chuck, is existed with lathe tool The lateral surface for being connected block is got on the bus the external screw thread matched with internal thread in support beam, and externally threaded depth is 50~60mm；

C, linking block is then removed, linking block is vertically disposed in the support beam of end cap, linking block is then turned tight, made Linking block is fixedly connected with end cap；

D, again will carry supercharging blade rotating shaft vertically be inverted, make roller end moving block it is spacing linking block on it is recessed In groove, and moving block is carried out with locating piece spacing, rotating shaft is freely rotated；

4) end cap is installed with cylinder and is connected

After rotating mechanism connection, unclamp clamp disk first, overturn end cap with mechanical arm, make the one end with rotating shaft Vertically down, and the top of cylinder is moved to, is then transferred end cap, until end cap is contacted with cylinder, now rotating shaft Bottom entered in pan, then release mechanism hand, by manual rotation's end cap, end cap was connected and sealed with cylinder；

5) spiral-flow filter trial operation

A, after cylinder is connected with end cap and terminates, the sponge that rainwater is flowed on pipe, outlet pipe and blow-off pipe is removed first, and Rainwater is flowed into pipe, outlet pipe and blow-off pipe and connects external pipe respectively, then pass to water, observe the connecting portion of spiral-flow filter The air-tightness of position；

B and then by observing the display screen on flow controller, rotating screw cap flows into the deflector in pipe and enters to rainwater Row angular adjustment, and then uninterrupted is controlled, display screen is passed data to through first sensor and second sensor, until control Precision processed reaches the requirement of setting；

C, after spiral-flow filter trial operation terminates, the setting position of rainwater storage pipe network is mounted to, with pipe network system System is attached, and rainwater flows into pipe and enters convergence chamber from rainwater, and through the vertical damping muscle choked flow in cavity wall, debris dirt leans on vortex Center flow, water was flowed into pan, separated debris dirt, and rainwater enters unhurried current chamber after filter screen filtration, through outlet pipe Output, the sewage debris intercepted by screen pack then inject blowdown pipe network by blow-off pipe.

The present invention is by adopting the above-described technical solution, have the advantages that：

1st, by the design of vertical damping muscle, the choked flow effect of rainwater can be not only played, and is easy to form vortex, carried The filter efficiency of debris dirt in rainwater high, while the annular slot on vertical damping muscle can be used for fixing pan, it is convenient Cross the installation and dismounting of pan；

2nd, free style turns shaft design, supercharging blade can be made to be rotated in the presence of rainwater, it is not necessary to connect power again i.e. It is capable of achieving, reduces the loss of energy, improve the separative efficiency of debris dirt, prevented in pan due to debris accumulation of mud Filter efficiency that is excessive and influenceing rainwater, influences the normal operation of rainwater storage pipe network；

3rd, first sensor and second sensor can respectively by the signal transmission of inflow and water yield to flow control On device, the digital difference by two sensors is the size that can obtain specific discharge, is easy to adjust rainwater storage pipe network Control, prevents spiral-flow filter from overload operation occur, influences its service life；

4th, installation method of the invention, technological process is simple, workable, adapts to making for different rainwater storage pipe networks With, the stability and operating efficiency of spiral-flow filter are improve, production line balance can be realized, improve the installation of spiral-flow filter Precision.

Brief description of the drawings

The invention will be further described below in conjunction with the accompanying drawings：

Fig. 1 is spiral-flow filter in a kind of intelligent rainwater storage pipe network spiral-flow filter of the present invention and its installation method Design sketch；

Fig. 2 is the structural representation of spiral-flow filter in the present invention；

Fig. 3 is the partial enlarged drawing at I in Fig. 1；

Fig. 4 is the structural representation of mistake pan in the present invention；

Fig. 5 is the structural representation of flow controller in the present invention.

In figure：1- cylinders；2- end caps；3- rainwater flows into pipe；4- outlet pipes；5- blow-off pipes；6- flow controllers；7- is converged Chamber；8- unhurried currents chamber；9- rotating shafts；10- is pressurized blade；11- first sensors；12- second sensors；13- crosses pan；14- is vertical Damping muscle；15- support beams；16- is connected block；17- moving blocks；18- grooves；19- locating pieces；20- brackets；21- snap rings；22- mistakes Filter screen；23- display screens；24- batteries；25- deflectors；26- rotating bars；27- first bevel gears；28- nuts；29- drive links； 30- second bevel gears.

Specific embodiment

As shown in Figures 1 to 5, it is a kind of intelligent rainwater storage pipe network spiral-flow filter of the present invention, including the He of cylinder 1 End cap 2, is connected through a screw thread between end cap 2 and cylinder 1, rain is set on the side of cylinder 1 and flows into pipe 3, outlet pipe 4 and row Dirty pipe 5, blow-off pipe 5 is located at the lower section that rainwater flows into pipe 3, and outlet pipe 4 is located at rainwater and flows between pipe 3 and blow-off pipe 5, cylinder 1 Convergence chamber 7 and unhurried current chamber 8 are inside provided with, the top that chamber 7 is located at unhurried current chamber 8 is converged, are converged and is provided between chamber 7 and unhurried current chamber 8 Vertical damping muscle 14, annular slot (not marked in figure) is provided with vertical damping muscle 14, and pan was provided with annular slot 13, crossing pan 13 includes bracket 20 and screen pack 22, and screen pack 22 is fixedly connected on the lower section of bracket 20, on the side of bracket 20 Snap ring 21 is provided with, snap ring 21 matches with annular slot, by the design of snap ring 21, facilitated the installation of pan 13 and tore open Unload, screen pack 22 effectively can be separated the debris dirt in rainwater, the utilization rate of raising rainwater, saving water resource, By the design of vertical damping muscle 14, the choked flow effect of rainwater can be not only played, and be easy to form vortex, in raising rainwater The filter efficiency of debris dirt, while the annular slot on vertical damping muscle 14 can be used for fixing pan 13, convenient filtering The installation of bucket 13 and dismounting.

The top for crossing pan 13 is provided with rotating shaft 9, and supercharging blade 10 is provided with rotating shaft 9, is pressurized the S-shaped row of blade 10 Row, S-shaped design can not only increase the contact area of supercharging blade 10 and rainwater, improve rainwater to being pressurized the effect of blade 10 Power, and the rotary speed of rotating shaft 9 can be improved, and then supercharging reaction of the supercharging blade 10 to rainwater is realized, realize debris The quick separating of dirt, the design of free style rotating shaft 9 can be such that supercharging blade 10 is rotated in the presence of rainwater, it is not necessary to again Connect power to be capable of achieving, reduce the loss of energy, improve the separative efficiency of debris dirt, prevented in pan 13 due to miscellaneous Fouling piles up filter efficiency that is excessive and influenceing rainwater, influences the normal operation of rainwater storage pipe network.

The bottom of rotating shaft 9 was stretched into pan 13, and the top of rotating shaft 9 is connected on the bottom surface of end cap 2 by rotating mechanism, Support beam 15 is provided with end cap 2, rotating mechanism includes linking block 16 and moving block 17, spiral shell between linking block 16 and support beam 15 Line is connected, and moving block 17 is fixedly connected on the top of rotating shaft 9, and fluted 18 are set on linking block 16, and moving block 17 rotates connection In groove 18, the bottom of moving block 17 is provided with locating piece 19, and locating piece 19 is spacing at the opening of groove 18, threaded connection Can be in order to be connected removing and installing for block 16, while fixed effect can be played, moving block 17 can be in the effect of rotating shaft 9 It is lower freely to rotate, frictional force during rotation is reduced, locating piece 19 can play a part of support, prevent moving block 17 from groove Skidded off in 18, influence the normal work of rotating mechanism.

Rainwater to be flowed into and be provided with flow controller 6 on pipe 3, and what rainwater flowed into pipe 3 is internally provided with first sensor 11, goes out Second sensor 12 is provided with water pipe 4, display screen 23 and battery are respectively arranged with the side and bottom surface of flow controller 6 24, the opposite side of flow controller 6 is provided with deflector 25, and deflector 25 is located at rainwater and flows into pipe 3, and deflector 25 is fixed and connected It is connected in rotating bar 26, the end of rotating bar 26 is provided with first bevel gear 27, and nut is provided with the top surface of flow controller 6 28, nut 28 is connected with drive link 29, and the bottom of drive link 29 is provided with second bevel gear 30, and first bevel gear 27 and second is bored Gear 30 is intermeshed, and battery 24 may be used to provide electric energy, and display screen 23 can then sense first sensor 11 and second The signal measured on device 12 is shown, is easy to regulate and control the flow of rainwater storage pipe network, when needed, need to only be turned Dynamic nut 28, can drive deflector 25 to rotate by bevel gear mechanism, realize the control to flow in pipeline, first sensor 11 and second sensor 12 can respectively by the signal transmission of inflow and water yield to flow controller 6, by two biographies The digital difference of sensor is the size that can obtain specific discharge, is easy to regulate and control rainwater storage pipe network, prevents cyclone filter There is overload operation in device, influences its service life.

A kind of method of intelligent rainwater storage pipe network spiral-flow filter described above is installed, is comprised the following steps：

1) mouth of pipe is laid

The size of a, the scale first according to rainwater storage pipe network, distribution situation and carrying capacity selects correspondingly sized cylinder 1, and the installation site according to spiral-flow filter and the position of the laying requirement determination mouth of pipe of pipe network, then pacify respectively on the mouth of pipe Dress rainwater flows into pipe 3, outlet pipe 4 and blow-off pipe 5, and the model size that rainwater flows into pipe, outlet pipe and blow-off pipe can be according to pipe Selected the need for the actual Regulation capacity of net, be allowed to match with the disposal ability of spiral-flow filter；

B, then the installation first sensor 11 on the medial surface of rainwater inflow pipe 3, install on the medial surface of outlet pipe 4 Second sensor 12, the actual flow size of corresponding pipeline can be respectively measured by two sensors, reduce the error of regulation；

C and then the mounting guiding board 25 in rainwater inflow pipe 3, are positioned deflector 25 with rotary shaft, and rotating Second bevel gear 30 is installed in the end of axle, is then flowed into rainwater and flow controller 6 is installed on the lateral surface of pipe 3, makes flow control First bevel gear 27 in device processed 6 is intermeshed with second bevel gear 30, drives deflector 25 to rotate by rotating screw cap 28, real The control of flow in pipe 3 is now flowed into rainwater；

D, the last port for flowing into pipe 3, outlet pipe 4 and blow-off pipe 5 in rainwater are sealed with sponge, prevent grey trifle in the world Matter etc. enters into inner barrel；

The model of first sensor and second sensor is EFT-W, and it is easy to debugging, can school automatically in special applications Just, all of measurement parameter can it is separately adjustable, output 4~20mA, two pairs of warning output contacts, wide range measures can be set, Minimum discharge is 0.3m/s.

2) pan is crossed to install

A, snap ring on pan 13 was determined according to the installation site and the size of annular slot of vertical damping muscle 14 in cylinder 1 21 installation site, and marked with white powder, then bracket 20 is upside down on scroll chuck, in bracket 20 and chuck Contact position pad on rubber blanket, at the white marking that then snap ring 21 is upside down on the side of bracket 20, with bonding machine will block Ring 21 is welded with bracket 20；

B and then bracket 20 is removed, screen pack 22, the big Grain Full of mesh diameter of screen pack 22 are installed in the lower section of bracket 20 The filtering requirement of sufficient rainwater storage pipe network, the depth of screen pack 22 reaches the vertical range of the position of outlet pipe 4 when being and installing, in mistake Filter screen 22 is welded with the junction of bracket 20；

C, finally by cross pan 13 screen pack 22 be vertically put into cylinder 1 down, until snap ring 21 is spacing in annular snap In groove, bracket 20 is then rotated, snap ring 21 is coordinated firm with annular slot；

3) rotating mechanism connection

A, the end cap 2 that will be processed first are upside down in horizontal machine table, and are fixed end cap 2 with disk is clamped, End cap 2 is separated with the contact position for clamping disk with rubber blanket, drilled through in the support beam 15 of end cap 2 with tapper mechanism after clamping in Screw thread, the depth of internal thread is 50~60mm, and internal threads hole is cleared up after withdrawing；

B and then choose and be connected block 16 with internal thread diameter matches, linking block 16 is fixed on scroll chuck, elder generation The groove 18 that depth is 60mm is opened up in the end of linking block 16 with lathe tool, then linking block 16 is inverted clamping in scroll chuck On, got on the bus the external screw thread that matches with internal thread in support beam 15, externally threaded depth in the lateral surface of linking block 16 with lathe tool It is 50~60mm；

C, then remove linking block 16, will linking block 16 be vertically disposed in the support beam 15 of end cap 2, then will be connected block 16 turns tight, linking block 16 is fixedly connected with end cap 2；

D, the vertically inversion of rotating shaft 9 that will carry supercharging blade 10 again, make the moving block 17 of the end of rotating shaft 9 spacing in linking block In groove 18 on 16, and moving block 17 is carried out with locating piece 19 spacing, rotating shaft 9 is freely rotated；

4) end cap is installed with cylinder and is connected

After rotating mechanism connection, unclamp clamp disk first, overturn end cap 2 with mechanical arm, make with rotating shaft 9 one End is vertical down, and is moved to the top of cylinder 1, is then transferred end cap 2, until end cap 2 is contacted with cylinder 1, now The bottom of rotating shaft 9 entered in pan 13, then release mechanism hand, by manual rotation's end cap 2, end cap 2 was carried out with cylinder 1 It is tightly connected；

5) spiral-flow filter trial operation

A, after cylinder 1 is connected with end cap 2 and terminates, the sea that rainwater is flowed on pipe 3, outlet pipe 4 and blow-off pipe 5 is removed first Silk floss, and rainwater inflow pipe 3, outlet pipe 4 and blow-off pipe 5 are connected into external pipe respectively, water is then passed to, observe spiral-flow filter Connecting portion air-tightness；

B and then by observing the display screen 23 on flow controller 6, rotating screw cap 28 flows into leading in pipe 3 to rainwater Stream plate 25 carries out angular adjustment, and then controls uninterrupted, is passed data to through first sensor 11 and second sensor 12 Display screen 23, until control accuracy reaches the requirement of setting；

C, after spiral-flow filter trial operation terminates, the setting position of rainwater storage pipe network is mounted to, with pipe network system System is attached, and rainwater flows into pipe 3 and enters convergence chamber 7 from rainwater, and through vertical damping muscle 14 choked flow in cavity wall, debris dirt is leaned on Vortex core is flowed, and water was flowed into pan 13, separates debris dirt, and rainwater enters unhurried current chamber 8 after being filtered through screen pack 22, Exported through outlet pipe 4, the sewage debris intercepted by screen pack 22 then inject the net of blow-off pipe 5 by blow-off pipe 5.

Specific embodiment of the invention is these are only, but technical characteristic of the invention is not limited thereto.It is any with this hair Based on bright, to realize essentially identical technique effect, done ground simple change, equivalent or modification etc., all cover Among protection scope of the present invention.

Claims (6)

1. a kind of intelligent rainwater storage pipe network spiral-flow filter, including cylinder and end cap, the end cap and the cylinder it Between be connected through a screw thread, rain is set on the side of the cylinder and flows into pipe, outlet pipe and blow-off pipe, the blow-off pipe is located at The rainwater flows into the lower section of pipe, and the outlet pipe is located at the rainwater and flows between pipe and the blow-off pipe, it is characterised in that： Convergence chamber and unhurried current chamber are provided with the cylinder, the convergence chamber is located at the top in the unhurried current chamber, the convergence chamber and institute State and be provided with vertical damping muscle between unhurried current chamber, annular slot is provided with the vertical damping muscle, set on the annular slot Pan was equipped with, described mistake above pan is provided with rotating shaft, supercharging blade, the bottom of the rotating shaft are provided with the rotating shaft Stretch into the pan excessively, the top of the rotating shaft is connected on the bottom surface of the end cap by rotating mechanism, the rainwater stream Enter and flow controller is provided with pipe, the rainwater flows into the first sensor that is internally provided with of pipe, is set in the outlet pipe There is second sensor.

2. a kind of intelligent rainwater storage pipe network spiral-flow filter according to claim 1, it is characterised in that：The mistake Pan includes bracket and screen pack, and the screen pack is fixedly connected on the lower section of the bracket, is set on the side of the bracket There is snap ring, the snap ring matches with the annular slot.

3. a kind of intelligent rainwater storage pipe network spiral-flow filter according to claim 1, it is characterised in that：The increasing The pressure S-shaped arrangement of blade.

4. a kind of intelligent rainwater storage pipe network spiral-flow filter according to claim 1, it is characterised in that：The end Cover and be provided with support beam, the rotating mechanism includes linking block and moving block, spiral shell between the linking block and the support beam Line is connected, and the moving block is fixedly connected on the top of the rotating shaft, sets fluted on the linking block, and the moving block turns Dynamic to be connected in the groove, the bottom of the moving block is provided with locating piece, spacing the opening in the groove of the locating piece At mouthful.

5. a kind of intelligent rainwater storage pipe network spiral-flow filter according to claim 1, it is characterised in that：The stream Display screen and battery are respectively arranged with the side and bottom surface of amount controller, the opposite side of the flow controller is provided with water conservancy diversion Plate, the deflector is located at the rainwater and flows into pipe, and the deflector is fixedly connected in rotating bar, the end of the rotating bar Portion is provided with first bevel gear, and nut is provided with the top surface of the flow controller, and the nut is connected with drive link, described The bottom of drive link is provided with second bevel gear, and the first bevel gear is intermeshed with the second bevel gear.

6. a kind of method of intelligent rainwater storage pipe network spiral-flow filter as claimed in claim 1 is installed,

It is characterized in that comprising the following steps：

1) mouth of pipe is laid

The size of a, the scale first according to rainwater storage pipe network, distribution situation and carrying capacity selects correspondingly sized cylinder, and The laying of installation site and pipe network according to spiral-flow filter requires to determine the position of the mouth of pipe, rain to be then respectively mounted on the mouth of pipe Water flows into pipe, outlet pipe and blow-off pipe；

B, then rainwater flow into pipe medial surface on first sensor is installed, on the medial surface of outlet pipe install second sense Device；

C and then the mounting guiding board in rainwater is flowed into and managed, are positioned deflector with rotary shaft, and in the end of rotary shaft Second bevel gear is installed, flow controller is installed on the lateral surface that pipe is then flowed into rainwater, make first in flow controller Bevel gear is intermeshed with second bevel gear, drives deflector to rotate by rotating screw cap, realizes flowing into flow in pipe to rainwater Control；

D, the last port for flowing into pipe, outlet pipe and blow-off pipe in rainwater are sealed with sponge；

2) pan is crossed to install

A, the installation position that snap ring on pan was determined according to the installation site of vertical damping muscle in cylinder and the size of annular slot Put, and marked with white powder, then bracket is upside down on scroll chuck, on the contact position pad of bracket and chuck Rubber blanket, at the white marking that then snap ring is upside down on bracket side, is welded snap ring with bracket with bonding machine；

B and then bracket is removed, screen pack is installed in the lower section of bracket, the mesh diameter size of screen pack meets rainwater storage pipe The filtering requirement of net, the depth of screen pack reaches the vertical range of outlet pipe position when being and installing, in screen pack and the company of bracket Welded at the place of connecing；

C, finally the screen pack for crossing pan is vertically put into cylinder down, until snap ring is spacing in annular slot, Ran Houzhuan Dynamic bracket, makes snap ring coordinate firm with annular slot；

3) rotating mechanism connection

A, the end cap that will be processed first are upside down in horizontal machine table, and with clamp disk end cap is fixed, end cap with The contact position for clamping disk is separated with rubber blanket, and internal thread, interior spiral shell are drilled through in the support beam of end cap with tapper mechanism after clamping The depth of line is 50~60mm, and internal threads hole is cleared up after withdrawing；

B and then choose and be connected block with internal thread diameter matches, block will be connected and be fixed on scroll chuck, first existed with lathe tool The end for being connected block opens up the groove that depth is 60mm, then linking block is inverted into clamping on scroll chuck, with lathe tool in linking The lateral surface of block is got on the bus the external screw thread matched with internal thread in support beam, and externally threaded depth is 50~60mm；

C, linking block is then removed, linking block is vertically disposed in the support beam of end cap, linking block is then turned tight, make linking Block is fixedly connected with end cap；

D, again will carry supercharging blade rotating shaft vertically be inverted, make roller end moving block it is spacing linking block on groove It is interior, and moving block is carried out with locating piece spacing, rotating shaft is freely rotated；

4) end cap is installed with cylinder and is connected

After rotating mechanism connection, unclamp clamp disk first, overturn end cap with mechanical arm, make the one end with rotating shaft vertical Down, and the top of cylinder is moved to, is then transferred end cap, until end cap is contacted with cylinder, the bottom of now rotating shaft Into in pan, then release mechanism hand, by manual rotation's end cap, end cap is connected and sealed with cylinder；

5) spiral-flow filter trial operation

A, after cylinder is connected with end cap and terminates, remove the sponge that rainwater is flowed on pipe, outlet pipe and blow-off pipe first, and by rain Water flows into pipe, outlet pipe and blow-off pipe and connects external pipe respectively, then passes to water, observes the connecting portion of spiral-flow filter Air-tightness；

B and then by observing the display screen on flow controller, rotating screw cap, flowing into the deflector in pipe to rainwater carries out angle Degree regulation, and then uninterrupted is controlled, display screen is passed data to through first sensor and second sensor, until control essence Degree reaches the requirement of setting；

C, after spiral-flow filter trial operation terminates, be mounted to the setting position of rainwater storage pipe network, enter with pipe network system Row connection, rainwater flows into pipe and enters convergence chamber from rainwater, and through the vertical damping muscle choked flow in cavity wall, debris dirt leans on vortex core Flowing, water was flowed into pan, separated debris dirt, and rainwater enters unhurried current chamber after filter screen filtration, is exported through outlet pipe, The sewage debris intercepted by screen pack then inject blowdown pipe network by blow-off pipe.