CN109467255A - A kind of water treatment facilities with assignment of traffic and electronic descaling - Google Patents

Abstract

It include header tank, water inlet pipe, outlet pipe, blowdown paddle component, electronic cleaner, flow distribution device and water pump group the invention discloses a kind of water treatment facilities with assignment of traffic and electronic descaling, water inlet pipe outlet is arranged in header tank, header tank bottom is equipped with outlet pipe, outlet pipe pipeline is equipped with blowdown paddle component, electronic cleaner, flow distribution device, and outlet pipe tail end connects water pump group.When device uses, multichannel water to be processed is entered in header tank by more water inlet pipes, blowdown paddle component is flow to by outlet pipe later, it is flowed backward in blowdown paddle component by filtering, the impurity filtered down is then promoted by helical-blade and is discharged upward and through waste, flowing water body sterilizes scale removal corrosion protection processing by electromagnetic field at electronic cleaner backward, water body is shunted in water outlet endpiece by flow distribution device later, and the water body after shunting is by more water pump pumps of water pump group toward different regions.

Description

A kind of water treatment facilities with assignment of traffic and electronic descaling

Technical field

The present invention relates to water processor machinery field, specifically a kind of water treatment facilities with assignment of traffic and electronic descaling.

Background technique

Water is the indispensable natural resources of human development, is the mankind and the material base that all living things are depended on for existence.? In the case that water resource increasingly lacks, the reality of water resource pollution makes people increase a worry again.It is many regional in China, Since various complicated factors cause many water bodys to be seriously contaminated, this more exacerbates the contradiction of water scarcity.

Water from water head site acquirement after, require to perform some processing before use it is numerous or simple, as in factory from river Be used for industrial production after obtaining water, then carry out some simple filterings drops and handle firmly, occupy civil running water etc. then need into The processing such as the complicated exquisite filtering of row, sterilization algae removal, the hard disinfection of drop, it is ensured that resident uses safe；The region of water is used in factory Usually from muti-piece region, the water consumption in every piece of region is different, so carrying out assignment of traffic appropriate to processed water then can be most Limits reduce water process consumption waste, and for occasions such as tap water processing, the processing capacity of different water treatment unit is not Together, handling principle is also not quite similar, such as uses biofilm filtration and the processing speed difference using techniques such as ozone sterilizings, institute To use the preposition water treatment facilities with assignment of traffic function that can make full use of at the water of its subsequent each processing unit The situation of reason ability heavy, some processing unit free time without some processing unit loads, but existing some water process Device is only conceived to some single functionality, such as filter-type processing unit only has filtering function, and does not fill Set carry out assignment of traffic.

Summary of the invention

The purpose of the present invention is to provide a kind of water treatment facilities with assignment of traffic and electronic descaling, to solve existing skill The problems in art.

To achieve the above object, the invention provides the following technical scheme:

A kind of water treatment facilities with assignment of traffic and electronic descaling includes header tank, water inlet pipe, outlet pipe, blowdown paddle group Part, electronic cleaner, flow distribution device and water pump group, water inlet pipe outlet are arranged in header tank, and header tank bottom is equipped with Water pipe, outlet pipe pipeline are equipped with blowdown paddle component, electronic cleaner, flow distribution device, and outlet pipe tail end connects water pump group.

The pending water of device working region is entered in header tank by more water inlet pipes, then from the water outlet of header tank Pipe flow to blowdown paddle component and carries out easy filtration treatment, and the water after processing passes through at the sterilization scale removal corrosion protection of electronic cleaner Reason, then by flow distribution device through shunting after respectively by the water pump pumps of water pump group to different using areas.

Further, outlet pipe includes that water exit elbow, water outlet endpiece and horizontal segment, blowdown paddle component and electronic cleaner are set It sets on horizontal segment, blowdown paddle component is located at close to the side of header tank, and the wall surface that flow distribution device passes through water exit elbow is inserted Enter to water outlet endpiece, water pump group includes the first water pump and the second water pump.

Further, blowdown paddle component includes main shaft, helical-blade, motor, cylinder, waste, filter screen and blowdown paddle Mounting base, cylinder lower end closed open upper end, cylinder lower end side are equipped with cylinder inlet opening and cylinder apopore, cylinder inlet opening It is equipped with filter screen with cylinder apopore and outlet pipe horizontal segment welded connecting or flanged joint, cylinder apopore overflow section, The setting of blowdown paddle mounting base is in outlet pipe one side, and for providing fixed Support Position to blowdown paddle component, motor is mounted on blowdown In paddle mounting base, main shaft is connected by shaft coupling with motor shaft, and spindle main body is located in cylinder, main-shaft axis and tubular axis It being overlapped, helical-blade is multiple tracks helical blade, and helical-blade is mounted on main shaft, and helical-blade follows main shaft to be downwardly into cylinder, Helical-blade bottom is lower than cylinder inlet opening and cylinder apopore, and the top-side of cylinder, blowdown paddle component is arranged in waste Integral inclined, main-shaft axis is in vertical direction with an acute angle.

Water to be processed is out of, outlet pipe flows into blowdown paddle component cylinder, in outflow tube by the filtering on cylinder Net filtration falls most of big partial size impurity, and filtering accuracy can determine that the impurity filtered down is deposited according to subsequent water quality demand Cylinder body bottom, helical-blade following main shaft to rotate driven by the motor, and spiral vane can will filter down in cylinder Impurity is lifted up, because blowdown paddle component is integrally tilting, the impurity being elevated up can fall when reaching waste It drops out, is handled by extraneous reception, sewage water filtration is simultaneously continuously carried out with sundries promotion, will not be impacted to water process. Spiral vane can be analyzed to revolve along the upward power Fy of main shaft and perpendicular to main shaft and with main shaft to impurity particle stress unit power Turn direction power Fx in the same direction, because impurity particle or object can follow spiral vane to rotate, impurity particle stress unit Can also oriented periphery movement tendency, impurity particle stress unit and cylinder inboard wall generate friction, thus impurity particle by Power unit also suffers from a frictional force opposite to the direction of rotation, this power is offseted with aforementioned Fx, such impurity particle by Power unit by along the upward power Fy of main shaft along main shaft just as moved upwards, so that blowdown paddle component be discharged to top. The small placement angle of blade can guarantee that the object on blade slides self-locking (the frictional force energy that object is subject to i.e. under stationary state Balance out the partical gravity that object makes to tumble downwards), but because vibration or some disturbing factors, the object on helical-blade is also It is that possible tumble down, so being additionally provided with the slot of barb-shaped on helical-blade, prevents sundries from sliding without influencing sundries along blade It moves upwards.

Electronic cleaner includes device shell, electrode, controller, and device shell is that a Duan Guanlu, device shell and outlet pipe are connected by flange It connecing, electrode is arranged on device shell inner wall, and electrode head is located at the runner center of device shell, and controller is arranged in device shell outer wall side, Controller and electrode are electrically connected.Electronic cleaner is a kind of machine handled using electromagnetic field particle in water, electricity Pole under the control of the controller, forms the electromagnetic field of a high frequency in the runner of water, and electromagnetic field makes bacterium, algae rely life The environmental disruption deposited, and so that the oxygen being dissolved in water and water is reacted and generate some ozone or hydrogen peroxide etc. with oxidisability Substance, sterilization algae removal effect is further functioned as, in addition, electronic scale remover changes calcium ion, the metal cations such as magnesium ion Physical structure state makes it be not easy to be precipitated from water and form scale, meanwhile, high-dissolvability state is entered because of electromagnetic field effect Water itself, moreover it is possible to wash away some scales condensed on tube wall, dissolution is taken away, and the elimination of scale can make pipeline It is not easy to be corroded.

Further, flow distribution device includes driving assembly, shunts bucket spindle component, shunts bucket, mounting plate and housing, peace Loading board is located above water exit elbow, and mounting plate is used to provide installation site to flow distribution device, and driving assembly is mounted on installation On plate, shunts and installed on a mounting board at the top of bucket spindle component by bearing, shunt the wall that bucket spindle component lower section passes through water exit elbow Face is inserted into water outlet endpiece, shunts bucket and the end for shunting bucket spindle component is arranged in, and is shunted bucket and is located in water outlet endpiece, housing peace On a mounting board, housing will shunt bucket spindle component top and driving assembly covers for dress.

Mounting plate is used to provide installation site to flow distribution device, and driving assembly is reciprocal for providing an original rectilinear The linear reciprocation power of driving assembly is converted angled rotary reciprocating motion and exported to shunting by power, shunting bucket spindle component Bucket shunts the function that bucket is flow distribution device and realizes component, is the functor contacted with water body, housing plays dustproof effect.

Further, driving assembly includes cylinder body, piston body, first end cover, second end cover, first sliding axle, the second cunning Moving axis, the first spring, second spring, vent valve, pressure regulator valve, stop valve and air source inlet；Cylinder body is the cylinder of a both ends open Cylinder, cylinder body is horizontal positioned, and side of cylinder block lower part is equipped with stabilizer blade, and stabilizer blade is installed on a mounting board, first end cover and second end cover peace Mounted in the both ends of cylinder body, first end cover and second end cover centre are equipped with axis hole, and first sliding axle one end passes through first end cover Axis hole is extend into cylinder body, and the axis of first sliding axle is overlapped with cylinder body axis, and second sliding axle one end passes through second end cover axis Hole is extend into cylinder body, and the axis of second sliding axle is overlapped with cylinder body axis, and piston body is short cylindrical shape, a side of piston body Face is fixedly connected with first sliding axle, and another side end face is fixedly connected with second sliding axle, piston body cylindrical side and inboard wall of cylinder block phase Contact, contact surface are equipped with O-ring, and in first sliding axle, the first spring one end connects the first spring pocket with first end cover end face Touching, the other end are contacted with piston body end face, and second spring covers in second sliding axle, second spring one end and second end cover end face Contact, the other end are contacted with piston body end face, and first end cover is equipped with through-hole, and the through-hole in first end cover is connected by gas piping It is connected to air source inlet, gas piping is equipped with pressure regulator valve and stop valve, and pressure regulator valve enters close to first end cover, stop valve close to gas source Mouthful, it is additionally provided with branch vent valve on the gas piping between pressure regulator valve and first end cover, through-hole also is provided in second end cover and passes through Gas piping is connected to air source inlet, and the valve configuration between second end cover, air source inlet on pipeline enters with first end cover, gas source Valve configuration between mouthful on pipeline is identical.

Piston body can slide axially in cylinder body, and the spring of two sides can promote piston body to return to the original of cylinder body centre position Position, when the region between piston body and first end cover is passed through pressed gas, piston body can be mobile to second end cover side, according to The pressure size of pressed gas is different, and piston body is different in the intracorporal moving distance of cylinder, because moving distance is more, second spring Compression is bigger, and the gas pressure demand that first end cover side needs to be passed through is higher, similarly, pressed gas is passed through in second end cover, living After pressed gas between cock body and first end cover is vented by branch vent valve, piston body can be mobile to first end cover side, moves Dynamic distance is also related to the pressed gas pressure size being passed through in second end cover, and the pressure size of two-way pressed gas can pass through two Pressure regulator valve in gas-guide pipeline controls, and the stop valve on two-way gas piping can keep apart the gas of piston body two sides.

Further, shunting bucket spindle components includes crank disc, the bearing shaft shoulder, axis body and bearing, and axis body is to shunt bucket Shaft assembly main body, axis body is vertically-mounted, and crank disc setting is arranged on axis body in axis body top, the bearing shaft shoulder, is located at crank disc Lower section, bearing inner race are sleeved on axis body, and bearing outer ring is installed on a mounting board, and the bearing shaft shoulder resists bearing, first sliding axle An end head outside cylinder body is equipped with connecting rod head, and connecting rod head is the one section of cylindrical projection stretched out downward in first sliding axle, bent The upper surface of handle disk is equipped with sliding slot, and sliding slot is kidney ellipsoid slot, and slot length direction is radial along the end face of crank disc, the bottom of connecting rod head Portion is located in sliding slot, and the axis of first sliding axle and the axial offset of axis body are vertical, and the distance between two axial lines are one third To the crank disc side surface radius of half.

The upper surface of crank disc is equipped with sliding slot, and sliding slot is kidney ellipsoid slot, and one end outside cylinder body is arranged in first sliding axle The connecting rod head of head setting can slide in the sliding slot on crank disc, and the axis of first sliding axle and the axial offset of axis body hang down Directly, when such first sliding axle is moved linearly by the intracorporal piston body of cylinder with axial direction, connecting rod head, which just will drive crank disc and do, to be revolved Transhipment is dynamic, rotates to entirely shunt bucket spindle component, the linear motion distance of piston body and the rotation for shunting bucket spindle component Gyration has corresponding relationship, can design to obtain the rotation angle range for shunting bucket spindle component to be positive and negative 45 degree, first is sliding Moving axis uses, and second sliding axle is as spare.

Further, shunting bucket is an inverted cone shell, shunts bucket spindle line and is overlapped with water outlet endpiece axis, shunts bucket The big bottom in top is small, and the tapered interior surface bottom and axis body bottom end for shunting bucket are connected through a screw thread, outside the circumference for shunting bucket top Edge is contacted with water outlet endpiece inner wall, shunts symmetrical diffluence pass there are two setting on bucket conical sidewall, and diffluence pass is fan-shaped pylone, point The circumferential angle that head piece occupies on the conical sidewall for shunting bucket is respectively 90 degree；Being discharged endpiece includes endpiece cylinder, partition, first Connecting bend, the second connecting bend, the first outlet pipe and the second outlet pipe, endpiece cylinder top are connect with water exit elbow, and partition is Endpiece cylinder is separated into the region of four equal parts by two blocks of vertically arranged plates, partition: being shunted an area, is shunted 2nd area, shunts 3rd area With shunt 4th area, the lower part of partition is arranged in the first connecting bend and the second connecting bend, and the first connecting bend will shunt an area It is connected with 3rd area are shunted, the second connecting bend will shunt 2nd area and shunt 4th area and connects, and the setting of the first outlet pipe exists Endpiece cylinder bottom surface, the connection of first outlet pipe one end shunt 3rd area, and one end connects the first water pump, and the second outlet pipe is arranged in endpiece cylinder Bottom surface, the connection of second outlet pipe one end shunt 2nd area, and it is the face that concaves, partition top at the top of partition that one end, which connects the second water pump, Portion concave face with shunt bucket external conical surface contact.

Shunting bucket can rotate in the case where shunting bucket spindle component and driving in positive and negative 45 degree of angular ranges, shunt the shunting of bucket Mouth is exactly the flow channels of four Diverging areas in lower part, and two diffluence pass are distinguished one point and are by shunting bucket initial position two panels partition Two, area of passage is directly related with overcurrent flow, and when original, when shunting bucket does not rotate, four Diverging area flows are identical, shunts Struggle against when rotating 45 degree to some direction, water flow completely into shunting an area and 3rd area, and do not enter completely shunt 2nd area and 4th area, when shunting bucket rotates 45 degree round about, then water flow is completely into 2nd area of shunting and 4th area, and does not enter completely It shunts an area and 3rd area, shunts an area and 3rd area link together by the first connecting bend, shunt 2nd area and 4th area pass through the Two connecting bends link together, and shunt 3rd area by the first outlet pipe and connect the first water pump, shunt 2nd area and pass through the second water outlet Pipe connects the second water pump, and the first water pump and the second water pump pump go different using areas respectively, can thus pass through control The pressure regulator valve and stop valve of driving assembly can control the assignment of traffic that the first water pump and the second water pump are pumped, if two-way Distribution not enough, can also be arranged in series multiple shunting buckets and water outlet endpiece, thus can carry out assignment of traffic to multi-path fluid. The present apparatus industrially uses, and in the not high situation of water quality requirement, the past different zones of the pumping of the first water pump and the second water pump are just Water can be directly taken, for occasions such as municipal water process, the present apparatus can be used as the preceding working procedure of complete water treatment system, the One water pump and the second water pump pump virgin flow toward different subsequent water treatment unit, because of the place of subsequent water treatment unit Reason ability or treatment process are different, and the flow that can be handled is also different, so assignment of traffic can most optimally be set using other It applies.

Vent valve, pressure regulator valve and stop valve are electrically operated valve, vent valve, pressure regulator valve, stop valve, motor and controller and outer Boundary's computer, automatic control box or PLC controller are electrically connected, and air source inlet accesses ambient pressure gas.Vent valve, tune Pressure valve and stop valve are that the convenient outer bound pair whole device of electrically operated valve carries out automatic control.

Compared with prior art, it the beneficial effects of the present invention are: the present invention continuously carries out primary filtration to water, processes Water it is less scaling, moreover it is possible to dissolve the scale tied on some pipelines, filter sterilization corrosion protection treated water is through inflow-rate of water turbine Different using areas can be directly sent to after distribution respectively, the occasion high for water quality requirement also can be as water treatment system Preceding working procedure can make full use of other processing units in its water treatment system after assignment of traffic.

Detailed description of the invention

In order that the present invention can be more clearly and readily understood, right below according to specific embodiment and in conjunction with attached drawing The present invention is described in further detail.

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is the structural schematic diagram of blowdown paddle component bottom of the present invention；

Fig. 3 is the sectional view of blowdown paddle component of the present invention；

Fig. 4 is the sectional view of electronic cleaner of the present invention；

Fig. 5 is inventive flow distributor and Discharging bent-tube, the structural schematic diagram for being discharged endpiece, water pump group；

Fig. 6 is the structural schematic diagram of driving assembly of the present invention；

Fig. 7 is the structural schematic diagram at the top of present invention shunting bucket spindle component；

Fig. 8 is the view A in Fig. 7；

Fig. 9 is the perspective view that the present invention shunts bucket；

Figure 10 is the scheme of installation that the present invention shunts bucket with water outlet endpiece；

Figure 11 is the perspective view of present invention water outlet endpiece；

Figure 12 is the perspective view two of present invention water outlet endpiece；

Figure 13 is the force analysis figure of object on helical-blade of the present invention；

Figure 14 is the view X in Figure 13.

In figure: 10- header tank, 11- water inlet pipe, 12- outlet pipe, 121- water exit elbow, 122- water outlet endpiece, 12201- points Flow an area, 12202- shunts 2nd area, 12203- shunts 3rd area, 12204- shunts 4th area, 1221- partition, the first connecting bending of 1222- Head, the second connecting bend of 1223-, the first outlet pipe of 1224-, the second outlet pipe of 1225-, 123- horizontal segment, 2- blowdown paddle component, 21- main shaft, 22- helical-blade, 23- motor, 24- cylinder, 25- waste, 26- filter screen, 29- blowdown paddle mounting base, 3- electricity Sub- descaler, 31- device shell, 32- electrode, 33- controller, 4- flow distribution device, 41- cylinder driving assembly, 411- cylinder body, 4111- stabilizer blade, 412- piston body, 4131- first end cover, 4132- second end cover, 4141- first sliding axle, 41411- connecting rod Head, 4142- second sliding axle, 415- spring, 416- vent valve, 417- pressure regulator valve, 418- stop valve, 419- air source inlet, 42- Shunt bucket spindle component, 421- crank disc, 4211- sliding slot, the 422- bearing shaft shoulder, 423- axis body, 424- bearing, 43- shunt bucket, 431- diffluence pass, 44- mounting plate, 45- housing, 5- water pump group, the first water pump of 51-, the second water pump of 52-.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As shown in Figure 1, a kind of water treatment facilities with assignment of traffic and electronic descaling include header tank 10, water inlet pipe 11, Outlet pipe 12, blowdown paddle component 2, electronic cleaner 3, flow distribution device 4 and water pump group 5, the outlet of water inlet pipe 11 setting are collecting In water tank 10,10 bottom of header tank be equipped with outlet pipe 12,12 pipeline of outlet pipe be equipped with blowdown paddle component 2, electronic cleaner 3, Flow distribution device 4,12 tail end of outlet pipe connect water pump group 5.The pending water of present apparatus working region passes through more water inlet pipes 11 enter in header tank 10, then flow to blowdown paddle component 2 from the outlet pipe 12 of header tank 10 and are filtered processing, process Water afterwards by electronic cleaner 3 sterilization scale removal corrosion protection handle, then by flow distribution device 4 through shunting after respectively by water The water pump pumps of pump group 5 are to different using areas.

As shown in Figure 1, outlet pipe 12 includes water exit elbow 121, water outlet endpiece 122 and horizontal segment 123, blowdown paddle component 2 It is arranged on horizontal segment 123 with electronic cleaner 3, blowdown paddle component 2 is located at close to the side of header tank 10, flow distribution device 4 wall surfaces for passing through water exit elbow 121 are inserted at water outlet endpiece 122, and water pump group 5 includes the first water pump 51 and the second water pump 52.

As shown in Figure 2 and Figure 3, blowdown paddle component 2 includes main shaft 21, helical-blade 22, motor 23, cylinder 24, waste 25, filter screen 26 and blowdown paddle mounting base 29,24 lower end closed open upper end of cylinder, 24 lower end side of cylinder are intake equipped with cylinder Hole 241 and cylinder apopore 242, cylinder inlet opening 241 and cylinder apopore 242 and outlet pipe horizontal segment 123 be welded to connect or Flanged joint, 242 overflow section of cylinder apopore are equipped with filter screen 26, and blowdown paddle mounting base 29 is arranged in outlet pipe 12 1 Side, for providing fixed Support Position to blowdown paddle component 2, motor 23 is mounted in blowdown paddle mounting base 29, and main shaft 21 passes through Shaft coupling is connected with 23 axis of motor, and 21 main body of main shaft is located in cylinder 24, and 21 axis of main shaft is overlapped with 24 axis of cylinder, spiral Leaf 22 is multiple tracks helical blade, and helical-blade 22 is mounted on main shaft 21, and helical-blade 22 follows main shaft 24 to be downwardly into cylinder 24 Interior, 22 bottom of helical-blade is lower than cylinder inlet opening 241 and cylinder apopore 242, and the top of cylinder 24 is arranged in waste 25 Side, blowdown paddle component 2 is integral inclined, and 21 axis of main shaft is in vertical direction with an acute angle.

Water to be processed is out of, outlet pipe 12 flows into blowdown paddle component 2 cylinder 24, in outflow tube 24 by cylinder Filter screen 26 on 24 filters out most of impurity, and filtering accuracy can be determined according to subsequent water quality demand, the impurity filtered down It is deposited in 24 bottom of cylinder, helical-blade 22 is following main shaft 21 to rotate under the drive of motor 23, and spiral vane can be by cylinder The impurity filtered down in body 24 is lifted up, because blowdown paddle component 2 is whole tilting, the impurity being elevated up is arrived It can fall away when up to waste 25, be handled by extraneous reception, sewage water filtration is simultaneously continuously carried out with sundries promotion, will not Water process is impacted.As shown in figure 13, helical-blade 22 can be analyzed to impurity particle stress unit power upward along main shaft 21 Power Fy and perpendicular to main shaft 21 and the power Fx in the same direction with 21 direction of rotation of main shaft because impurity particle or object can follow spiral Leaf 22 rotates, thus impurity particle stress unit can also oriented periphery movement tendency, impurity particle stress unit and cylinder 24 inner wall of body generates friction, so impurity particle stress unit also suffers from a frictional force opposite to the direction of rotation, this Power is offseted with aforementioned Fx, and such impurity particle stress unit is just as by along the upward power Fy of main shaft 21 and along main shaft 21 It moves upwards, so that blowdown paddle component 2 be discharged to top.The small placement angle of blade can guarantee the sliding of the object on blade certainly It locks (frictional force that i.e. object is subject under stationary state can balance out the partical gravity that object makes to tumble downwards), but because vibration Or some disturbing factors, the object on helical-blade 22 still may tumble down, so being additionally provided with hangnail on helical-blade 22 The slot of shape prevents sundries from sliding and moves upwards without influencing sundries along blade as shown in figure 14.

As shown in figure 4, electronic cleaner 3 includes device shell 31, electrode 32, controller 33, device shell 31 is a Duan Guanlu, device shell 31 pass through flanged joint with outlet pipe 12, and electrode 32 is arranged on 31 inner wall of device shell, and 32 head of electrode is located at the runner of device shell 31 Center, the setting of controller 33 are electrically connected in 31 outer wall side of device shell, controller 33 and electrode 32.Electronic cleaner 3 being capable of benefit Particle in water is handled with electromagnetic field, electrode 32 forms a height under the control of controller 33 in the runner of water The electromagnetic field of frequency, the environmental disruption that electromagnetic field makes bacterium, algae depend on for existence, and it is anti-that the oxygen being dissolved in water and water occurs The substance that some ozone or hydrogen peroxide etc. have oxidisability should be generated, sterilization algae removal effect is further functioned as, in addition, electronics removes Dirty device 3 changes the physical structure state of the metal cations such as calcium ion, magnesium ion, it is made to be not easy to be precipitated from water and form water Dirt, meanwhile, the water of high-dissolvability state itself is entered because of electromagnetic field effect, moreover it is possible to which wash away on tube wall some has condensed Scale, dissolution takes away, and the elimination of scale can make subsequent fluid pipeline be not easy to be corroded.

As shown in figure 5, flow distribution device 4 includes driving assembly 41, shunts bucket spindle component 42, shunts bucket 43, mounting plate 44 and housing 45, mounting plate 44 is located at 121 top of water exit elbow, and mounting plate 44 is for giving flow distribution device 4 to provide installation position It sets, driving assembly 41 is mounted on mounting plate 44, is shunted and is mounted on mounting plate 44 at the top of bucket spindle component 42 by bearing, is shunted The wall surface that 42 lower section of bucket spindle component passes through water exit elbow 121 is inserted into water outlet endpiece 122, is shunted 43 setting of bucket and is being shunted bucket spindle The end of component 42 shunts bucket 43 and is located in water outlet endpiece 122, and housing 45 is mounted on mounting plate 44, and housing 45 will be shunted and be struggled against 42 top of shaft assembly and driving assembly 41 cover.Mounting plate 44 is used to provide installation site, driving assembly to flow distribution device 4 41, for providing an original rectilinear reciprocating power, shunt bucket spindle component 42 and are converted into the linear reciprocation power of driving assembly 41 Angle rotary reciprocating motion, which is simultaneously exported, to be shunted the function that bucket 43 is flow distribution device 4 to bucket 43 is shunted and realizes component, is and water The functor of body contact, housing 45 play dustproof effect.

As shown in fig. 6, driving assembly 41 include cylinder body 411, piston body 412, first end cover 4131, second end cover 4132, First sliding axle 4141, second sliding axle 4142, the first spring 4151, second spring 4152, vent valve 416, pressure regulator valve 417, Stop valve 418 and air source inlet 419；Cylinder body 411 is the cylindrical drum of a both ends open, and cylinder body 411 is horizontal positioned, 411 side of cylinder body Face lower part is equipped with stabilizer blade 4111, and stabilizer blade 4111 is mounted on mounting plate 44, and first end cover 4131 and second end cover 4132 are mounted on The both ends of cylinder body 411, first end cover 4131 and 4132 centre of second end cover are equipped with axis hole, and 4141 one end of first sliding axle is worn 4131 axis hole of first end cover to be crossed to extend into cylinder body 411, the axis of first sliding axle 4141 is overlapped with 411 axis of cylinder body, and second 4142 one end of sliding axle passes through 4132 axis hole of second end cover and extend into cylinder body 411, the axis and cylinder body of second sliding axle 4142 411 axis are overlapped, and piston body 412 is short cylindrical shape, and a side end face of piston body 412 is fixedly connected with first sliding axle 4141, separately One side end face is fixedly connected with second sliding axle 4142, and 412 cylindrical side of piston body is in contact with 411 inner wall of cylinder body, on contact surface Equipped with O-ring, the first 4151 sets of spring is in first sliding axle 4141,4151 one end of the first spring and 4131 end face of first end cover Contact, the other end contacts with 412 end face of piston body, 4152 sets of second spring in second sliding axle 4142, second spring 4152 One end is contacted with 4132 end face of second end cover, and the other end is contacted with 412 end face of piston body, and first end cover 4131 is equipped with through-hole, Through-hole in first end cover 4131 is connected to air source inlet 419 by gas piping, and gas piping is equipped with pressure regulator valve 417 and cuts Disconnected valve 418, pressure regulator valve 47 is close to first end cover 4131, and stop valve 418 is close to air source inlet 419, pressure regulator valve 417 and first end cover (4131) it is additionally provided with branch vent valve 416 on the gas piping between, also is provided with through-hole in second end cover 4132 and passes through flue Road is connected to air source inlet 419, valve configuration and first end cover between second end cover 4132, air source inlet 419 on pipeline 4131, the valve configuration between air source inlet 419 on pipeline is identical.

Piston body 412 can slide axially in cylinder body 411, and the spring of two sides can promote piston body 412 to return in cylinder body 411 Between this home position of position, when the region between piston body 412 and first end cover 4131 is passed through pressed gas, piston body 412 Can be mobile to 4132 side of second end cover, piston body 412 shifting cylinder body 411 in different according to the pressure size of pressed gas Dynamic distance is different, because moving distance is more, second spring 4152 compresses the gas bigger, 4131 side of first end cover needs are passed through Pressure demand is higher, similarly, pressed gas, the pressure between piston body 412 and first end cover 4131 is passed through in second end cover 4132 After gas is vented by branch vent valve 416, piston body 412 is i.e. mobile to 4131 side of first end cover, and moving distance is also with the The pressed gas pressure size being passed through on two end caps 4132 is related, and the pressure size of two-way pressed gas can pass through two-way flue The pressure regulator valve of road controls, and the stop valve on two-way gas piping can keep apart the gas of piston body two sides.

As shown in Figure 7, Figure 8, shunting bucket spindle components 42 includes crank disc 421, the bearing shaft shoulder 422, axis body 423 and axis 424 are held, axis body 423 is to shunt 42 main body of bucket spindle component, and axis body 423 is vertically-mounted, and crank disc 421 is arranged on 423 top of axis body, The bearing shaft shoulder 422 is arranged on axis body 423, is located at 421 lower section of crank disc, and 424 inner ring of bearing is sleeved on axis body 423, bearing 424 outer rings are mounted on mounting plate 44, and the bearing shaft shoulder 422 resists bearing 424, and first sliding axle 4141 is located at outside cylinder body 411 One end head is equipped with connecting rod head 41411, and connecting rod head 41411 is the one section of cylindrical projection stretched out downward in first sliding axle 4141, The upper surface of crank disc 421 is equipped with sliding slot 4211, and sliding slot 4211 is kidney ellipsoid slot, and slot length direction is along the end of crank disc 421 Face diameter is to the bottom of connecting rod head 41411 is located in sliding slot 4211, and the axis of first sliding axle 4141 and the axis of axis body 423 are wrong Position is vertical, and the distance between two axial lines are crank disc 421 side surface radius of the one third to half.

The upper surface of crank disc 421 is equipped with sliding slot 4211, and sliding slot is 4211 kidney ellipsoid slots, and first sliding axle 4141 is arranged The connecting rod head 41411 of end head setting outside cylinder body 411 can slide in the sliding slot 4211 on crank disc 421, and first is sliding The axis of moving axis 4141 is vertical with the axial offset of axis body 423, and such first sliding axle 4141 is by the piston body in cylinder body 411 412 with axial move linearly when, connecting rod head 41411 just will drive crank disc 421 and make rotating motion, to entirely shunt bucket spindle Component 42 rotates, and the linear motion distance of piston body 412 has corresponding close with the rotation angle for shunting bucket spindle component 42 System can design to obtain the rotation angle range for shunting bucket spindle component 42 to be positive and negative 45 degree, and first sliding axle 4141 uses, the Two sliding axles 4142 are used as immobilized spindle.

As shown in figure 9, shunting bucket 43 is an inverted cone shell, 43 axis of bucket and water outlet 122 axis weight of endpiece are shunted It closes, shunts that the 43 big bottoms in top of bucket are small, and the tapered interior surface bottom for shunting bucket 43 is connected through a screw thread with 423 bottom end of axis body, is divided The circumferential outer edge at 43 top of stream bucket is contacted with 122 inner wall of endpiece is discharged, and is shunted to set on 43 conical sidewalls of bucket and be divided there are two symmetrical Head piece 431, diffluence pass 431 are fan-shaped pylone, and the circumferential angle that diffluence pass 431 occupies on the conical sidewall for shunting bucket 43 is respectively 90 degree；As shown in Figure 11, Figure 12, water outlet endpiece 122 includes endpiece cylinder 1220, partition 1221, the first connecting bend 1222, the Two connecting bends 1223, the first outlet pipe 1224 and the second outlet pipe 1225,1220 top of endpiece cylinder and water exit elbow 121 connect It connects, partition 1221 is two blocks of vertically arranged plates, and endpiece cylinder 1220 is separated into the region of four equal parts by partition 1221: shunting one Area 12201 shunts two areas 12202, shunts three areas 12203 and shunts four areas 12204, the first connecting bend 1222 and the second connection The lower part of partition 1221 is arranged in elbow 1223, and the first connecting bend 1222, which will shunt an area 12201 and shunt three areas 12203, to be connected It picks up and, the second connecting bend 1223 will shunt two areas 12202 and shunt four areas 12204 and connects, the first outlet pipe 1224 Setting shunts three areas 12203 in 1220 bottom surface of endpiece cylinder, the connection of 1224 one end of the first outlet pipe, and one end connects the first water pump 51, The setting of second outlet pipe 1225 shunts two areas 12202 in 1220 bottom surface of endpiece cylinder, the connection of 1225 one end of the second outlet pipe, and one end connects The second water pump 52 is connect, is the face that concaves at the top of partition 1221, as shown in Figure 10, concave face and shunting bucket 43 at the top of partition 1221 External conical surface contact.

Shunting bucket 43 can rotate in the case where shunting bucket spindle component 42 and driving in positive and negative 45 degree of angular ranges, shunt bucket 43 Diffluence pass 431 be exactly four Diverging areas in lower part flow channels, shunt bucket 43 initial position two panels partitions 1221 by two Diffluence pass 431 is divided into two respectively, and area of passage is directly related with overcurrent flow, when home position, that is, shunts bucket 43 and does not rotate When, four Diverging area flows are identical, and when shunting bucket 43 and rotating 45 degree to some direction, water flow is completely into shunting an area 12201 and three areas 12203 are shunted, and do not enter two areas 12202 of shunting completely and shunt four areas 12204, shunts bucket 43 from original When position rotates 45 degree round about, then water flow completely into two areas 12202 of shunting and shunts four areas 12204, and complete Do not enter entirely and shunt an area 12201 and shunt three areas 12203, shunts an area 12201 and three areas 12203 of shunting and pass through the first connection Elbow 1222 links together, and shunts two areas 12202 and four areas 12204 of shunting by the second connecting bend 1223 and is connected to one It rises, shunts three areas 12203 by the first outlet pipe 1224 and connect the first water pump 51, shunt two areas 12202 and pass through the second outlet pipe 1225 the second water pumps 52 of connection, the first water pump 51 and the second water pump 52 pump go different using areas respectively, thus can be with By control driving assembly 41 pressure regulator valve 417 and stop valve 418 can control the first water pump 51 and the second water pump 52 is pumped The assignment of traffic sent can also be arranged in series multiple shunting buckets 43 and water outlet endpiece 122, thus if two-way distribution is not enough Assignment of traffic can be carried out to multi-path fluid.The present apparatus industrially uses, in the not high situation of water quality requirement, 51 He of the first water pump The past different zones of pumping of second water pump 52 can directly take water, and for occasions such as municipal water process, the present apparatus can be with As the preceding working procedure of complete water treatment system, the first water pump 51 and the second water pump 52 pump virgin flow toward different subsequent Water treatment unit, because the processing capacity of subsequent water treatment unit or treatment process are different, the flow that can be handled is also different, So assignment of traffic can most optimally utilize other facilities.

Vent valve 416, pressure regulator valve 417 and stop valve 418 are electrically operated valve, vent valve 416, pressure regulator valve 417, stop valve 418, motor 23 and controller 33 are electrically connected with external computer, automatic control box or PLC controller, air source inlet 419 access ambient pressure gases.Vent valve 416, pressure regulator valve 417 and stop valve 418 are that the convenient outer bound pair of electrically operated valve entirely fills Implementation is set to automatically control.

Device passes through water outlet in use, multichannel water to be processed is entered in header tanks 10 by more water inlet pipes 11 later Pipe 12 flow to blowdown paddle component 2, flows backward in blowdown paddle component 2 by filtering, the impurity filtered down then passes through spiral Leaf 22, which is promoted, is discharged blowdown paddle component 2 upward and through waste 25, and flowing water body is at electronic cleaner 3 by it backward The electromagnetic field effects that interior electrode 31 generates, sterilization while, can also change the state of foulant particles in water, water body made to be not easy to tie Dirt, then flow backward, it is shunted in water outlet endpiece 122 by flow distribution device 4, flow distribution device 4 passes through control driving Pressure regulator valve 417 and stop valve 418 in component 41 realize the control to flow allocation proportion, and the water body after distribution is by water pump group 5 More water pump pumps toward different regions.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (9)

1. a kind of water treatment facilities with assignment of traffic and electronic descaling, it is characterised in that: a kind of band assignment of traffic and electricity The water treatment facilities of sub- scale removal includes header tank (10), water inlet pipe (11), outlet pipe (12), blowdown paddle component (2), electronic descaling Device (3), flow distribution device (4) and water pump group (5), water inlet pipe (11) outlet setting is in header tank (10), the collection Water tank (10) bottom is equipped with the outlet pipe (12), and outlet pipe (12) pipeline is equipped with blowdown paddle component (2), electronic descaling Device (3), flow distribution device (4), outlet pipe (12) tail end connect the water pump group (5).

2. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 1, it is characterised in that: described Outlet pipe (12) includes water exit elbow (121), water outlet endpiece (122) and horizontal segment (123), the blowdown paddle component (2) and electricity Sub- descaler (3) is arranged on horizontal segment (123), and blowdown paddle component (2) is located at close to the side of header tank (10), the flow The wall surface that distributor (4) passes through water exit elbow (121) is inserted at water outlet endpiece (122), and the water pump group (5) includes first Water pump (51) and the second water pump (52).

3. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 2, it is characterised in that: described Blowdown paddle component (2) includes main shaft (21), helical-blade (22), motor (23), cylinder (24), waste (25), filter screen (26) and blowdown paddle mounting base (29), cylinder (24) the lower end closed open upper end, cylinder (24) lower end side are equipped with cylinder Inlet opening (241) and cylinder apopore (242), the cylinder inlet opening (241) and cylinder apopore (242) and outlet pipe are horizontal Section (123) is welded to connect or flanged joint, and cylinder apopore (242) overflow section is equipped with the filter screen (26), institute Blowdown paddle mounting base (29) setting is stated in outlet pipe (12) one side, for providing fixed Support Position, institute to blowdown paddle component (2) Motor (23) to be stated to be mounted in blowdown paddle mounting base (29), the main shaft (21) is connected by shaft coupling with motor (23) axis, Main shaft (21) main body is located in cylinder (24), and main shaft (21) axis is overlapped with cylinder (24) axis, and the helical-blade (22) is more Road helical blade, helical-blade (22) are mounted on main shaft (21), and helical-blade (22) follows main shaft (24) to be downwardly into cylinder (24) in, helical-blade (22) bottom is lower than cylinder inlet opening (241) and cylinder apopore (242), and the waste (25) sets The top-side in cylinder (24) is set, the blowdown paddle component (2) is integral inclined, and main shaft (21) axis is sharp in vertical direction with one Angle.

4. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 3, it is characterised in that: described Electronic cleaner (3) includes device shell (31), electrode (32), controller (33), and the device shell (31) is a Duan Guanlu, device shell (31) With outlet pipe (12) by flanged joint, the electrode (32) is arranged on device shell (31) inner wall, and electrode (32) head is located at device The runner center of shell (31), controller (33) setting is in device shell (31) outer wall side, controller (33) and electrode (32) electricity Gas connection.

5. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 4, it is characterised in that: described Flow distribution device (4) includes driving assembly (41), shunts bucket spindle component (42), shunts bucket (43), mounting plate (44) and housing (45), the mounting plate (44) is located above water exit elbow (121), and mounting plate (44) is used to provide to flow distribution device (4) Installation site, the driving component (41) are mounted on mounting plate (44), pass through bearing at the top of the shunting bucket spindle component (42) It is mounted on mounting plate (44), shunts wall surface of bucket spindle component (42) lower section across water exit elbow (121) and be inserted into water outlet endpiece (122) described to shunt bucket (43) setting in the end for shunting bucket spindle component (42) in, it shunts bucket (43) and is located at water outlet endpiece (122) in, the housing (45) is mounted on mounting plate (44), and housing (45) will shunt bucket spindle component (42) top and driving group Part (41) covers.

6. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 5, it is characterised in that: described Driving assembly (41) includes cylinder body (411), piston body (412), first end cover (4131), second end cover (4132), the first sliding Axis (4141), second sliding axle (4142), the first spring (4151), second spring (4152), vent valve (416), pressure regulator valve (417), stop valve (418) and air source inlet (419)；The cylinder body (411) is the cylindrical drum of a both ends open, cylinder body (411) Horizontal positioned, cylinder body (411) side lower is equipped with stabilizer blade (4111), and the stabilizer blade (4111) is mounted on mounting plate (44), institute It states first end cover (4131) and second end cover (4132) is mounted on the both ends of cylinder body (411), first end cover (4131) and second end It covers (4132) centre and is equipped with axis hole, described first sliding axle (4141) one end passes through first end cover (4131) axis hole and extend into In cylinder body (411), the axis of first sliding axle (4141) is overlapped with cylinder body (411) axis, the second sliding axle (4142) one End is extend into cylinder body (411) across second end cover (4132) axis hole, the axis and cylinder body (411) axis of second sliding axle (4142) Line is overlapped, and the piston body (412) is short cylindrical shape, and a side end face of piston body (412) is fixedly connected with first sliding axle (4141), another side end face is fixedly connected second sliding axle (4142), piston body (412) cylindrical side and cylinder body (411) inner wall It is in contact, contact surface is equipped with O-ring, and first spring (4151) covers on first sliding axle (4141), the first spring (4151) one end is contacted with first end cover (4131) end face, and the other end is contacted with piston body (412) end face, the second spring (4152) it covers on second sliding axle (4142), second spring (4152) one end is contacted with second end cover (4132) end face, another End is contacted with piston body (412) end face, and the first end cover (4131) is equipped with through-hole, and the through-hole in first end cover (4131) is logical It crosses gas piping to be connected to air source inlet (419), gas piping is equipped with pressure regulator valve (417) and stop valve (418), the pressure regulation Valve (47) is close to first end cover (4131), and the stop valve (418) is close to air source inlet (419), the pressure regulator valve (417) and the It is additionally provided on gas piping between one end cap (4131) branch vent valve (416), also is provided on the second end cover (4132) Through-hole is connected to air source inlet (419) by gas piping, between second end cover (4132), air source inlet (419) on pipeline Valve configuration is identical as the valve configuration between first end cover (4131), air source inlet (419) on pipeline.

7. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 6, it is characterised in that: described Shunting bucket spindle components (42) includes crank disc (421), the bearing shaft shoulder (422), axis body (423) and bearing (424), the axis Body (423) is to shunt bucket spindle component (42) main body, and axis body (423) is vertically-mounted, and the crank disc (421) is arranged in axis body (423) top, the bearing shaft shoulder (422) are arranged on axis body (423), are located at below crank disc (421), the bearing (424) inner ring is sleeved on axis body (423), and bearing (424) outer ring is mounted on mounting plate (44), the bearing shaft shoulder (422) It resisting bearing (424), the first sliding axle (4141) is located at the end head of cylinder body (411) outside and is equipped with connecting rod head (41411), The connecting rod head (41411) is the one section of cylindrical projection stretched out downward on first sliding axle (4141), the crank disc (421) Upper surface is equipped with sliding slot (4211), and the sliding slot (4211) is kidney ellipsoid slot, end face of the slot length direction along crank disc (421) Radial, the bottom of the connecting rod head (41411) is located in sliding slot (4211), the axis and axis body of the first sliding axle (4141) (423) axial offset is vertical, and the distance between two axial lines are crank disc (421) side surface half of one third to half Diameter.

8. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 7, it is characterised in that: described Shunting bucket (43) is an inverted cone shell, shunts bucket (43) axis and is overlapped with water outlet endpiece (122) axis, shunts bucket (43) The big bottom in top is small, and the tapered interior surface bottom for shunting bucket (43) is connected through a screw thread with axis body (423) bottom end, shunts bucket (43) The circumferential outer edge at top is contacted with water outlet endpiece (122) inner wall, shunts symmetrical there are two setting on bucket (43) conical sidewall shunt Mouth (431), the diffluence pass (431) are fan-shaped pylone, the circle that diffluence pass (431) occupies on the conical sidewall for shunting bucket (43) All angles are respectively 90 degree；The water outlet endpiece (122) includes endpiece cylinder (1220), partition (1221), the first connecting bend (1222), the second connecting bend (1223), the first outlet pipe (1224) and the second outlet pipe (1225), the endpiece cylinder (1220) Top is connect with water exit elbow (121), and the partition (1221) is two blocks of vertically arranged plates, and partition (1221) is by endpiece cylinder (1220) be separated into the region of four equal parts: shunt an area (12201), shunt 2nd area (12202), shunt 3rd area (12203) and It shunts 4th area (12204), first connecting bend (1222) and the second connecting bend (1223) are arranged in partition (1221) Lower part, first connecting bend (1222) will shunt an area (12201) and shunting 3rd area (12203) connects, and described the Two connecting bends (1223) will shunt 2nd area (12202) and shunt 4th area (12204) and connect, first outlet pipe (1224) setting shunts 3rd area (12203) in endpiece cylinder (1220) bottom surface, the connection of the first outlet pipe (1224) one end, one end connection First water pump (51), second outlet pipe (1225) are arranged in endpiece cylinder (1220) bottom surface, the second outlet pipe (1225) one end Connection shunts 2nd area (12202), and one end connects the second water pump (52), is the face that concaves, partition at the top of the partition (1221) (1221) top concave face with shunt struggle against (43) external conical surface contact.

9. a kind of water treatment facilities with assignment of traffic and electronic descaling according to claim 8, it is characterised in that: described Vent valve (416), pressure regulator valve (417) and stop valve (418) are electrically operated valve, and the vent valve (416), is cut pressure regulator valve (417) Disconnected valve (418), motor (23) and controller (33) are electrically connected with external computer, automatic control box or PLC controller, The air source inlet (419) accesses ambient pressure gas.