CN108911169A - A kind of lake water disinfection processing unit and method - Google Patents

Abstract

Of the invention a kind of lake water disinfection processing unit and method,Device includes driving the buoying device moved on the water by power device,Aerobic bacteria ball feeding device on buoying device,Positioning system and display control unit,And the micro-nano bubble generator in buoying device bottom hung,Aerobic bacteria ball feeding device includes the supply unit for storing aerobic bacteria ball,For individually supplying the intermittent entry portion of aerobic bacteria ball respectively toward multiple guidance part front ends,Multiple guidance parts are constituted in supply unit bottom interval,The end of guidance part is set by the landing portion inside the aerobic bacteria fall to lake water of supply,Display control unit and positioning system discharge aerobic bacteria ball and bubble in fixed placement position,And show movement routine and the aerobic bacteria ball investment position of buoying device,Release is uniformly distributed in lake water gamut,Make lake water purification of water quality efficiency more preferably,Substantially reduce maintenance work and maintenance cost,It thoroughly excludes excessively to put into the problem of deteriorating lake water water quality condition because of aerobic bacteria ball.

Description

A kind of lake water disinfection processing unit and method

Technical field

The present invention relates to a kind of lake water or the kind devices and method with purified treatment of lotus pool inner water structural reform, especially will system The aerobic bacteria ball containing microorganism for making to be formed after the solid forms such as balling-up is put into lake water or lotus pond and releases micro-bubble It is put into lake water or device and throwing method in lotus pond, belongs to water treatment field.

Background technique

When lake water or Lian Chi, particularly ecological lake water, the purification state that water will often remain clean makes ecology It can normally maintain.Such as because the generation of suspended solid etc. in lake water cause water quality pollution level it is serious when not only break up lake water Ecological boundary and surrounding enviroment also can more deteriorate, it is therefore desirable to which periodic purification of water quality handles operation.

According to present circumstances, the method for managing the water quality such as lake water is only limitted to skim the floating material swum on lake water water surface surface Or periodical exchange water, and cannot prevent stagnate water by can rot after a certain period of time or bottom surface precipitating various forms object Matter and the pollutional condition occurred.

Korean Patent No. No. 840548 publicities water purification facilities of lake water or Lian Chi thus, provide this in lake water Capacitor driving device is set in the range of bottom surface is especially formed inclinedly and near the ground to peak for forming inclined-plane and mountain stream Facility, have the equipment such as windmill and dissolved oxygen Supply Method etc., water in lake water persistent loop purifies water energy in lake water enough.

But quality purifying device for water or system, facility etc. are needed in lake water edge in lake water according to this structure Multiple facilities are set with positions such as bottom surface, inclined surface, high peak potions, while in addition equipment such as setting windmill etc., not only in fact The considerable setup fee of consumption and maintenance cost are applied, true glazing dissolved oxygen supply is impossible to reach large area lake water Purification of water quality processing.

And in contrast to this, after the native solidification (being in the industry cycle referred to as soil ball or aerobic bacteria ball) containing microorganism Considerable aerobic bacteria ball input quantity need to be used when putting into purified treatment lake water water quality in lake water, these are handled by manpower entirely, In comprehensive descision activity duration and operation manpower etc., considerable problem can be highlighted in efficiency.

Meanwhile even if operator directly throws aerobic bacteria ball in lake water marginal position, aerobic bacteria ball is also unable to reach lake water Central place, therefore aerobic bacteria ball can not be evenly distributed in lake water gamut and be thrown into, purification of water quality efficiency can also reduce.

Certainly, the investment aerobic bacteria ball such as buoying device or ship can be used in operator, but needing at any time will be in this ship or lake water week The buoying device or ship that aerobic bacteria ball in the state of the storage of side is seated constantly with operator load onto it is a certain amount of operation is repeated, because This lake water entirety puts into the suitable elapsed time of operation of aerobic bacteria ball, and aerobic bacteria ball investment area is difficult to correctly differentiate, intensive to throw Enter range and the low range of closeness exists simultaneously, in the range of aerobic bacteria ball is excessively put into, relative to playing purification of water quality Effect will appear the problem of water quality more deteriorates instead.

In addition, there is also water oxygens, and few, aerobic bacteria is difficult to merely to aerobic bacteria ball of the investment containing microorganism in lake water The problem of playing one's part to the full.

Summary of the invention

To solve artificial investment aerobic bacteria ball low efficiency, in uneven and water, content is few, aerobic bacteria ball catharsis not Abundant technical problem, the present invention provide a kind of lake water disinfection processing unit and method.

Technical solution of the present invention：

A kind of lake water disinfection processing unit, it is characterised in that aerobic bacteria ball feeding device including buoying device, on buoying device, The micro-nano bubble generator of positioning system and display control unit and the buoying device bottom hung,

The buoying device has power device, and the buoying device is driven to float movement on the water；

The aerobic bacteria ball feeding device includes supply unit, guidance part, landing portion and intermittent entry portion, the supply unit Top has aerobic bacteria ball entrance, and bottom has outlet, and the outlet is connect with the guidance part, the end of the guidance part Portion is dropping zone, is provided with landing portion, and the size in the channel of the size of the outlet and the guidance part allows single Aerobic bacteria ball passes through, and the outlet has intermittent entry portion, individually supplies aerobic bacteria ball for the front end toward the guidance part；

The display control unit respectively with the power device, intermittent entry portion, landing portion, positioning system and micro-nano Bubble generator connection.

The micro-nano bubble generator is composed of two domed vessels and intermediate hydrostatic column of two sides, The hydrostatic column is connect with water inlet pipe, and each hemispheric both ends respectively have a circular hole for spraying liquid, with shape At micro-nano foam and air conduit, the cylinder inner face there are two hollow C-shaped pipes, in described two hollow C-shaped pipes Hollow C-shaped pipes opening portion above it by the coupling part of the water inlet pipe and the hydrostatic column at two portions Point, the cross-sectional area of each part is smaller than the cross-sectional area of the water inlet pipe, another hollow C-shaped pipes is in the front C The coupling part of the outlet pipe of the front C-shaped pipes and the hydrostatic column is two parts, each portion by the outlet portion of shape pipe The cross-sectional area divided is all smaller than the outlet portion cross-sectional area of the C-shaped pipes.

The bottom of supply unit has multiple outlets, and each outlet is connect with a guidance part respectively, often A outlet all has an intermittent entry portion, and the dropping zone of each guidance part has a landing portion；Between described in each Donor site have a rest in the lower section of the corresponding outlet, including cylinder and supply plate, the front end of the supply plate, which has, assigns The single aerobic bacteria ball assigns slot and keeps out the arc protrusive board of the outlet, and rear end is connect with the cylinder, the gas The signal that cylinder receives the display control unit carries out reciprocating action, and the supply plate reciprocating rotation is driven to open the outlet Aerobic bacteria ball is individually supplied to the guidance part and closes the outlet to assigning slot to assign aerobic bacteria ball.

The dropping zone it is opening down, the landing portion includes the cylinder and baffle of connection, the cylinder and described aobvious Show that control device connects, the signal for receiving the display control unit carries out reciprocating action, and driving is resisted against the institute of the outlet It states baffle progress reciprocating rotation or expanding-contracting action opens the outlet and launches aerobic bacteria ball and close the outlet prevention dispensing.

The landing portion may include a cylinder, and the baffle is that the pliers shape formed is combined by epipleural and lower side panel Shape structure is driven by cylinder to drop-off positions are turned to far from cylinder direction, during the single aerobic bacteria ball aborts, while on Side plate is kept out prevents other aerobic bacteria balls from falling in the outlet；And baffle drives back rotation to be back to initial bit by cylinder It sets, the lower side panel keeps out the outlet, accommodates next aerobic bacteria ball.

The cylinder includes the first cylinder and the second cylinder being distributed up and down, the baffle include between the upper and lower every first every The size of plate and second partition, the interval accommodates an aerobic bacteria ball, and the first partition and second partition are respectively by first The reciprocating motion driving of cylinder and the second cylinder is alternately flexible individually to launch the aerobic bacteria ball.

The landing portion further includes connecting with the opening of the dropping zone and inclined transmitting tube, and the transmitting tube tail portion connects Third cylinder is connect, there is the axis connection with the third cylinder inside the transmitting tube and the peace of the aerobic bacteria ball can be assigned Slot, the periphery package spring of the axis, the spring supporting assign trench bottom described.

The two sides of the supply unit are distributed multiple guidance parts, and the guidance part of at least side is separately connected a son The sub- supply unit of feed unit, the guidance part are unfolded and can stretch in fan shape.

The bottom of the buoying device is suspended in by micro-nano bubble generator described in elevating lever.

A kind of lake water disinfection processing method, it is characterised in that

Display control unit is by the letter of the movement routine of the buoying device of setting, placement position and/or aerobic bacteria ball supply volume Number it is sent to the buoying device；

The signal opens or closes power device to move to the buoying device based on the received, and opens in the placement position Aerobic bacteria ball is launched in the intermittent entry portion and landing portion for opening aerobic bacteria feedway into lake water, opens micro-nano bubble generator Micro-nano bubble is discharged into lake water；

Positioning system on buoying device is by the dispensing coordinate and/or input quantity of the coordinate of the buoying device and aerobic bacteria ball Information be sent to the display control unit in real time, the display control unit receives and shows the information.

Technical effect of the invention：

A kind of lake water disinfection processing unit of the invention, through the aerobic bacteria ball feeding device on buoying device into lake water It is automatic to launch aerobic bacteria ball, and micro-bubble is discharged into lake water by the micro-nano bubble generator in buoying device bottom hung, The oxygen content in water is increased, so that aerobic bacteria plays one's part to the full, lake water water quality obtains optimal clean-up effect.The supply of aerobic bacteria ball The supply unit of device stores aerobic bacteria ball, and the vent size of bottom accommodates single aerobic bacteria ball and passes through, is being discharged by keeping out The unlatching in the intermittent entry portion of mouth, outlet are opened, and single aerobic bacteria ball is supplied to guidance part, and the size in the channel of guidance part permits Perhaps single aerobic bacteria ball is arranged successively the dropping zone of guidance to end, by keeping out opening in the landing portion of the opening of dropping zone It opens, outlet is opened, and single aerobic bacteria ball is fallen into lake water.

Using positioning system and display control unit control aerobic bacteria ball fixed point investment, display control unit is according to setting Buoying device movement routine, placement position and quantity and the location information that sends of positioning system, control power device driving it is floating Tool is respectively moved to different placement positions, and controls interval supply unit and the unlatching of landing portion in designated position with single into lake water Aerobic bacteria ball is launched, is not closed to control intermittent entry portion when launching setting position and landing portion, to realize to aerobic bacteria ball Control launch, may be implemented to be uniformly distributed in lake water gamut by setting in this way and put into aerobic bacteria ball, not only correct Right amount can be put on position, improves purification of water quality efficiency, moreover it is possible to be improved investment operating efficiency, be thrown with worker's handwork It is entirely different to enter aerobic bacteria ball.

Positioning system can not only accurately detect the movement routine of buoying device, additionally it is possible to put into buoying device while mobile aerobic The investment position real-time tracing of bacterium ball, and its numerical value is delivered letters and is shown into display control unit, observe these data energy Whether comprehensive aerobic bacteria ball investment position and the quantity for enough holding lake water, examine investment uniform in turn, can not only be thorough It excludes excessively to put into a possibility that causing water quality condition to deteriorate in lake water because of a large amount of aerobic bacteria balls, additionally it is possible to effectively management aerobic bacteria Ball puts into period and distance, dosage etc., and maintenance work and maintenance cost and other effects can be substantially reduced by having.

Preferably, the micro-nano bubble generator is provided with two hollow C-shaped pipes in inside, to greatly improve liquid Rotation speed promotes and improves microfoam incidence.

Preferably, the intermittent entry portion includes that cylinder and front end have and accommodate assigning slot and supporting for single aerobic bacteria ball The supply plate of the arc protrusive board of outlet is kept off, individually to supply aerobic bacteria ball to the guidance part.

Preferably, in order to individually be discharged aerobic bacteria ball, the landing portion is by cylinder interconnected and keeps out board group at can With identical as the principle in intermittent entry portion, having same or like structure is to have the supply plate or tool for assigning slot and arc protrusive board The clamp structure for thering is epipleural and lower side panel to be combined into, it is furthermore preferred that can be combined using two cylinders being spaced apart up and down The structure of two baffles, first baffle by cylinder drive shrink an aerobic bacteria ball from guidance part fall to second baffle after first Baffle, which stretches out, prevents other aerobic bacteria balls from falling, and then second baffle is driven by cylinder and shunk, and aerobic bacteria ball is fallen in water, most Preferably, then be arranged third cylinder and bottom and third cylinder axis connection, top and the connection of the opening of dropping zone inclination Launching tube, and then by the effect of third cylinder and spring to from the farther place transmitting aerobic bacteria ball of buoying device.

Preferably, lake water disinfection processing unit links female feed unit and sub- feed unit, enhances dispensing ability, in addition, Guidance part is scalable, stretches out to be located at except buoying device range and launch aerobic bacteria ball, is contracted within the scope of buoying device when not launching.

Preferably, according to the length of the specific depth adjustment elevating lever in lake, guarantee that micro-nano bubble generator slips into water In.

Detailed description of the invention

Fig. 1 is a kind of stereoscopic schematic diagram of the loading condition of lake water disinfection processing unit of the invention；

A kind of perspective view of another embodiment of the loading condition of lake water disinfection processing unit Fig. 2 of the invention；

Fig. 3 is the generality front elevation of Fig. 2；

Fig. 4 is the enlarged cross section figure of a kind of embodiment in landing portion in aerobic bacteria ball feeding device according to the present invention；

Fig. 5 is the enlarged cross section figure of intermittent entry portion structure in aerobic bacteria ball feeding device according to the present invention；

Fig. 6 is the front elevation of a kind of embodiment of guidance part in aerobic bacteria ball feeding device according to the present invention；

Fig. 7 is the sectional view of another embodiment in landing portion in aerobic bacteria ball feeding device according to the present invention；

Fig. 8 is the front elevation of another embodiment in landing portion in aerobic bacteria ball feeding device according to the present invention；

Fig. 9 is the local wide sectional view of Fig. 8；

Figure 10 is a kind of schematic diagram of another embodiment of the loading condition of lake water disinfection processing unit according to the present invention.

Figure 11 is the generalized block diagram of lake water disinfection processing method according to the present invention；

Figure 12 is a kind of schematic diagram of the Clothoid type foam occurring principle of embodiment of fine bubble generating apparatus；

Figure 13 is microbubble schematic diagram.

Drawing reference numeral：

10- aerobic bacteria ball, 100- buoying device, 111- motor, 112- propeller, 113- rudder, 114- diesel generating set, 115- floating drum, 200- aerobic bacteria ball feeding device, 210- supply unit, 211- outlet, 220- guidance part, the dropping zone 220a-, 230- landing portion, 231- cylinder, the first cylinder of 231a-, the second cylinder of 231b-, 231c- third cylinder, 232- waveform landing plate, 232a- epipleural, 232b- lower side panel, 233- first partition, 234- second partition, 235- transmitting tube, S- spring, L- third gas The axis of cylinder, 236- assign platform, 240- intermittent entry portion, 241- cylinder, and 242- supplies plate, and 243- assigns slot, 244- connecting rod, 245- Arc protrusive board；250- solar panels, 300- centre panel, 310- terminating machine, 320- display control unit, 400-GPS, 2- are good Oxygen bacterium ball release, the micro-nano bubble generator of 500-, 510- elevating lever, 520- domed vessel, the hollow C-shaped pipes of 530-, 540- circular hole, 550- air conduit, 560- micro-bubble, 570- hydrostatic column.

Specific embodiment

For the clearer content for understanding the invention, will be described in detail in conjunction with the accompanying drawings and embodiments.

Embodiment 1

As shown in Figure 1, a kind of lake water disinfection processing unit of the present embodiment, provides using aerobic bacteria ball and passes through display Control system and positioning system effectively put into the device of aerobic bacteria ball and discharge the device of bubble into water, complete in lake water Aerobic bacteria ball, including buoying device 100, aerobic bacteria ball feeding device 200 and micro-nano bubble generator 500 are uniformly put into range, Above-mentioned buoying device 100, which swims in its structure on the lake water water surface, has the function of transfer, and above-mentioned aerobic bacteria ball feeding device 200 is fixed on It states above buoying device 100, aerobic bacteria ball 10 can be landed and be put on the certain position of lake water, above-mentioned micro-nano bubble generator 500 are suspended in the bottom surface of buoying device 100, are diving systems, can discharge micro-nano bubble to lake water.

Buoying device 100 includes power device, and the power device includes diesel generating set 114 and spiral 112, and setting is floating The propeller 112 that the driving of diesel generating set 114 of the upper surface of tool 100 is located at one end bottom surface of buoying device 100 moves to reach to advance The function of sending, the two sides of the bottom of buoying device 100 have floating drum 115, inside can store diesel oil.

As shown in Figure 1-3, above-mentioned aerobic bacteria ball feeding device 200 include supply unit 210, aerobic bacteria ball release 2 and Intermittent entry portion 240, aerobic bacteria ball release 2 include guidance part 220, landing portion 230.Above-mentioned supply unit 210 stores aerobic bacteria Ball 10, in order to which sleekly by aerobic bacteria ball 10, from 210 side of supply unit, supply comes, above-mentioned 210 inner bottom surface of supply unit is taken The end of taper state, bottom surface forms outlet 211, so that aerobic bacteria ball 10 naturally drains, the size etc. of the outlet 211 In or slightly larger than aerobic bacteria ball 10 diameter, the setting of above-mentioned intermittent entry portion 240 connects in above-mentioned supply unit 210 and guidance part 220 By aerobic bacteria ball 10, individually guiding is supplied to guidance part 220 on the position connect.

The width and height of above-mentioned guidance part 220 allow single aerobic bacteria ball successively slightly larger than the diameter of the aerobic bacteria ball Arrangement is guided, and the aerobic bacteria ball 10 supplied from supply unit 210 is directed to respectively positioned at the edge of buoying device 100 by guidance part 220 Or periphery, the aerobic bacteria ball 10 for reaching the end of above-mentioned guidance part is put into lake water side by above-mentioned landing portion 230.

In order to uniformly put into aerobic bacteria ball 10 in lake water gamut, pass through display control unit 320 and positioning system pair The release of aerobic bacteria ball and microbubble is controlled, and display control unit 320 and positioning system-GPS400 are respectively positioned on buoying device 100 The upper surface of, display control unit 320 respectively with the power device, intermittent entry portion 240, landing portion 230, GPS400 and micro-nano Rice bubble generator 500 connects, and the dispensing coordinate of buoying device 100 of the load in display control unit 320 is combined according to GPS400 Data control the power device starting or close to move buoying device 100, and control interval supply unit 240,230 and of landing portion Micro-nano bubble generator 500 is opened in each dispensing coordinate, launches the aerobic bacteria ball 10 and micro-bubble 560 of specified quantity, Non- dispensing coordinate is closed；And the display control unit 320 shows the placement position and quantity of the aerobic bacteria ball 10.

Usual method production can be used in aerobic bacteria ball 10 in the present embodiment, such as this soil block solid is the micro- life of soil The cluster of object, reservoir, soil comprising outflow, the set for being present in atmosphere or the microorganism in other natural environments.

This microorganism mainly includes zoogloea (zoogloae), Sphaerotilus (sphaerotilus), nitrous Change monad (nitrosomonas), Nitrobacter (nitrobacter), Hyphomicrobium (hyphomicrobium), stem bacterium Belong to (caulobacter), Bdellovibrio (bdelovibrio), pseudomonad (pseudomonas) etc., this and lake water or lotus pool In homobium it is similar.

Embodiment 2

On the basis of embodiment 1, the specific structure in intermittent entry portion 240 is with receiving from funnel shaped to the present embodiment Aerobic bacteria ball 10 is individually assigned into the function of above-mentioned 220 front end of guidance part by the supply unit 210 of countless aerobic bacteria balls 10 received, and is such as schemed Shown in 3 and Fig. 5, the lower section of 210 side lower end of supply unit, outlet, including cylinder 241 is arranged in above-mentioned intermittent entry portion 240 Slot 243 and 245 groups of arc protrusive board are assigned by assign aerobic bacteria ball 10 with the front end of supply plate 242, the supply plate 242 At rear end is connect by connecting rod 244 with cylinder 241, the reciprocating rotation by the reciprocal operation driving of cylinder 241：Cylinder 241 is forward It pushes driving supply plate 242 to be detached from initial position and turns to releasing position, assign into assigning on slot 243 for above-mentioned supply plate 242 Aerobic bacteria ball 10 can individually be supplied to above-mentioned guidance part 220, while arc protrusive board 245 keeps out and prevents to supply in outlet 211 Pass through to other aerobic bacteria balls 10 in portion 210；Then cylinder 241 returns to drive supply plate 242 backward and rotates from releasing position To initial position, slot 243 is assigned to store next aerobic bacteria ball 10.

The number in this intermittent entry portion 240 is come according to the number for the guidance part 220 for being connected respectively to 210 lower end of supply unit Setting.

Embodiment 3

As shown in figure 4, the most end side of above-mentioned guidance part 220 forms the dropping zone 220a of bending state, enable to Landing aerobic bacteria ball 10 is easy to lake water side from landing portion 230.

On the basis of embodiment 1, the structure in above-mentioned landing portion 230 is waveform landing modes, is arranged in above-mentioned guidance part 220 end, structure are that have the waveform being driven according to cylinder 231 to individually put into inside aerobic bacteria ball 10 to lake water Land plate 232, therefore be that by.

Open state is unfolded with lower side panel 232b as pliers by the epipleural 232a of above-mentioned waveform landing plate 232, leads It is that lower side panel 232b is blocked that the end side for drawing portion 220 passes through the movement transmission waveform landing plate 232 of cylinder 231 as shown in fig. 4 a State, epipleural 232a stops the end of guidance part 220 while lower side panel 232b as shown in Figure 4 b is toward lower section change of location Opening, meanwhile, assign into above-mentioned lower side panel 232b aerobic bacteria ball 10 land and put into lake water, and utilize epipleural 232a prevents the landing of other aerobic bacteria balls 10.

In addition, in order to make above-mentioned epipleural 232a be easy transmission, the most end side dropping zone side 220a of guidance part 220 The one side opening in 231 direction of face, that is, cylinder is best.

By the dropping zone 220a being so open, with the work of above-mentioned cylinder 231, the waveform landing plate 232 of transmission Epipleural 232a interference-free can switch the end of dropping zone 220a.

By the perseveration so of cylinder 231, the single landing in order of aerobic bacteria ball 10 of guidance part 220 is neatly come It puts into lake water, carries out a series of processes repeatedly.

Embodiment 4

On the basis of embodiment 1, the structure in above-mentioned landing portion 230 is locking type landing modes to the present embodiment, such as Fig. 7 institute Show, that is, be used as the switch means of the dropping zone 220a of guidance part 220, be respectively separated setting up and down can be by acting in order Freely land in aerobic bacteria ball 10 to lake water.

In order to which the internal up and down of dropping zone 220a is isolated, first partition 233 and second partition 234 are respectively with an aerobic bacteria The distance of the position degree of ball 10 is separated by, above-mentioned first partition 233 and the mutual crossbar switch repeatedly of second partition 234.

Also, the aerobic bacteria ball 10 guided with guidance part 220 reaches the most end of guidance part 220 to be placed in dropping zone 220a In the state of side, keep blocking the state of 230 lower end of landing portion, institute by the second cylinder 231b second partition 234 in Fig. 7 It states second partition 234 and falls aerobic bacteria ball 10 above, 10 top of the aerobic bacteria ball also 233 through part of first partition as shown in Figure 7 In the state of partition dropping zone 220a.

Under this state, second partition 234 by the second cylinder 231b retreat if, in dropping zone 220a by first every The aerobic bacteria ball 10 that plate 233 and second partition 234 support is put into lake water.

Later, second partition 234 is advanced by the movement of the second cylinder 231b and is transferred, and first partition 233 is past at the same time Transfer is retreated, is placed in above-mentioned second partition in another aerobic bacteria ball 10 landing that above-mentioned first partition 233 is placed above Above 234.

As under above-mentioned state, aforementioned activities are repeated in second partition 234, aerobic by the switch landing of second partition 234 After bacterium ball 10 arrives lake water side, second partition 234, which advances, to be transferred.

First partition 233 retreats transfer by the movement of the first cylinder 231a backward if, it is placed in above-mentioned first partition Another aerobic bacteria ball 10 above 233 settles out on the second partition 234 for being placed on and blocking dropping zone 220a lowest end Face, also, first partition 233 is advanced transfer again, and 220a the last one aerobic bacteria ball 10 in dropping zone passes through 233 He of first partition Second partition 234 maintains under isolation that landing is repeated and is flowed into the opening of second partition 234 by sequence above-mentioned Lake water side.

Embodiment 5

On the basis of embodiment 4, as Figure 8-9, another embodiment in landing portion 230 is emission type landing modes, It is applicable in first partition 233 and second partition 234, as the aerobic bacteria ball 10 of the opening landing of second partition 234 is not at once It is flowed into lake water side, but aerobic bacteria ball 10 is seated in aerobic by the movement transmitting of third cylinder 231c after emitter Aerobic bacteria ball 10 is penetrated and comes remote place with a distance from buoying device 100 to be flowed into lake water by bacterium ball 10.

This emission type landing modes are to be formed slopely the cylinder-shaped transmitting being connected with the lower end above-mentioned dropping zone 220a Pipe 235,235 tail portion of cylinder transmitting tube are arranged third cylinder 231c, are connected and can assign with above-mentioned third cylinder 231c axis L Aerobic bacteria ball 10 assigns platform 236, by wrapping up the axis L outer peripheral surface and can be that platform 236 is assigned to provide the spring S of elastic force Resilient support.

Therefore as above-mentioned movement, the aerobic bacteria ball 10 to land with the opening of second partition 234 flows as described above Enter to the transmitting tube 235 fixed with heeling condition, the aerobic bacteria ball 10 flowed into is fixed on third cylinder 231c as shown in Figure 9 Axis L end side on be maintained into inside above-mentioned transmitting tube 235 and assign into the state assigned on platform 236.

It is assigned on platform 236 in this way, aerobic bacteria ball 10 is flowed into behind 235 inside of transmitting tube to assign into, axis L is with third cylinder The movement of 231c retreats backward after, the bullet of spring S when the ball of the aerobic bacteria on platform 236 10 being assigned to transfer by moment advance is assigned into By the direct radiation of transmitting tube 235, aerobic bacteria ball 10 flies on the position remote from buoying device 100 and is flowed into lake water power.

In addition, the multiple above-mentioned transmitting tubes 235 of setting can adjust the transmitting of the aerobic bacteria ball 10 that each transmitting tube 235 emits away from From, such as form multiple transmitting tubes 235 and adjust the cylinder stream pressure of each transmitting tube 235 so that the aerobic bacteria ball that transmitting tube 235 emits 10 transmitting range is spaced from each other, and the place put into lake water is spaced one from, and can guarantee aerobic bacteria ball 10 according to more running fires It puts on the position appropriate of lake water.

This point not only suitably changes the technical idea that can be achieved with and can be of the invention without disengaging from card in the present invention.

It puts into inside aerobic bacteria ball 10 to lake water in several ways, is not limited only to specification and interest field of the invention And the structure in landing portion 230 documented by attached drawing, according to similar technical concept in the case where can be construed to phase Same technological concept.

Embodiment 6

On the basis of embodiment 1, this guidance part 220 that the two sides lower end of above-mentioned supply unit 210 can be arranged in exists Multiple, the landing portion 230 of the end of respective guidance part 220 is unfolded to be formed as fan in the two sides lower end of supply unit 210, as long as Reach the aerobic bacteria ball that the drop zone that buoying device 100 is set can be in landing portion 230 by the single landing of the difference of landing portion 230 10。

The structure of above-mentioned guidance part 220 is that will be received into the aerobic bacteria ball 10 of supply unit 210 respectively by intermittent entry portion 240 are supplied to, and guiding aerobic bacteria ball 10 is transplanted on 100 periphery of buoying device, take open state, such as Fig. 6 above this guidance part 220 Shown, extraction state is best before and after guidance part 220 remains able to, i.e. the end of guidance part 220 is scalable.

Guidance part 220 or so adjusts, and the aerobic bacteria for putting into side can be adjusted when aerobic bacteria ball 10 is put into lake water The distance between ball 10 is best.When carrying out investment 10 operation of aerobic bacteria ball in lake water, draws guidance part 220 and make its End is placed in 100 periphery of buoying device, and it is best that guidance part 220, which is placed in the approximated position of 210 side of supply unit, when operation is completed.

Embodiment 7

The present invention is not limited only to only use in the investment aerobic bacteria ball 10 to lake water of buoying device 100, and above-mentioned buoying device 100 is by single Position is connected and fixed multiple, that is, includes female feed unit and sub- feed unit, for example, as shown in Figure 10, it will be in front when female supply The buoying device 100 of unit and female feedway 200 are filled with the buoying device 100 and son supply for being connected to sub- feed unit of the rear when subordinate It sets 200 to be separately connected, 100 two sides of buoying device of above-mentioned mother's feed unit are respectively formed multiple transmitting tubes 235 and make aerobic bacteria ball 10 Transmitting put into lake water, at 100 rear of buoying device of above-mentioned sub- feed unit, aerobic bacteria ball 10 according to the present invention in specifically The landing method landing for having each structure of bright middle record is put into lake water, and lake water is purified.

Respective landing method of the invention effectively can be suitably implemented by this technological maheup.

Embodiment 8

Above-mentioned buoying device 100 further includes the rudder 113 that can convert 100 direction of buoying device, and above-mentioned rudder 113 passes through aftermentioned Centre panel 300 can wireless control be it is best, the transfer of initial buoying device 100 is set in above-mentioned centre panel 300 After path locus, according to the rudder 113 of the data value rotation buoying device 100 of its setting, it can be transferred and be turned by the path thought Change direction.Control method like this wirelessly is to have used well-known technique, therefore save in the description of the invention Slightly its detailed description.

In addition, have the buoying device 100 of above structure with the lake water movement for having certain area and put into aerobic bacteria ball 10, It is necessary to correctly observe aerobic bacteria ball 10 to put into position and quantity.

Therefore in the present invention in order to having being in communication with each other for buoying device 100 and centre panel 300 according to internet Communication network be best.

And above-mentioned centre panel 300 holds the transfer path of buoying device 100 in real time, is computed correctly out according to transfer path Position and the quantity etc. for putting into the aerobic bacteria ball 10 in lake water, according to the most appropriate item of the purified treatment for water in lake water Part carries out operation.

That is, centre panel 300 wirelessly can be adjusted and be in communication with each other to control the position of buoying device 100, use GPS400 reaches designated position while controlling the transfer path of buoying device 100, passes through the aerobic bacteria ball feeding device of buoying device 100 200 make it possible to put into aerobic bacteria ball 10, and the input quantity of aerobic bacteria ball 10 and position pass through the terminating machine of centre panel 300 310 real-time displays are able to confirm that.

For example, the aerobic bacteria ball 10 that designs when buoying device 100 sets out of centre panel 300 puts into position and buoying device 100 Transfer path etc. is sent on buoying device 100 after loading procedure, as long as wireless communication connection status is maintained, from buoying device 100s The transfer path locus that place starts transfer is shown on the terminating machine 310 of centre panel 300, when mobile according to buoying device 100 The signal of given setting value, aerobic bacteria ball 10 are put into lake water from the landing portion 230 in aerobic bacteria ball feeding device 200 Place is appraised and decided with signal to be shown on above-mentioned terminating machine 310.

In this way, the transfer path of buoying device 100 and the investment position of aerobic bacteria ball 10 are controlled with the Shape Representation put in center On the terminating machine 310 of disk 300, the aerobic bacteria ball 10 in operation and the current operation of inspection puts into efficiency etc., keeps its data automatically standby Part.

Meanwhile other ultrasonic energy, turbidimetric analysis turbidimetry device, dustiness measurement device, inspection are set on above-mentioned buoying device 100 It looks into and uses sensor, camera etc., appraise and decide the signal for the buoying device 100 that centre panel 300 is collected mail in real time, can check current lake in real time Turbidity and dustiness of water etc. are best.

A kind of lake water disinfection processing method, includes the following steps：

Firstly, the setting value set already is loaded into the buoying device 100 of traveling by centre panel 300 by operators etc. On, input buoying device 100 in driving trace and traveling in lake water aerobic bacteria ball 10 put into that position is equivalent, and buoying device 100 is existing It sails position and aerobic bacteria ball 10 puts into position and is shown on the terminating machine 310 of centre panel 300 by real time GPS system.? The aerobic bacteria ball 10 stored in the supply unit 210 for the aerobic bacteria ball feeding device 200 being arranged on above-mentioned buoying device 100 is by a series of Process, the guidance part that the outlet 211 by being separately positioned on lower end two sides utilizes intermittent entry portion 240 multiple to arranged 220 guide and simultaneously individually supply, the aerobic bacteria ball 10 individually supplied by respective guidance part 220, by being connected to each above-mentioned lead The dropping zone 220a discharge for drawing the final end side in portion 220, is put into lake water by above-mentioned landing portion 230.

Here, the investment place that the aerobic bacteria ball 10 in lake water is put by above-mentioned landing portion 230, according in prior use The content of centre 300 program of control panel setting transfers path and transfer and reach with buoying device 100 to drop on the landing place set Fall aerobic bacteria ball 10.

That is, constituting the movement of the cylinder 231 of one of 230 structure of landing portion as the signal in centre panel 300 is appraised and decided It is interlocked, buoying device 100 has arrived on the coordinate of program location after being transplanted on certain distance, and buoying device 100 stops on dependent coordinate The aerobic bacteria ball 10 for following respective guidance part 220 to guide on aerobic bacteria ball feeding device 200 afterwards is put by landing portion 230 Into lake water, it is anti-to be shifted into a series of processes that aerobic bacteria ball 10 is put on position coordinates again for buoying device 100 after investment It is multiple to carry out.

At this moment, the transfer of position corresponding coordinate and buoying device 100 is put by the aerobic bacteria ball 10 that above-mentioned buoying device 100 is put into Path etc. is conveyed in real time by the terminating machine 310 of centre panel 300 to be stored after display on a central server or according to demand Output.

In addition, the present invention is mainly put into lake water using aerobic bacteria ball 10, illustrate the purification process of water in lake water, but not It is only limitted to above-mentioned aerobic bacteria ball 10.

For example, become the various microorganisms of 10 raw material of aerobic bacteria ball directly dispenses processing with liquid so that lake in lake water The water energy polluted in water enough purifies.

For example, the liquid content comprising microorganism is the state being received into the container being arranged on buoying device 100, make With being connected to multiple hoses of said vesse for the liquid content being discharged from said vesse according to appropriate pressure venting, by upper The nozzles spray for stating hose end side puts into it inside sludge for being deposited in lake water bottom surface.

At this moment in order to prevent because injection pressure causes hose to rotate, hose end side is used for weight means, the spray of hose It can be excluded at mouth because hose rebound occurs for the buffer brake that occurs when liquid microorganism is discharged, while for hose Nozzle implements towards lake water bottom surface maintain method using weight center always.

In this way, liquid microorganism is not used only can purify the water polluted in lake water, from hose discharge liquid microorganism Place and its drain position etc. can be controlled as described above by centre panel 300, using satellite communication means GPS by its Place that the position of buoying device and liquid microorganism are discharged by hose and discharge rate etc. pass through the terminating machine of centre panel 300 310 can show in real time.

And the data that liquid microorganism obtains or the data that the investment aerobic bacteria ball as the present invention obtains are put into that is, good The investment position of oxygen bacterium ball and liquid microorganism, the movement routine of buoying device, aerobic bacteria ball and input amount of liquid microorganism etc. are led to Cross centre panel 300 terminating machine 310 show after, according to selection menu by data desired by user in the form of report Output carries out document keeping.

Embodiment 9

As shown in Figure 1, micro-nano bubble generator is suspended on the bottom of floating platform 100, elevating lever 510 by elevating lever 510 Length can be according to the specific depth adjustment in lake.

As shown in Figure 12 and Figure 13, a kind of height Clothoid type gas-liquid mixed type micro-nano bubble generator, by the two of two sides A domed vessel 520 and intermediate hydrostatic column 570 are composed, and the hydrostatic column 570 connects with water inlet pipe 511 It connects, each hemispheric both ends respectively have a circular hole 540 for spraying liquid, are led with forming micro-bubble 560 and air Pipe 550, the cylinder inner face there are two hollow C-shaped pipes 530.

The opening portion of a hollow C-shaped pipes 530 above it in described two hollow C-shaped pipes 530 is by the water inlet pipe 511 and the hydrostatic column 570 coupling part at two parts, the cross-sectional area of each part is than the water inlet pipe 511 cross-sectional area is all small, another hollow C-shaped pipes 530 the front C-shaped pipes outlet portion by the front C-shaped pipes The coupling part of outlet pipe and the hydrostatic column is two parts, and the cross-sectional area of each part is than the C-shaped pipes 530 Outlet portion cross-sectional area is all small.

As shown in figure 13, principle is：Ultrahigh speed rotates water in container after water pump pressurizes, under its centrifugal force effect It is discharged by the peripheral liquid band being divided into inside container and center gas band, and them by two circular holes 540, in container The contact surface gas of liquid injection pressure and external water pressure, which is cut off, to be crushed and forms micro-bubble 560.

The foregoing is merely the preferable specific embodiments of the present invention, but scope of protection of the present invention is not limited thereto, In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by anyone skilled in the art It should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with the protection model of claims Subject to enclosing.

Claims (10)

1. a kind of lake water disinfection processing unit, it is characterised in that aerobic bacteria ball feeding device including buoying device, on buoying device, fixed The micro-nano bubble generator of position system and display control unit and the buoying device bottom hung,

The buoying device has power device, and the buoying device is driven to float movement on the water；

The aerobic bacteria ball feeding device includes supply unit, guidance part, landing portion and intermittent entry portion, the top of the supply unit With aerobic bacteria ball entrance, bottom has outlet, and the outlet is connect with the guidance part, and the end of the guidance part is Dropping zone, is provided with landing portion, and the size in the channel of the size of the outlet and the guidance part allows single aerobic Bacterium ball passes through, and the outlet has intermittent entry portion, individually supplies aerobic bacteria ball for the front end toward the guidance part；

The display control unit respectively with the power device, intermittent entry portion, landing portion, positioning system and micro-nano bubble Generator connection.

2. the apparatus according to claim 1, it is characterised in that the micro-nano bubble generator by two sides two hemisphere Describe that device and intermediate hydrostatic column are composed, the hydrostatic column is connect with water inlet pipe, each described hemispheric Both ends respectively have a circular hole for spraying liquid, to form micro-nano foam and air conduit, have in the inner face of the cylinder Two hollow C-shaped pipes, the opening portion of a hollow C-shaped pipes above it in described two hollow C-shaped pipes is by the water inlet pipe With the coupling part of the hydrostatic column at two parts, the cross section of the cross-sectional area of each part than the water inlet pipe Area is all small, another hollow C-shaped pipes the front C-shaped pipes outlet portion by the outlet pipe and the circle of the front C-shaped pipes The coupling part of cylindrical container is two parts, the outlet portion cross-sectional area of the cross-sectional area of each part than the C-shaped pipes It is all small.

3. the apparatus according to claim 1, it is characterised in that the bottom of the supply unit has multiple outlets, Mei Gesuo It states outlet to connect with a guidance part respectively, each outlet all has an intermittent entry portion, each guiding The dropping zone in portion has a landing portion；Each intermittent entry portion is located at the lower section of the corresponding outlet, including gas Cylinder and supply plate, the front end of the supply plate, which has, assigns assigning slot and keeping out the outlet for the single aerobic bacteria ball Arc protrusive board, rear end are connect with the cylinder, and the signal that the cylinder receives the display control unit carries out reciprocating action, are driven The supply plate reciprocating rotation opening outlet is moved individually to supply aerobic bacteria ball to the guidance part and close the discharge Mouthful to assigning slot to assign aerobic bacteria ball.

4. the apparatus according to claim 1, it is characterised in that the dropping zone it is opening down, the landing portion include connect The cylinder and baffle connect, the cylinder are connect with the display control unit, and the signal for receiving the display control unit carries out Reciprocating action, the baffle that driving is resisted against the outlet carries out reciprocating rotation or expanding-contracting action is opened the outlet and launched Oxygen bacterium ball and the closing outlet prevent to launch.

5. device according to claim 4, it is characterised in that the landing portion includes a cylinder, and the baffle is by upper Side plate and lower side panel combine the nippers shape structure to be formed, and are driven by cylinder to far from cylinder direction and turn to drop-off positions, single During a aerobic bacteria ball aborts, while epipleural keeps out and prevents other aerobic bacteria balls from falling in the outlet；And baffle Back rotation is driven to be back to initial position by cylinder, the lower side panel keeps out the outlet, accommodates next aerobic bacteria ball.

6. device according to claim 4, it is characterised in that the cylinder includes the first cylinder and second being distributed up and down Cylinder, the baffle include between the upper and lower every first partition and second partition, the size at the interval accommodate an aerobic bacteria ball, The first partition and second partition are alternately flexible individually to throw by the reciprocating motion driving of the first cylinder and the second cylinder respectively Put the aerobic bacteria ball.

7. device according to claim 6, it is characterised in that the landing portion includes connecting with the opening of the dropping zone And inclined transmitting tube, the transmitting tube tail portion connect third cylinder, have and the third cylinder inside the transmitting tube Axis connection and the slot of assigning that can assign the aerobic bacteria ball, the periphery package spring of the axis, the spring supporting is described Assign trench bottom.

8. the apparatus according to claim 1, it is characterised in that the two sides of the supply unit are distributed multiple guidance parts, until The guidance part of few side is separately connected the sub- supply unit of a sub- feed unit, the guidance part be unfolded in fan shape and It can stretch.

9. the apparatus according to claim 1, it is characterised in that be suspended in by micro-nano bubble generator described in elevating lever The bottom of the buoying device.

10. a kind of lake water disinfection processing method, it is characterised in that

Display control unit sends out the signal of the movement routine of the buoying device of setting, placement position and/or aerobic bacteria ball supply volume It send to the buoying device；

The signal opens or closes power device to move to the buoying device based on the received, and opens in the placement position Aerobic bacteria ball is launched in the intermittent entry portion and landing portion of oxygen bacterium feedway into lake water, opens micro-nano bubble generator to lake Micro-nano bubble is discharged in water；

Positioning system on buoying device is by the letter for launching coordinate and/or input quantity of the coordinate of the buoying device and aerobic bacteria ball Breath is sent to the display control unit in real time, and the display control unit receives and shows the information.