CN108911170A - Use lake water disinfection processing unit and method containing microorganism soil ball - Google Patents

Abstract

In the present invention, using lake water disinfection processing unit and method containing microorganism soil ball, device includes the buoying device for advancing and transmitting by motor and propeller, the rudder at rear and assigns the soil ball feedway being fixed on the upside of above-mentioned buoying device；Above-mentioned soil ball feedway includes：The supply unit storing soil ball and supplying, multiple guidance parts is constituted in the supply unit bottom interval, the soil ball of supply is dropped to the landing portion inside lake water by the end that above-mentioned guidance part is arranged in, for individually supplying the intermittent entry portion of soil ball respectively from the supply unit to multiple guidance part front ends；Soil ball containing microorganism is uniformly distributed investment in lake water gamut, make lake water purification of water quality efficiency more preferably, use the movement routine of GPS positioning control buoying device, and make buoying device in the soil ball of scheduled position investment predetermined quantity, it can thoroughly exclude excessively to put into the problem of deteriorating lake water water quality condition because of soil ball, maintenance work and maintenance cost and other effects can be substantially reduced by having.

Description

Use lake water disinfection processing unit and method containing microorganism soil ball

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 soil ball containing microorganism for making to be formed after the solid forms such as balling-up puts into lake water or device and throwing method in lotus pond, belongs to In 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.If because the generation of suspended solid etc. in lake water cause water quality pollution level it is serious when, can not only destroy It closes lake water ecology 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, lake water will be put into after the native solidification (being in the industry cycle referred to as soil ball) containing microorganism Considerable soil ball input quantity need to be used when interior purified treatment lake water water quality, these are handled by manpower entirely, in comprehensive descision operation Whens time and operation manpower etc., considerable problem can be highlighted in efficiency.

Meanwhile even if operator directly throws soil ball in lake water marginal position, soil ball is also unable to reach lake water center place, Therefore soil ball can not uniformly throw and be distributed in lake water gamut, and purification of water quality efficiency can also reduce.

Certainly, the investment soil ball such as buoying device or ship can be used in operator, but needs to store in ship or lake water periphery at any time The buoying device or ship that soil ball under state is seated constantly with operator load onto it is a certain amount of operation is repeated, therefore lake water entirety is thrown Enter the suitable elapsed time of operation of soil ball, soil ball investment area is difficult to correctly differentiate, and the range and closeness intensively put into is low Range exists simultaneously, and in the range of soil ball is excessively put into, will appear water quality instead more for playing effects of purification quality The problem of adding deterioration.

Summary of the invention

The present invention in order to solve the above technical problems, provide using according to microorganism make can be in purified treatment lake water The solid soil ball of water quality, above-mentioned soil ball are uniformly distributed in lake water gamut and come into operation, and provide preferable purification of water quality efficiency Operation is put into soil ball.

Simultaneously it is an object of the present invention to accurately detect the investment position of soil ball and its numerical value is transported to central control In room, position is put into the comprehensive soil ball that observation monitor can hold lake water, can prevent excessively to cause because soil ball is put into Sediment the problems such as generation, obtain the good purification efficiency of lake water entirety water quality.

Technical solution of the present invention：

A kind of lake water disinfection processing unit of the use containing microorganism soil ball, it is characterised in that including：

Buoying device (100) is advanced by the motor (111), propeller (112) and rudder (113) at rear and is transmitted；

Soil ball feedway (200) is assigned and is fixed on the upside of above-mentioned buoying device (100)；

Above-mentioned soil ball feedway (200) includes：

Supply unit (210) is stored soil ball (10) and is supplied；

Guidance part (220) is constituted multiple in above-mentioned supply unit (210) bottom interval；

Landing portion (230) is arranged in the end of above-mentioned guidance part (220), the soil ball (10) of supply is dropped in lake water Portion；

Intermittent entry portion (240), for being supplied toward the supply unit (210) and multiple guidance parts (220) front end are single respectively Give soil ball (10).

Further, above-mentioned soil ball feedway (200) is described with soil ball (10) investment position data movement in lake water Data are loaded on centre panel (300) by GPS (400), and above-mentioned soil ball (10) landing is put on the position set.

Further, it is shown in by the investment position of the soil ball (10) of above-mentioned soil ball feedway (200) landing investment On the terminating machine (310) of above-mentioned centre panel (300), make it possible to detect input locus.

Technical effect of the invention：

According to the present invention, the dustiness for the water being contained in a wide range of lake water or Lian Chi etc. can be measured and carry out purification of water quality Processing makes the purification of water quality of water in lake water so that being uniformly distributed the soil ball for microorganism production of coming into operation in lake water gamut Efficiency maximizes.

Meanwhile the soil ball investment device provided according to the present invention, it is different from worker's handwork investment soil ball, not only exist Right amount can be put on correct position, moreover it is possible to improve investment operating efficiency.

And the GPS (400) of satellite communication used according to the invention can not only control the movement routine of buoying device, moreover it is possible to The investment position real-time tracing of enough soil balls for putting into buoying device while mobile is supervised, and can not only thoroughly be excluded because of a large amount of soil ball mistakes A possibility that causing water quality condition to deteriorate in more investment lake water, additionally it is possible to effectively management soil ball puts into period and distance, dosage etc., With maintenance work and maintenance cost and other effects can be substantially reduced.

Detailed description of the invention

Fig. 1 is the perspective view of the diagram lake water disinfection processing unit loading condition used according to the present invention；

Fig. 2 is the generality front elevation of Fig. 1；

Fig. 3 is to be connected to an implementation in the landing portion of guidance part end side in soil ball feedway according to the present invention The expansion of example illustrates sectional view；

Fig. 4 is to show in soil ball feedway according to the present invention in order to land from the outlet side of supply unit Soil ball intermittent entry to above-mentioned guidance part intermittent entry portion structure enlarged cross section figure；

Fig. 5 is in soil ball feedway according to the present invention, and the generality that display guidance part can continue extraction state is cut Face figure；

Fig. 6 is according to the present invention, in order to be fed into the landing portion that the soil ball of guidance part end side drops to lake water etc. Another embodiment schematic diagram；

Fig. 7 is the partial enlarged view of Fig. 6；

Fig. 8 is according to the present invention, in order to be fed into the landing portion that the soil ball of guidance part end side drops to lake water etc. Form the schematic diagram of another embodiment of emission state；

Fig. 9 is the partial enlarged view of Fig. 8；

Figure 10 is according to the present invention, and front end forms a certain buoying device, utilizes the son for being connected respectively to above-mentioned a certain buoying device rear end Buoying device, can be toward the schematic diagram of an embodiment of lake water investment soil ball；

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

Drawing reference numeral：

10- soil ball, 100- buoying device, 111- motor, 112- propeller, 113- rudder, 200- soil ball feedway, 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 land plate, 232a- epipleural, 232b- lower side panel, 233- first every Plate, 234- second partition, 235- transmitting tube, S- spring, L- axis, 236- assign platform, 240- intermittent entry portion, 241- cylinder, 242- supplies plate, and 243- assigns slot, 244- connecting rod, 300- centre panel, 310- terminating machine, 400-GPS.

Specific embodiment

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

The present invention is provided and uses soil ball and effective as described above, as one of the method in order to purify water quality in lake water The device of soil ball is put into, as shown in Figure 1, including buoying device 100 and soil ball feedway 200, above-mentioned buoying device 100 swims in lake water water Its structure has the function of transfer on face, and above-mentioned soil ball feedway 200 is fixed on above above-mentioned buoying device 100, can be by soil ball 10 Landing is put on the certain position of lake water.

As shown in Fig. 1 and Figure 10, above-mentioned buoying device 100 be connected and fixed by unit it is multiple, in its back-end side setting pass through electricity Machine 111 drive propeller 112 come reach advance transfer function, above-mentioned buoying device 100 further includes that can convert 100 direction of buoying device Rudder 113.

Above-mentioned rudder 113 by aftermentioned centre panel 300 can wireless control be it is best, it is above-mentioned center control After disk 300 sets the transfer path locus of initial buoying device 100, according to the rudder of the data value rotation buoying device 100 of its setting 113, it can be by the path transfer thought and conversion 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.

Above-mentioned soil ball feedway 200 includes supply unit 210, guidance part 220, landing portion 230 and intermittent entry portion 240, above-mentioned supply unit 210 supplies soil ball 10, and above-mentioned guidance part 220 guides the soil ball 10 supplied from supply unit 210 simultaneously respectively Discharge, the soil ball 10 for reaching the final end side of above-mentioned guidance part 220 is put into lake water side by above-mentioned landing portion 230, above-mentioned Intermittent entry portion 240 is arranged on the position that above-mentioned supply unit 210 and guidance part 220 connect leads soil ball 10 respectively one by one Draw supply.

Usual method production can be used in soil ball 10 in the present invention, such as this soil block solid is the group of soil microorganism Collection, 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.

In order to supply the soil block solid i.e. supply unit 210 of soil ball 10 comprising production such as this microorganisms as shown, interior Portion be fabricated to can store a large amount of soil balls form be it is best, its underpart is separately connected guidance part 220, can be by the supply unit The soil ball 10 of 210 supplies is individually guided and is discharged one by one.

The section state of the supply unit 210 as shown in Figure 2, in order to sleekly by soil ball 10 from 210 side of supply unit Supply comes, and above-mentioned 210 inner bottom surface of supply unit takes taper state, and end forms outlet 211, so that soil ball 10 is natural Discharge, is individually supplied to guidance part 220 by aftermentioned intermittent entry portion 240.

In addition, this guidance part 220 of the two sides lower end of above-mentioned supply unit 210 can be arranged in the two of supply unit 210 It is unfolded to be formed multiple, the end connection landing portion 230 of respective guidance part 220, as long as reaching buoying device 100 as fan in side lower end The drop zone of setting is able to the soil ball 10 that landing is in landing portion 230.

At this moment, intermittent entry portion 240 is set between the front end and supply unit 210 of above-mentioned guidance part 220, as described above, for It is best for being individually supplied to respective 220 side of guidance part to the soil ball 10 that portion 210 supplies.

That is, above-mentioned intermittent entry portion 240 has soil ball 10 from the supply units 210 of countless soil balls 10 is stored with funnel shaped The function of above-mentioned 220 front end of guidance part is individually assigned into one by one, therefore as shown in figure 4, above-mentioned intermittent entry portion 240 is arranged In 210 side lower end of supply unit, front end, which has, assigns the supply plate 242 for assigning slot 243 of soil ball 10 by passing through with its rear end The cylinder 241 that connecting rod 244 connects rotates, and the soil ball 10 assigned on slot 243 for assigning into above-mentioned supply plate 242 can be supplied individually To above-mentioned 220 side of guidance part.

This intermittent entry portion 240, as shown in Figure 1, according to the guidance part 220 for being connected respectively to 210 lower end of supply unit Number is arranged.

As described above, the structure of above-mentioned guidance part 220 is, it is supplied to by intermittent entry portion 240 is received into supply respectively The soil ball 10 in portion 210, guiding soil ball 10 are transplanted on 100 periphery of buoying device, take open state above this guidance part 220, lead Draw portion 220 to remain able to front and back as shown in Figure 5 to draw state to be best.

That is, drawing guidance part 220 when carrying out investment 10 operation of soil ball in lake water and being placed in its end outside buoying device 100 It encloses, it is best that guidance part 220, which is placed in the approximated position of 210 side of supply unit, when operation is completed.

Also, guidance part 220 or so adjust, can be adjusted when soil ball 10 is put into lake water put into side soil ball 10 it Between distance be best.

Meanwhile the most end side of above-mentioned guidance part 220 forms the dropping zone 220a of bending state, enables to from landing Portion 230 is easy landing soil ball and arrives lake water side to 10.

The front end side of above-mentioned guidance part 220 is arranged in above-mentioned landing portion 230, and structure is to put into soil ball 10 to lake Inside water, emit shown in locking type landing modes shown in waveform landing modes as shown in Figure 2,3, Fig. 6-7 and Fig. 8-9 Type landing modes etc. put into inside soil ball 10 to lake water in several ways, are not limited only to specification and right model of the invention Enclose and attached drawing documented by landing portion 230 structure, according to similar technical concept in the case where can be construed to Identical technological concept.

For example, as shown in FIG. 2 and 3, there is the waveform landing plate 232 being driven according to cylinder 231, therefore being can be real Existing.

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 Figure 3a State, epipleural 232a stops the end of guidance part 220 while lower side panel 232b as shown in Figure 3b is toward lower section change of location Side.

Meanwhile the soil ball 10 for assigning into above-mentioned lower side panel 232b is landed and is put into lake water, and utilizes epipleural 232a Prevent the landing of other soil 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 is capable of the end of interference-free switch dropping zone 220a.

By the perseveration of cylinder 231 so, the soil ball 10 for neatly coming guidance part 220 is landed in order to be put into In lake water, a series of processes are carried out repeatedly.

In addition, constituting landing portion 230 as shown in fig. 6-7.

That is, the switch means of the dropping zone 220a as guidance part 220, being respectively separated setting up and down can be by order Movement is freely landed in soil ball 10 to lake water.

For example, as shown in fig. 6-7, the first partition 233 and second partition 234 being isolated up and down inside the 220a of dropping zone, The two is separated by with the distance of the position degree of a soil ball 10, and above-mentioned first partition 233 and second partition 234 mutually intersect repeatedly Switch.

Also, the soil ball 10 guided with guidance part 220 reaches the most end of guidance part 220 to be placed in the dropping zone side 220a In the state of, by the second cylinder 231b in Fig. 6-7, second partition 234 keeps blocking the state of 230 lower end of landing portion, institute It states second partition 234 and falls soil ball 10 above, also first partition 233 as shown in the figure runs through in partition landing for 10 top of soil ball The state of area 220a.

Under this state, second partition 234 by the second cylinder 231b retreat if, in dropping zone 220a by first every The soil 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 on above-mentioned second partition 234 in another soil ball 10 landing that above-mentioned first partition 233 is placed above Face.

As under above-mentioned state, aforementioned activities are repeated in second partition 234, switch landing soil ball by second partition 234 After 10 arrive 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 soil ball 10 above 233 settles out above the second partition 234 for being placed on and blocking dropping zone 220a lowest end, and And first partition 233 is advanced transfer again, 220a the last one soil ball 10 in dropping zone passes through first partition 233 and second partition 234 maintain under isolation that landing is repeated and is flowed into lake water side with the opening of second partition 234 by sequence above-mentioned A series of processes.

In addition, Fig. 8-9 is another embodiment in landing portion 230, for example, by using the exemplary diagram of emission type landing modes.

According to the emission type landing modes of Fig. 8-9 as it appears from the above, being applicable in first partition 233 and second partition 234, with the The soil ball 10 of the opening landing of two partitions 234 does not soon flow into lake water side instead of, and soil ball 10 is seated in emitter Soil ball 10 is emitted by the movement of third cylinder 231c afterwards, soil ball 10 is penetrated come remote place with a distance from buoying device 100 so as to It is flowed into lake water.

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, above-mentioned 235 tail portion of transmitting tube are arranged third cylinder 231c, are connected and can assign with above-mentioned third cylinder 231c axis L Soil ball 10 assigns platform 236, the spring S for assigning platform 2336 by the package axis L outer peripheral surface and to be capable of providing elastic force Resilient support.

Therefore as above-mentioned movement, the soil ball 10 landed with the opening of second partition 234 is flowed into as described above With the transmitting tube 235 that heeling condition is fixed, the soil ball 10 flowed into is fixed on the axis L's of third cylinder 231c as Figure 8-9 On the side of end, it is maintained into inside above-mentioned transmitting tube 235 and assigns into the state assigned on platform 236.

It is assigned on platform 236 in this way, soil ball 10 is flowed into behind 235 inside of transmitting tube to assign into, axis L is with third cylinder 231c Movement retreat backward after, assign into the elastic force for assigning the soil ball on platform 236 10 to advance spring S when transferring by moment by emitting The direct radiation of pipe 235, soil ball 10 are flown on the position remote from buoying device 100 and are flowed into lake water.

In addition, the multiple above-mentioned transmitting tubes 235 of setting can adjust the transmitting range for the soil ball 10 that each transmitting tube 235 emits, Such as formed multiple transmitting tubes 235 adjust each transmitting tube 235 cylinder stream press so that transmitting tube 235 emit soil ball 10 transmitting Distance is spaced from each other, and the place put into lake water is spaced one from, and can guarantee that soil ball 10 puts into lake water according to more running fires On position appropriate.

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.

In addition, as shown in figure 11, having the buoying device 100 of above structure as the lake water for having certain area is mobile and puts into Soil ball 10, it is necessary to which correct observation soil ball 10 puts into position and quantity.

Therefore have in order to make being in communication with each other for buoying device 100 and centre panel 300 according to internet in the present invention 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 soil ball 10 in lake water, according to the most appropriate condition of the purified treatment for water in lake water into Row 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, is made by the soil ball feedway 200 of buoying device 100 Soil ball 10 must can be put into, the input quantity of soil ball 10 and position pass through the 310 real-time display energy of terminating machine of centre panel 300 Enough confirmations.

For example, the soil ball 10 that centre panel 300 designs when buoying device 100 sets out puts into the transfer of position and buoying device 100 Path etc. is sent on buoying device 100 after loading procedure, as long as wireless communication connection status is maintained, from the departure place of buoying device 100 The transfer path locus for starting transfer is shown on the terminating machine 310 of centre panel 300, given when mobile according to buoying device 100 Setting value signal, soil ball 10 puts into the place in lake water from the landing portion 230 in soil ball feedway 200 with signal core Surely it is shown on above-mentioned terminating machine 310.

In this way, the transfer path of buoying device 100 and the investment position of soil ball 10 are with the Shape Representation put in centre panel 300 Terminating machine 310 on, operation and the soil ball 10 in current operation is examined to put into efficiency etc., makes its automatic duplicating of data.

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.

According to the present invention for having above structure, illustrate as the method for the water polluted in purified treatment lake water it One, use the purifying treatment method and its sequence of operation of soil ball and action relationships etc..

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 investment of soil ball 10 position equivalence in the driving trace and traveling in lake water, buoying device 100 is existing to sail position It sets and soil ball 10 puts into position and is shown on the terminating machine 310 of centre panel 300 by real time GPS system.In above-mentioned buoying device The soil ball 10 stored in the supply unit 210 for the soil ball feedway 200 being arranged on 100 passes through a series of processes, by setting respectively The outlet 211 in lower end two sides is set, is arranged using intermittent entry portion 240 and arranges multiple guidings of guidance part 220 and single Supply, the soil ball 10 individually supplied by respective guidance part 220, by being connected to the final end one of each above-mentioned guidance part 220 Dropping zone 220a discharge on side, is put into lake water by above-mentioned landing portion 230.

Here, the investment place that the soil ball 10 in lake water is put by above-mentioned landing portion 230, according to prior with center control The content of 300 program of disk setting processed is as the transfer of buoying device 100 path is transferred and reaches the soil that lands on the landing place set 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 soil ball 10 for following respective guidance part 220 to guide on soil ball feedway 200 afterwards puts into lake water by landing portion 230 Interior, a series of processes that buoying device 100 is shifted into that soil ball 10 is put on position coordinates again after investment are repeated.

At this moment, the transfer path of position corresponding coordinate and buoying device 100 is put by the soil ball 10 that above-mentioned buoying device 100 is put into It stores after reception and registration is shown Deng the terminating machine 310 by centre panel 300 and exports on a central server or according to demand in real time.

The present invention is not limited only to only use in the investment soil ball 10 to lake water of buoying device 100.

For example, as shown in Figure 10, when the buoying device 100 of lash ship and the secondary ship or sub- ship for working as subordinate in rear will be connected in front Buoying device 100 be separately connected, it is above-mentioned when 100 two sides of buoying device of lash ship be respectively formed multiple transmitting tubes 235 make soil ball 10 emit Put into lake water, at 100 rear of buoying device of above-mentioned secondary ship or sub- ship, soil ball 10 according to the present invention in detailed description in record Have each structure landing method landing put into lake water, lake water is purified.

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

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

For example, become the various microorganisms of 10 raw material of soil ball directly dispenses processing with liquid so that in lake water in lake water The water energy of pollution 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 put into the obtained data of liquid microorganism or data that soil ball obtains are put into as the present invention that is, soil ball and Investment position, the movement routine of buoying device, soil ball and input amount of liquid microorganism of liquid microorganism etc. pass through centre panel After 300 terminating machine 310 is shown, data desired by user are exported in the form of report according to selection menu and carry out document Keeping.

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 (9)

1. a kind of lake water disinfection processing unit of use containing microorganism soil ball, it is characterised in that including：

Buoying device (100) is advanced and is transmitted by the motor (111), propeller (112) and rudder (113) at rear；

Soil ball feedway (200) is assigned and is fixed on the upside of the buoying device (100)；

The soil ball feedway (200) includes：

Supply unit (210) is stored soil ball (10) and is supplied；

Guidance part (220) is constituted multiple in the supply unit (210) bottom interval；

Landing portion (230) is arranged in the end of the guidance part (220), the soil ball (10) of supply is dropped to inside lake water；

Intermittent entry portion (240), for supplying soil toward the supply unit (210) and multiple guidance parts (220) front end are single respectively Ball (10).

2. the apparatus according to claim 1, it is characterised in that：Supply unit (210) inner bottom surface uses taper state And outlet (211) are formed in lower end two sides and make it possible to connect multiple guidance parts (220).

3. the apparatus according to claim 1, it is characterised in that：The intermittent entry portion (240) is arranged in the supply unit (210) downside of side end makes to supply plate (242) by cylinder (241) transmission, and supply plate (242) front end has energy Assigning slot (243) for soil ball (10) is enough assigned, supply plate (242) assigns the inner soil ball (10) assigned of slot (243) toward institute Guidance part (220) is stated individually to supply.

4. the apparatus according to claim 1, it is characterised in that：The guidance part (220) is in supply unit (210) two sides lower end Formed by fan shape be unfolded majority in the form of simultaneously open upper part.

5. the apparatus according to claim 1, it is characterised in that：The guidance part (220) can draw or store.

6. the apparatus according to claim 1, it is characterised in that：The landing portion (230) further includes having nippers shape The one side of the guidance part (220) bottom dropping zone (220a) is open by epipleural (232a) and lower side panel (232b), The epipleural (232a) and lower side panel (232b) is arranged in its end, and dropping zone (220a) opening portion can be according to cylinder (231) movement and be driven and switch.

7. the apparatus according to claim 1, it is characterised in that：The landing portion (230) further include first partition (233) and Second partition (234), in order to which the guidance part (220) bottom dropping zone (220a) to be isolated up and down, respectively one can be put The distance of a soil ball (10) is provided separately the first partition (233) and second partition (234), the first partition (233) and Second partition (234) mutually intersects isolation by the first cylinder (231a) and the second cylinder (231b) repeatedly.

8. device according to claim 7, it is characterised in that：The landing portion (230) further includes and the dropping zone Third cylinder is arranged in the cylinder-shaped transmitting tube (235) that (220a) is connected and be formed slopely, transmitting tube (235) tail portion (231c), connect with the axis (L) of the third cylinder (231c) and can assign soil ball (10) assigns slot (243), the peace Slot (243) is flexibly supported by wrapping up axis (L) outer peripheral surface and being capable of providing the spring (S) of elastic force.

9. a kind of lake water disinfection processing method of use containing microorganism soil ball, it is characterised in that：Centre panel (300) and floating Have and global positioning system (GPS) (400) are set on (100), input transfers path and in buoying device on the buoying device (100) (100) soil ball (10) are put into each seat of the position in lake water in soil ball feedway (200) by landing portion (230) Mark, the transfer road of buoying device described in real-time display (100) can be controlled by the terminating machine (310) of the centre panel (300) The investment place of diameter and soil ball (10).