CN205133255U - Device is inductiond to microorganism normal position selectivity - Google Patents

Abstract

The utility model discloses a preferred embodiment provides device is inductiond to microorganism normal position selectivity, including be used for the splendid attire to receive the urceolus of the raw water of pollution, be equipped with in the urceolus being used for with in the raw water suction urceolus that receives the pollution, and will see the pump sending piece of urceolus with the raw water that the biological selection nature induction medium that declines fully contacted off, be equipped with the supporting rack in the urceolus, be equipped with on the supporting rack and has supplied the little biological selection nature of oxygen to strengthen induced cultivation base block, the supporting rack be connected with be used for driving its rotate, and can be with attaching to the driving piece of training the good oxygen microorganism on the base block and shaking off. The utility model discloses a device is inductiond to microorganism normal position selectivity simple structure, the easy manufacturing and easy operation, the purifying effect of water is good, does not need a large amount of engineerings and manpower, and the cost is lower, can not cause the waste of resource, and can not cause the pollution of environment.

Description

Microorganism in situ selective induction device

Technical field

The utility model relates to refining plant field, especially, relates to a kind of microorganism in situ selective induction device.

Background technology

At present, in the waters that some are gone sightseeing, often there is the phenomenon that water body is smelly, not only affect attractive in appearance, also environment is impacted.Mainly owing to there is anerobe in water body in the smelly reason of water body.Existing processing mode is generally directly to adding clean water source in waters, or adopts clean water body to replace smelly water body.These processing modes not only need to increase human cost, and the operating time is long, also causes the significant wastage of resource.

Utility model content

The utility model provides a kind of microorganism in situ selective induction device, and the human cost existed during to solve and to adopt existing mode process smelly waters is high, the operating time long, the technical problem of resource significant wastage.

The technical solution adopted in the utility model is as follows:

A kind of microorganism in situ selective induction device, comprises the urceolus for the contaminated former water of splendid attire, is provided with for the former water after purification being sent the pumping part of urceolus in contaminated former water suction urceolus in urceolus; Be provided with resting support in urceolus, resting support established the culture block that aerobic microbiological selective reinforcement is induced, resting support is connected with for driving it to rotate and the actuator shaken off by the aerobic microbiological be attached in culture block.

Further, resting support comprises the inner core be communicated with urceolus, inner core is removably provided with the supporting course frame for supporting culture block; Actuator is connected with inner core.

Further, supporting course frame comprises the set collar adapted with the internal diameter of inner core, and be provided with the supporting bar of many interlaced layouts in set collar, culture block is fixed on supporting bar.

Further, the quantity of supporting course frame is polylith, and polylith supporting course frame is arranged successively along the short transverse of inner core, and every block supporting course frame is fixed with polylith culture block.

Further, inner core is the hollow tubular structure of top end opening, and its periphery wall is processed with multiple prosopyle entered for water body, the bottom of inner core is connected with actuator.

Further, the shape of culture block is strip, square body shape or other arbitrary shape.

Further, water port urceolus being processed with the water-in entered for contaminated former water and discharging for the former water after purification; Pumping part is high-pressure pump, and the feed-water end of high-pressure pump is communicated with water port with water-in respectively with discharge ends.

Further, the periphery wall of urceolus is provided with multiple handle for gripping.

Further, urceolus comprises top end opening and is the cylindrical shell of hollow tubular structure and the cover for closed cylinder; Cover removably covers on the opening end of cylindrical shell; The periphery wall of cylindrical shell is provided with water-in, water port and handle, and water-in is near the bottom of cylindrical shell, and water port is near the top of cylindrical shell, and handle is near water port.

Further, microorganism in situ selective induction device also comprises the many groups universal wheel parts be arranged at bottom urceolus, often organize universal wheel parts to comprise: the support be connected with the bottom of urceolus, support is provided with universal wheel and with to locking plate universal wheel being carried out to stop.

The utility model has following beneficial effect:

When adopting microorganism in situ selective induction device purifying water body of the present utility model, first pumping part is started by former water suction urceolus contaminated in waters, start actuator drives resting support to rotate simultaneously, former water is fully contacted with the culture block on resting support, so that the microorganic adhesion in former water is in culture block, in former water, the aerobic microbiological of the nutritive ingredient of acclimatizing culture medium block can be reinforced induced growth, after breeding after a while, actuator drives resting support shake, the a large amount of aerobic microbiological be attached in culture block is shaken off in the former water be subject in bucket, through the cultured aerobic microbiological of selective induction with former water circulation system, enter into contaminated water body, aerobic microbiological is by decomposing the pollutent in contaminated water body, thus reach the object of water body purification, finally restart pumping part again, water body after purification is pumped again in waters.Microorganism in situ selective induction apparatus structure of the present utility model is simple, be easy to manufacture and simple to operate; The good purification of water body, do not need a large amount of engineerings and manpower, cost is lower, can not cause the waste of resource, and can not cause the pollution of environment.

Except object described above, feature and advantage, the utility model also has other object, feature and advantage.Below with reference to figure, the utility model is described in further detail.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the sectional structure schematic diagram of the microorganism in situ selective induction device of the utility model preferred embodiment;

Fig. 2 is the plan structure schematic diagram of the first embodiment after the microorganism in situ selective induction device removing cover in Fig. 1;

Fig. 3 is the plan structure schematic diagram of the second embodiment after the microorganism in situ selective induction device removing cover in Fig. 1.

Marginal data

1, urceolus; 101, cylindrical shell; 1011, water-in; 1012, water port; 102, cover; 2, pumping part; 3, resting support; 301, inner core; 3010, prosopyle; 302, supporting course frame; 3021, set collar; 3022, supporting bar; 4, culture block; 5, actuator; 6, handle; 7, universal wheel parts; 701, support; 702, universal wheel; 703, locking plate.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

As depicted in figs. 1 and 2, preferred embodiment of the present utility model provides microorganism in situ selective induction device, comprising the urceolus 1 for the contaminated former water of splendid attire, being provided with for the former water after purification being sent the pumping part 2 of urceolus 1 in contaminated former water suction urceolus 1 in urceolus 1; Be provided with resting support 3 in urceolus 1, resting support 3 is provided with the culture block 4 for the induction of aerobic microbiological selective reinforcement, and resting support 3 is connected with for driving it to rotate and the actuator 5 aerobic microbiological be attached in culture block 4 can shaken off.When adopting microorganism in situ selective induction device purifying water body of the present utility model, first pumping part 2 is started by former water suction urceolus 1 contaminated in waters, start actuator 5 drives resting support 3 to rotate simultaneously, former water is fully contacted with the culture block 4 on resting support 3, so that the microorganic adhesion in former water is in culture block 4, in former water, the aerobic microbiological of the nutritive ingredient of acclimatizing culture medium block 4 can be reinforced induced growth, after breeding after a while, actuator 5 drives resting support 3 to shake, the a large amount of aerobic microbiological be attached in culture block 4 is shaken off in contaminated former water, through the cultured aerobic microbiological of selective induction with former water circulation system, enter into contaminated water body, aerobic microbiological is by decomposing the pollutent in contaminated water body, thus reach the object of water body purification, finally restart pumping part 2 again, water body after purification is pumped again in waters.Microorganism in situ selective induction apparatus structure of the present utility model is simple, be easy to manufacture and simple to operate; The good purification of water body, do not need a large amount of engineerings and manpower, cost is lower, can not cause the waste of resource, and can not cause the pollution of environment.

Particularly, as shown in Figure 1, resting support 3 comprises the inner core 301 be communicated with urceolus 1, inner core 301 is removably provided with the supporting course frame 302 for supporting culture block 4, supporting course frame 302 and inner core 301 removably connect, culture block 4 to be positioned on supporting course frame 302, be also convenient to the situation of the culture block 4 of observing at any time on supporting course frame 302; Actuator 5 is connected with inner core 301, with under the effect of actuator 5, drives resting support 3 to rotate with the speed of setting.In the utility model preferred embodiment, actuator 5 is the servomotor that resting support 3 can be driven to rotate with the rotating speed of setting.

Alternatively, supporting course frame 302 comprises the set collar 3021 adapted with the internal diameter of inner core 301, and be provided with the supporting bar 3022 of many interlaced layouts in set collar 3021, culture block 4 is fixed on supporting bar 3022.As shown in Figure 2, the first embodiment of the present utility model, many supporting bars 3022 vertical interlaced layout mutually.As shown in Figure 3, many supporting bars 3022 intersect at same intersection point.

Preferably, as shown in Figure 1, the quantity of supporting course frame 302 is polylith, and polylith supporting course frame 302 is arranged successively along the short transverse of inner core 301, and every block supporting course frame 302 is fixed with polylith culture block 4.The quantity of supporting course frame 302 can be determined according to the quantity of the anerobe in contaminated former water, when the quantity of anerobe is more, can arrange polylith supporting course frame 302 on inner core 301, to support abundant culture block 4 simultaneously.

Alternatively, as shown in Figure 1, the hollow tubular structure of inner core 301 in top end opening, its periphery wall is processed with multiple prosopyle 3010 entered for water body, the bottom of inner core 301 is connected with actuator 5.When actuator 5 drives inner core 301 high speed rotating, the oxygen consumption bacterium be attached in culture block 4 is entered in urceolus 1 by prosopyle 3010 under the influence of centrifugal force.

Preferably, in the utility model, as shown in Figures 2 and 3, the shape of culture block 4 is strip, square body shape or other arbitrary shape.

In the utility model, as shown in Figure 1, the water port 1012 urceolus 1 being processed with the water-in 1011 entered for contaminated former water and discharging for the water body after purification; Pumping part 2 is high-pressure pump, and the feed-water end of high-pressure pump is communicated with water port 1012 with water-in 1011 respectively with discharge ends.In the utility model specific embodiment, the feed-water end of high-pressure pump is connected with water inlet pipe (not shown), and the feed-water end of this water inlet pipe stretches in waters through in water-in 1011; Same, the water side of high-pressure pump is connected with rising pipe (not shown), and the water side of this rising pipe is stretched in waters through after water port 1012.

Alternatively, as shown in Figure 1, the periphery wall of urceolus 1 is provided with multiple handle 6 for gripping, to urceolus 1 applied thrust.

Preferably, as shown in Figure 1, urceolus 1 comprises top end opening and is the cylindrical shell 101 of hollow tubular structure and the cover 102 for closed cylinder 101; Cover 102 removably covers on the opening end of cylindrical shell 101; The periphery wall of cylindrical shell 101 is provided with water-in 1011, water port 1012 and handle 6, and water-in 1011 is near the bottom of cylindrical shell 101, and water port 1012 is near the top of cylindrical shell 101, and handle 6 is near water port 1012.

In the utility model, as shown in Figure 1, microorganism in situ selective induction device also comprises the many groups universal wheel parts 7 be arranged at bottom urceolus 1, by arranging universal wheel component in the bottom of urceolus 1, and this microorganism in situ selective induction device that can carry easily.Often organize universal wheel parts 7 to comprise: the support 701 be connected with the bottom of urceolus 1, support 701 is provided with universal wheel 702 and with to the locking plate 703 universal wheel 702 being carried out to stop, by arranging locking plate 703, can locking universal wheel 702 at any time as required, improve the security of microorganism in situ selective induction device conveying.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a microorganism in situ selective induction device, is characterized in that,

Comprising the urceolus (1) for the contaminated former water of splendid attire, being provided with for the former water after purification being sent the pumping part (2) of described urceolus (1) in urceolus (1) described in contaminated former water suction in described urceolus (1);

Resting support (3) is provided with in described urceolus (1), described resting support (3) is provided with the culture block (4) of aerobic microbiological selective reinforcement induction, and described resting support (3) is connected with for driving it to rotate and the actuator (5) shaken off by the aerobic microbiological be attached in described culture block (4).

2. microorganism in situ selective induction device according to claim 1, is characterized in that,

Described resting support (3) comprises the inner core (301) be communicated with described urceolus (1), described inner core (301) is removably provided with the supporting course frame (302) for supporting described culture block (4);

Described actuator (5) is connected with described inner core (301).

3. microorganism in situ selective induction device according to claim 2, is characterized in that,

Described supporting course frame (302) comprises the set collar (3021) adapted with the internal diameter of described inner core (301), be provided with the supporting bar (3022) of many interlaced layouts in described set collar (3021), described culture block (4) is fixed on described supporting bar (3022).

4. microorganism in situ selective induction device according to claim 2, is characterized in that,

The quantity of described supporting course frame (302) is polylith, described in polylith, supporting course frame (302) is arranged successively along the short transverse of described inner core (301), supporting course frame (302) described in every block is fixed with culture block described in polylith (4).

5. microorganism in situ selective induction device according to claim 2, is characterized in that,

The hollow tubular structure of described inner core (301) in top end opening, its periphery wall is processed with multiple prosopyle (3010) entered for water body, the bottom of described inner core (301) is connected with described actuator (5).

6. microorganism in situ selective induction device according to claim 1, is characterized in that,

The shape of described culture block (4) is strip, square body shape or other arbitrary shape.

7. microorganism in situ selective induction device according to claim 1, is characterized in that,

Described urceolus (1) is processed with the water-in (1011) entered for contaminated former water and the water port (1012) discharged for the former water after purification;

Described pumping part (2) is high-pressure pump, and the feed-water end of described high-pressure pump is communicated with described water port (1012) with described water-in (1011) respectively with discharge ends.

8. microorganism in situ selective induction device according to claim 7, is characterized in that,

The periphery wall of described urceolus (1) is provided with multiple handle (6) for gripping.

9. microorganism in situ selective induction device according to claim 8, is characterized in that,

Described urceolus (1) comprises top end opening and the cylindrical shell (101) in hollow tubular structure and the cover (102) for closing described cylindrical shell (101);

Described cover (102) removably covers on the opening end of described cylindrical shell (101);

The periphery wall of described cylindrical shell (101) is provided with described water-in (1011), described water port (1012) and described handle (6), described water-in (1011) is near the bottom of described cylindrical shell (101), described water port (1012) is near the top of described cylindrical shell (101), and described handle (6) is near described water port (1012).

10. microorganism in situ selective induction device according to claim 1, is characterized in that,

Described microorganism in situ selective induction device also comprises the many groups universal wheel parts (7) being arranged at described urceolus (1) bottom, often organizes described universal wheel parts (7) and comprising:

The support (701) be connected with the bottom of described urceolus (1), described support (701) is provided with universal wheel (702) and with to the locking plate (703) universal wheel (702) being carried out to stop.