CN213061950U - Efficient algae sucking equipment - Google Patents

Abstract

The utility model provides a high-efficiency algae sucking device, which comprises a guide cylinder, a guide rod, a first paddle, a second paddle and a motor, wherein part of the guide rod is positioned in the guide cylinder; the first paddle is located at the upper end of the guide shell, the second paddle is located in the guide shell, and a flow outlet is formed in the guide shell. The utility model provides a algae equipment is inhaled to high efficiency, first paddle rotates and can attract far away surface of water blue alga to the draft tube top, the below water then discharges the aquatic again through the guiding opening, form vertical dynamic circulation, first paddle forms centrifugal flow field simultaneously and has increased near the blue alga density of draft tube, the second paddle rotates and produces the negative pressure, can inhale the draft tube with a large amount of blue alga in, the algae density of inhaling of draft tube has been improved, rethread discharge pipeline discharges the blue alga to the blue alga treatment facility in, the transport efficiency and the treatment effeciency of blue alga have been improved.

Description

Efficient algae sucking equipment

Technical Field

The utility model relates to an environmental protection equipment technical field especially relates to an algae equipment is inhaled to high efficiency.

Background

The factors of water eutrophication, global warming, hydraulic condition change and the like cause the blue-green algae in most lakes and ponds in China to grow and propagate explosively to form water bloom which is gathered along with wind direction. The large-area gathered blue algae is easy to necrosis and rot, the water quality is influenced, the drinking water safety is threatened, the water landscape is damaged, the emitted odor seriously influences the life and the production of the residents along the bank, the water bloom floating on the surface of the water body shields the underwater light, the dissolved oxygen is consumed in the blue algae necrosis process, the living condition of benthos is damaged, the water ecological damage is caused, and the blue algae water bloom treatment is in need. The capsule glue naturally formed on the outer surface of the blue algae is protected, and the fish cannot digest and absorb the capsule glue after eating the capsule glue and is discharged out of the body as it is.

With the continuous development of modern cities, people pay more and more attention to the quality of living environment, however, the problem of drinking water of human beings is endangered by the burst of blue algae, the work of controlling and treating the cyanobacterial bloom is more and more severe, at present, the existing technology cannot effectively inhibit the burst of the blue algae, and the blue algae can be collected and disposed only after the burst of the blue algae. The conventional blue algae collecting method is mechanical fishing, and then the blue algae is placed in blue algae processing equipment for processing, so that the working efficiency is low.

In view of the above, there is a need to improve the blue algae collection and disposal in the prior art to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to disclose an algae equipment is inhaled to high efficiency, first paddle rotates and to draw the surface of water blue alga to the draft tube top, the below water then discharges the aquatic again through the water conservancy diversion mouth, form vertical dynamic circulation, first paddle forms centrifugal flow field simultaneously and has increased near the blue alga density of draft tube, the rotation of second paddle produces the negative pressure, can inhale a large amount of blue alga in the draft tube, the algae density of inhaling of draft tube has been improved, rethread discharge pipeline discharges the blue alga to the blue alga treatment facility in, the conveying efficiency and the treatment effeciency of blue alga have been improved.

In order to achieve the purpose, the utility model provides a high-efficiency algae sucking device, which comprises a guide cylinder, a guide rod, a first paddle, a second paddle and a motor, wherein part of the guide rod is positioned in the guide cylinder; the first paddle is located at the upper end of the guide shell, the second paddle is located in the guide shell, and a flow outlet is formed in the guide shell.

In some embodiments, the wind turbine further comprises a housing with an upper opening, the guide cylinder part is located in the housing, the first blade is located above the housing, and the housing is provided with a guide opening.

In some embodiments, a plurality of upper connecting plates are connected to the inner wall of the shell, and the upper connecting plates and the guide shell are connected through upper bearings.

In some embodiments, the bottom of the housing is provided with a sealed bin, the guide cylinder extends into the sealed bin, the outflow port is located in the sealed bin, and the sealed bin is connected with a discharge pipeline extending out of the housing.

In some embodiments, the guide shell and the seal bin are connected through a lower bearing.

In some embodiments, the capsule and the housing are connected by a lower connecting plate.

In some embodiments, a flow guide plate is connected between the sealed cabin and the shell, and one side of the flow guide plate is connected to the lower edge of the flow guide opening.

In some embodiments, the first paddle is a turbine paddle.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a algae equipment is inhaled to high efficiency, first paddle rotates and can attract far away surface of water blue alga to the draft tube top, the below water then discharges the aquatic again through the guiding opening, form vertical dynamic circulation, first paddle forms centrifugal flow field simultaneously and has increased near the blue alga density of draft tube, the second paddle rotates and produces the negative pressure, can inhale the draft tube with a large amount of blue alga in, the algae density of inhaling of draft tube has been improved, rethread discharge pipeline discharges the blue alga to the blue alga treatment facility in, the transport efficiency and the treatment effeciency of blue alga have been improved.

Drawings

Fig. 1 is a schematic structural view of the high-efficiency algae suction device of the present invention;

FIG. 2 is a schematic structural view of the high efficiency algae suction device of the present invention;

FIG. 3 is a top view of FIG. 1;

fig. 4 is a bottom view of fig. 1.

Detailed Description

The present invention is described in detail with reference to the embodiments shown in the drawings, but it should be understood that these embodiments are not intended to limit the present invention, and those skilled in the art should understand that the functions, methods, or structural equivalents or substitutions made by these embodiments are within the scope of the present invention.

As shown in fig. 1-4, the high-efficiency algae-sucking device comprises a housing 1 with an upper opening, a guide shell 2 partially located in the housing 1, a guide rod 3 partially located in the guide shell 2, a first blade 21 connected to the outer wall of the guide shell 2, a second blade 31 connected to the guide rod 3, and a motor 9 for driving the guide shell 2 and the guide rod 3 to rotate.

The motor 9 drives the guide shell 2 and the guide rod 3 to rotate, specifically, a common plate (not shown) is connected to a rotating shaft of the motor 9, the guide shell 2 and the guide rod 3 are both connected to the common plate, and the common plate is located in the sealed cabin 4. The shell 1 is provided with a flow guide opening 10, and the flow guide cylinder 2 is provided with a flow outlet 20.

The first paddle 21 is a turbine paddle, and the first paddle 21 is located above the housing 1. The guide shell 2 rotates to drive the first blade 21 to rotate, the first blade 21 rotates to suck the blue algae on the water surface at a distance to the upper part of the opening part of the guide shell 2, the water body below the guide shell is discharged into the water again through the guide opening 10, vertical dynamic circulation is formed in the direction shown by an arrow 7, the first blade 21 rotates to form a centrifugal flow field, and the density of the blue algae near the guide shell 2 is increased.

The second paddle 31 is positioned in the guide shell 2, the guide rod 3 rotates to drive the second paddle 31 to rotate, the second paddle 31 rotates to generate negative pressure, a large amount of blue algae can be sucked into the guide shell 2, and the algae sucking density of the guide shell 2 is improved.

The bottom of the shell 1 is provided with a sealed bin 4, the guide shell 2 extends into the sealed bin 4, the outflow port 20 is positioned in the sealed bin 4, the sealed bin 4 is connected with a discharge pipeline 8, and the discharge pipeline 8 extends out of the shell 1. The blue algae sucked into the guide shell 2 are discharged into the sealed bin 4 through the outflow port 20 and then discharged into the blue algae treatment equipment through the discharge pipeline 8. In order to increase the suction force, a water pump may be installed at the rear end of the discharge duct 8.

The inner wall of the shell 1 is connected with a plurality of upper connecting plates 61, and the upper connecting plates 61 are connected with the guide shell 2 through upper bearings 51, so that the guide shell 2 can stably rotate. The guide shell 2 and the seal bin 4 are connected through a lower bearing 52, so that the guide shell 2 can rotate stably. The sealed cabin 4 and the shell 1 are connected through a lower connecting plate 62.

A guide plate 11 is connected between the sealed cabin 4 and the shell 1, one side of the guide plate 11 is connected to the lower edge of the guide opening 10, and the other side of the guide plate is connected to the top of the sealed cabin 4. The guide plate 11 is bent downwards, and plays a role in guiding the algae water, so that the algae water can be quickly discharged into the water to realize circulation, a vertical flat flow field is ensured, and large-scale algae collection can be realized. The bottom of the sealed cabin 4 is connected with a bottom plate 41, and the bottom plate 41 is connected with the sealed cabin 4 through a bolt 40.

The above list of details is only for the practical implementation of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the technical spirit of the present invention should be included in the scope of the present invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The efficient algae sucking equipment is characterized by comprising a guide shell (2), a guide rod (3) partially positioned in the guide shell (2), a first paddle (21) connected to the outer wall of the guide shell (2), a second paddle (31) connected to the guide rod (3), and a motor (9) for driving the guide shell (2) and the guide rod (3) to rotate; the first paddle (21) is located at the upper end of the guide shell (2), the second paddle (31) is located in the guide shell (2), and the guide shell (2) is provided with a flow outlet (20).

2. The high-efficiency algae sucking equipment according to claim 1, further comprising a casing (1) with an upper opening, wherein the guide shell (2) is partially positioned in the casing (1), the first blades (21) are positioned above the casing (1), and the casing (1) is provided with a guide opening (10).

3. The efficient algae sucking equipment according to claim 2, wherein a plurality of upper connecting plates (61) are connected to the inner wall of the shell (1), and the upper connecting plates (61) are connected with the guide shell (2) through upper bearings (51).

4. The efficient algae sucking equipment according to claim 2, wherein a sealed bin (4) is arranged at the bottom of the shell (1), the guide cylinder (2) extends into the sealed bin (4), the outflow port (20) is located in the sealed bin (4), the sealed bin (4) is connected with a discharge pipeline (8), and the discharge pipeline (8) extends out of the shell (1).

5. The device for absorbing algae in high efficiency according to claim 4, wherein the guide shell (2) and the sealed bin (4) are connected through a lower bearing (52).

6. The high efficiency algae suction apparatus according to claim 4, wherein the sealed bin (4) and the housing (1) are connected by a lower connecting plate (62).

7. The efficient algae sucking equipment according to claim 4, wherein a guide plate (11) is connected between the sealed bin (4) and the shell (1), and one side of the guide plate (11) is connected to the lower edge of the guide opening (10).

8. The high efficiency algae suction apparatus according to claim 1, wherein the first blade (21) is a turbine blade.

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