CN213387984U - Modular self-floating type microorganism water purifying device - Google Patents

Abstract

The utility model provides a modularization is from floating microorganism purifier relates to water and administers technical field, and it is including connecting in the top six-way joint and the bottom six-way joint at scalable hose both ends, and the support that the top six-way joint was connected through dismantling supports in floating the bed, can dismantle on the top six-way joint be connected with the feeding hopper of scalable hose intercommunication. An oxygenation pipe frame is detachably connected to the bottom end six-way connector, an oxygenation particle storage cavity communicated with the telescopic hose is formed in the oxygenation pipe frame, and an air vent communicated with the oxygenation particle storage cavity is arranged on the pipe wall of the oxygenation pipe frame in a penetrating manner; a microorganism film hanging frame is flexibly connected between the oxygen increasing pipe frame and the bracket. Solves the problems of low construction efficiency and low microorganism anoxic activity of the biological water purifying device in the prior art.

Description

Modular self-floating type microorganism water purifying device

Technical Field

The utility model relates to a water treatment technical field especially relates to a modularization is from floating microorganism purifier.

Background

Water eutrophication is a global environmental problem. Under the influence of human activities, a large amount of nutrients such as nitrogen, phosphorus and the like required by organisms enter slow-flow water bodies such as lakes, rivers, lakes, gulfs and the like, so that algae and other plankton are rapidly propagated, the dissolved oxygen amount of the water body is reduced, the water quality is deteriorated, the biological diversity is reduced, and the water body ecosystem is damaged.

With the global occurrence of water eutrophication, more and more scientific researchers and environmental protection people develop various treatment technologies to contribute to the restoration of the water environment, wherein the ecological floating bed restoration technology is an important in-situ restoration technology. Biological Floating-beds (Ecology Floating-beds System) is an important artificial wetland technology, and since the technology was invented and put into use in germany in the last 80 th century, the technology has been recognized by more and more scientists and government departments due to its unique advantages in the treatment of eutrophic water bodies. The biological floating bed provides an attachment carrier for microorganisms, organic pollutants in the water body are degraded by the microorganisms, and meanwhile, the biological floating bed plays a role in inhibiting the growth of algae by competing nutrients and oxygen with the algae.

The traditional biological floating bed is directly constructed by transporting raw materials to a construction site, the construction efficiency is low, and the underwater microorganism biofilm formation of the biological floating bed is low in deep water due to low anoxic activity, so that the water purification effect is not ideal.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem among the prior art, the utility model provides a modularization is from floating microorganism purifier has solved the problem that biological purifier efficiency of construction among the prior art is low, microorganism oxygen deficiency activity is low.

In order to achieve the purpose of the invention, the technical scheme adopted by the utility model is as follows:

the utility model provides a modularization is from floating microorganism purifier, it is including connecting in the top six-way joint and the bottom six-way joint at scalable hose both ends, and the support that the top six-way joint was connected through dismantling supports on floating the bed, can dismantle on the top six-way joint be connected with the feeding hopper of scalable hose intercommunication.

An oxygenation pipe frame is detachably connected to the bottom end six-way connector, an oxygenation particle storage cavity communicated with the telescopic hose is formed in the oxygenation pipe frame, and an air vent communicated with the oxygenation particle storage cavity is arranged on the pipe wall of the oxygenation pipe frame in a penetrating manner; a microorganism film hanging frame is flexibly connected between the oxygen increasing pipe frame and the bracket.

The utility model has the advantages that: can realize the fast assembly of each part of this purifier through 12 interfaces altogether on top circulation connector and the bottom circulation connector, realize the modularization of each part, be convenient for at job site fast assembly and according to actual demand change more suitable part, improve efficiency of construction and construction quality.

Float the bed and make whole purifier float in aqueous, float the magazine of bed top and be convenient for put in the oxygenation granule, and the oxygenation granule lets in the oxygenation pipe support through scalable hose, and the oxygen content in the water can be improved to the oxygenation granule, provides good living environment for the microorganism on the microorganism biofilm carrier, improves the activity of microorganism to improve water purification ability. The telescopic hose has the advantages that the telescopic hose can be adaptively adjusted in length according to the water depths of different water areas.

Drawings

Fig. 1 is a schematic perspective view of a modular self-floating microbial water purification device.

Wherein, 1, a top end six-way joint; 2. a bottom end six-way joint; 3. a flexible hose; 4. a support; 41. a support bar; 5. floating bed; 51. a steel cord; 52. floating blocks; 6. a feeding hopper; 7. an oxygenation pipe frame; 72. air holes are formed; 73. a straight pipe; 74. a pipe bending joint; 75. sealing the cover; 8. a microorganism film hanging rack; 9. and a balancing weight.

Detailed Description

The following description of the embodiments of the present invention is provided to facilitate the understanding of the present invention by those skilled in the art, but it should be understood that the present invention is not limited to the scope of the embodiments, and various changes will be apparent to those skilled in the art as long as they are within the spirit and scope of the present invention as defined and defined by the appended claims, and all inventions contemplated by the present invention are protected.

As shown in figure 1, the modularized self-floating microorganism water purifying device comprises a top end six-way joint 1 and a bottom end six-way joint 2 which are connected to two ends of a telescopic hose 3, wherein the top end six-way joint 1 is supported on a floating bed 5 through a support 4 which is detachably connected, and a feeding hopper 6 communicated with the telescopic hose 3 is detachably connected to the top end six-way joint 1.

The bottom end six-way connector 2 is detachably connected with an oxygenation pipe support 7, an oxygenation particle storage cavity communicated with the telescopic hose 3 is arranged in the oxygenation pipe support 7, and an air hole 72 communicated with the oxygenation particle storage cavity is arranged on the pipe wall of the oxygenation pipe support 7 in a penetrating mode. A microorganism film hanging frame 8 is flexibly connected between the oxygen increasing pipe frame 7 and the bracket 4.

The top end six-way joint 1 and the bottom end six-way joint 2 are six-way pipe joints with six interfaces, the six interfaces face to six different directions respectively, and each interface is a threaded interface.

The support 4 comprises four support rods 41, the four support rods 41 are respectively in threaded connection with four interfaces in the same plane, and one end, far away from the top end six-way connector 1, of each support rod 41 is detachably connected with the floating bed 5. The floating bed 5 comprises a circular steel rope 51 supported by the bracket 4, a plurality of floating blocks 52 are symmetrically fixed on the steel rope 51, and rope passing holes for the steel rope 51 to pass through are arranged on the floating blocks 52.

Specifically, one end of each support rod 41, which is far away from the top end six-way joint 1, is provided with a through hole for a steel rope 51 of the floating bed 5 to pass through in the radial direction. The flexible steel cable 51 can be supported by the bracket 4, so that the floating blocks 52 on the steel cable 51 can be symmetrically distributed on the circumference, and the structure connected to the top end six-way connector 1 is prevented from inclining.

Feeding hopper 6 threaded connection connects on the vertical ascending interface of top six-way joint 1, and feeding hopper 6 is the toper cover form, and the heavy-calibre end is up, the input of the oxygenation granule of being convenient for. The oxygen-increasing particles are placed in water to increase the oxygen content of the water body, are consumables and need to be supplemented through the feeding hopper 6 after being used for a period of time.

The telescopic hose 3 is connected with the port of the top end six-way joint 1 in a threaded mode, and the port faces downwards vertically. The preferred bellows of scalable hose 3 adopts the PVC material to strengthen through the steel wire spiral in inside, through spiral winding's steel wire, can enough realize its elasticity, can also keep the latus rectum of scalable hose inner wall can not reduced by the water pressure extrusion simultaneously, guarantees that the oxygenation granule passes through smoothly.

The oxygenation pipe support 7 includes many oxygenation pipes, and every oxygenation pipe includes straight tube 73 and the elbow fitting 74 of being connected straight tube 73 with bottom end six-way connection 2, and the one end threaded connection that elbow fitting 74 was kept away from to straight tube 73 has a closing cap 75, and the one end of elbow fitting 74 and the interface connection of bottom end six-way connection 2 level orientation, elbow fitting 74 are 135 elbow fittings. The straight pipe 73 is inclined downwards through the 135-degree elbow joint, so that the oxygen increasing particles thrown from the upper part can smoothly fall into the straight pipe, and oxygen released by the oxygen increasing particles is blended into water through the air holes 72 arranged on the straight pipe 73 and the elbow joint 74, so that the oxygen content of the water body is increased.

The bottom end six-way joint 2 is connected with a balancing weight 9 on the vertically downward interface. Increase the weight that the bottom six-way connects 2 through balancing weight 9, guarantee that oxygenation pipe support 7 can sink the depths in waters all the time, improve the oxygen content of the easy oxygen deficiency's deep water.

The microorganism biofilm culturing frame 8 is a long-strip-shaped steel wire mesh, the upper end and the lower end of the steel wire mesh are respectively bonded or welded with the oxygenation pipe frame 7 and the support 4, and good attachment conditions are provided for microorganism biofilm culturing.

Claims (8)

1. A modularized self-floating type microorganism water purifying device is characterized by comprising a top end six-way joint (1) and a bottom end six-way joint (2) which are connected to two ends of a telescopic hose (3), wherein the top end six-way joint (1) is supported on a floating bed (5) through a support (4) which is detachably connected with the top end six-way joint (1), and a feeding hopper (6) communicated with the telescopic hose (3) is detachably connected to the top end six-way joint (1);

an oxygen increasing pipe support (7) is detachably connected to the bottom end six-way connector (2), an oxygen increasing particle storage cavity communicated with the telescopic hose (3) is formed in the oxygen increasing pipe support (7), and air holes (72) communicated with the oxygen increasing particle storage cavity are formed in the pipe wall of the oxygen increasing pipe support (7) in a penetrating mode; and a microorganism film hanging frame (8) is flexibly connected between the oxygenation pipe frame (7) and the bracket (4).

2. The modular self-floating microbial water purification device according to claim 1, wherein the top end six-way joint (1) and the bottom end six-way joint (2) are six-way pipe joints with six interfaces facing in different six directions, respectively, and each interface is a threaded interface.

3. The modular self-floating type microorganism water purifying device as claimed in claim 2, wherein the bracket (4) comprises four support rods (41), the four support rods (41) are respectively in threaded connection with the four connectors in the same plane, and one end of each support rod (41) far away from the top end six-way joint (1) is detachably connected with the floating bed (5).

4. The modular self-floating microbial water purification device as claimed in claim 2, wherein the feeding hopper (6) is in threaded connection with the port of the top end six-way joint (1) facing vertically upwards, and the flexible hose (3) is in threaded connection with the port of the top end six-way joint (1) facing vertically downwards.

5. The modular self-floating microorganism water purifying device as claimed in claim 1, wherein the floating bed (5) comprises a steel rope (51) supported in a circular ring shape by the bracket (4), a plurality of floating blocks (52) are symmetrically fixed on the steel rope (51), and rope passing holes for the steel rope (51) to pass through are arranged on the floating blocks (52).

6. The modular self-floating microorganism water purification device according to claim 2, wherein the oxygenation pipe support (7) comprises a plurality of oxygenation pipes, each oxygenation pipe comprises a straight pipe (73) and an elbow joint (74) for connecting the straight pipe (73) with the bottom end six-way joint (2), one end of the straight pipe (73) far away from the elbow joint (74) is connected with a sealing cover (75), one end of the elbow joint (74) is horizontally connected with the interface of the bottom end six-way joint (2), and the elbow joint (74) is a 135-degree elbow joint.

7. The modular self-floating microbial water purification device of claim 2, wherein a counterweight (9) is connected to the vertically downward interface of the bottom end six-way joint (2).

8. The modular self-floating microbial water purification device of claim 1, wherein the microbial film rack (8) is a long steel wire mesh.

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