CN218491555U - Biological filler suspension processing structure - Google Patents

Abstract

The utility model provides a biofilm carrier hangs processing structure relates to and hangs processing structure technical field, including go-between and connecting rod, the lower extreme of connecting rod rotates the connection go-between, the lower fixed surface of go-between connects the biofilm carrier board, the upper end fixedly connected with carriage of connecting rod, be provided with fixed subassembly in the carriage, the spout has been seted up to the inner wall of carriage, fixed subassembly includes that first tight pole, second support tight pole, rubber sleeve. The utility model discloses, replace the rope through fixed subassembly, only need promote the ejector pad on the fixed subassembly and drive the slider and remove before the installation, make the second support tight pole and the first nimble change of distance between the tight pole, just can be quick to the bio-packing board installation, avoided the loaded down with trivial details process of rope system at the peg, when needing to remove the bio-packing board simultaneously, can promote the ejector pad and make second support tight pole and peg separation, just enable the nimble removal of bio-packing board, the simple easier operation of process.

Description

Biological filler suspension processing structure

Technical Field

The utility model relates to a hang and handle technical field, particularly, relate to a biofilm carrier hangs and handles structure.

Background

The biological sewage treatment is a treatment method for degrading pollutants in a dissolved state or a colloidal state in sewage by using the life activities of microorganisms so as to purify the sewage, and is one of the most widely applied methods in modern sewage treatment. The biological filler is a core part of sewage treatment in water treatment, and the quality of the performance of the filler directly influences the sewage treatment effect, the investment cost and the operating cost. Biological fillers are commonly used as the place for the growth and propagation of microorganisms in the field of sewage treatment. The filler is added into the wastewater, bacteria are attached and combined with each other on the surface of the filler to form a biological film, so that pollutants in the wastewater are absorbed and decomposed, and new microorganisms are bred. The biological filler is usually in a suspension state in the sewage treatment tank, and the existing biological filler mainly suspends and fixes a biological filler plate through a rope when the biological filler is suspended, so that the biological filler has the advantage of low use cost and is popularized by the industry;

however, some problems to be solved are also encountered in the using process, for example, the installation of the rope needs to tie the rope on the hanging rod, which causes the process to be more complicated, and the rope is difficult to move, so a biological filler suspension processing structure is provided to solve the problems encountered in the prior art.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a biofilm carrier hangs processing structure can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a biofilm carrier hangs processing structure, includes go-between and connecting rod, the lower extreme of connecting rod rotates connects the go-between, the lower fixed surface of go-between connects the biofilm carrier board, the upper end fixedly connected with connecting frame of connecting rod, be provided with fixed subassembly in the connecting frame.

Preferably, the inner wall of the connecting frame is provided with a sliding groove, and the fixing component comprises a first abutting rod, a second abutting rod and a rubber sleeve;

first support tight pole and second support tight pole and all be the V-arrangement setting, the equal fixed connection rubber sleeve in first support tight pole and second support tight pole's periphery, every the ring channel has all been seted up to the periphery of rubber sleeve.

Preferably, one end of the first abutting rod and one end of the second abutting rod are fixedly connected with a fixing block and a sliding block respectively.

Preferably, the two sides of the fixed block are fixedly connected with the inner wall of the sliding groove, and the sliding block is connected in the sliding groove in a sliding mode.

As preferred, the lower fixed surface of fixed block is connected with the slide bar, the slider is passed in the one end slip of slide bar, the lower extreme of slide bar and the inner wall fixed connection of spout, the cover is established on the slide bar and is connected with the spring, the upper end of spring and the lower fixed surface of fixed block are connected, the lower extreme of spring and the upper fixed surface of slider are connected.

Preferably, one side of the sliding block is fixedly connected with a pushing block, and a part of the pushing block is positioned in the sliding groove.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses, replace the rope through fixed subassembly, only need promote the ejector pad on the fixed subassembly and drive the slider and remove before the installation, make the second support tight pole and the first nimble change of distance between the tight pole, just can be quick to the biological packing board installation. The spring can generate a counterforce in the moving process of the sliding block, then the second abutting rod and the first abutting rod are sleeved on the hanging rod, when the pushing block is loosened, the spring pulls the sliding block to enable the second abutting rod to return to the original position, then the second abutting rod and the first abutting rod abut against the hanging rod, the express installation process of the biological packing plate is completed, the fixing component replaces a rope, and the complex process that the rope is tied on the hanging rod is avoided; meanwhile, when the biological filler plate needs to move, the push block can be pushed to separate the second abutting rod from the hanging rod, so that the biological filler plate can move flexibly, the process is simple and the operation is easier;

the distance between the second abutting rod and the first abutting rod is flexibly changed, so that the hanging rods with different diameters can be adapted.

Drawings

FIG. 1 is a schematic view of the overall structure of a suspended biological filler treatment structure of the present invention;

FIG. 2 is a schematic view of the connection structure between the biofilm carrier suspension treatment structure and the hanging rod of the present invention;

FIG. 3 is a schematic structural view of a fixing component of a suspended biological filler processing structure of the present invention;

fig. 4 is an enlarged schematic view of a position a of the biofilm carrier suspension treatment structure of the present invention.

In the figure: 1. a bio-packing sheet; 2. a connecting ring; 3. a connecting rod; 4. a connecting frame; 5. a fixing component; 501. a first abutment bar; 502. a second tightening rod; 503. a rubber sleeve; 504. a fixed block; 505. a slider; 506. a slide bar; 507. a spring; 508. pushing a block; 509. an annular groove; 6. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

As shown in fig. 1 to 4, a biological filler suspension processing structure comprises a connecting ring 2 and a connecting rod 3, wherein the lower end of the connecting rod 3 is rotatably connected with the connecting ring 2, the lower surface of the connecting ring 2 is fixedly connected with a biological filler plate 1, the upper end of the connecting rod 3 is fixedly connected with a connecting frame 4, and a fixing component 5 is arranged in the connecting frame 4.

In the application, the inner wall of the connecting frame 4 is provided with a sliding groove 6, and the fixing component 5 comprises a first abutting rod 501, a second abutting rod 502 and a rubber sleeve 503; first support pole 501 and second support pole 502 all are the setting of V-arrangement, and first support pole 501 and the equal fixed connection rubber sleeve 503 in periphery of second support pole 502, annular groove 509 has all been seted up to the periphery of every rubber sleeve 503.

It should be noted that the rubber sleeve 503 reduces the wear on the hanging rod, and the annular groove 509 reduces the sliding between the rubber sleeve 503 and the hanging rod.

In the present application, a fixed block 504 and a slider 505 are fixedly connected to one end of each of the first and second tightening rods 501 and 502. Two sides of the fixing block 504 are fixedly connected with the inner wall of the chute 6, and the sliding block 505 is slidably connected in the chute 6. The lower surface of the fixed block 504 is fixedly connected with a sliding rod 506, one end of the sliding rod 506 slides through the sliding block 505, the lower end of the sliding rod 506 is fixedly connected with the inner wall of the sliding groove 6, the sliding rod 506 is sleeved with a spring 507, the upper end of the spring 507 is fixedly connected with the lower surface of the fixed block 504, and the lower end of the spring 507 is fixedly connected with the upper surface of the sliding block 505. A push block 508 is fixedly connected to one side of the slide block 505, and a part of the push block 508 is located in the slide slot 6.

It should be noted that, the fixing component 5 replaces a rope, and before installation, only the pushing block 508 on the fixing component 5 needs to be pushed to drive the sliding block 505 to move, so that the distance between the second abutting rod 502 and the first abutting rod 501 can be changed flexibly, and the biological filler plate 1 can be installed quickly. When the sliding block 505 moves, the spring 507 can generate a reaction force, the second abutting rod 502 and the first abutting rod 501 are sleeved on the hanging rod, when the pushing block 508 is loosened, the spring 507 pulls the sliding block 505 to enable the second abutting rod 502 to return to the original position, then the second abutting rod 502 and the first abutting rod 501 abut against the hanging rod, the express installation process of the biological filler plate 1 is completed, the fixing component 5 replaces a rope, and the complex process that the rope is tied on the hanging rod is avoided; meanwhile, when the biological packing plate 1 needs to be moved, the pushing block 508 can be pushed to separate the second abutting rod 502 from the hanging rod, so that the biological packing plate 1 can be flexibly moved, and the process is simple and is easier to operate. The sliding block 505 slides in the sliding groove 6 when moving. The distance between the second abutting rod 502 and the first abutting rod 501 can be flexibly changed, so that the hanging rods with different diameters can be adapted.

The working principle of the biological filler suspension processing structure is as follows:

the utility model discloses, replace the rope through fixed subassembly 5, only need promote the ejector pad 508 on the fixed subassembly 5 before the installation and drive slider 505 and remove, make the second support tight pole 502 and the first change of the distance flexibility between tight pole 501 that supports, just can be quick to biological packing plate 1 installation. The spring 507 can generate a counterforce in the moving process of the sliding block 505, then the second abutting rod 502 and the first abutting rod 501 are sleeved on the hanging rod, when the pushing block 508 is loosened, the spring 507 pulls the sliding block 505 to enable the second abutting rod 502 to return to the original position, then the second abutting rod 502 and the first abutting rod 501 abut against the hanging rod, the express installation process of the biological filler plate 1 is completed, the fixing component 5 replaces a rope, and the complex process that the rope is tied on the hanging rod is avoided; meanwhile, when the biological packing plate 1 needs to be moved, the pushing block 508 can be pushed to separate the second abutting rod 502 from the hanging rod, so that the biological packing plate 1 can be flexibly moved, and the process is simple and is easier to operate.

Obviously, the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it is obvious for those skilled in the art to make other variations or changes based on the above descriptions, and all embodiments cannot be exhausted here, and all obvious variations or changes introduced by the technical solution of the present invention are still within the protection scope of the present invention.

Claims (6)

1. A biofilm carrier hangs processing structure, includes go-between (2) and connecting rod (3), its characterized in that: the lower extreme of connecting rod (3) rotates and connects go-between (2), the lower fixed surface of go-between (2) connects biological packing board (1), the upper end fixedly connected with connection box (4) of connecting rod (3), be provided with fixed subassembly (5) in connection box (4).

2. A suspended biological filler handling structure according to claim 1, wherein: the inner wall of the connecting frame (4) is provided with a sliding groove (6), and the fixing component (5) comprises a first abutting rod (501), a second abutting rod (502) and a rubber sleeve (503);

first support tight pole (501) and second support tight pole (502) and all be the V-arrangement setting, first support tight pole (501) and second support the equal fixed connection rubber sleeve (503) in periphery of tight pole (502), every annular groove (509) have all been seted up to the periphery of rubber sleeve (503).

3. A suspended biological filler handling structure according to claim 2, wherein: one end of the first abutting rod (501) and one end of the second abutting rod (502) are fixedly connected with a fixing block (504) and a sliding block (505) respectively.

4. A suspended biological filler treatment structure according to claim 3, wherein: the two sides of the fixing block (504) are fixedly connected with the inner wall of the sliding groove (6), and the sliding block (505) is connected in the sliding groove (6) in a sliding mode.

5. A suspended biological filler handling structure according to claim 4, wherein: the lower fixed surface of fixed block (504) is connected with slide bar (506), slide block (505) is passed in the one end slip of slide bar (506), the lower extreme of slide bar (506) and the inner wall fixed connection of spout (6), slide bar (506) are gone up the cover and are established and be connected with spring (507), the upper end of spring (507) and the lower fixed surface of fixed block (504) are connected, the lower extreme of spring (507) and the upper surface fixed connection of slider (505).

6. A suspended biological filler handling structure according to claim 5, wherein: one side of the sliding block (505) is fixedly connected with a push block (508), and one part of the push block (508) is positioned in the sliding groove (6).

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