CN213707958U - Novel glass steel sedimentation tank - Google Patents

Abstract

The utility model discloses a novel glass fiber reinforced plastic sedimentation tank, which structurally comprises a fixed base, a protective steel ring, a water inlet, a first inspection window, a high-efficiency filtering sedimentation mechanism, a second inspection window, a supporting upright post, a sealing cover plate and a water outlet, wherein the lower end of the high-efficiency filtering sedimentation mechanism and the upper end of the fixed base are integrated into a whole, the novel glass fiber reinforced plastic sedimentation tank structurally leads sewage to enter a water inlet pipeline connected with the upper left end of a glass fiber reinforced plastic shell through the water inlet, thereby sewage enters into inside and flows and fall in the toper mouth frame of lower extreme and including install the flocculating agent pipe and can carry out purification treatment to the sewage under flowing, decomposes the impurity in the sewage and reduces suspended solid particulate matter, and what fall moreover falls the lower extreme falls into water and carries out the water that the deposit of pond water will fall and go on quiescence, is taking out the upper end with quiescent water through the reposition of redundant personnel spray tube of high pressure water pump union coupling upper end.

Description

Novel glass steel sedimentation tank

Technical Field

The utility model relates to a novel glass steel sedimentation tank belongs to glass steel technical field.

Background

The glass fiber reinforced plastic sedimentation tank is a sedimentation tank with a frame main body structure adopting glass Fiber Reinforced Plastic (FRP); this equipment application sedimentation gets rid of aquatic suspended solid, widely uses in waste water treatment, and the rationale of sedimentation tank is: before precipitation, a medicament is added into water, suspended matters in the sewage are flocculated together through a mixing reaction for a certain time in a mixing zone, and then the sewage enters a precipitation zone to form advection precipitation.

The prior art discloses the application numbers as follows: the novel glass fiber reinforced plastic sedimentation tank of CN201920813114.6 comprises a water inlet pipe, a mixing tank, a main body tank, a water outlet tank and a water outlet pipe; the water inlet pipe is communicated with the mixing tank, the mixing tank is communicated with the main body tank through a first flow pipe, the main body tank is communicated with the water outlet tank through a second flow pipe, and the water outlet tank is communicated with the water outlet pipe; the main body pool is provided with a sludge collecting groove, a separating pipe layer and a water collecting groove from bottom to top; the separating tube layer consists of a separating tube, a frame and a vibrator; the pipeline of separator tube is the form of circling, but this prior art is relatively poor to the sediment impurity removal effect of sewage, leads to the harm debris that exist in the sewage to discharge for destroy the quality of water environment on every side.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel glass steel sedimentation tank to it is relatively poor to solve prior art to the sediment impurity removal effect of sewage, leads to the harm debris that exist in the sewage to discharge, makes the problem of destroying water quality environment on every side.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides a novel glass steel sedimentation tank, its structure includes fixed baseplate, protection steel ring, water inlet, first inspection window, high efficiency filtration deposits mechanism, second inspection window, support post, sealed apron, delivery port, high efficiency filtration deposits mechanism's lower extreme and fixed baseplate upper end integrated structure, protection steel ring inner ring is connected with high efficiency filtration deposits mechanism's outer ring, water inlet right-hand member embedding is installed in high efficiency filtration deposits mechanism's left end, first inspection window lower extreme and high efficiency filtration deposit mechanism's upper end welding, second inspection window lower extreme and high efficiency filtration deposit mechanism's upper end welding, delivery port left end embedding is installed in high efficiency filtration deposits mechanism's right-hand member, sealed apron lower extreme outer loop and high efficiency filtration deposit mechanism's upper end inner ring bond mutually.

Further, the high-efficiency filtering and precipitating mechanism consists of a pebble layer, a water inlet, an adsorption buffer frame, a protective isolation plate, a high-pressure water pump pipe, a falling water precipitation layer, a glass fiber reinforced plastic shell, a conical opening frame, a water inlet pipeline, a flocculating agent pipe, a shunt spray pipe, a cotton wool layer, an active carbon filter plate and a clarification tank, wherein the right end of the pebble layer is connected with the left end of the protective isolation plate, the lower end of the protective isolation plate is provided with the water inlet, the lower end of the adsorption buffer frame is embedded and installed in a base of the glass fiber reinforced plastic shell, the high-pressure water pump pipe and the shunt spray pipe are of an integrated structure, the lower end of the conical opening frame is provided with the falling water precipitation layer, the two sides of the lower end of the water inlet pipeline are connected with the inner side of the flocculating agent pipe, the flocculating agent pipe is arranged and installed in the conical opening frame, the right, the clarification tank is embedded in the glass fiber reinforced plastic shell.

Further, the fixed base upper end is connected with the support post lower extreme, first inspection window lower extreme embedding is installed in sealed apron upper end.

Furthermore, the lower end of the glass fiber reinforced plastic shell is welded with the upper end of the fixed base, and the right end of the water inlet is embedded in the left end of the glass fiber reinforced plastic shell.

Further, the inner side of the protective steel ring is connected with the outer side of the supporting upright post, and the lower end of the second inspection window is embedded in the upper end of the sealing cover plate.

Further, the protection steel ring is made of stainless steel and has good hardness.

Furthermore, the water outlet is made of aluminum alloy and has better corrosion resistance.

Advantageous effects

The utility model relates to a novel glass fiber reinforced plastic sedimentation tank, structurally, sewage enters into a water inlet pipeline connected with the upper left end of a glass fiber reinforced plastic shell through a water inlet, so that the sewage enters into the interior and flows into a conical opening frame at the lower end, a flocculating agent pipe is arranged in the interior and can purify the flowing sewage, impurities in the sewage are decomposed to reduce suspended particles, the sewage falls into a lower water sedimentation layer to precipitate pool water to make the falling water static, the static water is pumped into the upper end through a shunt spray pipe connected with the upper end through a high-pressure water pump pipe, a further flocculent cotton layer at the lower end is matched with an active carbon filter plate to efficiently adsorb the particles in water to avoid the particles in the water, the pebble layer is used for further filtering and buffering the bottom of the lower end, the adsorption of water flow buffered again through a lower end adsorption buffer frame is placed in a clarification tank with the right end through the water inlet pipeline flowing, the filtration and precipitation treatment for sewage disposal is improved, and the subsequent discharge is ensured to avoid the pollution to the environment.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a novel glass fiber reinforced plastic sedimentation tank of the present invention;

FIG. 2 is a schematic structural view of the novel glass fiber reinforced plastic sedimentation tank in a top view;

fig. 3 is a schematic structural diagram of the high-efficiency filtering and precipitating mechanism of the present invention.

In the figure: the device comprises a fixed base-1, a protective steel ring-2, a water inlet-3, a first inspection window-4, a high-efficiency filtering and precipitating mechanism-5, a second inspection window-6, a supporting upright post-7, a sealing cover plate-8, a water outlet-9, a pebble layer-51, a water through hole-52, an adsorption buffer frame-53, a protective isolation plate-54, a high-pressure water pump pipe-55, a water falling precipitation layer-56, a glass fiber reinforced plastic shell-57, a conical opening frame-58, a water inlet pipeline-59, a flocculating agent pipe-510, a shunt spray pipe-511, a cotton wadding layer-512, an active carbon filter plate-513 and a clarification tank-514.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-3, the present invention provides a novel glass fiber reinforced plastic sedimentation tank: the structure of the device comprises a fixed base 1, a protective steel ring 2, a water inlet 3, a first inspection window 4, a high-efficiency filtering and precipitating mechanism 5, a second inspection window 6, a supporting upright post 7, a sealing cover plate 8 and a water outlet 9, wherein the lower end of the high-efficiency filtering and precipitating mechanism 5 and the upper end of the fixed base 1 are of an integrated structure, the inner ring of the protective steel ring 2 is connected with the outer ring of the high-efficiency filtering and precipitating mechanism 5, the right end of the water inlet 3 is embedded in the left end of the high-efficiency filtering and precipitating mechanism 5, the lower end of the first inspection window 4 is welded with the upper end of the high-efficiency filtering and precipitating mechanism 5, the lower end of the second inspection window 6 is welded with the upper end of the high-efficiency filtering and precipitating mechanism 5, the left end of the water outlet 9 is embedded in the right end of the high-efficiency filtering and precipitating mechanism 5, the outer ring, The water inlet 52, the adsorption buffer frame 53, the protection division board 54, the high pressure water pump pipe 55, the layer 56 of precipitating falls into water, the glass steel shell 57, the toper mouth frame 58, the inlet channel 59, the flocculating agent pipe 510, the reposition of redundant personnel spray tube 511, the cotton layer 512 of wadding, the activated carbon filter plate 513, the clarification tank 514 constitute, the pebble layer 51 right-hand member is connected with protection division board 54 left end, protection division board 54 lower extreme sets up and installs water inlet 52, the embedding of adsorption buffer frame 53 lower extreme is installed in the glass steel shell 57 base, the high pressure water pump pipe 55 is with reposition of redundant personnel spray tube 511 structure as an organic whole, toper mouth frame 58 lower extreme sets up and installs the layer 56 of precipitating in water, inlet channel 59 lower extreme both sides are connected with the inside of the flocculating agent pipe 510 of falling into water, flocculating agent pipe 510 sets up and installs in the toper mouth frame 58, the cotton layer 512 right-hand member of wadding is connected with protection division board 54 left end, depositing reservoir 514 embedding is installed in glass steel casing 57, fixed baseplate 1 upper end is connected with the 7 lower extremes of support post, 4 lower extremes embedding of first inspection window are installed in 8 upper ends of sealed apron, glass steel casing 57 lower extreme welds with fixed baseplate 1 upper end mutually, 3 right-hand members of water inlet embedding are installed in glass steel casing 57 left end, 2 inboard and the support post 7 outside of protection steel ring are connected, 6 lower extremes embedding of second inspection window are installed in 8 upper ends of sealed apron, protection steel ring 2 is made by the stainless steel, has better hardness, delivery port 9 is made by the aluminum alloy, has better corrosion resistance.

The activated carbon filter plate 513 that this patent says adopts the aluminium honeycomb, plastics honeycomb, the paper honeycomb of through-hole structure as the carrier, compares with traditional activated carbon filter screen, has more excellent gas dynamic performance, and bulk density is little, and specific surface area is big, adsorption efficiency is high, and the windage coefficient is little.

When in use, sewage enters the water inlet pipe 59 connected with the left upper end of the glass fiber reinforced plastic shell 57 through the water inlet 3, the sewage enters the interior and flows into the conical opening frame 58 at the lower end and is internally provided with the flocculating agent pipe 510 to purify the sewage flowing down, the impurities in the sewage are decomposed to reduce suspended particles, the water falling into the lower end is precipitated by the falling water precipitation layer 56 to make the water in the pool still, the static water is pumped to the upper end through the diversion spray pipe 511 connected with the upper end through the high-pressure water pump pipe 55, the further cotton wool layer 512 at the lower end is matched with the active carbon filter plate 513 to efficiently adsorb the particles in the water quality to avoid the particles in the water, the pebble layer 51 is used for further filtering and buffering the bottom of the lower end, the water flow is buffered again through the lower end adsorption buffer frame 53 and then flows into the right end through the water inlet pipe 59 to place the inside the clarification tank 514 at the right end to place the clarification tank .

The utility model solves the problems that the prior art has poor impurity removing effect on the precipitation of sewage, causes harmful sundries in the sewage to be discharged, and causes the damage to the surrounding water quality environment, the utility model structurally enters the water inlet pipeline connected with the upper left end of the glass fiber reinforced plastic shell through the water inlet, thereby the sewage enters the interior and flows down to the conical opening frame at the lower end, and the flocculant pipe is arranged in the interior to purify the flowing sewage, the impurities in the sewage are decomposed to reduce suspended particles, the water falling down to the lower end is precipitated to make the falling water still, the still water is pumped to the upper end through the shunt spray pipe connected with the upper end by the high pressure water pump pipe, the further floe layer at the lower end is matched with the active carbon filter plate to further adsorb the particles in the water quality efficiently to avoid the particles in the water, and moreover, the pebble layer is used for filtering and buffering the bottom of the lower flow end in a further step, water flow is adsorbed by the lower end adsorption buffering frame for buffering again and flows into the settling pond at the right end through the water inlet pipeline to be placed inside, so that the filtering and sedimentation treatment for sewage arrangement is improved, and the subsequent discharge is guaranteed to avoid the pollution to the environment.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

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 (5)

1. The utility model provides a novel glass steel sedimentation tank which characterized in that: the structure of the device comprises a fixed base (1), a protective steel ring (2), a water inlet (3), a first inspection window (4), a high-efficiency filtering and precipitating mechanism (5), a second inspection window (6), a supporting upright post (7), a sealing cover plate (8) and a water outlet (9), wherein the lower end of the high-efficiency filtering and precipitating mechanism (5) and the upper end of the fixed base (1) are of an integrated structure, the inner ring of the protective steel ring (2) is connected with the outer ring of the high-efficiency filtering and precipitating mechanism (5), the right end of the water inlet (3) is embedded and installed in the left end of the high-efficiency filtering and precipitating mechanism (5), the lower end of the first inspection window (4) is welded with the upper end of the high-efficiency filtering and precipitating mechanism (5), the lower end of the second inspection window (6) is welded with the upper end of the high-efficiency filtering and precipitating mechanism (5), the left, the outer ring at the lower end of the sealing cover plate (8) is bonded with the inner ring at the upper end of the high-efficiency filtering and precipitating mechanism (5).

2. The novel glass fiber reinforced plastic sedimentation tank of claim 1, wherein: the efficient filtering and precipitating mechanism (5) is composed of a pebble layer (51), a water through hole (52), an adsorption buffer frame (53), a protective isolation plate (54), a high-pressure water pump pipe (55), a water falling precipitation layer (56), a glass fiber reinforced plastic shell (57), a conical opening frame (58), a water inlet pipeline (59), a flocculating agent pipe (510), a shunt spray pipe (511), a cotton wadding layer (512), an active carbon filter plate (513) and a clarification tank (514), wherein the right end of the pebble layer (51) is connected with the left end of the protective isolation plate (54), the water through hole (52) is arranged at the lower end of the protective isolation plate (54), the lower end of the adsorption buffer frame (53) is embedded and arranged in the base of the glass fiber reinforced plastic shell (57), the high-pressure water pump pipe (55) and the shunt spray pipe (511) are of an integrated structure, the water falling precipitation layer (56) is arranged at, inlet channel (59) lower extreme both sides are connected with flocculating agent pipe (510) inboard, flocculating agent pipe (510) set up and install in toper mouth frame (58), cotton layer of batting (512) right-hand member is connected with protection division board (54) left end, activated carbon filter plate (513) right-hand member bonds with protection division board (54) left end, clarification tank (514) embedding is installed in glass steel casing (57).

3. The novel glass fiber reinforced plastic sedimentation tank of claim 1, wherein: the upper end of the fixed base (1) is connected with the lower end of the supporting upright post (7), and the lower end of the first inspection window (4) is embedded in the upper end of the sealing cover plate (8).

4. The novel glass fiber reinforced plastic sedimentation tank of claim 2, wherein: the lower end of the glass fiber reinforced plastic shell (57) is welded with the upper end of the fixed base (1), and the right end of the water inlet (3) is embedded in the left end of the glass fiber reinforced plastic shell (57).

5. The novel glass fiber reinforced plastic sedimentation tank of claim 1, wherein: the inner side of the protective steel ring (2) is connected with the outer side of the supporting upright post (7), and the lower end of the second inspection window (6) is embedded in the upper end of the sealing cover plate (8).

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