CN111841087A - High-efficient industrial waste water treatment pond - Google Patents

Abstract

The invention discloses a high-efficiency industrial wastewater treatment tank, which structurally comprises a treatment tank, a fixed rod, a positioning plate and a fixed bolt, wherein the bottom of the treatment tank is embedded and fixed on the upper surface of the positioning plate, the fixed rod is welded on the inner wall of the treatment tank, and the fixed bolt vertically penetrates through the upper surface and the lower surface of the positioning plate, and the high-efficiency industrial wastewater treatment tank has the beneficial effects that: because the slope of sedimentation chamber bottom makes industrial waste water flow to the surge drum, industrial waste water drives the baffle through the through-hole this moment and rotates and open, be convenient for in the mud gets into the holding vessel in the waste water, when the mud in the holding vessel is more and more, partial mud can waft inside the receiving tank, and under the gravity of mud, the through-hole that makes the baffle will correspond is closed, mud flows back in the treatment tank when avoiding pulling out the holding vessel, it inserts inside the limiting plate to purify core bottom, then inwards promote splint under the spring action of stopper, cause the splint centre gripping to purify the core, thereby be convenient for change purifying the core, in order to avoid influencing the purification to industrial waste water.

Description

High-efficient industrial waste water treatment pond

Technical Field

The invention relates to the field of industrial wastewater treatment, in particular to a high-efficiency industrial wastewater treatment tank.

Background

The demand of industrial products is increasing along with the improvement of living standard of people, however, a large amount of industrial wastewater is generated in the production of industrial products, and as the industrial wastewater contains various toxic substances, the environment is polluted and the human health is greatly damaged, the industrial wastewater needs to be discharged into an industrial wastewater treatment tank, so that the industrial wastewater can be discharged to the outside after impurities are filtered, sludge is precipitated and the water quality is purified in the treatment tank.

At present, in the existing high-efficiency industrial wastewater treatment tank, part of microorganisms can digest organic substances in water in the industrial wastewater treatment process, so that sludge is generated in the wastewater, the sludge sinks under the long-time standing of the wastewater and is deposited at the bottom of the water, and the sludge are gradually compacted along with the accumulation of time and under the action of the gravity of the sludge, so that the sludge is gradually hardened, and the hardened sludge is fixed at the bottom of the treatment tank and is difficult to clean.

Disclosure of Invention

Aiming at the defects that part of microorganisms can digest organic substances in water in the process of treating industrial wastewater to generate sludge in the wastewater, the sludge sinks under the long-time standing of the wastewater and is deposited at the bottom of the water, the sludge and the sludge are gradually compacted along with the accumulation of time and under the action of the gravity of the sludge, the sludge is gradually hardened, the hardened sludge is fixed at the bottom of a treatment tank, and the hardened sludge is difficult to clean in the conventional high-efficiency industrial wastewater treatment tank, the invention provides the high-efficiency industrial wastewater treatment tank to solve the technical problems.

The invention is realized by the following technical scheme: the utility model provides a high-efficient industrial waste water treatment pond, its structure is including handling pond, dead lever, locating plate, gim peg, it inlays admittedly in the locating plate upper surface to handle the bottom of the pool, the dead lever welding is at handling the pond inner wall, the gim peg runs through the locating plate surface from top to bottom perpendicularly, it includes sedimentation chamber, locating piece, surge drum, filter screen to handle the pond, the sedimentation chamber inlays to locate inside the processing pond, the locating piece inlays admittedly in handling the bottom of the pool, surge drum bottom and locating piece upper surface looks welding, the filter screen outside inlays admittedly in sedimentation chamber inner wall and nested in the surge drum periphery, sedimentation chamber bottom is to middle slope, and the filter screen has two and for the ring form.

Further speaking, the surge drum includes through-hole, storage cylinder, baffle, arc board, upper cover, the through-hole inlays and locates the surge drum inner wall, storage cylinder and surge drum are located the same axis, bolted connection is passed through at the baffle top in the storage cylinder inner wall, the arc board inlays admittedly in the storage cylinder inner wall and is located the baffle top, the cooperation of upper cover bottom is installed in the surge drum top, storage cylinder external diameter equals with the storage cylinder internal diameter, and through-hole length runs through storage cylinder and storage cylinder to the baffle quality can float slightly.

Furthermore, the baffle includes bearing, hollow chamber, ejector pad, the bearing cooperation is installed in the baffle upper end, hollow chamber inlays and locates inside the baffle, the ejector pad is the integral structure with the baffle right side, the baffle left wall is the arc, and the ejector pad has seven while ejector pad left side lower walls to be the arc, and the baffle rotates around the bearing.

Furthermore, the push block comprises a receiving groove, a rotating roller and a swinging block, the receiving groove is embedded in the push block, the rotating roller is connected to the inner portion of the receiving groove through a bolt, the swinging block is connected to the outer surface of the rotating roller through welding, the swinging block is spoon-shaped and is distributed annularly, and the right side of the receiving groove is empty.

Furthermore, the filter screen includes the baffle, crosses filtration pore, purifies a section of thick bamboo, the baffle is inlayed inside the filter screen, it runs through the filter screen inside perpendicularly and is located the baffle all around to cross the filtration pore, purify a section of thick bamboo and install inside the filter screen, the mutually perpendicular welding of baffle is latticed, and purifies a section of thick bamboo and evenly puts into four triangles.

Furthermore, the purifying cylinder comprises a through pipe, a support spring, a clamping plate and a purifying core, wherein the through pipe is embedded in the inner wall of the purifying cylinder, the bottom of the support spring is welded at the bottom in the purifying cylinder, the lower surface of the clamping plate is welded with the top end of the support spring, the bottom of the purifying core is embedded and fixed on the upper surface of the clamping plate, the outer end of the through pipe is high, the inner end of the through pipe is low, and the diameter of the clamping plate is consistent with the inner diameter of the purifying cylinder.

Further, the cardboard includes limiting plate, stopper, splint, limiting plate and cardboard upper surface be the integral structure, inner wall about the limiting plate is installed to stopper one end, splint welding is at the stopper other end, stopper and splint all have two, and the stopper has the inside extrusion force of level to splint are outside slight bending in bottom simultaneously for the rubber material.

Advantageous effects

Compared with the prior art, the high-efficiency industrial wastewater treatment tank has the following advantages:

1. the invention has the beneficial effects that: because the slope of sedimentation chamber bottom makes industrial waste water flow to the surge drum, industrial waste water drives the baffle through the through-hole this moment and rotates and open, in the mud gets into the holding vessel in the waste water of being convenient for, when the mud in the holding vessel is more and more, partial mud can waft and fall inside the receiving tank to under the gravity of mud, make the through-hole that the baffle will correspond close, mud flows back in the treatment tank when avoiding pulling out the holding vessel.

2. The invention has the beneficial effects that: inside purifying core bottom and inserting the limiting plate, then inwards promote splint under the spring action of stopper, cause the splint centre gripping to purify the core to be convenient for change purifying the core, in order to avoid influencing the purification to industrial waste water.

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 view showing the construction of a high-efficiency industrial wastewater treatment tank according to the present invention.

FIG. 2 is an enlarged view of the inside of the treatment tank of the present invention.

Fig. 3 is a cross-sectional enlarged structure diagram of the collecting cylinder of the invention.

Fig. 4 is a schematic sectional enlarged view of the baffle of the present invention.

Fig. 5 is a schematic cross-sectional enlarged structure view of the push block of the present invention.

Fig. 6 is a schematic top enlarged view of the filter screen according to the present invention.

FIG. 7 is a side cross-sectional view of an enlarged structure of the purification cartridge of the present invention.

FIG. 8 is an enlarged cross-sectional view of a card of the present invention.

In the figure: the device comprises a treatment pool 1, a fixed rod 2, a positioning plate 3, a fixed bolt 4, a sedimentation cavity 11, a positioning block 12, a collecting barrel 13, a filter screen 14, a through hole 131, a storage barrel 132, a baffle 133, an arc plate 134, an upper cover 135, a bearing a1, a hollow cavity a2, a push block a3, a receiving groove a31, a rotating roller a32, a swing block a33, a partition plate 141, a filter hole 142, a purification barrel 143, a through pipe b1, a support spring b2, a clamping plate b3, a purification core b4, a limiting plate b31, a limiting block b32 and a clamping plate b 33.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Please refer to fig. 1-8:

example 1:

the invention provides a high-efficiency industrial wastewater treatment tank, which structurally comprises a treatment tank 1, a fixed rod 2, a positioning plate 3 and a fixed bolt 4, the bottom of the treatment tank 1 is embedded and fixed on the upper surface of the positioning plate 3, the fixed rod 2 is welded on the inner wall of the treatment tank 1, the fixing bolt 4 vertically penetrates through the upper surface and the lower surface of the positioning plate 3, the treatment tank 1 comprises a sedimentation cavity 11, a positioning block 12, a collecting cylinder 13 and a filter screen 14, the sedimentation cavity 11 is embedded in the treatment tank 1, the positioning block 12 is embedded at the bottom of the treatment tank 1, the bottom of the collecting cylinder 13 is welded with the upper surface of the positioning block 12, the outer side of the filter screen 14 is fixedly embedded in the inner wall of the settling chamber 11 and embedded at the periphery of the collecting cylinder 13, the bottom of the settling chamber 11 inclines towards the middle, and the filter screen 14 has two and be the ring form, does benefit to filter 14 back industrial waste water's mud and gets into the inside storage of collection cylinder 13 through the bottom of the sedimentation chamber 11 that inclines.

In the figure, the collecting cylinder 13 includes a through hole 131, a storage cylinder 132, a baffle 133, an arc plate 134 and an upper cover 135, the through hole 131 is embedded in the inner wall of the collecting cylinder 13, the storage cylinder 132 and the collecting cylinder 13 are located on the same axis, the top of the baffle 133 is connected to the inner wall of the storage cylinder 132 through a bolt, the arc plate 134 is embedded in the inner wall of the storage cylinder 132 and is located above the baffle 133, the bottom of the upper cover 135 is installed at the top of the collecting cylinder 13 in a matching manner, the outer diameter of the storage cylinder 132 is equal to the inner diameter of the collecting cylinder 13, the length of the through hole 131 penetrates through the storage cylinder 13 and the storage cylinder 132, the baffle 133 is light in weight and can float, and the industrial wastewater entering the storage cylinder 132 pushes the baffle 133 open to store sludge in.

In the figure, the baffle 133 includes a bearing a1, a hollow cavity a2, a push block a3, the bearing a1 is installed at the upper end of the baffle 133 in a matching manner, the hollow cavity a2 is embedded in the baffle 133, the push block a3 and the right side of the baffle 133 are of an integrated structure, the left wall of the baffle 133 is arc-shaped, seven push blocks a3 are arranged, the left lower wall of the push block a3 is arc-shaped, and the baffle 133 rotates around the bearing a1, so that the baffle 133 can be pressed down to close the corresponding through hole 131 when sludge falls on the push block a 3.

In the figure, the pushing block a3 comprises a receiving groove a31, a rotating roller a32 and a swinging block a33, the receiving groove a31 is embedded in the pushing block a3, the rotating roller a32 is connected to the receiving groove a31 through a bolt, the swinging block a33 is connected to the outer surface of the rotating roller a32 through welding, the swinging block a33 is spoon-shaped, the swinging blocks a33 are distributed annularly, the right side of the receiving groove a31 is empty, the pushing block a3 is pushed when sludge enters the receiving groove a31, and the swinging block a33 rotates around the rotating roller a 32.

The specific principle of the embodiment is as follows: the wastewater generated in the industrial production process is guided into the treatment tank 1, so that the industrial wastewater flows into the sedimentation chamber 11 after being filtered by the filter screen 14, the sedimentation chamber 11 with the inclined bottom flows the industrial wastewater to the collecting barrel 13 in the center of the treatment tank 1, so that the industrial wastewater impacts the baffle 133 through the through hole 131, the baffle 133 rotates around the bearing a1 under the impact of the wastewater so that the baffle 133 is opened, the sludge in the wastewater conveniently enters the storage barrel 132, the sludge in the storage barrel 132 is more and more under the long-time standing condition of the wastewater, part of the sludge can float down in the receiving tank a31 on the push block a3 of the baffle 133, the push block a3 is pushed downwards under the gravity of the sludge, so that the baffle 133 rotates downwards around the bearing a1, the corresponding through hole 131 is closed, and the sludge is prevented from flowing back into the treatment tank 1 when the upper cover 135 is opened and pulled out of the storage barrel 132 through the arc plate 134.

Example 2:

in the figure, filter screen 14 includes baffle 141, filtration hole 142, a purification section of thick bamboo 143, baffle 141 inlays admittedly in filter screen 14 inside, it runs through filter screen 14 inside perpendicularly and is located baffle 141 all around to filter hole 142, a purification section of thick bamboo 143 is installed inside filter screen 14, baffle 141 mutually perpendicular welding is latticed, and purification section of thick bamboo 143 evenly puts into four triangles, does benefit to industrial waste and filters and purifies through purification section of thick bamboos 143 through baffle 141 filtration hole 142 all around.

In the figure, the purification cylinder 143 comprises a through pipe b1, a support spring b2, a snap plate b3, and a purification core b4, the through pipe b1 is embedded in the inner wall of the purification cylinder 143, the bottom of the support spring b2 is welded at the bottom of the purification cylinder 143, the lower surface of the snap plate b3 is welded with the top end of the support spring b2, the bottom of the purification core b4 is embedded and fixed on the upper surface of the snap plate b3, the outer end of the through pipe b1 is higher and the inner end is lower, and the diameter of the snap plate b3 is matched with the inner diameter of the purification cylinder 143, which is beneficial to fixing the purification core b4 inside the purification cylinder 143 and facilitating the wastewater to flow into the purification cylinder 143.

In the drawing, cardboard b3 includes limiting plate b31, stopper b32, splint b33, limiting plate b31 and cardboard b3 upper surface are integrated structure, inner wall about limiting plate b31 is installed to limiting plate b32 one end, splint b33 welds the other end at limiting plate b32, limiting block b32 and splint b33 all have two, and limiting block b32 has the inside extrusion force of level to splint b33 is the rubber material and the outside slight bending in bottom simultaneously, does benefit to inwards promote splint b33 under the extrusion force of limiting block b32 and makes splint b33 press from both sides tight purification core b 4.

The specific principle of the embodiment is as follows: industrial waste water from the top down strikes filter screen 14, baffle 141 in filter screen 14 and filtration hole 142 divide filter screen 14 into the netted of having a little hole, be convenient for filter the impurity in the industrial waste water, install purification section of thick bamboo 143 between two filter screens 14, the high inner end of siphunculus b1 outer end of purification section of thick bamboo 143 inner wall is low, be convenient for industrial waste water to flow into purification section of thick bamboo 143 inside and purify core b4 contact, thereby purify industrial waste water, purification core b4 bottom inserts inside limiting plate b31 simultaneously, then inwards promote splint b33 under the spring action of limiting block b32, cause splint b33 centre gripping purification core b4, be convenient for change purification core b 4.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims (7)

1. The utility model provides a high-efficient industrial waste water treatment pond, its structure is including handling pond (1), dead lever (2), locating plate (3), gim peg (4), handle pond (1) bottom and inlay in locating plate (3) upper surface, dead lever (2) welding is at handling pond (1) inner wall, gim peg (4) run through locating plate (3) upper and lower surface, its characterized in that perpendicularly:

handle pond (1) including sedimentation chamber (11), locating piece (12), collecting vessel (13), filter screen (14), sedimentation chamber (11) are inlayed and are located inside handling pond (1), locating piece (12) are inlayed admittedly in handling pond (1) bottom, collecting vessel (13) bottom welds mutually with locating piece (12) upper surface, filter screen (14) outside is inlayed admittedly in sedimentation chamber (11) inner wall and nested in collecting vessel (13) periphery.

2. A high efficiency industrial wastewater treatment basin according to claim 1, characterized in that: the collecting cylinder (13) comprises a through hole (131), a storage cylinder (132), a baffle (133), an arc plate (134) and an upper cover (135), the through hole (131) is embedded in the inner wall of the collecting cylinder (13), the storage cylinder (132) and the collecting cylinder (13) are located on the same axis, the top of the baffle (133) is connected to the inner wall of the storage cylinder (132) through a bolt, the arc plate (134) is embedded in the inner wall of the storage cylinder (132) and located above the baffle (133), and the bottom of the upper cover (135) is matched and installed at the top of the collecting cylinder (13).

3. A high efficiency industrial wastewater treatment basin according to claim 2, characterized in that: baffle (133) include bearing (a 1), hollow chamber (a 2), ejector pad (a 3), the cooperation of bearing (a 1) is installed in baffle (133) upper end, hollow chamber (a 2) are inlayed and are located baffle (133) inside, ejector pad (a 3) and baffle (133) right side structure as an organic whole.

4. A high efficiency industrial wastewater treatment basin according to claim 3, characterized in that: the push block (a 3) comprises a receiving groove (a 31), a rotating roller (a 32) and a swinging block (a 33), wherein the receiving groove (a 31) is embedded in the push block (a 3), the rotating roller (a 32) is connected to the inside of the receiving groove (a 31) through a bolt, and the swinging block (a 33) is connected to the outer surface of the rotating roller (a 32) through welding.

5. A high efficiency industrial wastewater treatment basin according to claim 1, characterized in that: the filter screen (14) includes baffle (141), filtration hole (142), purifies a section of thick bamboo (143), baffle (141) are embedded inside filter screen (14), filter hole (142) are run through filter screen (14) inside perpendicularly and are located baffle (141) all around, it installs inside filter screen (14) to purify a section of thick bamboo (143).

6. A high efficiency industrial wastewater treatment basin according to claim 5, characterized in that: the purification cylinder (143) comprises a through pipe (b 1), a support spring (b 2), a clamping plate (b 3) and a purification core (b 4), the through pipe (b 1) is embedded in the inner wall of the purification cylinder (143), the bottom of the support spring (b 2) is welded at the bottom in the purification cylinder (143), the lower surface of the clamping plate (b 3) is welded with the top end of the support spring (b 2), and the bottom of the purification core (b 4) is embedded in the upper surface of the clamping plate (b 3).

7. A high efficiency industrial wastewater treatment basin according to claim 6, characterized in that: cardboard (b 3) include limiting plate (b 31), stopper (b 32), splint (b 33), limiting plate (b 31) and cardboard (b 3) upper surface be the integrated structure, inner wall about limiting plate (b 31) is installed to stopper (b 32) one end, splint (b 33) welding is at the stopper (b 32) other end.

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