CN112079480A - Energy-concerving and environment-protective chemical industry water pollution treatment facility - Google Patents

Abstract

The invention discloses energy-saving and environment-friendly chemical water pollution treatment equipment which structurally comprises a treatment bin, a control box, a water outlet and a motor, wherein the control box is fixedly embedded on the left end face of the outer side of the treatment bin, the control box is positioned right above the water outlet, the water outlet is fixedly embedded on the lower end face of the outer side of the treatment bin, the motor is positioned below the right side of the control box, when sewage flows into a precipitation mechanism, a leakage block is impacted, heavy metal fragments in the sewage flow into the upper portion of a filter screen in the leakage block to form accumulation, water flow downwards flows into an oxidation bin again along the filter screen, and when the heavy metal fragments continuously impact the upper end face of the filter screen, a filling ring is outwards expanded along with pressure to discharge the heavy metal fragments slowly.

Description

Energy-concerving and environment-protective chemical industry water pollution treatment facility

Technical Field

The invention belongs to the field of water pollution treatment, and particularly relates to energy-saving and environment-friendly chemical water pollution treatment equipment.

Background

Chemical water pollution treatment equipment utilizes peroxide pond and filtration system to flow the sewage that discharges to the equipment in and filter and recycle, avoids sewage to discharge into the river course and causes the influence to the ecology.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: as the waste materials such as mercury and lead can be discharged into the water pollution treatment equipment along with water flow during the processing of a chemical plant, and the density of lead powder or lead particles is higher than that of water, the lead powder or the lead particles can be precipitated at the concave-returning type pipe of the treatment equipment in the discharging process, the diameter of the concave-returning type pipe is reduced, and the flowing speed and the actual discharging volume of sewage are influenced.

Therefore, an energy-saving and environment-friendly chemical water pollution treatment device is needed.

Disclosure of Invention

The problem that in the technology, waste materials such as mercury and lead are discharged into water pollution treatment equipment along with water flow when a chemical plant is processed, and the density of lead powder or lead particles is higher than that of water, so that the waste materials can be precipitated at a concave pipe of the treatment equipment in the discharge process, the diameter of the concave pipe is reduced, and the flow speed and the actual discharge volume of sewage are affected is solved.

The invention relates to an energy-saving and environment-friendly chemical water pollution treatment device, which is achieved by the following specific technical means: the structure of the device comprises a treatment bin, a control box, a water outlet and a motor, wherein the control box is fixedly embedded on the left end surface of the outer side of the treatment bin and is positioned right above the water outlet; the treatment bin comprises a precipitation mechanism, a partition plate, an oxidation bin, a precipitation tank and a sewage draining outlet, wherein the precipitation mechanism is embedded above the left side of the partition plate, the outer end face of the partition plate is embedded with a clamp and installed on the inner end face of the treatment bin, the oxidation bin is positioned on the left side of the precipitation tank, the precipitation tank is embedded and fixedly installed right above the sewage draining outlet, and the sewage draining outlet is embedded with a clamp and installed on the inner end face of the treatment bin

The sedimentation mechanism comprises two seepage blocks, two turbulence blocks, a sedimentation port and a drainage mechanism, wherein the seepage blocks are fixedly embedded in the upper end face of the inner side of the sedimentation mechanism, the turbulence blocks are symmetrically arranged on the left side and the right side of the upper end of the drainage mechanism, the sedimentation port is embedded in the position under the seepage blocks, the drainage mechanism is positioned under the sedimentation port, and the upper end faces of the two turbulence blocks are arc-shaped grooves.

Wherein, the seepage piece includes seepage flow mouth, filter screen, sufficient ring, inlays solid piece, rubber ring, the seepage flow mouth inlays and locates under the filter screen and laminates mutually with seepage flow piece inside end face, the filter screen is located the left side below of inlaying solid piece, the vertical symmetry of sufficient ring is installed in the centre in rubber ring left side centre, inlay the laminating of solid piece outside end face and install the medial surface at precipitation mechanism, sufficient ring adopts the rubber material.

Wherein, it includes fly leaf, closing mechanism, slide rail, pivot to excrete the mechanism, the inboard up end at excreteing the mechanism is installed to the fly leaf symmetry, the closing mechanism inlays the block and installs the left and right sides in the fly leaf upper end, the slide rail is inlayed and is located the medial extremity face of installing at excreting the mechanism, pivot activity block is installed at the upper end lateral surface of slide rail, the grooved rail of slide rail adopts ladder formula symmetry recess.

Wherein, closing mechanism is including inlaying magnetic groove, ball, closing plate, inlaying axle, elasticity rope, inlay the magnetic groove and inlay solid the outer terminal surface in the left side of closing plate of installing, ball activity block is installed under the closing plate, closing plate lower extreme right flank is inlaying solid the installation and is inlaying the axle, it is located the right side below of inlaying the magnetic groove to inlay the axle, the elasticity rope is inlayed and is connected the medial surface of inlaying the axle, inlay two about the magnetic groove is equipped with, and two inlay the magnetic groove and connect the terminal surface and adopt the design of concatenation formula.

Wherein, the fly leaf includes rubber ball, spring, second pivot, inlays the slider, the block is inlayed to the rubber ball is installed in the left side of spring, the block is inlayed to the spring and is installed the left and right sides at fly leaf outside end face, the medial extremity face at the fly leaf is installed to second pivot activity block, inlay the block and install the medial extremity face at the slide rail at the inlaid slider, the angle of putting of spring inclines slightly, and the spring keeps parallel when the fly leaf is levelly and smoothly put.

Compared with the prior art, the invention has the following beneficial effects:

1. can strike the seepage piece when sewage flows into precipitation mechanism, make the heavy metal piece in the sewage flow in the filter screen top in the seepage piece form piling up, and rivers then flow again to the oxidation storehouse along the filter screen downwards in, when constantly strikeing the filter screen up end with heavy metal piece, the filling ring can be along pressure and outside expansion with heavy metal piece slowly discharge.

2. The upper end lateral surface of fly leaf is connected with the elasticity rope, leads to can drive closed version through the elasticity rope and inwards slowly gathers together in its sunken while, and closing mechanism just in time utilizes to inlay when the fly leaf sinks to lower degree of depth and fixes and can stimulate the elasticity rope and inwards gather together in inlaying the magnetic slot of inlaying on its surface, makes the fly leaf sink once more and will deposit outside the heavy metal piece discharge apparatus above that.

Drawings

FIG. 1 is a schematic view of the overall structure of an energy-saving and environment-friendly chemical water pollution treatment device.

FIG. 2 is a schematic structural diagram of a treatment bin of the energy-saving and environment-friendly chemical water pollution treatment equipment.

FIG. 3 is a schematic structural diagram of a precipitation mechanism of the energy-saving and environment-friendly chemical water pollution treatment equipment.

FIG. 4 is a schematic structural diagram of a leakage block of the energy-saving and environment-friendly chemical water pollution treatment equipment.

FIG. 5 is a schematic view of a partial structure of a leakage block of the energy-saving and environment-friendly chemical water pollution treatment device of the present invention.

FIG. 6 is a schematic structural diagram of an energy-saving and environment-friendly chemical water pollution treatment device discharge mechanism of the present invention.

FIG. 7 is a schematic structural diagram of a closing mechanism of an energy-saving and environment-friendly chemical water pollution treatment device of the present invention.

FIG. 8 is a schematic structural diagram of a movable plate of the energy-saving and environment-friendly chemical water pollution treatment device of the present invention.

In the figure: the device comprises a treatment bin-1, a control box-2, a water outlet-3, a motor-4, a precipitation mechanism-11, a partition plate-12, an oxidation bin-13, a precipitation tank-14, a sewage outlet-15, a leakage block-111, a turbulence block-112, a precipitation port-113, a drainage mechanism-114, a seepage port-21, a filter screen-22, a filling ring-23, an embedding block-24, a rubber ring-25, a movable plate-141, a closing mechanism-142, a sliding rail-143, a rotating shaft-144, an embedding magnetic tank-421, a ball-422, a closing plate-423, an embedding shaft-424, an elastic rope-425, a rubber ball-411, a spring-412, a second rotating shaft-413 and a sliding block-414.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides energy-saving and environment-friendly chemical water pollution treatment equipment which structurally comprises a treatment bin 1, a control box 2, a water outlet 3 and a motor 4, a control box 2 is fixedly embedded on the left end surface of the outer side of the treatment bin 1, the control box 2 is positioned right above the water outlet 3, the water outlet 3 is fixedly embedded on the lower end surface of the outer side of the treatment bin 1, the motor 4 is positioned below the right side of the control box 2, the treatment bin 1 comprises a precipitation mechanism 11, a clapboard 12, an oxidation bin 13, a precipitation tank 14 and a sewage outlet 15, the sedimentation mechanism 11 is embedded above the left side of the partition board 12, the outer end surface of the partition board 12 is embedded and clamped on the inner end surface of the treatment bin 1, the oxidation bin 13 is positioned at the left side of the precipitation tank 14, the precipitation tank 14 is fixedly embedded right above the sewage discharge port 15, and the sewage discharge port 15 is embedded, clamped and installed at the end surface of the inner side of the treatment bin 1.

The settling mechanism 11 comprises a leakage block 111, turbulence blocks 112, settling ports 113 and a discharging mechanism 114, wherein the leakage block 111 is fixedly embedded in the upper end face of the inner side of the settling mechanism 11, the turbulence blocks 112 are symmetrically arranged on the left side and the right side of the upper end of the discharging mechanism 114, the settling ports 113 are embedded in the position right below the leakage block 111, the discharging mechanism 114 is positioned right below the settling ports 113, the turbulence blocks 112 are provided with two circular arc grooves, the upper end faces of the two circular arc grooves are circular arc grooves, when water flows through the two circular arc grooves, the flowing direction of the water flow can be changed upwards along the outer contour of the water flow, so that heavy metals in the water flow float in the water flow as much as possible, and settling is avoided.

Wherein, seepage piece 111 includes seepage flow mouth 21, filter screen 22, sufficient ring 23, inlays solid piece 24, rubber ring 25, seepage flow mouth 21 inlays and locates filter screen 22 under and laminate mutually with seepage piece 111 medial surface, filter screen 22 is located the left side below of inlaying solid piece 24, the vertical symmetry of sufficient ring 23 is installed in rubber ring 25 left side centre, inlay solid piece 24 outside terminal surface laminating and install the medial surface at precipitation mechanism 11, sufficient ring 23 adopts the rubber material, when not compressed force extrusion, accessible its self elasticity is closed.

The specific use mode and function of the embodiment are as follows:

when the device is used, a drainage pipe of a chemical plant is required to be installed and connected into the precipitation mechanism 11, so that sewage is subjected to peroxide treatment through the oxidation bins 13 on the left side and the right side when flowing into the oxidation bin 13 along the precipitation mechanism 11, and then is discharged downwards into the precipitation tank 14 through the upper part of the precipitation tank 14 for purification, when the sewage flows into the precipitation mechanism 11, the sewage impacts the seepage block 111, heavy metal fragments in the sewage flow into the upper part of the filter screen 22 in the seepage block 111 to form accumulation, water flow downwards flows into the oxidation bin 13 again along the filter screen 22, when the heavy metal fragments continuously impact the upper end surface of the filter screen 22, the filling ring 23 outwards expands along pressure to discharge the heavy metal fragments slowly, the heavy metal fragments can be filtered in the sewage flow process, and the heavy metal is prevented from being excessively accumulated in the device.

Example 2:

as shown in fig. 6 to 8: excrete mechanism 114 including fly leaf 141, closing mechanism 142, slide rail 143, pivot 144, fly leaf 141 symmetry is installed at the inboard up end of excreting mechanism 114, closing mechanism 142 inlays the block and installs the left and right sides in fly leaf 141 upper end, slide rail 143 inlays to be located and installs the medial extremity face at excreting mechanism 114, pivot 144 activity block is installed at the upper end lateral surface of slide rail 143, slide rail 143's grooved rail adopts terraced symmetrical recess, can effectively avoid the phenomenon that breaks away from at gliding in-process when guaranteeing to slide.

Wherein, closing mechanism 142 is including inlaying magnetic groove 421, ball 422, closing plate 423, inlaying axle 424, elasticity rope 425, inlay magnetic groove 421 and inlay the outer terminal surface in the left side of installing at closing plate 423, ball 422 activity block is installed under closing plate 423, closing plate 423 lower extreme right flank is inlaying and is inlaying axle 424, it is located the right side below of inlaying magnetic groove 421 to inlay axle 424, elasticity rope 425 inlays the connection at the medial extremity face of inlaying axle 424, inlay magnetic groove 421 and be equipped with about two, and two inlay magnetic groove 421 connection terminal surface and adopt the concatenation formula design, when closing mechanism 142 of the left and right sides was drawn close to the centre, the accessible was inlayed the magnetic adsorption of magnetic groove 421 and is laminated.

Wherein, the fly leaf 141 includes rubber ball 411, spring 412, second pivot 413, inlays slider 414, the block is installed in the left side of spring 412 to the inlay block of rubber ball 411, the block is installed in the left and right sides of fly leaf 141 outside terminal surface is inlayed to spring 412, the inboard terminal surface at fly leaf 141 is installed to second pivot 413 activity block, inlay slider 414 and inlay the block and install the inboard terminal surface at slide rail 143, spring 412 puts the angle and inclines slightly, and spring 412 keeps parallel when fly leaf 141 levels and puts, and the gravity pushes down when fly leaf 141 upper end drives fly leaf 141 swing, and can open downwards when exceeding spring 412's horizontal line.

The specific use mode and function of the embodiment are as follows:

when heavy metal debris is accumulated above the movable plate 141, the movable plate 141 slides and sinks on the end face of the inner side of the sliding rail 143 through the forward sliding block 414, the movable plate 141 is driven to slowly gather inwards through the elastic rope 425 while sinking due to the fact that the outer side face of the upper end of the movable plate 141 is connected with the elastic rope 425, the spring 412 is placed in parallel with the movable plate 141, when the movable plate 141 sinks to a lower depth, the closing mechanisms 142 on the left side and the right side are fixed just by the inlaid magnetic grooves 421 embedded in the surface of the movable plate 141, the elastic rope is pulled to gather inwards, the movable plate 141 sinks again to exceed the balance point of the spring 412, the movable plate 411 swings under the movable clamping of the second rotating shaft 413, the heavy metal debris deposited above the movable plate is discharged out of the equipment, and the heavy metal debris accumulation in the equipment can be effectively avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The energy-saving and environment-friendly chemical water pollution treatment equipment structurally comprises a treatment bin (1), a control box (2), a water outlet (3) and a motor (4), wherein the control box (2) is fixedly embedded on the left end face of the outer side of the treatment bin (1), the control box (2) is positioned right above the water outlet (3), the water outlet (3) is fixedly embedded on the lower end face of the outer side of the treatment bin (1), and the motor (4) is positioned below the right side of the control box (2); the structure includes:

handle storehouse (1) including deposiing mechanism (11), baffle (12), oxidation storehouse (13), precipitation tank (14), drain (15), deposit the left side top of mechanism (11) inlay and locate baffle (12), the inboard terminal surface at handling storehouse (1) is installed to the block is inlayed to baffle (12) outside terminal surface, oxidation storehouse (13) are located the left side of precipitation tank (14), precipitation tank (14) are inlayed solid and are installed directly over drain (15), the inboard terminal surface at handling storehouse (1) is installed to the block is inlayed in drain (15).

2. The energy-saving and environment-friendly chemical water pollution treatment equipment according to claim 1, wherein the precipitation mechanism (11) comprises a leakage block (111), a turbulence block (112), a precipitation port (113) and a drainage mechanism (114), the leakage block (111) is embedded and fixedly installed on the upper end surface of the inner side of the precipitation mechanism (11), the turbulence block (112) is symmetrically installed on the left side and the right side of the upper end of the drainage mechanism (114), the precipitation port (113) is embedded and arranged right below the leakage block (111), and the drainage mechanism (114) is located right below the precipitation port (113).

3. The energy-saving and environment-friendly chemical water pollution treatment equipment according to claim 2, wherein the seepage block (111) comprises a seepage port (21), a filter screen (22), a filling ring (23), an embedding block (24) and a rubber ring (25), the seepage port (21) is embedded in the position right below the filter screen (22) and attached to the inner side end face of the seepage block (111), the filter screen (22) is located on the position below the left side of the embedding block (24), the filling ring (23) is longitudinally and symmetrically installed in the center of the left side of the rubber ring (25), and the outer side end face of the embedding block (24) is attached to the inner side end face of the precipitation mechanism (11).

4. The energy-saving and environment-friendly chemical water pollution treatment equipment according to claim 2, wherein the drainage mechanism (114) comprises a movable plate (141), a closing mechanism (142), a sliding rail (143) and a rotating shaft (144), the movable plate (141) is symmetrically installed on the inner upper end surface of the drainage mechanism (114), the closing mechanism (142) is embedded and clamped on the left side and the right side of the upper end of the movable plate (141), the sliding rail (143) is embedded and arranged on the inner side end surface of the drainage mechanism (114), and the rotating shaft (144) is movably clamped on the outer side surface of the upper end of the sliding rail (143).

5. The energy-saving and environment-friendly chemical water pollution treatment equipment according to claim 4, wherein the closing mechanism (142) comprises an embedded magnetic groove (421), a ball (422), a closing plate (423), an embedded shaft (424) and an elastic rope (425), the embedded magnetic groove (421) is fixedly embedded in the outer end face of the left side of the closing plate (423), the ball (422) is movably and fixedly embedded in the closing plate (423), the embedded shaft (424) is fixedly embedded in the right side face of the lower end of the closing plate (423), the embedded shaft (424) is located below the right side of the embedded magnetic groove (421), and the elastic rope (425) is connected to the inner end face of the embedded shaft (424) in an embedded mode.

6. The energy-saving and environment-friendly chemical water pollution treatment equipment according to claim 4, wherein the movable plate (141) comprises a rubber ball (411), a spring (412), a second rotating shaft (413) and an embedded sliding block (414), the rubber ball (411) is embedded and clamped and installed on the left side of the spring (412), the spring (412) is embedded and clamped and installed on the left side and the right side of the outer end face of the movable plate (141), the second rotating shaft (413) is movably clamped and installed on the inner side end face of the movable plate (141), and the embedded sliding block (414) is embedded and clamped and installed on the inner side end face of the sliding rail (143).

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