CN112044136A - Industrial wastewater treatment desilting equipment - Google Patents

Abstract

The invention discloses an industrial wastewater treatment mud removing device, which structurally comprises a mud remover, a water outlet and a water inlet end, wherein the water inlet end is fixedly connected with the upper end of the mud remover in an embedded manner, the mud remover and the water outlet are of an integrated structure, sludge in sewage can be blocked outside by a mud blocking block, the filtered sewage can be discharged from a water permeable cavity on a take-out plate, the discharged sewage is discharged into a lower layer by a lower connecting plate, a stressed block is extruded by the sewage which is flushed again to extrude a plate body to slide outwards along a bottom plate, so that the plate body can push the mud blocking block to be tightly attached to the inner wall of an upper connecting plate when the plate body contracts, the sewage at the upper end of an extruding mechanism enters the inside of the extruding mechanism and can push an abduction frame to extrude the upper end of a fine filter plate, the abduction frame can be unfolded along a middle fixed plate, and throwing force generated by the abduction frame, the lower pressing plate can swing downwards to press the fine filter plate.

Description

Industrial wastewater treatment desilting equipment

Technical Field

The invention relates to the technical field of water pollution control and water resource utilization, in particular to an industrial wastewater treatment and desilting device.

Background

Industrial wastewater desilter is mainly used for getting rid of the equipment of mud in the industrial wastewater, can lead to inside the desilter with industrial wastewater through the water inlet, and the rethread internal filtration layer blocks mud on the upper strata to make the waste water that does not contain mud can discharge through the delivery port, based on the above-mentioned description the inventor finds that there is an industrial wastewater treatment desilter equipment of following shortcoming mainly, for example:

because the water inlet of the industrial wastewater sludge remover is positioned in the middle of the upper end of the industrial wastewater sludge remover, sewage can impact the middle of the filter layer when entering the interior of the industrial wastewater sludge remover, so that the sludge intercepted by the filter layer can be extruded to a range beyond the middle of the filter layer, the sludge can be accumulated to a saturated state around the filter layer, the area of the middle part of the filter layer, which can filter the sludge, is reduced, and the filtering efficiency of the filter layer on the wastewater is reduced.

Disclosure of Invention

Aiming at the problems, the invention provides an industrial wastewater treatment and desilting device.

In order to achieve the purpose, the invention is realized by the following technical scheme: the industrial wastewater treatment and desilting equipment structurally comprises a desilter, a water outlet and a water inlet end, wherein the water inlet end is fixedly embedded and connected with the upper end of the desilter, and the desilter and the water outlet are of an integrated structure; the sludge remover comprises a tank body, a fine filter plate, an extrusion mechanism and a filter layer, wherein the fine filter plate is fixedly embedded in the inner wall of the tank body, the extrusion mechanism is installed in the inner position of the fine filter plate, and the filter layer and the fine filter plate are of an integrated structure.

As a further optimization of the filter layer, the filter layer comprises mud blocking blocks, a belt outlet plate, an upper connecting plate and a lower connecting plate, the mud blocking blocks are fixedly embedded with the belt outlet plate, the belt outlet plate penetrates through the inner position of the upper connecting plate, the upper connecting plate and the lower connecting plate are in an integrated structure, and six belt outlet plates are uniformly distributed between the lower connecting plate and the upper connecting plate in parallel.

As a further optimization of the invention, the take-out plate comprises a stress block, a connecting rod, plate bodies, a bottom plate and a water permeable cavity, wherein the stress block is in clearance fit between the two plate bodies, one end of the connecting rod is hinged with the stress block, the other end of the connecting rod is movably clamped with the plate bodies, the plate bodies are in clearance fit with the bottom plate, the water permeable cavity is movably clamped with the plate bodies, and the two plate bodies are uniformly and symmetrically distributed at the upper end of the bottom plate.

As a further optimization of the invention, the stress block comprises a contraction plate, a lower sliding plate, an elastic sheet, a plate surface and a blocking block, the contraction plate is in clearance fit with the plate surface, the upper end of the lower sliding plate is fixedly embedded with the bottom of the contraction plate, the lower sliding plate is movably clamped with the plate surface, the elastic sheet is fixedly embedded in the inner wall of the plate surface, the blocking block and the contraction plate are of an integrated structure, and the blocking block is made of textile fibers with high water permeability.

As a further optimization of the invention, the extrusion mechanism comprises connecting plates, abduction frames, elastic strips and middle fixing plates, the connecting plates are connected with the abduction frames through the elastic strips, the abduction frames are hinged with the bottoms of the middle fixing plates, and the two abduction frames are uniformly and symmetrically distributed at the bottoms of the middle fixing plates.

As a further optimization of the invention, the abduction frame comprises a combination plate, a lower pressing plate and a water outlet, wherein the lower pressing plate is hinged with the bottom of the combination plate, the water outlet and the combination plate are of an integrated structure, and the water outlet is of an internal and external through structure.

As a further optimization of the invention, the lower pressing plate comprises a lower pushing block, a resilient sheet, an extrusion block and a bearing plate, the lower pushing block is in clearance fit with the bearing plate, the resilient sheet is arranged between the lower pushing block and the bearing plate, the extrusion block and the lower pushing block are of an integrated structure, and the three extrusion blocks are uniformly and symmetrically distributed on the bearing plate.

The invention has the following beneficial effects:

1. can stop the mud in the sewage in the outside through hindering the mud piece, and sewage after filtering can be discharged into under the water-permeable cavity on taking out the board, and the sewage that emits into passes through the lower bolster and emits into the lower floor, and through the extrusion of the sewage of rushing into once more to the atress piece production, can make atress piece extrusion plate body slide to the outside along the bottom plate to make the plate body can promote to hinder the mud piece closely laminate with the inner wall of fishplate bar when the shrink, so make the fishplate bar can will hinder adnexed mud on the mud piece and scrape the upper strata of flowing at the fishplate bar.

2. The sewage through the upper end of the extrusion mechanism enters the inside of the extrusion mechanism, the extension frame can be pushed to extrude the upper end of the fine filter plate, so that the extension frame can be unfolded along the middle fixed plate, the throwing force generated by unfolding the extension frame can enable the lower press plate to swing downwards to extrude the fine filter plate, and the fine filter plate can be effectively prevented from being incapable of following the speed of the upper sewage discharged when a large amount of sewage is discharged.

Drawings

FIG. 1 is a schematic structural diagram of an industrial wastewater treatment and sludge removal device according to the present invention.

FIG. 2 is a schematic structural view of a front section of the deslimer of the present invention.

FIG. 3 is a schematic front view of a half-section of a filter layer according to the present invention.

FIG. 4 is a front half-section schematic view of the tape-out plate of the present invention.

FIG. 5 is a schematic structural diagram of a front section of the force-bearing block of the present invention.

Fig. 6 is a schematic structural view of a front section of the extrusion mechanism of the present invention.

Fig. 7 is a schematic structural view of a front section of the abduction frame of the present invention.

Fig. 8 is a schematic structural view of a front cross section of the connecting rod of the present invention.

In the figure: the device comprises a mud remover-1, a water outlet-2, a water inlet end-3, a tank body-11, a fine filter plate-12, a squeezing mechanism-13, a filter layer-14, a mud blocking block-a 1, a carrying-out plate-a 2, an upper connecting plate-a 3, a lower connecting plate-a 4, a stressed block-a 21, a connecting rod-a 22, a plate body-a 23, a bottom plate-a 24, a water permeable cavity-a 25, a contraction plate-b 1, a lower sliding plate-b 2, an elastic sheet-b 3, a plate surface-b 4, a blocking block-b 5, a connecting plate-c 1, an abduction frame-c 2, an elastic strip-c 3, a middle fixing plate-c 4, a combination plate-c 21, a lower pressing plate-c 22, a water outlet-c 23, a lower pushing block-d 1, an elastic sheet-d 2, a squeezing block-d 3 and a bearing plate-d 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides an industrial wastewater treatment mud removing device which structurally comprises a mud remover 1, a water outlet 2 and a water inlet end 3, wherein the water inlet end 3 is fixedly embedded and connected with the upper end of the mud remover 1, and the mud remover 1 and the water outlet 2 are of an integrated structure; the sludge remover 1 comprises a tank body 11, a fine filter plate 12, a squeezing mechanism 13 and a filter layer 14, wherein the fine filter plate 12 is embedded in the inner wall of the tank body 11, the squeezing mechanism 13 is installed in the inner position of the fine filter plate 12, and the filter layer 14 and the fine filter plate 12 are of an integrated structure.

Wherein, the filter layer 14 includes that hinder mud piece a1, take out board a2, top connection board a3, lower connecting plate a4, hinder mud piece a1 and take out board a2 embedded solid and be connected, take out board a2 and run through the inside position in top connection board a3, top connection board a3 and lower connecting plate a4 integral structure, it is equipped with six to take out board a2, and even be parallel distribution between bottom connection board a4 and top connection board a3, through the downward pressure that waste water produced to top connection board a3, can make and take out board a2 upwards to stretch out.

The belt-out plate a2 comprises a stress block a21, a connecting rod a22, a plate body a23, a bottom plate a24 and a water permeable cavity a25, the stress block a21 is in clearance fit between the two plate bodies a23, one end of the connecting rod a22 is hinged to the stress block a21, the other end of the connecting rod a22 is movably clamped with the plate body a23, the plate body a23 is in clearance fit with the bottom plate a24, the water permeable cavity a25 is movably clamped with the plate body a23, the two plate bodies a23 are arranged and are uniformly and symmetrically distributed at the upper end of the bottom plate a24, and the stress block a21 can press the connecting rod a22 downwards by pressing the sewage on the stress block a21, so that the connecting rod a22 can push the plate body a23 to slide towards two sides along the bottom plate a 24.

The stress block a21 comprises a contraction plate b1, a lower sliding plate b2, an elastic sheet b3, a plate surface b4 and a blocking block b5, the contraction plate b1 is in clearance fit with the plate surface b4, the upper end of the lower sliding plate b2 is fixedly connected with the bottom of the contraction plate b1, the lower sliding plate b2 is movably clamped with the plate surface b4, the elastic sheet b3 is fixedly embedded in the inner wall of the plate surface b4, the blocking block b5 and the contraction plate b1 are of an integrated structure, the blocking block b5 is made of textile fibers with high water permeability, and the blocking block b5 can prevent sludge from entering the interior of the stress block when moisture enters the space between the contraction plate b1 and the plate surface b 4.

The detailed use method and action of the embodiment are as follows:

in the invention, the water inlet end 3 of the sludge remover 1 is positioned in the middle of the upper end thereof, so that sewage can firstly impact the middle of the filter layer 14 when entering the sludge remover 1, thereby the sludge intercepted by the filter layer 14 can be extruded to the range outside the middle of the filter layer 14, the sludge can be firstly accumulated around the filter layer 14 to the saturated state, the area of the middle part of the filter layer 14 capable of filtering the sludge is reduced, the filtering efficiency of the filter layer 14 on the wastewater is reduced, the problems can be effectively solved through the take-out plate a2 on the filter layer 14, the take-out plate a3 can be downwards contracted through the extrusion of the sewage on the upper plate a3 on the filter layer 14, thereby the take-out plate a2 can upwards extend out along the upper plate a3, the sludge in the sewage can be blocked outside through the sludge blocking block a1, and the filtered sewage can be discharged into the lower part of the water permeable cavity a25 on the take-out plate a2, the sewage drained into the lower layer is drained into the lower layer through the lower connecting plate a4, and the stress block a21 is pressed by the sewage flushed again, so that the stress block a21 presses the plate body a23 to slide outwards along the bottom plate a24, so that the plate body a23 can push the mud-blocking block a1 to be tightly attached to the inner wall of the upper plate a3 when the plate body a23 is contracted, so that the upper connecting plate a3 can scrape the sludge attached to the sludge blocking block a1 on the upper layer of the upper connecting plate a3, so that the mud-blocking block a1 can be used again, and a part of sewage without mud can be stored inside the contraction plate b1 and the plate surface b4 before the sewage extrudes the contraction plate b1 to contract downwards through the blocking block b5, when the contraction plate b1 contracts downwards, sewage extruded upwards through the contraction plate b1 can flush away sludge on the stress block a21, and the condition that the sludge is concentrated around the filter layer 14 to cause the reduction of the sludge filtering efficiency of the filter layer 14 is effectively avoided.

Example 2

As shown in fig. 6-8:

the squeezing mechanism 13 comprises a connecting plate c1, a abduction frame c2, an elastic strip c3 and a middle fixing plate c4, wherein the connecting plate c1 is connected with the abduction frame c2 through the elastic strip c3, the abduction frame c2 is hinged with the bottom of the middle fixing plate c4, two abduction frames c2 are arranged and are uniformly distributed at the bottom of the middle fixing plate c4 in a symmetrical mode, and the abduction frame c2 can swing outwards along the middle fixing plate c4 through squeezing of objects on the abduction frame c 2.

Wherein, abduction frame c2 includes combination board c21, holding down plate c22, outlet c23, holding down plate c22 and combination board c 21's bottom hinged joint, outlet c23 and combination board c21 structure as an organic whole, outlet c23 is inside and outside penetrating structure, can be with the inside moisture discharge of structure through outlet c 23.

The lower pressing plate c22 comprises a lower pushing block d1, a springback piece d2, an extrusion block d3 and a bearing plate d4, the lower pushing block d1 is in clearance fit with the bearing plate d4, the springback piece d2 is installed between the lower pushing block d1 and the bearing plate d4, the extrusion block d3 and the lower pushing block d1 are of an integrated structure, the extrusion block d3 is three, the three extrusion blocks are uniformly distributed on the bearing plate d4 in a symmetrical mode, and the extrusion block d3 can be pushed by the lower pushing block d1 to extrude the mechanism through swinging throwing force of an object.

The detailed use method and action of the embodiment are as follows:

in the invention, because the volume of the fine filter plate 12 is limited, when the fine filter plate 12 discharges a large amount of sewage, the sewage discharge speed of the upper layer of the fine filter plate 12 cannot be kept up with the sewage discharge speed, so that the sewage filtered by the upper layer of the fine filter plate 12 cannot be discharged downwards, the problems can be effectively solved by the abduction frame c2 on the squeezing mechanism 13, the sewage at the upper end of the squeezing mechanism 13 enters the inside of the squeezing mechanism 13, the abduction frame c2 can be pushed to squeeze the upper end of the fine filter plate 12, the abduction frame c2 can be unfolded along the middle fixed plate c4, and the lower push block d1 can push the squeezing block d3 to press the fine filter plate 12 downwards by the throwing force generated by the expansion of the abduction frame c2, therefore, sewage in the a12 can be extruded downwards, and the situation that the sewage which is filtered by the upper layer of the fine filter plate 12 cannot be discharged downwards continuously due to the fact that the fine filter plate 12 cannot keep up with the discharge speed of the sewage above when a large amount of sewage is discharged downwards is 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 (7)

1. The utility model provides an industrial wastewater handles desilt equipment, its structure includes desilt ware (1), delivery port (2), intakes end (3), it is connected its characterized in that to intake end (3) and the upper end of desilt ware (1) to inlay solid: the sludge remover (1) and the water outlet (2) are of an integrated structure;

the mud remover (1) comprises a tank body (11), a fine filter plate (12), an extrusion mechanism (13) and a filter layer (14), wherein the fine filter plate (12) is embedded in the inner wall of the tank body (11), the extrusion mechanism (13) is installed in the inner position of the fine filter plate (12), and the filter layer (14) and the fine filter plate (12) are of an integrated structure.

2. The industrial wastewater treatment mud removal device of claim 1, wherein: the filter layer (14) comprises a mud blocking block (a 1), a take-out plate (a 2), an upper connecting plate (a 3) and a lower connecting plate (a 4), the mud blocking block (a 1) is fixedly connected with the take-out plate (a 2) in an embedded mode, the take-out plate (a 2) penetrates through the inner position of the upper connecting plate (a 3), and the upper connecting plate (a 3) and the lower connecting plate (a 4) are of an integrated structure.

3. The industrial wastewater treatment mud removal device of claim 2, wherein: the belt-out plate (a 2) comprises a stress block (a 21), a connecting rod (a 22), a plate body (a 23), a bottom plate (a 24) and a water permeable cavity (a 25), wherein the stress block (a 21) is in clearance fit between the two plate bodies (a 23), one end of the connecting rod (a 22) is hinged to the stress block (a 21), the other end of the connecting rod (a 22) is movably clamped with the plate body (a 23), the plate body (a 23) is in clearance fit with the bottom plate (a 24), and the water permeable cavity (a 25) is movably clamped with the plate body (a 23).

4. The industrial wastewater treatment mud removal device of claim 3, wherein: atress piece (a 21) is including shrink board (b 1), lower slide plate (b 2), elastic sheet (b 3), face (b 4), separation piece (b 5), shrink board (b 1) and face (b 4) clearance fit, the upper end of lower slide plate (b 2) is inlayed admittedly with the bottom of shrink board (b 1) and is connected, and lower slide plate (b 2) and face (b 4) activity block, elastic sheet (b 3) is inlayed admittedly in the inner wall position of face (b 4), separation piece (b 5) and shrink board (b 1) are the integrated structure.

5. The industrial wastewater treatment mud removal device of claim 1, wherein: the squeezing mechanism (13) comprises a connecting plate (c 1), a abduction frame (c 2), an elastic strip (c 3) and a middle fixing plate (c 4), wherein the connecting plate (c 1) is connected with the abduction frame (c 2) through the elastic strip (c 3), and the abduction frame (c 2) is hinged with the bottom of the middle fixing plate (c 4).

6. The industrial wastewater treatment mud removal device of claim 5, wherein: abduction frame (c 2) includes joint plate (c 21), holding down plate (c 22), outlet (c 23), holding down plate (c 22) and the bottom hinged joint of joint plate (c 21), outlet (c 23) and joint plate (c 21) structure as an organic whole.

7. The industrial wastewater treatment mud removal device of claim 6, wherein: the lower pressing plate (c 22) comprises a lower pushing block (d 1), a rebound piece (d 2), an extrusion block (d 3) and an accepting plate (d 4), the lower pushing block (d 1) is in clearance fit with the accepting plate (d 4), the rebound piece (d 2) is installed between the lower pushing block (d 1) and the accepting plate (d 4), and the extrusion block (d 3) and the lower pushing block (d 1) are of an integrated structure.

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