CN223522391U - A wastewater treatment device - Google Patents

Abstract

This utility model discloses a wastewater treatment device, specifically relating to the field of wastewater treatment equipment. It includes a tank body, a solid particle removal tank, a coagulation sedimentation tank, and a membrane separation filtration tank. The upper surface of the tank body is excavated to form the solid particle removal tank, the coagulation sedimentation tank, and the membrane separation filtration tank, with the coagulation sedimentation tank located between the solid particle removal tank and the membrane separation filtration tank. A partition is installed between the solid particle removal tank, the coagulation sedimentation tank, and the membrane separation filtration tank. A removal component is installed above the inner cavity of the solid particle removal tank. Industrial wastewater is first filtered with large particles to prevent subsequent residue from clogging the filter membrane. Microfiltration membranes, ultrafiltration membranes, and nanofiltration membranes are respectively installed on the outer surfaces of the first filter frame, the second filter frame, and the third filter frame. Utilizing this structure, when filtering industrial wastewater, it can accommodate filtering large volumes of wastewater while avoiding the addition of excessive chemicals, ultimately resulting in clean water.

Description

Waste water treatment equipment

Technical Field

The present utility model relates to the field of wastewater treatment equipment, and more particularly, to wastewater treatment equipment.

Background

The waste water treatment equipment is equipment for treating industrial waste water and domestic sewage, and mainly aims to remove pollutants in the waste water to enable the waste water to reach national relevant emission standards, so that environmental pollution and waste of water resources are reduced. The waste water treatment equipment generally comprises pretreatment equipment, biochemical treatment equipment, advanced treatment equipment, sludge treatment equipment and the like, and industrial waste water comprises production waste water, production sewage and cooling water, namely waste water and waste liquid generated in the industrial production process, wherein the waste water and the waste liquid contain industrial production materials, intermediate products and byproducts which are lost along with water and pollutants generated in the production process;

As disclosed in application number CN202320918759.2, an industrial sewage treatment device is disclosed, through the design of a rotatable filter screen cylinder and a cleaning box, different parts of the filter screen cylinder can be degreased and cleaned, the filter screen cylinder is prevented from being sticky and blocking filter meshes due to long-time use, the end cover can be detached from the end part of the filter screen cylinder through the spiral connection design between the end cover and the filter screen cylinder, so that filtered solid matters in the filter screen cylinder can be cleaned conveniently;

accordingly, a wastewater treatment apparatus is proposed for the above-mentioned problems.

Disclosure of utility model

In order to overcome the above-mentioned drawbacks of the prior art, the present utility model provides a wastewater treatment apparatus to solve the above-mentioned problems of the prior art.

In order to achieve the purpose, the wastewater treatment equipment comprises a tank body, a solid particle impurity removal tank, a coagulating sedimentation tank and a membrane separation filter tank, wherein the solid particle impurity removal tank, the coagulating sedimentation tank and the membrane separation filter tank are dug at the upper end face of the tank body, the coagulating sedimentation tank is positioned between the solid particle impurity removal tank and the membrane separation filter tank, a baffle is arranged between the solid particle impurity removal tank, the coagulating sedimentation tank and the membrane separation filter tank, an impurity removal component is arranged above an inner cavity of the solid particle impurity removal tank, a material scattering component is arranged above an inner cavity of the coagulating sedimentation tank, a filter screen frame is arranged in an inner cavity of the membrane separation filter tank, liquid level sensors are arranged on side walls of the inner cavities of the solid particle impurity removal tank, the coagulating sedimentation tank and the membrane separation filter tank, and a stirring mechanism is arranged below the material scattering component.

Preferably, the baffle is provided with two sets of, and the lateral surface of baffle transversely runs through and is provided with supplementary kuppe, supplementary kuppe comprises through-hole and rotatory impeller piece, and the through-hole transversely runs through and install the lateral surface at the baffle to rotatory impeller piece is installed through the mounting bracket to the inboard of through-hole, rotatory impeller piece is provided with driving motor with the contact surface of mounting bracket, two sets of highly different of baffle, and one of them set of the up end of baffle is provided with the filter frame, supplementary kuppe is provided with a plurality of groups.

Preferably, the edulcoration subassembly is including rotatory running roller and collection pole, the external diameter surface of rotatory running roller is provided with a plurality of groups and collects the pole, and collects the even equidistance of pole and arrange at the external diameter surface of rotatory running roller, the center department of rotatory running roller is provided with driving motor, one side of rotatory running roller is provided with tooth barre, and tooth barre and the collection pole staggered arrangement of rotatory running roller external diameter surface arrange, the inner chamber of solid particle edulcoration pond is provided with first solid and collects the frame, and one side of first solid is provided with the solid and collects the frame of second.

Preferably, the material scattering component comprises a supporting frame and a first driving module, wherein the first driving module is arranged at the center of the supporting frame, and a water sprinkling pipe is arranged at the output end of the first driving module.

Preferably, the filter screen frame comprises a limit frame and a first filter screen frame, the bottom end face of the limit frame is provided with the first filter screen frame, one side of the first filter screen frame is provided with a second filter screen frame, one side, far away from the first filter screen frame, of the second filter screen frame is provided with a third filter screen frame, and the side end face of the membrane separation filter tank is provided with a drain hole in a penetrating mode.

Preferably, the stirring mechanism comprises a second driving module and a stirring rod, the second driving module comprises a driving motor and a bevel gear, the output end of the driving motor is provided with the bevel gear, the bevel gear is provided with two groups, the bevel gears are in meshed connection, the stirring rod is arranged at the center of one group of the bevel gears, and the second driving module has the same structure as the first driving module.

The utility model has the technical effects and advantages that:

Compared with the prior art, this waste water treatment equipment is when using, wherein at first carry out large granule to industrial waste water and filter, avoid follow-up residue to block up filtration membrane, and microfiltration membrane, milipore filter and nanofiltration membrane install respectively at the surface of first filter screen frame, second filter screen frame and third filter screen frame, utilize above-mentioned structure, when filtering industrial waste water, can adapt to and filter more waste water, can also avoid adding too much chemical substance simultaneously, finally obtain clean rivers.

Compared with the prior art, this waste water treatment equipment is when using, wherein industrial waste water gets into solid particle edulcoration pond at first, and clear up the solid impurity in the waste water through edulcoration subassembly, wherein start driving motor, driving motor drives rotatory running roller and rotates, and then collect solid particle through the collection pole on rotatory running roller external diameter surface, and collect pole and tooth barre staggered arrangement, so that will collect the pole and place solid particle on tooth barre, and then separate solid particle in the waste water and waste water, collect the frame through first solid and second solid and collect the solid particle in the waste water further, first solid is collected the frame and the filter screen is constituteed with the second solid to the net frame simultaneously, can avoid impurity to block up subsequent filter membrane, can clear up the impurity again.

Compared with the prior art, this waste water treatment equipment is when using, wherein will carry out the water of edulcoration through the through-hole flow direction coagulating sedimentation tank's of the supplementary kuppe of baffle side terminal surface inner chamber, and wherein rotatory impeller piece rotates, and then the waste water with solid particle edulcoration pond inner chamber drives coagulating sedimentation tank's inner chamber, can also further filter through the filter stand simultaneously, start the second drive module in the rabbling mechanism simultaneously, the second drive module drives the puddler and rotates, thereby stir waste water, and start and spill first drive module in the material subassembly, drive the watering pipe through first drive module and rotate, and the watering pipe external connection has the coagulant, so as to further clear up waste water, and carry the inner chamber of membrane separation filter tank with the waste water of coagulating sedimentation tank inner chamber through the baffle in the above-mentioned structure, thereby further clear up waste water.

Compared with the prior art, this waste water treatment equipment is when using, wherein the water that flows to membrane separation filtering ponds inner chamber leads to filter screen frame and further filters waste water, wherein through first filter screen frame on the spacing, second filter screen frame and third filter screen frame, and the micro-filtration membrane, the milipore filter and receive the surface of filter screen frame at first filter screen frame respectively, second filter screen frame and third filter screen frame, utilize above-mentioned structure, when filtering industrial waste water, can adapt to and filter more waste water, can also avoid adding too much chemical substance simultaneously, finally obtain clean rivers, and the water yield of clean water yield is got rid of through the wash port in the follow-up, simultaneously liquid level sensor utilizes real-time supervision solid particle edulcoration pond, coagulating sedimentation tank and membrane separation filtering ponds inner chamber.

Drawings

FIG. 1 is a schematic view of the front cross-section structure of the present utility model.

Fig. 2 is a schematic perspective view of a cell body according to the present utility model.

Fig. 3 is a schematic diagram of the front cross-section structure of the auxiliary dome of the present utility model.

FIG. 4 is a schematic diagram of the front sectional structure of the membrane separation filter tank of the utility model.

The device comprises a tank body, a solid particle impurity removing tank, a coagulating sedimentation tank, a membrane separation filter tank, a baffle plate, a secondary air guide sleeve, a through hole, a rotary impeller blade, a filter frame, a 6 impurity removing component, a 61 rotating roller, a 62 collecting rod, a 63, a tooth handle rod, a 64, a first solid collecting frame, a 65, a second solid collecting frame, a 7, a spreading component, a 71, a support frame, a 72, a first driving module, a 73, a sprinkling pipe, a 8, a filter screen frame, a 81, a limiting frame, a 82, a first filter screen frame, a 83, a second filter screen frame, a 84, a third filter screen frame, a 85, a drain hole, a 9, a liquid level sensor, a 10, a stirring mechanism, a 101, a second driving module and a 102 and a stirring rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

The utility model provides a waste water treatment equipment as shown in fig. 1 to 3, including cell body 1, solid particle edulcoration pond 2, coagulating sedimentation tank 3 and membrane separation filter tank 4, the up end of cell body 1 is dug and is equipped with solid particle edulcoration pond 2, coagulating sedimentation tank 3 and membrane separation filter tank 4, and coagulating sedimentation tank 3 is located between solid particle edulcoration pond 2 and membrane separation filter tank 4, be provided with baffle 5 between solid particle edulcoration pond 2, coagulating sedimentation tank 3 and the membrane separation filter tank 4, the top of solid particle edulcoration pond 2 inner chamber is provided with edulcoration subassembly 6, the top of coagulating sedimentation tank 3 inner chamber is provided with and spills material subassembly 7, the inner chamber of membrane separation filter tank 4 is provided with filter screen frame 8, the lateral wall of solid particle edulcoration pond 2, coagulating sedimentation tank 3 and membrane separation filter tank 4 inner chamber all is provided with liquid level sensor 9, the below of spilling material subassembly 7 is provided with rabbling mechanism 10, wherein carry out big particle filtration at first to industrial waste water, avoid subsequent residue to block up, and the filter membrane, milipore filter and nanofiltration membrane are installed respectively on first frame 82, second frame 83 and third filter screen 84, the filter screen is simultaneously can also be met to the filter the surface of many clean waste water when filtering structures are used to the waste water, the filter quality is more can be obtained, and the filter material is filtered to the filter structure.

Example 2

The scheme in example 1 is further elaborated on the basis of example 1 in connection with the following specific working modes, as shown in fig. 1 to 4, described in detail below:

As a preferred embodiment, the stirring mechanism 10 comprises a second driving module 101 and a stirring rod 102, the second driving module 101 comprises a driving motor and a bevel gear, wherein the output end of the driving motor is provided with the bevel gear, the bevel gear is provided with two groups, the bevel gears are in meshed connection, the stirring rod 102 is arranged at the center of one group of the bevel gears, the second driving module 101 is the same as the first driving module 72 in structure, the partition plate 5 is provided with two groups, the side end surface of the partition plate 5 transversely penetrates through and is provided with an auxiliary guide cover 51, the auxiliary guide cover 51 consists of a through hole 52 and a rotary impeller blade 53, the through hole 52 transversely penetrates through and is arranged on the side end surface of the partition plate 5, the rotary impeller blade 53 is arranged on the inner side of the through hole 52 through a mounting frame, the contact surface of the rotary impeller blade 53 and the mounting frame is provided with the driving motor, the heights of the two groups of partition plates 5 are different, and wherein the upper end face of one group of baffle plates 5 is provided with a filter frame 54, the auxiliary air guide sleeve 51 is provided with a plurality of groups, the material scattering component 7 comprises a support frame 71 and a first driving module 72, the first driving module 72 is arranged at the center of the support frame 71, the output end of the first driving module 72 is provided with a water sprinkling pipe 73, the water subjected to impurity removal flows to the inner cavity of the coagulating sedimentation tank 3 through the through holes 52 of the auxiliary air guide sleeve 51 on the side end face of the baffle plates 5, and the rotating impeller blades 53 rotate, so that the waste water in the inner cavity of the solid particle purifying tank 2 drives the inner cavity of the coagulating sedimentation tank 3, and can be filtered further through the filter frame 54, meanwhile, the second driving module 101 in the stirring mechanism 10 is started, the second driving module 101 drives the stirring rod 102 to rotate, so as to stir the waste water, and the first driving module 72 in the material scattering component 7 is started, the sprinkler pipe 73 is driven to rotate through the first driving module 72, and the sprinkler pipe 73 is externally connected with a coagulant so as to further clean the wastewater, and the wastewater in the inner cavity of the coagulating sedimentation tank 3 is conveyed to the inner cavity of the membrane separation filter tank 4 through the partition board 5 in the structure, so that the wastewater is further cleaned.

As a preferred embodiment, the impurity removing unit 6 comprises a rotary roller 61 and a collecting rod 62, the outer diameter surface of the rotary roller 61 is provided with a plurality of groups of collecting rods 62, the collecting rods 62 are uniformly and equidistantly arranged on the outer diameter surface of the rotary roller 61, a driving motor is arranged at the center of the rotary roller 61, one side of the rotary roller 61 is provided with a tooth handle 63, the tooth handle 63 and the collecting rods 62 on the outer diameter surface of the rotary roller 61 are arranged in a staggered manner, the inner cavity of the solid particle impurity removing tank 2 is provided with a first solid collecting frame 64, one side of the first solid collecting frame 64 is provided with a second solid collecting frame 65, industrial wastewater firstly enters the solid particle impurity removing tank 2, and solid impurities in the wastewater are cleaned by the impurity removing unit 6, wherein start driving motor, driving motor drives rotatory running roller 61 and rotates, and then collect solid particles through the collection pole 62 on rotatory running roller 61 external diameter surface, and collect pole 62 and tooth barre 63 staggered arrangement and arrange, so that will collect pole 62 and place solid particles on tooth barre 63, and then separate solid particles in the waste water and waste water, collect the solid particles in the waste water through first solid collection frame 64 and second solid collection frame 65 simultaneously, first solid collection frame 64 and second solid collection frame 65 have netted frame and filter screen to constitute simultaneously, can avoid impurity to block up subsequent filter membrane, can clear up the impurity again.

As a preferred embodiment, the filter screen frame 8 includes a limit frame 81 and a first filter screen frame 82, the bottom end surface of the limit frame 81 is provided with the first filter screen frame 82, and one side of the first filter screen frame 82 is provided with the second filter screen frame 83, and one side of the second filter screen frame 83 away from the first filter screen frame 82 is provided with the third filter screen frame 84, the side end surface of the membrane separation filter tank 4 is provided with a drain hole 85 in a penetrating manner, the water flowing to the inner cavity of the membrane separation filter tank 4 is further filtered by the water through filter screen frame 8, wherein the first filter screen frame 82, the second filter screen frame 83 and the third filter screen frame 84 on the limit frame 81, and the micro-filtration membrane, the ultra-filtration membrane and the nanofiltration membrane are respectively installed on the outer surfaces of the first filter screen frame 82, the second filter screen frame 83 and the third filter screen frame 84, by utilizing the structure, when filtering industrial wastewater, more waste water can be filtered by adapting to the filtering, excessive chemical substances can be avoided to be added, and finally clean water flow can be obtained, and the water quantity monitored by the drain hole 85 is further filtered by the water through the filter screen frame 8, and the water quantity monitored by the real-time particle liquid level sensor 9.

The working process of the utility model is as follows: the industrial wastewater firstly enters the solid particle impurity removal tank 2 and is cleaned by the impurity removal component 6, wherein a driving motor is started and drives a rotary roller 61 to rotate, solid particles are collected by a collecting rod 62 on the outer diameter surface of the rotary roller 61, the collecting rod 62 and a tooth handle 63 are arranged in a staggered manner, so that the solid particles are placed on the tooth handle 63 by the collecting rod 62, the solid particles in the wastewater are further collected by a first solid collecting frame 64 and a second solid collecting frame 65, the first solid collecting frame 64 and the second solid collecting frame 65 are composed of a net frame and a filter screen, the water for impurity removal flows to the inner cavity of the coagulation sedimentation tank 3 by the through holes 52 of an auxiliary guide cover 51 on the side end face of the baffle 5, and the rotary impeller blades 53 rotate, the method comprises the steps that waste water in the inner cavity of a solid particle impurity removal tank 2 drives the inner cavity of a coagulating sedimentation tank 3 to be further filtered by utilizing a filter frame 54, a second driving module 101 in a stirring mechanism 10 is started, the second driving module 101 drives a stirring rod 102 to rotate to stir the waste water, a first driving module 72 in a spreading component 7 is started, a sprinkling pipe 73 is driven to rotate by utilizing the first driving module 72, the sprinkling pipe 73 is externally connected with a coagulant, the waste water in the inner cavity of the coagulating sedimentation tank 3 is conveyed to the inner cavity of a membrane separation filter tank 4 by utilizing a partition plate 5, water flowing to the inner cavity of the membrane separation filter tank 4 is further filtered by utilizing a filter frame 8, the waste water is further filtered by utilizing a first filter screen frame 82, a second filter screen frame 83 and a third filter screen frame 84 on a limiting frame 81, and a microfiltration membrane, an ultrafiltration membrane and a nanofiltration membrane are respectively arranged on the first filter screen frame 82, the outer surfaces of the second filter screen frame 83 and the third filter screen frame 84 can adapt to filtering more waste water to obtain clean water flow when filtering industrial waste water, and finally the clean water flow is discharged by utilizing the drain holes 85, and meanwhile, the water level sensor 9 monitors the water flow of the inner cavities of the solid particle impurity removal tank 2, the coagulating sedimentation tank 3 and the membrane separation filter tank 4 in real time.

Claims (6)

1. The wastewater treatment equipment comprises a tank body (1), a solid particle impurity removal tank (2), a coagulating sedimentation tank (3) and a membrane separation filter tank (4), and is characterized in that the solid particle impurity removal tank (2), the coagulating sedimentation tank (3) and the membrane separation filter tank (4) are dug on the upper end face of the tank body (1), the coagulating sedimentation tank (3) is located between the solid particle impurity removal tank (2) and the membrane separation filter tank (4), a partition plate (5) is arranged between the solid particle impurity removal tank (2), the coagulating sedimentation tank (3) and the membrane separation filter tank (4), an impurity removal component (6) is arranged above the inner cavity of the solid particle impurity removal tank (2), a material scattering component (7) is arranged above the inner cavity of the coagulating sedimentation tank (3), a filter screen frame (8) is arranged in the inner cavity of the membrane separation filter tank (4), liquid level sensors (9) are arranged on the side walls of the inner cavities of the solid particle impurity removal tank (2), the coagulating sedimentation tank (3) and the membrane separation filter tank (4), and a stirring mechanism (10) is arranged below the material scattering component (7).

2. A wastewater treatment device according to claim 1, wherein two groups of partition boards (5) are arranged, auxiliary air guide covers (51) are transversely arranged on the side end faces of the partition boards (5) in a penetrating mode, each auxiliary air guide cover (51) is composed of a through hole (52) and rotary impeller blades (53), the through holes (52) are transversely arranged on the side end faces of the partition boards (5) in a penetrating mode, the rotary impeller blades (53) are arranged on the inner sides of the through holes (52) through mounting frames, driving motors are arranged on the contact surfaces of the rotary impeller blades (53) and the mounting frames, the heights of the two groups of partition boards (5) are different, filter frames (54) are arranged on the upper end faces of one group of partition boards (5), and a plurality of groups of auxiliary air guide covers (51) are arranged.

3. The wastewater treatment device according to claim 1, wherein the impurity removal component (6) comprises a rotary roller (61) and collecting rods (62), the outer diameter surface of the rotary roller (61) is provided with a plurality of groups of collecting rods (62), the collecting rods (62) are uniformly and equidistantly arranged on the outer diameter surface of the rotary roller (61), a driving motor is arranged at the center of the rotary roller (61), one side of the rotary roller (61) is provided with a tooth handle (63), the tooth handle (63) and the collecting rods (62) on the outer diameter surface of the rotary roller (61) are arranged in a staggered mode, the inner cavity of the solid particle impurity removal tank (2) is provided with a first solid collecting frame (64), and one side of the first solid collecting frame (64) is provided with a second solid collecting frame (65).

4. A wastewater treatment apparatus according to claim 1, wherein the material spreading component (7) comprises a support frame (71) and a first driving module (72), the first driving module (72) is arranged at the center of the support frame (71), and a water spreading pipe (73) is arranged at the output end of the first driving module (72).

5. A wastewater treatment apparatus according to claim 1, wherein the screen frame (8) comprises a limit frame (81) and a first screen frame (82), the bottom end surface of the limit frame (81) is provided with the first screen frame (82), one side of the first screen frame (82) is provided with a second screen frame (83), one side of the second screen frame (83) far away from the first screen frame (82) is provided with a third screen frame (84), and the side end surface of the membrane separation filter tank (4) is provided with a drain hole (85) in a penetrating manner.

6. A wastewater treatment apparatus according to claim 4, wherein the stirring mechanism (10) comprises a second driving module (101) and a stirring rod (102), the second driving module (101) comprises a driving motor and conical gears, wherein the output end of the driving motor is provided with the conical gears, the conical gears are provided with two groups, the conical gears are meshed with each other, the stirring rod (102) is arranged at the center of one group of the conical gears, and the second driving module (101) has the same structure as the first driving module (72).