CN220618635U - Buried type aerobic biomembrane process weaving and dyeing wastewater treatment equipment - Google Patents

Buried type aerobic biomembrane process weaving and dyeing wastewater treatment equipment Download PDF

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Publication number
CN220618635U
CN220618635U CN202322187633.5U CN202322187633U CN220618635U CN 220618635 U CN220618635 U CN 220618635U CN 202322187633 U CN202322187633 U CN 202322187633U CN 220618635 U CN220618635 U CN 220618635U
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China
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fixedly connected
wall
bevel gear
dyeing wastewater
wastewater treatment
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蒋蓓蓓
秦国军
陆继峰
周科
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Zhang Gaoxin Zhangjiagang Environmental Technology Co ltd
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Zhang Gaoxin Zhangjiagang Environmental Technology Co ltd
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Abstract

The utility model discloses a buried aerobic biomembrane process weaving and dyeing wastewater treatment device, which relates to the technical field of weaving and dyeing wastewater treatment devices, and comprises a protection outer wall, wherein the upper end of the left side of the protection outer wall is fixedly connected with the right side of a water inlet filtering port, a hydraulic power generation and sewage discharge device is arranged, a water wheel in the hydraulic power generation and sewage discharge device can drive a connecting shaft to rotate under the impact of the weaving and dyeing wastewater entering through the water inlet filtering port so as to drive a packing auger to rotate and convey the weaving and dyeing waste deposited in the weaving and dyeing wastewater, the situation that the packing auger cannot rotate due to motor faults during the working of the device is effectively avoided, and an automatic lifting and pressing mechanism is arranged, so that the automatic lifting and pressing mechanism can be taken out and cleaned through grabbing a handle fixed on a fixed column when the weaving and dyeing waste in the automatic lifting and pressing mechanism is excessive, the waste is better cleaned, the occupation of the weaving and dyeing waste to the inside the device is reduced, and the blocking of the weaving and dyeing waste to the device is avoided.

Description

Buried type aerobic biomembrane process weaving and dyeing wastewater treatment equipment
Technical Field
The utility model relates to the field of textile dyeing wastewater treatment equipment, in particular to buried aerobic biomembrane textile dyeing wastewater treatment equipment.
Background
The waste water has the characteristics of high chromaticity, high organic pollutant content, complex components, large water quality change, high biotoxicity and the like, is difficult to biochemically degrade, is developing towards photolysis resistance and pollution resistance, and the biomembrane method is a waste water aerobic biological treatment technology which is parallel to the activated sludge method, is a fixed membrane method, is the artificial and strengthening process of the self-cleaning process of the sewage body, and mainly removes the soluble and colloidal organic pollutants in the waste water.
When the existing aerobic biomembrane process textile dyeing wastewater treatment equipment is optimized, the aspect of improving the disinfection effect is mostly presented, for example, chinese practical patent with the patent number of CN202121972734.8 discloses a buried aerobic biomembrane process wastewater treatment equipment which comprises an aeration tank, wherein an aerator is arranged on the side wall of the aeration tank, one side of the aeration tank is provided with a water inlet channel, a grid is arranged in the water inlet channel, one side of the aeration tank, which is far away from the water inlet channel, is provided with a sedimentation tank for solid-liquid separation, one side of the sedimentation tank, which is far away from the aeration tank, is provided with a disinfection tank, a water flowing channel is arranged between the sedimentation tank and the disinfection tank, and one side of the disinfection tank is provided with a water outlet.
Although the above-mentioned buried aerobic biomembrane sewage treatment equipment has certain advantages, it has certain disadvantages:
1. as shown in fig. 6, the inside of the sedimentation tank and the lower part of the sludge hopper are provided with a sewage discharge tank for accumulating sludge, the sludge hoppers are communicated with the sewage discharge tank, the inside of the sewage discharge tank is rotationally connected with a first worm for transporting the sludge inside the sewage discharge tank to the sludge tank, and the first worm is driven to rotate by a first motor, so that the effect of transporting the sludge is achieved, but the buried aerobic biofilm method sewage treatment equipment is driven by the motor to rotate, the motor fails to drive the worm, so that the equipment is difficult to work normally, and the working efficiency of the equipment is reduced.
2. The buried aerobic biomembrane sewage treatment equipment is easy to cause the condition that a sludge tank is easy to be full when the sludge is conveyed, is unfavorable for the subsequent sludge treatment, and is easy to cause blockage to the inner space of the equipment.
Disclosure of Invention
Therefore, in order to solve the defects, the utility model provides a buried aerobic biofilm method textile dyeing wastewater treatment device.
The utility model is realized in such a way, and a buried aerobic biomembrane process weaving and dyeing wastewater treatment device is constructed, and the device comprises a protective outer wall, wherein the upper end of the left side of the protective outer wall is fixedly connected with the right side of a water inlet filtering port, the upper end of the right side of the protective outer wall is fixedly connected with the upper end of the left side of an aerobic biomembrane reaction box, the middle of the top end of the inner side of the protective outer wall is fixedly connected with the upper end of a stirring mechanism, and the inner side surface of a left hole in the top of the ground protective outer wall is fixedly connected with the upper end of the outer surface of a flocculate input device;
the method is characterized in that: further comprises:
the middle lower end of the outer surface of the hydroelectric power generation sewage disposal device is rotationally connected with the inner surface of the hole at the left lower end of the inner side of the protective outer wall;
the inner side surface of the hole at the left lower end of the automatic lifting extrusion mechanism is in contact with the outer side surface of the right lower end of the hydroelectric power generation sewage disposal device.
Preferably, the hydroelectric power generation sewage disposal device comprises:
the fixed connecting shaft is arranged at the middle end of the left side of the hydroelectric power generation sewage disposal equipment;
the bottom of the first bevel gear is fixedly connected with the top of the fixed connecting shaft;
and the lower end of the second bevel gear is meshed with the front end of the first bevel gear.
Preferably, the hydroelectric power generation sewage disposal device further comprises:
the middle end of the outer surface of the connecting shaft is fixedly connected with the inner surface of the second bevel gear; the rear end of the connecting shaft is rotationally connected with the left upper side of the rear end of the inner side of the protective outer wall;
the inner side surface of the waterwheel is fixedly connected with the front end of the outer surface of the connecting shaft;
and the top of the third bevel gear is fixedly connected with the bottom of the fixed connecting shaft.
Preferably, the hydroelectric power generation sewage disposal device further comprises:
the upper end of the left side of the fourth bevel gear is meshed with the right side of the bottom of the third bevel gear;
the left side of the auger is fixedly connected with the right side of the fourth bevel gear; the left end of the outer surface of the auger is rotationally connected with the inner side surface of a hole at the left end in the bottom of the inner side of the protective outer wall;
the left side of the outer surface of the transmission pipeline is fixedly connected with the inner side surface of a middle-right hole at the inner side lower end of the protective outer wall;
the inner side surface of the hole at the left side of the inner part of the protection outer wall is rotatably connected with the middle lower end of the outer surface of the fixed connecting shaft.
Preferably, the automatic lifting and pressing mechanism comprises:
the removable shell is arranged outside the automatic lifting extrusion mechanism;
the bottom of the handle is fixedly connected with the left side and the right side of the top of the removable shell;
the outer side end surface of the lifting screw is in threaded connection with the inner side surface of the middle end hole at the top of the removable shell.
Preferably, the automatic lifting and pressing mechanism further comprises:
the bottom surface of the rotating wheel is fixedly connected with the top surface of the lifting screw;
the middle side of the top of the extrusion plate is rotationally connected with the bottom surface of the lifting screw;
and the inner side surface of the fixed column is in sliding connection with the left side surface and the right side surface of the extrusion plate.
Preferably, the automatic lifting and pressing mechanism further comprises:
the right side of the sponge block is fixedly connected with the lower end of the right side of the inner side of the removable shell;
the top surface of the water filtering bottom plate is fixedly connected with the bottom surface of the sponge block;
the left end and the right end of the top of the water storage bin are fixedly connected with the right side of the bottom of the outer protection wall;
wherein, removable shell right side and the inside right side surface sliding connection of protection outer wall.
Preferably, nine blades which are equidistantly arranged are arranged on the outer surface of the waterwheel, and the front end of the waterwheel is a cylindrical shaft.
The utility model has the following advantages: the utility model provides a buried aerobic biomembrane textile dyeing wastewater treatment device by improvement, which has the following improvements compared with the same type of device:
according to the buried aerobic biomembrane process weaving and dyeing wastewater treatment equipment, the hydroelectric power generation and pollution discharge equipment is arranged, and the water wheel in the hydroelectric power generation and pollution discharge equipment rotates under the impact of the weaving and dyeing wastewater entering from the water inlet filtering port to drive the connecting shaft to rotate so as to drive the auger to rotate and convey the weaving and dyeing waste precipitated in the weaving and dyeing wastewater, so that the situation that the auger cannot rotate due to motor failure during the operation of the equipment is effectively avoided.
According to the buried aerobic biomembrane process fabric dyeing wastewater treatment equipment, the automatic lifting extrusion mechanism is arranged, the lifting screw is driven by the rotation of the rotating wheel to control the extrusion plate to downwards extrude the fabric dyeing waste, and when the fabric dyeing waste in the automatic lifting extrusion mechanism is excessive, the automatic lifting extrusion mechanism can be taken out and cleaned by grabbing the handle fixed on the fixed column, so that the waste is better cleaned, the occupation of the fabric dyeing waste on the inside of the equipment can be reduced, and the blockage of the fabric dyeing waste on the equipment is avoided.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a cross-sectional view of the present utility model;
FIG. 3 is a schematic view of the hydraulic power generation and drainage apparatus of the present utility model;
FIG. 4 is a cross-sectional view of the automatic lifting and pressing mechanism of the right end portion of the present utility model;
FIG. 5 is a schematic view of the structure of the automatic lifting and pressing mechanism of the present utility model;
fig. 6 is a schematic diagram of the prior art.
Wherein: the sewage treatment device comprises a protective outer wall-1, a water inlet filtering port-2, an aerobic biomembrane reaction box-3, hydroelectric power generation sewage treatment equipment-4, a fixed connecting shaft-41, a first bevel gear-42, a second bevel gear-43, a connecting shaft-44, a waterwheel-45, a third bevel gear-46, a fourth bevel gear-47, a packing auger-48, a transmission pipeline-49, an automatic lifting extrusion mechanism-5, a removable shell-51, a handle-52, a lifting screw-53, a rotating wheel-54, an extrusion plate-55, a fixed column-56, a sponge block-57, a water filtering bottom plate-58, a water storage bin-59, a stirring device-6 and a flocculate input device-7.
Detailed Description
The principles and features of the present utility model are described below with reference to fig. 1-5, the examples being provided for illustration only and not for limitation of the scope of the utility model. The utility model is more particularly described by way of example in the following paragraphs with reference to the drawings. Advantages and features of the utility model will become more apparent from the following description and from the claims. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for convenience and clarity in aiding in the description of embodiments of the utility model.
It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.
Embodiment one:
referring to fig. 1 to 3, the buried aerobic biofilm method weaving and dyeing wastewater treatment device of the utility model comprises a protective outer wall 1, wherein the upper end of the left side of the protective outer wall 1 is fixedly connected with the right side of a water inlet filter 2, the upper end of the right side of the protective outer wall 1 is fixedly connected with the upper end of the left side of an aerobic biofilm reaction box 3, the middle of the top of the inner side of the protective outer wall 1 is fixedly connected with the upper end of a stirring mechanism 6, and the inner side surface of a left hole in the top of the protective outer wall 1 is fixedly connected with the upper end of the outer surface of a flocculating matter input device 7;
the middle lower end of the outer surface of the hydroelectric power generation sewage disposal device 4 is rotationally connected with the inner side surface of the hole at the left lower end of the inner side of the protective outer wall 1;
the inner side surface of the hole at the left lower end of the automatic lifting extrusion mechanism 5 is contacted with the outer side surface of the right lower end of the hydroelectric power sewage disposal device 4;
the fixed connecting shaft 41 is arranged at the middle end of the left side of the hydroelectric power sewage disposal device 4, and the bottom of the first bevel gear 42 is fixedly connected with the top of the fixed connecting shaft 41, so that the first bevel gear 42 is fixed on the top of the fixed connecting shaft 41;
the lower end of the second bevel gear 43 is meshed with the front end of the first bevel gear 42, so that the second bevel gear 43 drives the first bevel gear 42 to rotate when rotating;
the middle end of the outer surface of the connecting shaft 44 is fixedly connected with the inner surface of the second bevel gear 43, and the rear end of the connecting shaft 44 is rotationally connected with the left upper side of the rear end of the inner side of the protective outer wall 1, so that the connecting shaft 44 can drive the second bevel gear 43 to rotate;
the inner side surface of the waterwheel 45 is fixedly connected with the front end of the outer surface of the connecting shaft 44, so that the waterwheel 45 is fixed on the outer surface of the connecting shaft 44; nine blades which are equidistantly arranged are arranged on the outer surface of the waterwheel 45, and the front end of the waterwheel 45 is a cylindrical shaft, so that the waterwheel 45 can rotate;
the top of the third bevel gear 46 is fixedly connected with the bottom of the fixed connection shaft 41, so that the third bevel gear 46 is fixed at the bottom of the fixed connection shaft 41;
the left upper end of the fourth bevel gear 47 is meshed with the right side of the bottom of the third bevel gear 46, so that the third bevel gear 46 drives the fourth bevel gear 47 to rotate when rotating;
the left side of the auger 48 is fixedly connected with the right side of the fourth bevel gear 47; the left end of the outer surface of the auger 48 is rotatably connected with the inner side surface of the hole at the left end in the inner side bottom of the protective outer wall 1, so that the auger 48 can be driven to rotate when the fourth bevel gear 47 rotates;
the left side of the outer surface of the transmission pipeline 49 is fixedly connected with the inner side surface of the middle right hole at the inner side lower end of the protection outer wall 1, so that the transmission pipeline 49 is fixed in the middle right hole at the inner side lower end of the protection outer wall 1;
the middle lower end of the outer surface of the fixed connecting shaft 41 is rotatably connected with the inner side surface of the hole at the left lower end inside the protective outer wall 1, so that the fixed connecting shaft 41 can rotate.
The working principle of the buried aerobic biofilm method weaving and dyeing wastewater treatment equipment based on the embodiment 1 is as follows: when the equipment is buried in the ground, the equipment is not easy to take out, the situation that the auger cannot rotate due to motor faults easily occurs, the weaving and dyeing wastewater entering from the water inlet filter port 2 can drive the waterwheel 45 waterwheel to rotate anticlockwise, the waterwheel 45 can drive the connecting shaft 44 to rotate, the connecting shaft 44 rotates to drive the second bevel gear 43 to rotate, and the second bevel gear 43 rotates to drive the first bevel gear 42 meshed with the second bevel gear to rotate;
the first bevel gear 42 can drive the fixed connection axle 41 to rotate when rotating, and the fixed connection axle 41 can drive the fixed third bevel gear 46 in below to rotate when rotating, and the third bevel gear 46 drives the fourth bevel gear 47 that meshes with it to rotate when rotating, and the fourth bevel gear 47 can drive the auger 48 to rotate and carry the waste material of dyeing of depositing to transmission line 49, can effectually improve the efficiency and the durability of equipment, avoids the motor trouble to lead to the unable pivoted condition of auger.
Embodiment two:
referring to fig. 2 and fig. 4 to fig. 5, the apparatus for treating waste water generated by weaving and dyeing by using a buried aerobic biofilm method according to the present utility model further includes an automatic lifting and pressing mechanism 5 as compared with the first embodiment: the automatic lifting and pressing mechanism 5 includes a removable housing 51;
the removable shell 51 is arranged outside the automatic lifting extrusion mechanism 5, and the bottom of the handle 52 is fixedly connected with the left side and the right side of the top of the removable shell 51, so that the handle 52 is fixed;
the outer side end surface of the lifting screw 53 is in threaded connection with the inner side surface of the middle end hole at the top of the removable housing 51, so that the lifting screw 53 can rotate according to the threads;
the bottom surface of the rotating wheel 54 is fixedly connected with the top surface of the lifting screw 53, so that the rotating wheel 54 is fixed;
the middle side of the top of the extrusion plate 55 is rotatably connected with the bottom surface of the lifting screw 53, so that the lifting screw 53 can rotate on the top of the extrusion plate 55;
the inner side surfaces of the fixed posts 56 are slidably connected with the left and right side surfaces of the extrusion plate 55, so that the extrusion plate 55 can slide;
the right side of the sponge block 57 is fixedly connected with the lower end of the right side of the inner side of the removable shell 51, so that the sponge block 57 is fixed;
the top surface of the water filtering bottom plate 58 is fixedly connected with the bottom surface of the sponge block 57, so that the water filtering bottom plate 58 is fixed;
the left and right ends of the top of the water storage bin 59 are fixedly connected with the right side of the bottom of the protective outer wall 1, so that the water storage bin 59 is fixed;
the right side of the removable housing 51 is slidably connected to the inner right side surface of the protective outer wall 1 so that the removable housing 51 can slide.
The working principle in this embodiment is: when the waste materials of the buried aerobic biomembrane process textile dyeing waste water treatment equipment are accumulated gradually, the waste materials occupy larger space, and are conveyed to the automatic lifting extrusion mechanism 5, the rotating wheel 54 rotates to control the lifting screw 53 to extrude the textile dyeing waste materials downwards with the extrusion plate 55 in the hole in the middle of the top end of the removable shell 51, and the extruded water is absorbed by the sponge block 57, so that the occupied space of the textile dyeing waste materials is reduced;
the inside moisture of sponge piece 57 can be extruded through drainage bottom plate 58 and collected by water storage storehouse 59, has reduced the occupation space of weaving and dyeing waste material, has increaseed the space of storing, after the waste material after the extrusion is full of removable shell 51, can take out automatic lifting extrusion mechanism 5 and clear up the good weaving and dyeing waste material of handling through snatching handle 52 connection fixed column 56, reduces the occupation of waste material, the effectual jam that prevents to weave and dye the waste material and cause.
According to the buried aerobic biomembrane process textile dyeing wastewater treatment equipment, the hydroelectric power generation and sewage disposal equipment 4 is arranged, the water wheel 45 in the hydroelectric power generation and sewage disposal equipment 4 rotates under the impact of textile dyeing wastewater entering through the water inlet filtering port 2 to drive the connecting shaft 44 to rotate so as to drive the auger 48 to rotate so as to convey textile dyeing waste deposited in the textile dyeing wastewater, the phenomenon that the auger cannot rotate due to motor faults when the equipment works is effectively avoided, the automatic lifting extrusion mechanism 5 is arranged, the rotation of the rotating wheel 54 drives the lifting screw 53 to control the extrusion plate 55 to downwards extrude the conveyed textile dyeing waste, and when the textile dyeing waste in the automatic lifting extrusion mechanism 5 is excessive, the automatic lifting extrusion mechanism 5 can be taken out and cleaned through the handle 52 fixed on the fixed column 56, so that the waste is better cleaned, occupation of the textile dyeing waste to the inside the equipment can be reduced, and blockage of the textile dyeing waste to the equipment is effectively prevented.
The basic principle and main characteristics of the utility model and the advantages of the utility model are shown and described above, standard parts used by the utility model can be purchased from market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of the parts adopt conventional means such as mature bolt rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the description is omitted.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The buried aerobic biofilm method weaving and dyeing wastewater treatment equipment comprises a protective outer wall (1), wherein the upper end of the left side of the protective outer wall (1) is fixedly connected with the right side of a water inlet filter (2), the upper end of the right side of the protective outer wall (1) is fixedly connected with the upper end of the left side of an aerobic biofilm reaction box (3), the middle of the top of the inner side of the protective outer wall (1) is fixedly connected with the upper end of a stirring mechanism (6), and the inner side surface of a left hole in the top of the protective outer wall (1) is fixedly connected with the middle upper end of the outer surface of a flocculate input device (7);
the method is characterized in that: further comprises:
the middle lower end of the outer surface of the hydroelectric power generation sewage disposal equipment (4) is rotationally connected with the inner side surface of the hole at the left lower end of the inner side of the protective outer wall (1);
the automatic lifting extrusion mechanism (5), the inner side surface of the hole at the left lower end of the automatic lifting extrusion mechanism (5) is contacted with the outer side surface of the right lower end of the hydroelectric power generation sewage disposal equipment (4).
2. The buried aerobic biofilm process textile dyeing wastewater treatment device according to claim 1, which is characterized in that: the hydroelectric power generation and sewage disposal equipment (4) comprises:
a fixed connecting shaft (41), wherein the fixed connecting shaft (41) is arranged at the middle end of the left side of the hydroelectric power generation sewage disposal equipment (4);
the bottom of the first bevel gear (42) is fixedly connected with the top of the fixed connecting shaft (41);
and the lower end of the second bevel gear (43) is meshed with the front end of the first bevel gear (42).
3. The buried aerobic biofilm process textile dyeing wastewater treatment device according to claim 2, which is characterized in that: the hydroelectric power generation and sewage disposal equipment (4) further comprises:
the middle end of the outer surface of the connecting shaft (44) is fixedly connected with the inner surface of the second bevel gear (43); the rear end of the connecting shaft (44) is rotationally connected with the left upper side of the rear end of the inner side of the protective outer wall (1);
the inner side surface of the waterwheel (45) is fixedly connected with the front end of the outer surface of the connecting shaft (44);
and the top of the third bevel gear (46) is fixedly connected with the bottom of the fixed connecting shaft (41).
4. A buried aerobic biofilm process textile dyeing wastewater treatment device according to claim 3, characterized in that: the hydroelectric power generation and sewage disposal equipment (4) further comprises:
a fourth bevel gear (47), wherein the left upper end of the fourth bevel gear (47) is meshed with the right side of the bottom of the third bevel gear (46);
the left side of the auger (48) is fixedly connected with the right side of the fourth bevel gear (47); the left end of the outer surface of the auger (48) is rotationally connected with the inner side surface of a hole at the left end in the inner side bottom of the protective outer wall (1);
the left side of the outer surface of the transmission pipeline (49) is fixedly connected with the inner side surface of a middle-right hole at the inner side lower end of the protection outer wall (1);
the inner side surface of the left lower end hole inside the protection outer wall (1) is rotatably connected with the middle lower end of the outer surface of the fixed connecting shaft (41).
5. The buried aerobic biofilm process textile dyeing wastewater treatment device according to claim 1, which is characterized in that: the automatic lifting extrusion mechanism (5) comprises:
a removable housing (51), the removable housing (51) being provided outside the automatic lifting/lowering pressing mechanism (5);
the bottom of the handle (52) is fixedly connected with the left side and the right side of the top of the removable shell (51);
and the outer side end surface of the lifting screw (53) is in threaded connection with the inner side surface of the middle end hole at the top of the removable shell (51).
6. The buried aerobic biofilm process textile dyeing wastewater treatment device according to claim 5, which is characterized in that: the automatic lifting extrusion mechanism (5) further comprises:
the bottom surface of the rotating wheel (54) is fixedly connected with the top surface of the lifting screw (53);
the middle side of the top of the extrusion plate (55) is rotationally connected with the bottom surface of the lifting screw (53);
and the inner side surfaces of the fixing columns (56) are in sliding connection with the left side surface and the right side surface of the extrusion plate (55).
7. The buried aerobic biofilm process textile dyeing wastewater treatment device according to claim 6, which is characterized in that: the automatic lifting extrusion mechanism (5) further comprises:
the right side of the sponge block (57) is fixedly connected with the lower end of the right side of the inner side of the removable shell (51);
the top surface of the water filtering bottom plate (58) is fixedly connected with the bottom surface of the sponge block (57);
the left end and the right end of the top of the water storage bin (59) are fixedly connected with the right side of the bottom of the protective outer wall (1);
wherein the right side of the removable shell (51) is in sliding connection with the inner right side surface of the protective outer wall (1).
8. A buried aerobic biofilm process textile dyeing wastewater treatment device according to claim 3, characterized in that: nine blades which are equidistantly arranged are arranged on the outer surface of the waterwheel (45), and the front end of the waterwheel (45) is a cylindrical shaft.
CN202322187633.5U 2023-08-15 2023-08-15 Buried type aerobic biomembrane process weaving and dyeing wastewater treatment equipment Active CN220618635U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322187633.5U CN220618635U (en) 2023-08-15 2023-08-15 Buried type aerobic biomembrane process weaving and dyeing wastewater treatment equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322187633.5U CN220618635U (en) 2023-08-15 2023-08-15 Buried type aerobic biomembrane process weaving and dyeing wastewater treatment equipment

Publications (1)

Publication Number Publication Date
CN220618635U true CN220618635U (en) 2024-03-19

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Application Number Title Priority Date Filing Date
CN202322187633.5U Active CN220618635U (en) 2023-08-15 2023-08-15 Buried type aerobic biomembrane process weaving and dyeing wastewater treatment equipment

Country Status (1)

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