CN222092656U

CN222092656U - An intelligent sewage treatment device

Info

Publication number: CN222092656U
Application number: CN202421044272.7U
Authority: CN
Inventors: 杨涛; 张艳霞; 黄鑫; 杨超
Original assignee: Shandong Mingyang Environmental Protection Technology Co ltd
Current assignee: Shandong Mingyang Environmental Protection Technology Co ltd
Priority date: 2024-05-14
Filing date: 2024-05-14
Publication date: 2024-12-03
Anticipated expiration: 2034-05-14

Abstract

The utility model provides an intelligent sewage treatment device, which relates to the technical field of sewage treatment and comprises a shell, wherein a cleaning mechanism is arranged on the shell and comprises a water pump, a shunt pipe, a motor, a controller and a cylindrical hole, hoses are arranged at the liquid outlet end of the water pump and the liquid inlet end of the water pump, gears are arranged at the outer wall of the shunt pipe close to the liquid inlet end and the liquid outlet end of the motor, and a sealing ring is arranged in the cylindrical hole. According to the utility model, the cleaning mechanism is arranged, so that when the filter plate in the intelligent sewage treatment device is blocked, the treatment can be automatically performed, the sewage treatment time is shortened, the labor capacity of workers is reduced, the use effect of the intelligent sewage treatment device is reduced, and the use efficiency of the intelligent sewage treatment device is also reduced.

Description

Intelligent sewage treatment device

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to an intelligent sewage treatment device.

Background

The sewage is the general term of water discharged in production and living activities, contains various pollutants, and in order to avoid pollution of the sewage to the environment and influence ecological balance, people generally treat the sewage, and discharge the sewage after the sewage reaches the national discharge standard, and a sewage treatment device is needed for treating the sewage.

However, in the prior art, most of the existing intelligent sewage treatment devices can treat sewage when in use, but do not have the function of automatically treating the sewage when the filter plate inside the sewage treatment device is blocked, so that the filter plate needs to be manually treated once blocked, thus not only increasing the sewage treatment time, but also increasing the labor capacity of the staff, reducing the use effect of the intelligent sewage treatment device, and reducing the use efficiency of the intelligent sewage treatment device.

Therefore, we propose an intelligent sewage treatment device to solve the technical problems proposed in the background art.

Disclosure of utility model

The utility model aims to solve the problems that most of the existing intelligent sewage treatment devices in the prior art do not have the function of automatically treating when the filter plates in the device are blocked in the sewage treatment process, so that workers are required to manually treat the filter plates once the filter plates are blocked, the sewage treatment time is prolonged, the labor capacity of the workers is increased, the use effect of the intelligent sewage treatment device is reduced, and the use efficiency of the intelligent sewage treatment device is also reduced.

In order to achieve the aim, the intelligent sewage treatment device adopts the following technical scheme that the intelligent sewage treatment device comprises a shell, wherein a cleaning mechanism is arranged on the shell;

The cleaning mechanism comprises a water pump, a shunt tube, a motor, a controller and a cylindrical hole, wherein hoses are arranged at the liquid outlet end of the water pump and the liquid inlet end of the water pump, gears are arranged at the outer wall of the shunt tube, which is close to the liquid inlet end, and the output end of the motor, and a sealing ring is arranged in the cylindrical hole.

Preferably, the water pump is installed in the upside of casing, water pump and controller electric connection, one of them the liquid inlet end of hose is installed mutually with the liquid outlet end of casing, another the liquid outlet end of hose is installed mutually with the liquid inlet end of shunt tubes, the shunt tubes is fixed to be cup jointed in the inside of sealing washer, the surface at the casing is installed to the motor, the one end that the gear was kept away from to the shunt tubes is rotated through the bearing and is connected the inner wall at the casing.

Preferably, the motor is electrically connected with the controller, teeth of the two gears are meshed, the controller is mounted on the front surface of the shell, the cylindrical hole is formed in the surface of the shell, the inside of the cylindrical hole is communicated with the inside of the shell, and the liquid outlet end of the shunt tube is positioned in the inside of the shell.

Preferably, the inside of casing is close to the fixed water conservancy diversion funnel that has cup jointed in top position, the front surface of casing and the rear surface of casing have all been seted up and have been placed the hole, two place sliding connection has the frame between the inside in hole.

Preferably, the inner wall bottom of frame is provided with ceramic filter, L shaped plate is all installed to two recess departments in top of frame, one side of casing is fixed to run through has the pipe, the inner wall both sides of casing all are fixed with the rectangular plate.

Preferably, the two placing holes are communicated with each other in the shell, the bottom ends of the guide funnels are positioned right above the frame, and the bottoms of the two L-shaped plates are contacted with the top of the ceramic filter plate.

Preferably, the tops of the two rectangular plates are contacted with the bottom of the frame, the shunt tube is positioned right below the frame, and the distance between the water inlet position of the circular tube and the bottom of the inner wall of the shell is larger than the distance between the water inlet position of the liquid outlet end of the shell and the bottom of the inner wall of the shell.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. According to the utility model, the cleaning mechanism is arranged, so that when the filter plate in the intelligent sewage treatment device is blocked, the treatment can be automatically performed, the sewage treatment time is shortened, the labor capacity of workers is reduced, the use effect of the intelligent sewage treatment device is reduced, the use efficiency of the intelligent sewage treatment device is also reduced, the shunt pipe can be rotated through the cooperation of the controller, the motor and the gear, and the treated sewage in the shell can be conveyed to the shunt pipe through the cooperation of the controller, the water pump and the hose.

2. According to the utility model, the ceramic filter plate can be fixed in the frame under the action of the L-shaped plate, sewage flowing down from the guide funnel can be filtered under the action of the ceramic filter plate, the frame can conveniently move between the interiors of the two placement holes under the action of the rectangular plate, and the sewage reaching the bottom of the inner wall of the shell can be guided out under the action of the circular tube.

Drawings

Fig. 1 is a perspective view of an intelligent sewage treatment device according to the present utility model;

FIG. 2 is a perspective view of a portion of an intelligent sewage treatment apparatus according to the present utility model;

FIG. 3 is a perspective view, partly in section, of an intelligent sewage treatment apparatus according to the present utility model;

FIG. 4 is a perspective view of a cleaning mechanism of an intelligent sewage treatment device according to the present utility model;

Fig. 5 is a schematic diagram showing a cross-sectional perspective structure of a frame, an L-shaped plate and a ceramic filter plate of an intelligent sewage treatment device according to the present utility model.

The illustration is 1, a shell, 2, a cleaning mechanism, 201, a water pump, 202, a hose, 203, a shunt tube, 204, a motor, 205, a gear, 206, a controller, 207, a cylindrical hole, 208, a sealing ring, 3, a diversion funnel, 4, a frame, 5, an L-shaped plate, 6, a rectangular plate, 7, a circular tube, 8, a placing hole, 9 and a ceramic filter plate.

Detailed Description

In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.

As shown in fig. 1 to 5, an intelligent sewage treatment device comprises a shell 1, wherein a cleaning mechanism 2 is arranged on the shell 1;

The cleaning mechanism 2 comprises a water pump 201, a shunt tube 203, a motor 204, a controller 206 and a cylindrical hole 207, wherein a liquid outlet end of the water pump 201 and a liquid inlet end of the water pump 201 are respectively provided with a hose 202, a gear 205 is respectively arranged at the position, close to the liquid inlet end, of the outer wall of the shunt tube 203 and the output end of the motor 204, of the cylindrical hole 207, a sealing ring 208 is arranged in the cylindrical hole 207, the water pump 201 is arranged on the upper side of the shell 1, the water pump 201 is electrically connected with the controller 206, the liquid inlet end of one hose 202 is arranged on the liquid outlet end of the shell 1, the liquid outlet end of the other hose 202 is arranged on the liquid inlet end of the shunt tube 203, the shunt tube 203 is fixedly sleeved in the sealing ring 208, the motor 204 is arranged on the surface of the shell 1, one end, far away from the gear 205, of the shunt tube 203 is rotationally connected on the inner wall of the shell 1 through a bearing, the motor 204 is electrically connected with the controller 206, teeth of the two gears 205 are meshed, the controller 206 is arranged on the front surface of the shell 1, the cylindrical hole 207 is arranged on the surface of the shell 1, the inside of the cylindrical hole 207 is communicated with the inside of the shell 1, the liquid outlet end of the shunt tube 203 is positioned in the inside of the shell 1, the guide funnel 3 is fixedly sleeved at the position close to the top of the inside of the shell 1, the front surface of the shell 1 and the rear surface of the shell 1 are respectively provided with a placement hole 8, a frame 4 is slidingly connected between the interiors of the two placement holes 8, the bottom of the inner wall of the frame 4 is provided with a ceramic filter plate 9, L-shaped plates 5 are respectively arranged at the two grooves at the top of the frame 4, one side of the shell 1 is fixedly penetrated with a round tube 7, two rectangular plates 6 are respectively fixed at the two sides of the inner wall of the shell 1, the interiors of the two placement holes 8 are respectively communicated with the inside of the shell 1, the bottom of the guide funnel 3 is positioned right above the frame 4, the bottoms of the two L-shaped plates 5 are respectively contacted with the top of the ceramic filter plate 9, the tops of the two rectangular plates 6 are contacted with the bottom of the frame 4, the shunt tube 203 is positioned under the frame 4, and the distance between the water inlet position of the round tube 7 and the bottom of the inner wall of the shell 1 is larger than the distance between the water inlet position of the liquid outlet end of the shell 1 and the bottom of the inner wall of the shell 1.

The sewage filter has the advantages that when sewage is required to be filtered, the controller 206 is connected with an external power supply, then the controller 206 is opened, and the forward and reverse rotation time of the motor 204 is set, The on-off time and basic use procedure of the water pump 201 are that the ceramic filter plate 9 is fixed inside the frame 4 by using the two L-shaped plates 5, then the frame 4 with the ceramic filter plate 9 is movably placed between the interiors of the two placement holes 8 under the cooperation of the two rectangular plates 6, then the frame 4 is pressed and fixed by using the prepared hand screw bolts, when the frame 4 is fixed, the sewage needing to be filtered is injected into the diversion funnel 3, then the sewage entering the diversion funnel 3 flows into the frame 4 directly, when the sewage reaches the interior of the frame 4, the larger particles and suspended matters mixed in the sewage are filtered and remained on the surface of the ceramic filter plate 9 directly under the action of the ceramic filter plate 9, meanwhile the sewage also passes through the filter holes of the ceramic filter plate 9 directly and flows out to the bottom of the inner wall of the shell 1, when the treated sewage reaches the bottom of the inner wall of the shell 1, the treated sewage can be released from the inside of the shell 1 under the action of the round pipe 7, when the filtering hole of the ceramic filter plate 9 is blocked, the sewage to be treated is firstly stopped from being injected into the guide funnel 3, then the motor 204 is started by the controller 206, the output end of the motor 204 rotates positively, the started motor 204 drives the gear 205 connected with the motor 204 to rotate, the rotating gear 205 drives the other gear 205 to rotate, the rotating gear 205 drives the shunt pipe 203 to rotate under the cooperation of the sealing ring 208, when the shunt pipe 203 rotates for 90 degrees, the starting time of the water pump 201 just reaches, the controller 206 directly starts the water pump 201, the started water pump 201 is matched with one of the hoses 202, the sewage which is reserved at the bottom of the inner wall of the shell 1 and subjected to filtering treatment is pumped out and conveyed into the other hose 202, then conveyed into the shunt tube 203, and then sprayed out from a plurality of liquid outlet ends of the shunt tube 203, at the moment, the sewage sprayed out from the liquid outlet ends of the shunt tube 203 is directly sprayed to the filtering holes of the ceramic filter plate 9, when the filtering holes of the ceramic filter plate 9 are impacted by sewage, the large particles or suspended matters blocked in the filtering holes of the ceramic filter plate 9 are directly flushed out, when the reversing time of the output end of the motor 204 is reached, the corresponding shunt tube 203 is reversed, and the water pump 203 is reciprocated, so that the filtering holes of the blocked ceramic filter plate 9 can be opened by the impact force of the treated sewage, when the closing time of the water pump 201 is reached, the controller 206 can directly close the water pump 201, and at the same time the water pump 204 can be used, The cooperation of gear 205 and sealing washer 208 lets shunt tubes 203 rotate back to when shunt tubes 203 reset back to the normal position, turns off motor 204, when water pump 201 and motor 204 are all closed, again will need the inside of water conservancy diversion funnel 3 to carry out the sewage that filters this moment, continue to filter the processing can.

The working principle is that when sewage is required to be filtered, the controller 206 is connected with an external power supply, then the controller 206 is opened, and the forward and reverse rotation time of the motor 204 is set, The on-off time and basic use procedure of the water pump 201 are that the ceramic filter plate 9 is fixed inside the frame 4 by using the two L-shaped plates 5, then the frame 4 with the ceramic filter plate 9 is movably placed between the interiors of the two placement holes 8 under the cooperation of the two rectangular plates 6, then the frame 4 is pressed and fixed by using the prepared hand screw bolts, when the frame 4 is fixed, the sewage needing to be filtered is injected into the diversion funnel 3, then the sewage entering the diversion funnel 3 flows into the frame 4 directly, when the sewage reaches the interior of the frame 4, the larger particles and suspended matters mixed in the sewage are filtered and remained on the surface of the ceramic filter plate 9 directly under the action of the ceramic filter plate 9, meanwhile the sewage also passes through the filter holes of the ceramic filter plate 9 directly and flows out to the bottom of the inner wall of the shell 1, when the treated sewage reaches the bottom of the inner wall of the shell 1, the treated sewage can be released from the inside of the shell 1 under the action of the round pipe 7, when the filtering hole of the ceramic filter plate 9 is blocked, the sewage to be treated is firstly stopped from being injected into the guide funnel 3, then the motor 204 is started by the controller 206, the output end of the motor 204 rotates positively, the started motor 204 drives the gear 205 connected with the motor 204 to rotate, the rotating gear 205 drives the other gear 205 to rotate, the rotating gear 205 drives the shunt pipe 203 to rotate under the cooperation of the sealing ring 208, when the shunt pipe 203 rotates for 90 degrees, the starting time of the water pump 201 just reaches, the controller 206 directly starts the water pump 201, the started water pump 201 is matched with one of the hoses 202, the sewage which is reserved at the bottom of the inner wall of the shell 1 and subjected to filtering treatment is pumped out and conveyed into the other hose 202, then conveyed into the shunt tube 203, and then sprayed out from a plurality of liquid outlet ends of the shunt tube 203, at the moment, the sewage sprayed out from the liquid outlet ends of the shunt tube 203 is directly sprayed to the filtering holes of the ceramic filter plate 9, when the filtering holes of the ceramic filter plate 9 are impacted by sewage, the large particles or suspended matters blocked in the filtering holes of the ceramic filter plate 9 are directly flushed out, when the reversing time of the output end of the motor 204 is reached, the corresponding shunt tube 203 is reversed, and the water pump 203 is reciprocated, so that the filtering holes of the blocked ceramic filter plate 9 can be opened by the impact force of the treated sewage, when the closing time of the water pump 201 is reached, the controller 206 can directly close the water pump 201, and at the same time the water pump 204 can be used, The cooperation of gear 205 and sealing washer 208 lets shunt tubes 203 rotate back to when shunt tubes 203 reset back to the normal position, turns off motor 204, when water pump 201 and motor 204 are all closed, again will need the inside of water conservancy diversion funnel 3 to carry out the sewage that filters this moment, continue to filter the processing can.

The wiring diagrams of the water pump 201, the motor 204 and the controller 206 (PLC controller) in the present utility model are common knowledge in the art, and the working principle thereof is a known technology, and the model thereof is selected to be an appropriate model according to actual use, so that the water pump 201, the motor 204 and the controller 206 will not be explained in detail.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims

1. An intelligent sewage treatment device is characterized by comprising a shell (1), wherein a cleaning mechanism (2) is arranged on the shell (1);

the cleaning mechanism (2) comprises a water pump (201), a shunt tube (203), a motor (204), a controller (206) and a cylindrical hole (207), wherein a hose (202) is installed at the liquid outlet end of the water pump (201) and the liquid inlet end of the water pump (201), a gear (205) is installed at the outer wall of the shunt tube (203) close to the liquid inlet end and the output end of the motor (204), and a sealing ring (208) is arranged in the cylindrical hole (207).

2. The intelligent sewage treatment device according to claim 1, wherein the water pump (201) is mounted on the upper side of the housing (1), the water pump (201) is electrically connected with the controller (206), a liquid inlet end of one hose (202) is mounted with a liquid outlet end of the housing (1), a liquid outlet end of the other hose (202) is mounted with a liquid inlet end of a shunt tube (203), the shunt tube (203) is fixedly sleeved in the sealing ring (208), the motor (204) is mounted on the surface of the housing (1), and one end, far away from the gear (205), of the shunt tube (203) is rotatably connected with the inner wall of the housing (1) through a bearing.

3. The intelligent sewage treatment device according to claim 1, wherein the motor (204) is electrically connected with the controller (206), teeth of the two gears (205) are meshed, the controller (206) is installed on the front surface of the shell (1), the cylindrical hole (207) is formed in the surface of the shell (1), the inside of the cylindrical hole (207) is communicated with the inside of the shell (1), and the liquid outlet end of the shunt tube (203) is located in the inside of the shell (1).

4. The intelligent sewage treatment device according to claim 1, wherein a diversion funnel (3) is fixedly sleeved at a position close to the top in the shell (1), the front surface of the shell (1) and the rear surface of the shell (1) are both provided with placing holes (8), and a frame (4) is connected between the interiors of the two placing holes (8) in a sliding manner.

5. The intelligent sewage treatment device according to claim 4, wherein the ceramic filter plates (9) are arranged at the bottoms of the inner walls of the frames (4), L-shaped plates (5) are arranged at the two grooves at the top of the frames (4), round tubes (7) are fixedly penetrated through one side of the shell (1), and rectangular plates (6) are fixedly arranged on two sides of the inner walls of the shell (1).

6. The intelligent sewage treatment device according to claim 5, wherein the interiors of the two placement holes (8) are communicated with the interior of the shell (1), the bottom ends of the diversion funnels (3) are positioned right above the frame (4), and the bottoms of the two L-shaped plates (5) are contacted with the top of the ceramic filter plate (9).

7. The intelligent sewage treatment device according to claim 5, wherein the tops of the two rectangular plates (6) are contacted with the bottom of the frame (4), the shunt pipe (203) is positioned right below the frame (4), and the distance between the water inlet position of the circular pipe (7) and the bottom of the inner wall of the shell (1) is larger than the distance between the water inlet position of the liquid outlet end of the shell (1) and the bottom of the inner wall of the shell (1).