CN219603335U - Waste water monitoring reflux unit - Google Patents

Abstract

The utility model relates to the technical field of environment detection, and discloses a wastewater monitoring reflux device, which comprises a pipeline, wherein a telescopic plate is arranged in the pipeline, a reflux pipe is arranged at the bottom of the pipeline in an inserted manner, an accelerating mechanism is arranged in the reflux pipe, a detection mechanism is arranged at the left side of the telescopic plate in the pipeline, a fixed box is arranged below a rotating wheel, an arc-shaped rod is fixedly connected with the inside of the fixed box, an impact block is fixedly connected with the surface of the arc-shaped rod, a stress plate is arranged at the left side of the rotating wheel and positioned in the fixed box, a push rod is fixedly connected at the left side of the stress plate, and a pressure-sensitive switch is arranged at the left side of the push rod. This waste water monitoring reflux unit uses through the cooperation of expansion plate and detection mechanism to reached the emission that detects the pit waste water, avoided remaining flocculation granule in the sewage to be discharged the effect that causes the pollution to the environment in the environment.

Description

Waste water monitoring reflux unit

Technical Field

The utility model relates to the technical field of environment detection, in particular to a wastewater monitoring reflux device.

Background

In chinese patent CN214936398U, a waste water temperature control reflux device is disclosed, which proposes that "the waste water temperature control device in the current market mainly comprises the following components: the heat exchanger, the steam pressure reducing valve, the temperature monitor, the alarm device and the like are mutually independent and cannot be mutually linked and matched, when the temperature of the wastewater is abnormal, the alarm device can not automatically adjust according to actual changes only by prompting through alarm signals, if the temperature of the wastewater is abnormal and is not timely adjusted, the deactivation phenomenon of biochemical bacteria can occur under the condition that the temperature of an anaerobic tank is too high or too low, organic components in the wastewater can not be fully decomposed, and the whole product quality is ensured "

Although the above device solves and improves the problems posed by it, in practical applications the above device still has the following drawbacks:

(1) the existing pit waste water needs to be discharged into the environment, the waste water needs to be flocculated before being discharged, and the flocculated waste water needs to be discharged after being cleaned, however, the existing pit waste water still has residual flocculated particles in the pit waste water when being discharged;

(2) in addition, when the flocculating particles are discharged, the situation of blockage is easy to occur during discharge due to the defect of equipment, so that the pollution discharge effect is greatly reduced, and meanwhile, the reflux efficiency of the flocculating agent is lower during use;

in view of this, it is desirable to design a wastewater monitoring and refluxing device.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a wastewater monitoring reflux device which has the advantages of detecting the discharge of pit wastewater, avoiding pollution to the environment caused by residual flocculating particles in the wastewater discharged to the environment and the like, and solving the problem that the flocculating particles remain in the wastewater discharged by the existing pit to pollute the environment.

(II) technical scheme

In order to realize the aim of discharging the waste water of the detection pit and avoiding pollution to the environment caused by the fact that residual flocculating particles in the waste water are discharged to the environment, the utility model provides the following technical scheme: the utility model provides a waste water monitoring reflux unit, includes the pipeline, the inside of pipeline is provided with the expansion plate, the bottom of pipeline alternates and is provided with the back flow, the inside of back flow is provided with accelerating mechanism, the inside of pipeline just is located the left side of expansion plate and is provided with detection mechanism.

Preferably, the inside fixedly connected with bracing piece of detection mechanism, the side of bracing piece rotates and is connected with the runner, the side of runner alternates and is provided with the centrifugal plate, one side that the centrifugal plate kept away from the wheel center rotates and is connected with the filter, one side sliding connection that the wheel center was kept away from to the filter has the gyro wheel, the below of runner is provided with fixed box, the inside fixedly connected with arc pole of fixed box, the fixed surface of arc pole is connected with the striking piece, the left side of runner just is located the inside of fixed box and is provided with the atress board, the left side fixedly connected with ejector pin of atress board, the left side of ejector pin is provided with pressure sensing switch.

Preferably, the pressure-sensitive switch is connected with the starter of the expansion plate through an electric signal.

Preferably, the side face of the filter plate is rotatably connected with a limiting rod, and a spring is arranged inside the limiting rod.

Preferably, the side surface of the fixed box is provided with a water through hole.

Preferably, an accelerating shaft is arranged in the accelerating mechanism, and a liquid pump is fixedly connected to the side face of the accelerating shaft.

Preferably, the start controller of the accelerating shaft is connected with the pressure-sensitive switch through an electric signal.

(III) beneficial effects

Compared with the prior art, the utility model provides a wastewater monitoring reflux device, which comprises the following components

The beneficial effects are that:

1. this waste water monitoring reflux unit uses through the cooperation of expansion plate and detection mechanism, in the in-process of hole drainage sewage, sewage is discharged from left to right through the pipeline, the motor of runner is started this moment, make the runner anticlockwise rotate, when remaining the flocculation granule in the sewage, the expansion plate can move down and block up the pipeline, lead to the sewage in the pipeline to flow back through the back flow, carry out secondary treatment to sewage then, avoid this part sewage to discharge to the environment, thereby reached the emission that detects hole waste water, the effect that causes the pollution to the environment by the emission to the environment of residual flocculation granule in the sewage is avoided.

2. This waste water monitoring reflux unit uses through detection mechanism and acceleration mechanism's cooperation, when the pressure sensitive switch was extrudeed, because the start-up controller of accelerating shaft passes through electrical signal connection with the pressure sensitive switch, so accelerating shaft rotates, drives the drawing liquid pump of side and rotates in the inside of back flow in step for the back flow is accelerated to the recovery of sewage, has the backward flow efficiency of flocculation granule sewage for the effect that has accelerated the pipeline and has had flocculation granule sewage backward flow speed, avoids influencing the normal emission of pipeline sewage has been reached.

Drawings

FIG. 1 is a schematic overall cross-sectional view of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of a structural rotor of the present utility model;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2 showing the structure of the present utility model;

FIG. 4 is a schematic cross-sectional view of a structural securing case of the present utility model;

FIG. 5 is a schematic cross-sectional view of a structural return tube of the present utility model.

In the figure: 1. a pipe; 2. a telescoping plate; 3. a return pipe; 4. a detection mechanism; 401. a support rod; 402. a rotating wheel; 403. a centrifugal plate; 404. a filter plate; 405. a roller; 406. a fixed box; 407. an arc-shaped rod; 408. an impact block; 409. a force-bearing plate; 410. a push rod; 411. a pressure-sensitive switch; 5. an acceleration mechanism; 501. an acceleration shaft; 502. and (5) a liquid pump.

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.

Embodiment one: referring to fig. 1-5, a waste water monitoring reflux device includes a pipeline 1, a expansion plate 2 is disposed in the pipeline 1, a reflux pipe 3 is inserted in the bottom of the pipeline 1, an accelerating mechanism 5 is disposed in the reflux pipe 3, a detecting mechanism 4 is disposed in the pipeline 1 and located at the left side of the expansion plate 2, a supporting rod 401 is fixedly connected in the detecting mechanism 4, a rotating wheel 402 is rotatably connected to the side of the supporting rod 401, a centrifugal plate 403 is inserted in the side of the rotating wheel 402, a filter plate 404 is rotatably connected to one side of the centrifugal plate 403 far away from the wheel center, a limit rod is rotatably connected to the side of the filter plate 404, a spring is disposed in the limit rod, a roller 405 is slidably connected to one side of the filter plate 404 far away from the wheel center, a fixed box 406 is disposed below the rotating wheel 402, a water through hole is formed in the side of the fixed box 406, an arc rod 407 is fixedly connected to the inside of the fixed box 406, an impact block 408 is fixedly connected to the surface of the arc rod 407, a stress plate 409 is fixedly connected to the left side of the rotating wheel 402 and located in the fixed box 406, a push rod 410 is fixedly connected to the left side of the stress plate 409, a pressure sensor switch is disposed at the left side of the push rod 410, and a pressure sensor switch is connected to a pressure sensor 2.

In the process of draining sewage in a pit, sewage is discharged from left to right through the pipeline 1, the motor of the runner 402 is started at this time, the runner 402 rotates anticlockwise, the filter plate 404 on the side is driven to rotate synchronously, the filter plate 404 filters flowing sewage when rotating, when residual flocculated particles exist in sewage, the filter plate 404 filters the flocculated particles to the inside, the mass of the filter plate 404 is increased, the centrifugal force of the filter plate 404 is synchronously increased, therefore, when the filter plate 404 rotates, the filter plate 404 moves in the direction far away from the wheel center, the centrifugal plate 403 is driven to move synchronously, the roller 405 presses the stress plate 409 on the left, the stress plate 409 is extruded to drive the ejector rod 410 to extrude the pressure-sensitive switch 411 on the left, then the roller 405 continues to rotate to impact the impact block 408 on the surface of the arc-shaped rod 407 below, so that flocculated particles filtered by the filter plate 404 are oscillated, the sewage is circularly filtered when rotating to the upper side, the pressure-sensitive switch 411 is connected with the starter of the telescopic plate 2 through an electric signal, the telescopic plate 2 moves downwards to seal the pipeline 1, the sewage in the pipeline 1 is caused, the sewage is discharged from the sewage backflow pipeline 3, the sewage is prevented from being discharged to the pit through the backflow pipeline 3, and the environmental pollution is avoided.

Embodiment two: referring to fig. 5, a waste water monitoring reflux device comprises a pipeline 1, wherein a telescopic plate 2 is arranged in the pipeline 1, a reflux pipe 3 is arranged at the bottom of the pipeline 1 in an inserted manner, an accelerating mechanism 5 is arranged in the reflux pipe 3, a detection mechanism 4 is arranged in the pipeline 1 and positioned on the left side of the telescopic plate 2, an accelerating shaft 501 is arranged in the accelerating mechanism 5, a starting controller of the accelerating shaft 501 is connected with a pressure-sensitive switch 411 through an electric signal, and a liquid pump 502 is fixedly connected to the side face of the accelerating shaft 501.

When the pressure-sensitive switch 411 is extruded, the starting controller of the accelerating shaft 501 is connected with the pressure-sensitive switch 411 through an electric signal, so that the accelerating shaft 501 rotates to drive the side liquid pump 502 to synchronously rotate in the reflux pipe 3, so that the recovery of sewage by the reflux pipe 3 is accelerated, the reflux efficiency of the flocculated particle sewage is accelerated, the reflux speed of the flocculated particle sewage existing in the pipeline 1 is accelerated, and the effect of avoiding influencing the normal discharge of the sewage of the pipeline 1 is achieved.

Embodiment III: referring to fig. 1-5, a waste water monitoring reflux device comprises a pipeline 1, a telescopic plate 2 is arranged in the pipeline 1, a reflux pipe 3 is inserted at the bottom of the pipeline 1, an accelerating mechanism 5 is arranged in the reflux pipe 3, a detection mechanism 4 is arranged at the left side of the telescopic plate 2 in the pipeline 1, a support rod 401 is fixedly connected to the inside of the detection mechanism 4, a rotating wheel 402 is rotatably connected to the side surface of the support rod 401, a centrifugal plate 403 is inserted at the side surface of the rotating wheel 402, a filter plate 404 is rotatably connected to one side of the centrifugal plate 403 far away from the wheel center, a limit rod is rotatably connected to the side surface of the filter plate 404, a spring is arranged in the limit rod, a roller 405 is slidably connected to one side of the filter plate 404 far away from the wheel center, a fixed box 406 is arranged below the rotating wheel 402, a water through hole is formed in the side surface of the fixed box 406, an arc rod 407 is fixedly connected to an impact block 408, a stress plate 409 is arranged at the left side of the rotating wheel 402 and is fixedly connected to the left side of the stress plate 409, an ejector rod 410 is fixedly connected to an accelerating electric signal, a pressure-sensitive switch 501 is arranged at the left side of the rotating wheel 402, a pressure-sensitive electric signal is connected to a pressure-sensitive shaft 501 through a pressure-sensitive shaft 501, and a pressure-sensitive sensor 501 is connected to a pressure-sensitive shaft 501 is connected to a pressure-sensitive controller, and is connected to a pressure-sensitive axle 501.

The sewage is discharged from the pit through the pipeline 1, at this time, the motor of the runner 402 is started, so that the runner 402 rotates anticlockwise, the runner 402 can drive the lateral filter plate 404 to rotate synchronously, the filter plate 404 filters flowing sewage when rotating, when residual flocculated particles exist in the sewage, the filter plate 404 filters the flocculated particles into the inside, the mass of the filter plate 404 is increased, the centrifugal force of the filter plate 404 is synchronously increased, therefore, when the filter plate 404 rotates, the filter plate 404 moves in a direction far away from the center of the wheel, the centrifugal plate 403 is driven to move synchronously, the roller 405 presses the stress plate 409 on the left side, the stress plate 409 is extruded to drive the ejector rod 410 to extrude the pressure-sensitive switch 411 on the left side, then the roller 405 continues to rotate to impact the impact block 408 on the surface of the lower arc rod 407, so that flocculated particles filtered by the filter plate 404 are oscillated, the sewage can be circularly filtered when the sewage is rotated above, the pressure-sensitive switch 411 is connected with the starter of the telescopic plate 2 through an electric signal, the telescopic plate 2 moves downwards to seal the pipeline 1, the sewage in the direction away from the center, the sewage is driven by the centrifugal force, the roller 405 presses the stress plate 409, the impact plate 409 on the left side, the impact plate 409 on the impact plate 410 on the left side, the impact block 409 on the left side, the left impact block on the left surface of the sewage is pressed by the filter plate, the impact block 411, the impact block on the sewage is caused by the sewage, the sewage is detected, the sewage is discharged by the sewage, the sewage is discharged to the sewage, and the sewage is caused to the sewage, and the sewage is then polluted.

When the pressure-sensitive switch 411 is extruded, the starting controller of the accelerating shaft 501 is connected with the pressure-sensitive switch 411 through an electric signal, so that the accelerating shaft 501 rotates to drive the side liquid pump 502 to synchronously rotate in the reflux pipe 3, so that the recovery of sewage by the reflux pipe 3 is accelerated, the reflux efficiency of the flocculated particle sewage is accelerated, the reflux speed of the flocculated particle sewage existing in the pipeline 1 is accelerated, and the effect of avoiding influencing the normal discharge of the sewage of the pipeline 1 is achieved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Waste water monitoring reflux unit, including pipeline (1), its characterized in that: the inside of pipeline (1) is provided with expansion plate (2), the bottom of pipeline (1) alternates and is provided with back flow (3), the inside of back flow (3) is provided with acceleration mechanism (5), the inside of pipeline (1) just is located the left side of expansion plate (2) and is provided with detection mechanism (4).

2. A wastewater monitoring and recirculation apparatus according to claim 1, wherein: the inside fixedly connected with bracing piece (401) of detection mechanism (4), the side rotation of bracing piece (401) is connected with runner (402), the side interlude of runner (402) is provided with centrifugal plate (403), one side rotation that centrifugal plate (403) kept away from the wheel center is connected with filter (404), one side sliding connection that wheel center was kept away from to filter (404) has gyro wheel (405), the below of runner (402) is provided with fixed box (406), the inside fixedly connected with arc pole (407) of fixed box (406), the fixed surface of arc pole (407) is connected with impingement block (408), the inside of the left side of runner (402) and being located fixed box (406) is provided with atress board (409), the left side fixedly connected with ejector pin (410) of atress board (409), the left side of ejector pin (410) is provided with pressure sensing switch (411).

3. A wastewater monitoring and recirculation apparatus according to claim 2, wherein: the pressure-sensitive switch (411) is connected with the starter of the expansion plate (2) through an electric signal.

4. A wastewater monitoring and recirculation apparatus according to claim 2, wherein: the side face of the filter plate (404) is rotatably connected with a limiting rod, and a spring is arranged inside the limiting rod.

5. A wastewater monitoring and recirculation apparatus according to claim 2, wherein: the side of the fixed box (406) is provided with a water through hole.

6. A wastewater monitoring and recirculation apparatus according to claim 2, wherein: an accelerating shaft (501) is arranged in the accelerating mechanism (5), and a liquid pump (502) is fixedly connected to the side face of the accelerating shaft (501).

7. The wastewater monitoring and refluxing device as set forth in claim 6, wherein: the starting controller of the accelerating shaft (501) is connected with the pressure-sensitive switch (411) through an electric signal.