CN221084793U - Storage device of waste water - Google Patents

Abstract

The utility model discloses a wastewater storage device, which belongs to the technical field of wastewater treatment and comprises a storage box, a filtering device and an ammonia nitrogen treatment device; the ammonia nitrogen treatment device is arranged at a treatment liquid port of the storage box; the inner wall of the storage box is provided with an ammonia nitrogen content monitor, the filtering device comprises a mounting frame arranged at the top of the inlet, the front part of the mounting frame is provided with a filter plate groove, the inside of the mounting frame is provided with a groove, and the filter plate groove and the groove are movably provided with a filtering frame; the top of the treatment liquid port is provided with a solution box, and the bottom of the solution box is provided with a liquid outlet valve; the filtering device can filter and purify large-particle impurities and silt in the wastewater, and the design of the pushing plate and the storage box can automatically clean and collect impurities accumulated on the filtering frame. When the ammonia nitrogen content is higher than the standard value, the processor automatically controls the starting of the ammonia nitrogen treatment device and the stirring shaft and timely treats the ammonia nitrogen in the wastewater.

Description

Storage device of waste water

Technical Field

The utility model relates to the technical field of wastewater treatment, in particular to a wastewater storage device.

Background

Ammonia nitrogen in water refers to nitrogen in the form of free ammonia (or nonionic ammonia, NH 3) and ionic ammonia (nh4+) in a composition ratio dependent on the pH of the water. The ammonia nitrogen in the water mainly comes from decomposition products of nitrogen-containing organic matters in domestic sewage under the action of microorganisms, industrial waste water such as coking, synthetic ammonia and the like, farmland drainage and the like. The method for measuring ammonia nitrogen in water comprises Nahner reagent spectrophotometry, salicylic acid-hypochlorite spectrophotometry, distillation titration method, electrode method, gas phase molecular absorption spectrometry and capacity method. For a typical water ecological environment, the normal ammonia nitrogen content should generally not exceed 0.5mg/L. When the ammonia nitrogen content exceeds the range, the aquatic plants and animals are damaged, and the natural environment of the water body is adversely affected.

Application number: CN202223558950.5; the utility model discloses an gasbag formula effluent disposal plant, including gasbag, bottom, first water inlet, second water inlet, third water inlet, the delivery port is installed to the opposite side of bottom surface, the bottom fixedly connected with bottom plate of bottom, the fixed block is installed to one side of bottom plate surface, this experiment is novel, when actual use, at first through the exhaust hole, discharge the air of gasbag the inside, then let in waste water through first water inlet, first telescopic link and second telescopic link can expand under the condition that water was filled, thereby automatic extension, current effluent disposal plant kind is more various, most volume is bigger, area is wider, be unfavorable for placing, can not in time observe the shortcoming of its inside waste water volume, the volume that mentions through the setting of above-mentioned structure can effectually solve the background art is great, can not in time observe the problem of its inside waste water volume.

The wastewater storage device of the above reference lacks a filtering device, and sediment and large-particle substances in wastewater are accumulated for a long time to block a pipeline, and the ammonia nitrogen content in the water cannot be monitored and treated in real time, so that the wastewater storage device is designed so as to solve the problems.

Disclosure of utility model

The utility model aims at: in order to solve the problems that the traditional wastewater storage device lacks a filtering device, the pipeline can be blocked due to long-time accumulation of sediment and large-particle substances in wastewater, and the ammonia nitrogen content in the wastewater cannot be monitored and treated in real time, the wastewater storage device is provided.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: a waste water storage device comprises a storage box, a filtering device and an ammonia nitrogen treatment device; the filtering device is arranged at the inlet of the storage box, and the ammonia nitrogen treatment device is arranged at the treatment liquid port of the storage box; the ammonia nitrogen content monitor is arranged on the inner wall of the storage box, the filtering device comprises a mounting frame arranged at the top of the inlet, a filter plate groove is formed in the front of the mounting frame, a groove is formed in the mounting frame, and a filtering frame is movably arranged in the filter plate groove and the groove; the top of handling liquid mouth is provided with the solution box, the bottom of solution box is provided with out the liquid valve.

As still further aspects of the utility model: the two sides of the mounting frame are respectively provided with a waste outlet and an electric cylinder, the waste outlet is connected with a storage box, and a flashboard is also movably arranged on the storage box; the output shaft of the electric cylinder is connected with the push plate, and the push plate reciprocates on the surface of the filtering frame.

As still further aspects of the utility model: the top of the filtering device is provided with a wastewater inlet pipe, the bottom of the storage box is provided with a water outlet pipe, and the water outlet pipe is provided with a water outlet valve; the side of bin is provided with the treater, the both sides of bin still are provided with agitator motor, agitator motor drive the (mixing) shaft in the bin rotates.

As still further aspects of the utility model: the inner wall of the storage tank is also provided with a water level monitor, and the wastewater inlet pipe is also provided with a water inlet valve.

As still further aspects of the utility model: the side of the filtering frame is provided with a handle, the top of the solution box is provided with a liquid adding port, and the solution box is filled with chemical agents.

As still further aspects of the utility model: the processor is electrically connected with the water outlet valve, the liquid outlet valve, the electric cylinder, the stirring motor and the water inlet valve on the wastewater inlet pipe.

The utility model provides a waste water storage device through improvement, and compared with the prior art, the waste water storage device has the following improvements and advantages:

The method comprises the following steps: the utility model can filter and purify large-particle impurities and silt in the wastewater through the filter device, and can prevent the storage tank and the water outlet pipe from being blocked. And through the design of push pedal and storage box, can clear up and collect the impurity of piling up on the filter frame voluntarily, this design can improve the stability and the life of this waste water's storage device greatly.

And two,: according to the utility model, the ammonia nitrogen content and the water level in the storage tank can be monitored in real time through the ammonia nitrogen content monitor and the water level monitor, when the ammonia nitrogen content is higher than the standard value, the processor automatically controls the starting of the ammonia nitrogen treatment device and the stirring shaft, and ammonia nitrogen in the wastewater is treated in time.

Drawings

The utility model is further explained below with reference to the drawings and examples:

FIG. 1 is a front view of the structure of the present utility model;

FIG. 2 is a bottom view of the structure of the present utility model;

FIG. 3 is a top view of the structure of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 4A in accordance with the present utility model;

fig. 5 is a side partial view of the structure of the present utility model.

Reference numerals illustrate:

1. A storage tank; 101. an inlet; 102. a treatment liquid port; 103. a waste water inlet pipe; 104. a water outlet pipe; 105. a water outlet valve; 106. an ammonia nitrogen content monitor; 107. a water level monitor; 108. a processor; 109. a stirring motor; 110. a stirring shaft; 2. a filtering device; 201. a mounting frame; 202. a filter plate groove; 203. a groove; 204. a filter frame; 205. a handle; 206. a waste outlet; 207. a storage box; 208. a flashboard; 209. a push plate; 210. an electric cylinder; 3. an ammonia nitrogen treatment device; 301. a solution box; 302. a liquid adding port; 303. and a liquid outlet valve.

Detailed Description

The following detailed description of the present utility model will provide clear and complete description of the technical solutions of the embodiments of the present utility model, with reference to fig. 1 to 5, and it is obvious that the described embodiments 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.

The utility model provides a wastewater storage device by improvement, as shown in fig. 1-5, which comprises a storage tank 1, a filtering device 2 and an ammonia nitrogen treatment device 3; the filtering device 2 is arranged at an inlet 101 of the storage tank 1, and the ammonia nitrogen treatment device 3 is arranged at a treatment liquid port 102 of the storage tank 1; the ammonia nitrogen content monitor 106 is arranged on the inner wall of the storage tank 1, the filtering device 2 comprises a mounting frame 201 arranged at the top of the inlet 101, a filter plate groove 202 is formed in the front part of the mounting frame 201, a groove 203 is formed in the mounting frame 201, and a filter frame 204 is movably arranged in the filter plate groove 202 and the groove 203; the top of the processing liquid port 102 is provided with a solution box 301, and the bottom of the solution box 301 is provided with a liquid outlet valve 303.

In this embodiment: the utility model is mainly divided into three parts: a storage tank 1, a filtering device 2 and an ammonia nitrogen treatment device 3. When the utility model works, firstly, the water inlet valve on the waste water inlet pipe 103 is opened, and when the waste water enters the storage tank 1 through the filter device 2 on the inlet 101, large particle impurities in the waste water are filtered out by the filter screen on the filter frame 204 and are accumulated on the filter frame 204. When the accumulated impurities need to be cleaned, the water inlet valve on the waste water inlet pipe 103 is closed, then the shutter 208 on the storage box 207 is opened, and the electric cylinder 210 is opened. The electric cylinder 210 pushes the foreign substances on the filter frame 204 into the storage box 207 through the push plate 209. When the ammonia nitrogen content monitor 106 monitors that the ammonia nitrogen content in the wastewater is higher than the standard value, the processor 108 can open the liquid outlet valve 303 and the stirring motor 109, the treatment liquid in the solution box 301 can enter the storage tank 1 to treat the ammonia nitrogen in the wastewater, and the stirring shaft 110 is used for stirring the wastewater, so that the treatment speed of the wastewater is accelerated. When the water level monitor 107 detects that the water level in the storage tank 1 is too high, the processor 108 will close the water inlet valve on the waste water inlet pipe 103, so that the waste water does not enter the storage tank 1 any more.

The utility model can filter and purify large-particle impurities and silt in the wastewater by the filter device 2, and can prevent the storage tank 1 and the water outlet pipe 104 from being blocked. And the impurities accumulated on the filtering frame 204 can be automatically cleaned and collected through the design of the push plate 209 and the storage box 207, and the design can greatly improve the stability and the service life of the storage device of the wastewater. According to the utility model, the ammonia nitrogen content and the water level in the storage tank 1 can be monitored in real time through the ammonia nitrogen content monitor 106 and the water level monitor 107, when the ammonia nitrogen content is higher than the standard value, the processor 108 automatically controls the starting of the ammonia nitrogen treatment device 3 and the stirring shaft 110, and ammonia nitrogen in wastewater is treated in time.

Referring to fig. 3 to 4, a waste outlet 206 and an electric cylinder 210 are respectively arranged on two sides of the mounting frame 201, the waste outlet 206 is connected with a storage box 207, and a gate plate 208 is also movably arranged on the storage box 207; the output shaft of the electric cylinder 210 is connected to the push plate 209, and the push plate 209 reciprocates on the surface of the filter frame 204.

In this embodiment: in order to automatically clean and collect the foreign substances accumulated on the filter frame 204, a waste outlet 206 and an electric cylinder 210 are provided at both sides of the installation frame 201, respectively, and the waste outlet 206 is connected to the storage box 207. A shutter 208 provided on the storage box 207 is used to open and close the storage box 207 and reciprocates on the surface of the filter frame 204 through a push plate 209 to clean impurities.

Referring to fig. 1-2, a wastewater inlet pipe 103 is arranged at the top of the filtering device 2, a water outlet pipe 104 is arranged at the bottom of the storage tank 1, and a water outlet valve 105 is arranged on the water outlet pipe 104; the side of bin 1 is provided with treater 108, and the both sides of bin 1 still are provided with agitator motor 109, and agitator motor 109 drive the (mixing) shaft 110 in the bin 1 rotates.

In this embodiment: in order to automatically control the automated operation of the present apparatus, a processor 108 is provided on the side of the storage box 1. In order to improve the efficiency of wastewater treatment, stirring motors 109 are further provided at both sides of the storage tank 1, and the stirring motors 109 drive stirring shafts 110 in the storage tank 1 to rotate.

Referring to fig. 1-2, a water level monitor 107 is further disposed on the inner wall of the storage tank 1, and a water inlet valve is further disposed on the waste water inlet pipe 103.

In this embodiment: in order to monitor the water level in the storage tank in real time, a water level monitor 107 is also provided on the inner wall of the storage tank 1. In order to control the inflow and outflow of wastewater, a water inflow valve is further provided on the wastewater inflow pipe 103.

Referring to fig. 1-2, a handle 205 is provided on a side of the filter frame 204, a liquid filling port 302 is provided on a top of the solution box 301, and a chemical agent is contained in the solution box 301.

In this embodiment: in order to facilitate replacement of the filter frame 204, a handle 205 is provided on the side of the filter frame 204. In order to facilitate the addition of chemical agents into the solution cartridge 301, a liquid filling port 302 is provided at the top of the solution cartridge 301.

Referring to fig. 1-5, the processor 108 is electrically connected to the outlet valve 105, outlet valve 303, electric cylinder 210 and agitator motor 109, and the inlet valve on the waste inlet pipe 103.

In this embodiment: in order to control the operation of the various devices by the processor 108, the processor 108 is electrically connected to the outlet valve 105, outlet valve 303, electric cylinder 210 and agitator motor 109, and to the inlet valve on the waste water inlet pipe 103.

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 (6)

1. A storage device for wastewater, characterized in that: comprises a storage box (1), a filtering device (2) and an ammonia nitrogen treatment device (3); the filtering device (2) is arranged at an inlet (101) of the storage box (1), and the ammonia nitrogen treatment device (3) is arranged at a treatment liquid port (102) of the storage box (1); the ammonia nitrogen content monitor (106) is arranged on the inner wall of the storage box (1), the filtering device (2) comprises a mounting frame (201) arranged at the top of the inlet (101), a filter plate groove (202) is formed in the front part of the mounting frame (201), a groove (203) is formed in the mounting frame (201), and a filtering frame (204) is movably arranged in the filter plate groove (202) and the groove (203); the top of processing liquid mouth (102) is provided with solution box (301), the bottom of solution box (301) is provided with play liquid valve (303).

2. A wastewater storage device according to claim 1, wherein: the two sides of the mounting frame (201) are respectively provided with a waste outlet (206) and an electric cylinder (210), the waste outlet (206) is connected with a storage box (207), and a flashboard (208) is also movably arranged on the storage box (207); the output shaft of the electric cylinder (210) is connected with a push plate (209), and the push plate (209) reciprocates on the surface of the filter frame (204).

3. A waste water storage device according to any one of claims 1-2, wherein: the top of the filtering device (2) is provided with a wastewater inlet pipe (103), the bottom of the storage box (1) is provided with a water outlet pipe (104), and the water outlet pipe (104) is provided with a water outlet valve (105); the side of bin (1) is provided with treater (108), the both sides of bin (1) still are provided with agitator motor (109), agitator motor (109) drive (110) rotation in bin (1).

4. A wastewater storage device according to claim 3 wherein: the inner wall of the storage box (1) is also provided with a water level monitor (107), and the wastewater inlet pipe (103) is also provided with a water inlet valve.

5. A wastewater storage device according to claim 1, wherein: the side of filter frame (204) is provided with handle (205), the top of solution box (301) is provided with filling port (302), chemical agent is equipped with in solution box (301).

6. The wastewater storage device of claim 4, wherein: the processor (108) is electrically connected with the water outlet valve (105), the liquid outlet valve (303), the electric cylinder (210) and the stirring motor (109) as well as the water inlet valve on the wastewater inlet pipe (103).