CN214309663U - Comprehensive wastewater sampling system - Google Patents

Abstract

The utility model relates to a waste water sampling test's technical field, comparatively difficult defect when testing to the waste water sampling of different grade type to the tradition, a waste water comprehensive sampling system is proposed, including setting up the frame on the wall, the frame is erect by supreme level in proper order down and is equipped with a plurality of collecting boxes, be provided with a plurality of baffles in the collecting box, a plurality of baffles separate into a plurality of cavitys with the collecting box, the frame corresponds a plurality of inlet tubes, a plurality of inlet tubes communicate one by one with corresponding cavity respectively, first control valve is installed to the inlet tube, a plurality of cavitys of collecting box bottom correspondence are provided with a plurality of drain pipes, a plurality of drain pipes communicate with corresponding cavity respectively, the second control valve is all installed to the drain pipe, the collecting box corresponds a plurality of cavitys and still is provided with a plurality of sample valves, a plurality of sample valves communicate with the cavity that corresponds respectively. This application has the waste water sample simple and convenient effect more of messenger to the different grade type.

Description

Comprehensive wastewater sampling system

Technical Field

The application relates to the technical field of wastewater sampling detection, in particular to a wastewater comprehensive sampling system.

Background

With the continuous development of industry, the generation of industrial wastewater is also increasing, and in order to reduce the pollution and damage to the environment caused by the direct discharge of the industrial wastewater, a wastewater treatment station is generally required to be built to treat the industrial wastewater.

Industrial wastewater can be classified into papermaking wastewater, textile wastewater, tanning wastewater, pesticide wastewater, metallurgical wastewater, oil refining wastewater and the like according to products and processing objects of industrial enterprises. Different industrial waste water has different treatment methods, and the waste water treatment station need separately collect the back to different kinds of waste water usually, collects the detection through taking a sample each kind of waste water again, carries out subsequent processing to waste water through the main pollutant in the detection confirmation waste water after pertinence again.

To the correlation technique among the above-mentioned, the inventor thinks, the waste water treatment station collects different waste waters and stores in different waste water treatment ponds usually, and the waste water collecting ponds that need the detection personnel to rush to different during the sample detection usually carry out the sample detection, and efficiency is lower. There is therefore room for improvement.

Disclosure of Invention

In order to make the waste water sample more simple and convenient, this application provides a waste water comprehensive sampling system.

The application provides a sampling system is synthesized to waste water adopts following technical scheme:

the utility model provides a sampling system is synthesized to waste water, is including erectting the frame on the wall, the frame is by supreme level frame in proper order down is equipped with a plurality of collecting boxes, be provided with a plurality of baffles in the collecting box, it is a plurality of the baffle separates into a plurality of cavitys with the collecting box, the frame corresponds a plurality of cavitys and has erect a plurality of inlet tubes, and is a plurality of the inlet tube communicates with corresponding cavity one by one respectively, first control valve is installed to the inlet tube, a plurality of cavitys that the collecting box bottom corresponds are provided with a plurality of drain pipes, and are a plurality of the drain pipe communicates with corresponding cavity respectively, the second control valve is all installed to the drain pipe, the collecting box corresponds a plurality of cavitys and still is provided with a plurality of sample valves, and is a plurality of the sample valve communicates with the cavity that corresponds respectively.

Through adopting above-mentioned technical scheme, a plurality of cavitys correspond different inlet tubes, make different kinds of waste water can concentrate in the different cavitys of discharging the collecting box, when needs carry out the sample detection to different kinds of waste water, only need open the sample valve that corresponds with the cavity alright collect the waste water that will detect, compare the tradition and need carry out the sample detection at the collecting pit of difference and have more efficiency, be favorable to concentrating more and intake the detection to the waste water of different grade type, be favorable to reducing the degree of difficulty that waste water detected, make the sample detection of waste water more simple and convenient.

Preferably, the rack is horizontally provided with a plurality of grid plates for supporting the collecting boxes corresponding to the plurality of collecting boxes, the bottom end of the rack is horizontally provided with a collecting tank, one end of the collecting tank is provided with a discharge port, and an opening of the collecting tank is positioned below the grid plates at the bottom end of the rack.

By adopting the technical scheme, the collecting box can be more stably placed on the grid plate through the horizontally arranged grid plate; simultaneously, through the setting of grid board for the waste water that the sample valve dripped is difficult for gathering on the grid board, makes waste water can more drip the collecting vat to the frame bottom through the mesh of grid board, and then is collected by the collecting vat, is favorable to reducing the waste water polluted environment's that the sample valve spilt condition.

Preferably, the collecting box is provided with a plurality of overflow pipes corresponding to the plurality of cavities, the overflow pipes are all located at the top end of the collecting box, and the overflow pipes are respectively communicated with the corresponding cavities.

Through adopting above-mentioned technical scheme, through the setting of overflow pipe for the waste water of cavity is collected and can in time be followed the overflow pipe and is discharged when too much, makes in the waste water of cavity is difficult for stretching to adjacent cavity, makes waste water difficult for interfering mutually, and then makes the sample detection of the waste water of different cavities more accurate.

Preferably, the water inlet pipes all extend to the bottom end of the collecting box.

Through adopting above-mentioned technical scheme, extend to the setting of collecting box bottom through the inlet tube for difficult emergence when waste water discharges into corresponding cavity through the inlet tube is sputtered, and then is favorable to reducing the waste water that sputters and spatters to and then disturb the condition of sample detection in adjacent cavity, makes waste water can flow into the cavity better more gently, is favorable to improving waste water sample detection's accuracy.

Preferably, a plurality of pedals are horizontally arranged at the bottom end of the rack, and the pedals are sequentially arranged from bottom to top to form a stepped structure.

Through adopting above-mentioned technical scheme, through the setting that is the echelonment structure of a plurality of footboards, the footboard of accessible echelonment removes to the frame eminence and detects the waste water that is located the collecting box of eminence during the detection for the detection of the waste water that is located the collecting box of frame eminence is simple and convenient more.

Preferably, the top end of the rack is also provided with a cover plate, and the projection of the cover plate on the horizontal plane is larger than that of the collecting box on the horizontal plane.

Through adopting above-mentioned technical scheme, be favorable to reducing the rainwater and directly fall into the collecting box and lead to the waste water in the collecting box to receive the condition of interference for waste water in the collecting box is difficult for receiving the pollution of rainwater and debris, and then makes the sample detection to cavity waste water more accurate.

Preferably, the cover plate is arranged obliquely downwards towards the direction far away from the wall surface.

Through adopting above-mentioned technical scheme, set up through the apron slope for rainwater and debris are difficult for gathering at the apron top, make rainwater and debris can better through the slope lower extreme of gravity landing to the apron and then the roll-off cover is outside.

Preferably, the section of the water inlet pipe extending into the cavity is fixed on the inner wall of the cavity through a U-shaped pipe clamp.

Through adopting above-mentioned technical scheme for when the inlet tube intake, the difficult great vibrations that produce of body of inlet tube are favorable to reducing the body vibrations of inlet tube and lead to the condition with the cavity inner wall bumps, make the difficult wearing and tearing of inlet tube, are favorable to prolonging the life of inlet tube.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the collecting box is divided into a plurality of cavities by arranging a plurality of partition plates, a plurality of water inlet pipes are respectively communicated with the corresponding cavities, different types of wastewater are introduced into the corresponding cavities, and the wastewater can be sampled only by opening the corresponding sampling valves during sampling, so that the difficulty in sampling the wastewater is reduced;

2. through the arrangement of the overflow ports, the wastewater is not easy to overflow to the adjacent cavities, so that the wastewater in the adjacent cavities is not easy to pollute each other, and the sampling detection of the wastewater is more accurate;

3. be used for supporting the grid board of collecting box through the frame, the frame bottom still is provided with the collecting vat for the waste water that the sample valve drips can fall to the collecting vat and then be collected the discharge by the collecting vat through the mesh of grid board, makes the difficult polluted environment of waste water that the sample valve drips.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is an enlarged schematic view of section A of FIG. 1;

FIG. 3 is a schematic structural diagram for illustrating a cavity of a collection box according to an embodiment of the present application;

FIG. 4 is a partial cross-sectional view of an embodiment of the present application for a collection trough.

Description of reference numerals: 1. a wall surface; 2. a frame; 20. a cover plate; 21. a grid plate; 22. collecting tank; 221. an outlet port; 3. a collection box; 31. a partition plate; 32. a cavity; 33. an overflow pipe; 34. a sampling valve; 35. a drain pipe; 351. a second control valve; 4. a water inlet pipe; 41. a first control valve; 5. a support bar; 6. a waste water collecting pipe; 7. a pedal; 71. a support leg; 8. u type pipe strap.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a comprehensive sampling system of waste water.

Referring to fig. 1 and 2, a comprehensive wastewater sampling system comprises a frame 2 installed on a wall 1, wherein the frame 2 is vertically arranged, the frame 2 is horizontally erected with two collecting boxes 3 from bottom to top in sequence, the two collecting boxes 3 are rectangular and have openings at the top ends, five partition plates 31 are fixedly connected in the collecting boxes 3, the bottom ends of the partition plates 31 are fixedly connected with the bottom walls of the collecting boxes 3, the two sides of each partition plate 31 are fixedly connected with the inner walls of the two long sides of the collecting box 3, the collecting boxes 3 are divided into six cavities 32 by the five partition plates 31, six water inlet pipes 4 are erected above the collecting boxes 3, the six water inlet pipes 4 are respectively communicated with the six cavities 32 of the collecting boxes 3, first control valves 41 are installed on the water inlet pipes 4, six sampling valves 34 are arranged on the collecting boxes 3, in the embodiment, the sampling valves 34 are water taps, and the six sampling valves 34 are respectively communicated with the six cavities 32, the bottom end of the collecting tank 3 is provided with six groups of drain pipes 35, the six groups of drain pipes 35 are respectively communicated with the six cavities 32, and the drain pipes 35 are provided with second control valves 351.

Referring to fig. 1 and fig. 2, in this embodiment, sampling valve 34 and drain pipe 35 all are located the one side that collecting box 3 deviates from wall 1, open sampling valve 34 when being convenient for detect, and the comprehensive sampling system of waste water still includes a plurality of bracing pieces 5 that are used for supporting inlet tube 4 of fixed connection in wall 1, and bracing piece 5 sets up with wall 1 is perpendicular, and inlet tube 4 passes through U type pipe strap 8 to be fixed on bracing piece 5 for difficult production vibrations when inlet tube 4 leads to water.

Referring to fig. 2 and 3, the one end of inlet tube 4 all extends to corresponding cavity 32 bottom for difficult production when the waste water in the inlet tube 4 emits into cavity 32 sputters, and one section that inlet tube 4 stretches into in the cavity 32 is passed through on the inner wall of the fixed cavity 32 of U type pipe strap 8, makes when the drainage of inlet tube 4, the difficult vibrations that produce of inlet tube 4.

Referring to fig. 1 and 2, the top ends of the collecting tanks 3 are provided with six groups of overflow pipes 33, the six groups of overflow pipes 33 are respectively communicated with the six cavities 32, the wastewater collecting system further comprises two wastewater collecting pipes 6, and the two wastewater collecting pipes 6 are respectively positioned below the two collecting tanks 3 and respectively correspond to the two collecting tanks 3 one by one; the end of the drain pipe 35 far away from the collecting box 3 is respectively communicated with the corresponding overflow pipes 33, and the end of the overflow pipe 33 far away from the collecting box 3 is communicated with the corresponding waste water collecting pipe 6, so that the overflowed waste water can flow into the waste water collecting pipe 6.

Referring to fig. 1 and 2, two groups of grid plates 21 are horizontally and fixedly connected to the frame 2 corresponding to the two groups of collecting boxes 3, and the grid plates 21 are located at the bottoms of the collecting boxes 3 and used for supporting the collecting boxes 3; frame 2 bottom is the horizontal fixedly connected with collecting vat 22 still, and the opening on collecting vat 22 top is located the grid plate 21 of frame 2 bottom under, and collecting vat 22 covers collecting vat 3 with the projection of sampling valve 34 at the horizontal plane in the projection of horizontal plane for the waste water that drips can fall into collecting vat 22 and then be collected by collecting vat 22 through the mesh of grid plate 21 when sampling valve 34 is opened.

Referring to fig. 1 and 4, a discharge port 221 is formed at one end of the collection tank 22, and a bottom wall of the collection tank 22 is disposed obliquely downward toward one end of the discharge port 221, so that the wastewater in the collection tank 22 is discharged from the discharge port 221 by gravity.

Referring to fig. 1, the lower end of the frame 2 is further horizontally and fixedly connected with two pedals 7, and the two pedals 7 are arranged from low to high to form a stepped structure, so that a tester can conveniently step on the pedals 7 to sample and detect the wastewater in the cavity 32 at the top end of the frame 2. The bottom surfaces of the pedals 7 are fixedly connected with supporting legs 71, and the supporting legs 71 are perpendicular to the pedals 7 and used for supporting the pedals 7.

The implementation principle of the comprehensive wastewater sampling system in the embodiment of the application is as follows: when needs examine the waste water of different grade type, open first control valve 41, let in the cavity 32 that corresponds with the waste water of different grade type through the drain pipe 35 that corresponds, open sample valve 34, sample waste water in proper order for different kinds of waste water can concentrate to store in the different cavities 32 of collecting box 3, is convenient for concentrate and detects the waste water of different grade type, is favorable to reducing the degree of difficulty that waste water sampling detected.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a sampling system is synthesized to waste water which characterized in that: the device comprises a rack (2) arranged on a wall surface (1), wherein the rack (2) is provided with a plurality of collecting boxes (3) from bottom to top in sequence, the collecting boxes (3) are internally provided with a plurality of partition plates (31), the collecting boxes (3) are separated into a plurality of cavities (32) by the plurality of partition plates (31), a plurality of water inlet pipes (4) are erected on the rack (2) corresponding to the plurality of cavities (32), the plurality of water inlet pipes (4) are respectively communicated with the corresponding cavities (32) one by one, first control valves (41) are installed on the water inlet pipes (4), a plurality of drain pipes (35) are arranged at the bottom end of the collecting box (3) corresponding to the plurality of cavities (32), the plurality of drain pipes (35) are respectively communicated with the corresponding cavities (32), second control valves (351) are installed on the drain pipes (35), and a plurality of sampling valves (34) are also arranged on the collecting box (3) corresponding to the plurality of cavities (32), the sampling valves (34) are respectively communicated with the corresponding cavities (32).

2. The integrated wastewater sampling system according to claim 1, wherein: the frame (2) is provided with a plurality of grid plates (21) for supporting the collecting boxes (3) corresponding to the plurality of collecting boxes (3) horizontally, the bottom end of the frame (2) is provided with a collecting tank (22) horizontally, a discharge port (221) is formed in one end of the collecting tank (22), and an opening in the top end of the collecting tank (22) is located below the grid plates (21) at the bottom end of the frame (2).

3. The integrated wastewater sampling system according to claim 2, wherein: the collecting box (3) is provided with a plurality of overflow pipes (33) corresponding to the plurality of cavities (32), the overflow pipes (33) are all located at the top end of the collecting box (3), and the overflow pipes (33) are respectively communicated with the corresponding cavities (32).

4. The integrated wastewater sampling system according to claim 1, wherein: the water inlet pipe (4) extends to the bottom end of the collecting box (3).

5. The integrated wastewater sampling system according to claim 4, wherein: the bottom end of the rack (2) is horizontally provided with a plurality of pedals (7), and the pedals (7) are sequentially arranged from bottom to top to form a stepped structure.

6. The integrated wastewater sampling system according to claim 1, wherein: the top end of the rack (2) is also provided with a cover plate (20), and the projection of the cover plate (20) on the horizontal plane covers the projection of the collecting box (3) on the horizontal plane.

7. The integrated wastewater sampling system according to claim 6, wherein: the cover plate (20) is obliquely and downwards arranged towards the direction far away from the wall surface (1).

8. The integrated wastewater sampling system according to claim 4, wherein: one section that inlet tube (4) stretched into cavity (32) all fixes on the inner wall of cavity (32) through U type pipe strap (8).

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