CN210347625U - High-efficient potassium fluoborate synthetic waste water monitoring device - Google Patents
High-efficient potassium fluoborate synthetic waste water monitoring device Download PDFInfo
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- CN210347625U CN210347625U CN201921146509.1U CN201921146509U CN210347625U CN 210347625 U CN210347625 U CN 210347625U CN 201921146509 U CN201921146509 U CN 201921146509U CN 210347625 U CN210347625 U CN 210347625U
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Abstract
The utility model relates to a wastewater discharge technical field specifically is a synthetic waste water monitoring device of high-efficient potassium fluoborate, including the monitoring device body, top one side of monitoring device body is run through and is provided with the inlet tube, bottom one side of monitoring device body is run through and is provided with the outlet pipe, the top fixed mounting detector of monitoring device body, the inside top fixed mounting of monitoring device body detects the cavity, the inside of monitoring device body is from last to being equipped with first baffle down in proper order, second baffle and third baffle, wherein first baffle, the equal level setting of second baffle and third baffle, beneficial effect is: this practicality installs driving motor on the inside first baffle of monitoring device body to utilize the puddler stirring waste water, and only when waste water was overflowed the overflow pipe, just can flow first baffle, stirring time is long relatively speaking, and can guarantee that test probe soaks all the time in waste water, consequently can be more accurate detect out each item index content in the waste water.
Description
Technical Field
The utility model relates to a waste water discharge technical field specifically is a high-efficient potassium fluoborate synthetic waste water monitoring device.
Background
Potassium fluoroborate is a colorless crystal with pungent odor, is toxic, and is slightly soluble in water, ethanol, and diethyl ether. Can produce a large amount of waste liquids when present industry is synthetic potassium fluoborate, the waste liquid is generally acidic, and contains a large amount of potassium ions, if directly discharges, can cause serious pollution phenomenon, consequently in prior art, can increase a waste water monitoring device on the assembly line usually for various ion content and index in the real-time supervision waste water, the better treatment waste water of being convenient for. However, the existing wastewater monitoring device still has some leaks and defects in structure, which are specifically as follows:
1. the detection accuracy is not enough, and because the concentration in the wastewater is usually uneven, the probe of the detector is directly inserted into the wastewater, and obviously, various indexes in the wastewater cannot be accurately reflected;
2. the existing monitoring device is lack of a filtering mechanism, and the waste water contains a large amount of waste residues and polymers, so that the waste water is required to be filtered after detection and then treated, relatively speaking, a filtering process is added, and the treatment cost of the waste water is also improved.
Therefore, the utility model provides a high-efficient potassium fluoborate synthetic wastewater monitoring device is used for solving and goes up
The problems are described.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high-efficient potassium fluoborate synthetic waste water monitoring device to solve the problem that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a synthetic waste water monitoring device of high-efficient potassium fluoborate, includes the monitoring device body, top one side of monitoring device body is run through and is provided with the inlet tube, bottom one side of monitoring device body is run through and is provided with the outlet pipe, the top fixed mounting detector of monitoring device body, the inside top fixed mounting of monitoring device body detects the cavity, the inside of monitoring device body is from last to being equipped with first baffle, second baffle and third baffle down in proper order, wherein first baffle, second baffle and third baffle are the homohorizontal setting, and the equal bolted connection in three's side is fixed on the inner wall of monitoring device body, the bottom of detector is equipped with PH probe, heavy metal ion probe and turbidity probe respectively, just PH probe, heavy metal ion probe and turbidity probe all extend to the inside of monitoring device body, it fixes at PH probe, heavy metal ion probe and turbidity probe to detect the cavity, The outside of heavy metal ion probe and turbidity probe, and evenly run through on the lateral wall of detection cavity and seted up the through-hole, run through jointly on first baffle and the second baffle and be provided with communicating pipe, evenly be provided with the chimney filter on the third baffle, the top of communicating pipe is located the top of first baffle, and the bottom of communicating pipe is located the below of second baffle, and is provided with electric valve on communicating pipe, the quantity of chimney filter has a plurality of, and the chimney filter all runs through the third baffle, has evenly seted up the filtration pore on the chimney filter, and the inboard of chimney filter all laminates and is provided with the filter cloth, and the inside of chimney filter is all fixed the cover and is connected and is equipped with a section of thick bamboo, closely laminate between a section of thick bamboo and the filter cloth, and the lateral wall of.
Preferably, a driving motor is fixedly installed in the center of the bottom end of the first partition plate, an output shaft of the driving motor is fixedly connected with a stirring rod, and the stirring rod penetrates through the first partition plate and extends to the upper side of the first partition plate.
Preferably, an overflow pipe is arranged on one side of the outside of the monitoring device body, one end of the overflow pipe penetrates through the side wall of the monitoring device body and is located above the first partition plate, and the other end of the overflow pipe penetrates through the side wall of the monitoring device body and is located below the second partition plate.
Preferably, be equipped with the filter screen between second baffle and the third baffle, the filter screen level sets up, and the filter screen is located the top of chimney filter, the side of filter screen and the inner wall fixed connection of monitoring device body.
Preferably, evenly run through on the third baffle and be provided with the round hole, the outside of round hole all is equipped with the position circle, the equal welded fastening in bottom of position circle is on the third baffle, position circle and round hole are all passed to the bottom of chimney filter, and threaded connection is fixed between chimney filter and the position circle.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the driving motor is arranged on the first partition plate in the monitoring device body, the stirring rod is used for stirring the wastewater, the wastewater can flow out of the first partition plate only when flowing through the overflow pipe, the stirring time is relatively long, and the detection probe can be ensured to be always soaked in the wastewater, so that the content of each index in the wastewater can be more accurately detected;
2. this practicality is provided with filtering mechanism in the below of second baffle, and wherein the filter screen is used for coarse filtration, and the inside filter cloth of chimney filter and strain a section of thick bamboo and be used for the thin filtration, and waste water after the filtration also can directly be followed and discharged in the outlet pipe, compares the conventional art, this practicality has increased one set of filtering mechanism, provides convenient for the improvement of follow-up waste water, has also practiced thrift the treatment cost of waste water, has improved treatment efficiency.
Drawings
FIG. 1 is a schematic structural view of the present invention;
fig. 2 is a cross-sectional view of the filter tube structure of the present invention.
In the figure: the device comprises a monitoring device body 1, a water inlet pipe 2, a detector 3, a detection cavity 4, a first partition plate 5, a second partition plate 6, a third partition plate 7, a driving motor 8, a communicating pipe 9, an overflow pipe 10, a filter screen 11, a filter pipe 12, filter cloth 13, a filter cartridge 14 and a water outlet pipe 15.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-2, the present invention provides a technical solution: a high-efficiency potassium fluoborate synthetic wastewater monitoring device comprises a monitoring device body 1, a water inlet pipe 2 is arranged on one side of the top of the monitoring device body 1 in a penetrating manner, a water outlet pipe 15 is arranged on one side of the bottom of the monitoring device body 1 in a penetrating manner, a detector 3 is fixedly arranged on the top end of the monitoring device body 1, a detection cavity 4 is fixedly arranged on the top end in the monitoring device body 1, a first clapboard 5, a second clapboard 6 and a third clapboard 7 are sequentially arranged in the monitoring device body 1 from top to bottom, wherein the equal level of first baffle 5, second baffle 6 and third baffle 7 sets up, and the equal bolted connection of three's side is fixed on the inner wall of monitoring device body 1, and the position relation of first baffle 5, second baffle 6 and third baffle 7 is as shown in figure 1, and three's side all laminates with the inner wall of monitoring device body 1, can guarantee that waste water can not follow the gap infiltration of baffle.
The bottom of the detector 3 is respectively provided with a PH probe, a heavy metal ion probe and a turbidity probe, the PH probe, the heavy metal ion probe and the turbidity probe all extend to the inside of the monitoring device body 1, the detection cavity 4 is fixed at the outer sides of the PH probe, the heavy metal ion probe and the turbidity probe, the side wall of the detection cavity 4 is uniformly penetrated and provided with through holes, the first partition plate 5 and the second partition plate 6 are commonly penetrated and provided with communicating pipes 9, the third partition plate 7 is uniformly provided with filter tubes 12, the top end of the communicating pipe 9 is positioned above the first partition plate 5, the bottom end of the communicating pipe 9 is positioned below the second partition plate 6, the communicating pipes 9 are provided with electric valves, the number of the filter tubes 12 is a plurality, the filter tubes 12 are penetrated through the third partition plate 7, the filter holes are uniformly formed in the filter tubes 12, the inner sides of the filter tubes 12 are respectively laminated and provided with filter cloth 13, the inner parts of the filter tubes, the filter cartridge 14 is tightly attached to the filter cloth 13, the side wall of the filter cartridge 14 is in a mesh shape, the filter tube 12 and the filter cartridge 14 mainly play a supporting role, wherein the filter cloth 13 mainly playing a filtering role is sleeved outside the filter cartridge 14, the filter cartridge 14 is sleeved inside the filter tube 12, and the bottom ends of the filter tube 12 and the filter cartridge 14 are both in an open shape.
The bottom center of first baffle 5 fixed mounting driving motor 8, fixed connection puddler on driving motor 8's the output shaft, the puddler runs through first baffle 5 and extends to the top of first baffle 5.
Outside one side of monitoring device body 1 is equipped with overflow pipe 10, the one end of overflow pipe 10 runs through the lateral wall of monitoring device body 1 and is located the top of first baffle 5, the other end runs through the lateral wall of monitoring device body 1 and is located the below of second baffle 6, the top position of overflow pipe 10 is higher than the position of three test probe, promptly the PH probe, heavy metal ion probe and turbidity probe soak all the time in waste water, highly reach overflow pipe 10's height back when waste water, accessible overflow pipe 10 gets into the below of second baffle 6.
Be equipped with filter screen 11 between second baffle 6 and the third baffle 7, filter screen 11 level sets up, and filter screen 11 is located the top of chimney filter 12, the side of filter screen 11 and the inner wall fixed connection of monitoring device body 1.
Evenly run through on the third baffle 7 and be provided with the round hole, the outside of round hole all is equipped with the position circle, the equal welded fastening in bottom of position circle on third baffle 7, position circle and round hole are all passed to the bottom of chimney 12, and threaded connection is fixed between chimney 12 and the position circle, as shown in figure 1, chimney 12 is through running through at the inside fixed of position circle promptly, threaded connection between the two.
The working principle is as follows: the utility model discloses during the use, start driving motor 8 to let in waste water from inlet tube 2, wherein the waste water level of 5 tops of first baffle rises gradually, treat to rise to discharge and get into the below of second baffle 6 in the overflow pipe 10 after the take the altitude, get into the below of third baffle 7 after the filtration of filter tube 12 again, finally discharge from outlet pipe 15. Wherein the driving motor 8 drives the stirring rod to rotate for mixing the wastewater uniformly, and the PH probe, the heavy metal ion probe and the turbidity probe are used for detecting each index of the wastewater and finally displayed on the detector 3. The wastewater discharged from the overflow pipe 10 enters the lower part of the second partition plate 6, then passes through the filtering action of the filter screen 11, then passes through the filter holes on the filter tube 12 and enters the interior of the filter tube 12, wherein the interior of the filter tube 12 is sleeved with the filter cloth 13 and the filter cartridge 14, and after the filtering action of the filter cloth 13 and the filter cartridge, the wastewater enters the lower part of the third partition plate 7 and finally is discharged out of the monitoring device body 1. Communicating pipe 9 runs through first baffle 5 and second baffle 6 simultaneously, and under the normal condition, the valve on communicating pipe 9 is the closed condition, treats waste water detection and finishes the back, opens electric valve again for waste water on with first baffle 5 is arranged to the greatest extent.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (5)
1. The utility model provides a high-efficient potassium fluoborate synthetic waste water monitoring device, includes monitoring device body (1), its characterized in that: a water inlet pipe (2) penetrates through one side of the top of the monitoring device body (1), a water outlet pipe (15) penetrates through one side of the bottom of the monitoring device body (1), a detector (3) is fixedly installed at the top end of the monitoring device body (1), a detection cavity (4) is fixedly installed at the top end of the interior of the monitoring device body (1), a first partition plate (5), a second partition plate (6) and a third partition plate (7) are sequentially arranged in the monitoring device body (1) from top to bottom, wherein the first partition plate (5), the second partition plate (6) and the third partition plate (7) are all horizontally arranged, the side edges of the first partition plate, the second partition plate and the third partition plate are all fixedly connected to the inner wall of the monitoring device body (1) through bolts, a PH probe, a heavy metal ion probe and a turbidity probe are respectively arranged at the bottom of the detector (3), and the PH probe, the heavy metal ion probe and the turbidity, the detection cavity (4) is fixed on the outer sides of the PH probe, the heavy metal ion probe and the turbidity probe, through holes are uniformly formed in the side wall of the detection cavity (4) in a penetrating manner, the first partition plate (5) and the second partition plate (6) are jointly provided with a communicating pipe (9) in a penetrating manner, the third partition plate (7) is uniformly provided with filter tubes (12), the top end of the communicating pipe (9) is positioned above the first partition plate (5), the bottom end of the communicating pipe (9) is positioned below the second partition plate (6), electric valves are arranged on the communicating pipe (9), a plurality of filter tubes (12) are arranged, the filter tubes (12) are all penetrated through the third partition plate (7), filter holes are uniformly formed in the filter tubes (12), filter cloth (13) is attached to the inner sides of the filter tubes (12), and filter cartridges (14) are fixedly sleeved and fixedly arranged in the filter tubes (12), the filter cartridge (14) is tightly attached to the filter cloth (13), and the side wall of the filter cartridge (14) is in a mesh shape.
2. The device for monitoring the wastewater generated in the synthesis of high-efficiency potassium fluoborate according to claim 1, which is characterized in that: the bottom center of first baffle (5) fixed mounting driving motor (8), fixed connection puddler on the output shaft of driving motor (8), the puddler runs through first baffle (5) and extends to the top of first baffle (5).
3. The device for monitoring the wastewater generated in the synthesis of high-efficiency potassium fluoborate according to claim 1, which is characterized in that: an overflow pipe (10) is arranged on one side of the outside of the monitoring device body (1), one end of the overflow pipe (10) penetrates through the side wall of the monitoring device body (1) and is located above the first partition plate (5), and the other end of the overflow pipe penetrates through the side wall of the monitoring device body (1) and is located below the second partition plate (6).
4. The device for monitoring the wastewater generated in the synthesis of high-efficiency potassium fluoborate according to claim 1, which is characterized in that: be equipped with filter screen (11) between second baffle (6) and third baffle (7), filter screen (11) level sets up, and filter screen (11) are located the top of chimney filter (12), the side of filter screen (11) and the inner wall fixed connection of monitoring device body (1).
5. The device for monitoring the wastewater generated in the synthesis of high-efficiency potassium fluoborate according to claim 1, which is characterized in that: evenly run through on third baffle (7) and be provided with the round hole, the outside of round hole all is equipped with the position circle, the equal welded fastening in bottom of position circle is on third baffle (7), position circle and round hole are all passed to the bottom of chimney filter (12), and threaded connection is fixed between chimney filter (12) and the position circle.
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CN201921146509.1U CN210347625U (en) | 2019-07-19 | 2019-07-19 | High-efficient potassium fluoborate synthetic waste water monitoring device |
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CN201921146509.1U CN210347625U (en) | 2019-07-19 | 2019-07-19 | High-efficient potassium fluoborate synthetic waste water monitoring device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113457275A (en) * | 2021-07-28 | 2021-10-01 | 浙江省海洋水产研究所 | Water filter device and have this filter device's pond of growing seedlings |
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2019
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113457275A (en) * | 2021-07-28 | 2021-10-01 | 浙江省海洋水产研究所 | Water filter device and have this filter device's pond of growing seedlings |
CN113457275B (en) * | 2021-07-28 | 2022-07-01 | 浙江省海洋水产研究所 | Water filter device and have this filter device's pond of growing seedlings |
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