CN117804873B - Industrial wastewater component selective inspection device for chlorine dissolution treatment system - Google Patents

Abstract

The invention discloses an industrial wastewater component sampling inspection device for a chlorine dissolution treatment system, and belongs to the technical field of detection equipment. The invention comprises a component analyzer, an outer support and an inner shell, wherein the inner shell is in a cuboid shape, four vertexes of the inner shell are connected to the central part of the outer support through hook springs, a liquid hopper, a liquid separating hopper and an adjusting module are arranged in the inner shell, the liquid separating hopper is arranged below the liquid hopper, a filter plate is arranged between the liquid separating hopper and the liquid hopper, the adjusting module is connected with the filter plate, a vibrating assembly is arranged on the outer support and is in contact with the inner shell, the component analyzer is arranged on the outer support, before the detection of the components of wastewater, the particle impurities in the wastewater are filtered, the wastewater with the impurities filtered out is mixed with a detecting agent in a glass test tube, and the component analyzer detects the components of the wastewater in the glass test tube.

Description

Industrial wastewater component selective inspection device for chlorine dissolution treatment system

Technical Field

The invention relates to the technical field of detection equipment, in particular to an industrial wastewater component sampling inspection device for a chlorine dissolution treatment system.

Background

Chlorine is generally used as a disinfectant to kill bacteria, viruses and other microorganisms in water, and is generally used in water treatment, sewage treatment and other industrial processes, the use of chlorine requires attention to toxicity, so that measures are required to dissolve chlorine and safely introduce the chlorine into a treatment system, the treated industrial wastewater is required to meet a certain discharge standard before being discharged, components of the treated industrial wastewater are required to be detected, existing detection equipment is semi-automatic, manual sampling is required, the industrial wastewater and detection reagent are mixed in a test tube, spectral analysis is performed in the detection equipment, a reagent tube is taken out after the analysis is finished, the industrial wastewater is poured out, the equipment and the test tube are cleaned, and many operation procedures are based on manual work, so that the detection procedure of the wastewater cannot be further simplified, and the use process is very inconvenient.

Disclosure of Invention

The invention aims to provide an industrial wastewater component sampling inspection device for a chlorine dissolution treatment system, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an industry waste water ingredient spot check device for chlorine solution processing system, includes component analyzer, outer support, interior casing is cuboid form, and four summit of interior casing pass through the hook spring to be connected in the central part of outer support, and the internally mounted of interior casing has liquid fill, liquid division fill, regulation module, liquid division fill sets up in liquid fill below, is provided with the filter between liquid division fill and the liquid fill, regulation module is connected with the filter, be provided with vibration subassembly on the outer support, vibration subassembly contacts with the inner shell, component analyzer installs on the outer support, carries out waste water component before detecting, and waste water needs to filter in advance, filters granule impurity in the waste water except that the drain pipe that is used for discharging sewage, and the operating personnel can also mix with the detection agent through its interpolation detection agent in the glass test tube, filters the waste water of impurity, and component analyzer detects the waste water ingredient in the glass test tube.

Further, the bottom of liquid fill has seted up the thin bars groove, the filter includes grid board and extension pole, grid board slidable mounting is inside the liquid fill, and grid board seals the thin bars groove, and liquid fill is run through to the one end of grid board, the extension pole is connected at the one end that the grid board worn out the liquid fill, sealing contact between grid board and the liquid fill.

Further, the adjusting module comprises a displacement mechanism, a pressure control mechanism and a driving mechanism, the displacement mechanism and the pressure control mechanism are driven by the driving mechanism simultaneously, the driving mechanism comprises a first motor, a screw rod, a lifting block, an inner slide block, a long rod and a pair of end hook rods, the screw rod is arranged on the first motor, a threaded hole is vertically formed in the lifting block, one side of the lifting block is in sliding contact with the inner shell, the lifting block is in spiral fit with the screw rod, the inner slide block is slidably arranged in the lifting block, the long rod is inserted into the inner slide block, the pair of end hook rods are respectively arranged at two ends of the long rod, an operator pours industrial wastewater to be detected into the liquid bucket, the control system drives the first motor to drive the screw rod to rotate, and when the screw rod rotates, the lifting block is limited by the inner wall of the inner shell and can only move up and down under the driving of the screw rod spiral transmission.

Further, the displacement mechanism comprises a pair of fine tuning levers, the fine tuning levers are arranged in parallel, one end of each fine tuning lever is connected with the inner shell through a plurality of auxiliary connecting rods, two sides of each long rod penetrate through one end of each fine tuning lever far away from the corresponding support through the corresponding support, the long rods are connected with the fine tuning levers in a rotating mode, one sides of each fine tuning lever close to the corresponding support are provided with inclined sliding grooves, the outer rods are slidably mounted with the inclined sliding grooves, when the lifting blocks move downwards, the inner sliding blocks and the long rods are driven to descend simultaneously, one end of each fine tuning lever is pressed downwards through the long rods, the fine tuning levers belong to labor-saving levers, the inclined sliding grooves close to the supporting point position move by a small angle after one end of each fine tuning lever is lifted, the inclined sliding grooves push the grating plates out of the liquid bucket through the outer rods by a certain distance, the grating plates are staggered with the fine grating grooves by a certain distance, and small gaps are formed between the outer rods, and the liquid bucket are communicated.

Further, accuse press mechanism includes a pair of cylinder lever, depression bar, briquetting and pull cylinder, a pair of connect into an organic wholely through several auxiliary connection pole between the cylinder lever, straight spout has been seted up to one side of a pair of cylinder lever, two straight slide groove respectively with two tip hooked rod sliding connection, a pair of one side that the cylinder lever is close to straight spout is with the internal casing switching, and one end that the straight spout was kept away from to a pair of cylinder lever is connected through the depression bar, the briquetting is installed on the piston rod of pull cylinder, has seted up the spout on the briquetting, depression bar slidable mounting is in the spout, install an exhaust tube on the pull cylinder, the one end and the branch liquid of exhaust tube are linked together in the liquid fill, and when the stock was pressed down, tip hooked rod also simultaneously moves down, and the tip hooked rod makes the one end of cylinder lever down move, and the cylinder lever belongs to hard lever, and the arm short resistance arm is long, and when the arm motion displacement less, the resistance arm removes longer displacement, consequently the depression bar upwards lifts the briquetting, and the briquetting drives the operation that the cylinder was taken out, and the exhaust tube will be divided into liquid in the fine air pressure groove, the fine air pressure groove is got into to the fine air pressure groove, the waste water is got into to the fine air gap in the filter, and waste water is forced into the fine air groove, and waste water in the fine air filter.

Further, divide liquid fill wide down narrowly, the liquid hole has been seted up to the bottom that divides the liquid fill, every go out liquid hole bottom is connected with a glass test tube, every the bottom of glass test tube is connected with the solenoid valve, solenoid valve and control system circuit connection, every the one end that the glass test tube was kept away from to the solenoid valve is connected with the drain pipe, through setting up displacement mechanism, accuse pressure mechanism and actuating mechanism, actuating mechanism drive displacement mechanism and accuse pressure mechanism simultaneous action, displacement mechanism makes grid board and fine grid groove dislocation form tiny filtration clearance, the impurity in the interception industrial waste water, accuse pressure mechanism makes to form the negative pressure in the liquid fill that receives water, forces industrial waste water seepage to wait to detect in the glass test tube for filterable speed has improved the treatment effeciency before the industrial waste water detects.

Further, vibration subassembly includes second motor, one-way sleeve, first friction disc and initiative bevel gear, the second motor is connected with first friction disc through the pivot, first friction disc is contacted with the inner shell body, one-way sleeve rotates and sets up in the pivot, be provided with one-way ratchet in the pivot, ratchet draw-in groove has been seted up to one-way telescopic inner circle, and one-way telescopic outer lane is provided with the sprocket tooth, be provided with first sprocket on the initiative bevel gear on the coaxial, be connected with first chain between first sprocket and the one-way sleeve, second motor circular telegram drive first friction disc corotation, frictional force makes the inner shell body slope between first friction disc and the inner shell body, but the hook spring makes the inner shell body return, and first friction disc makes the inner shell body do regular vibration promptly, and one-way ratchet can't drive one-way sleeve rotation when the second motor corotation, and inner shell body vibration auxiliary detector mixes with industrial waste water, and the composition analysis appearance detects the composition in the industrial waste water through optical analysis afterwards.

Further, the outer support is provided with a water suction pump, the driving bevel gear is coaxially connected with a pump shaft of the water suction pump, a water suction port of the water suction pump is connected with a water suction pipe, a water outlet of the water suction pump is connected with a water spray pipe, and one end of the water spray pipe is located above the liquid bucket.

Further, vibration subassembly still includes driven bevel gear and second friction disc, coaxial arrangement has the second sprocket on the driven bevel gear, the outer lane of second friction disc is provided with the sprocket tooth, be connected with the second chain between second sprocket and the second friction disc, driven bevel gear and the transmission of initiative bevel gear meshing, after the detection is accomplished, need discharge industrial waste water and wash detection device, the solenoid valve circular telegram is opened, glass test tube and drain pipe switch-on, actuating mechanism is simultaneously with the gap between grid board and the thin bars groove open completely, detection device begins the drainage, the second motor is reversed, unidirectional ratchet drives the one-way sleeve and rotates, unidirectional sleeve passes through first chain drive initiative bevel gear and rotates, initiative bevel gear drives driven bevel gear, driven bevel gear passes through second sprocket and second chain drive second friction disc and rotates, first friction disc and second friction disc exert effort simultaneously to the inner shell, make the vibration of inner shell do a plurality of directions, the suction pump drives the suction pump through the suction pipe and spouts the spray pipe, the clear water enters into the liquid fill, the holistic vibration bevel gear of inner shell combines the realization to detect device.

Through setting up vibration subassembly, satisfy industrial waste water and carry out the quick mixing and detect, when the second motor is reversed, first friction disc and second friction disc simultaneous movement apply effort to the inner shell, make the inner shell do the vibration of multiple directions, realized the self-cleaning to detection device after the clear water enters into in the liquid fill.

Compared with the prior art, the invention has the following beneficial effects:

1. Through setting up displacement mechanism, accuse pressure mechanism and actuating mechanism, actuating mechanism drive displacement mechanism and accuse pressure mechanism simultaneous action, displacement mechanism makes the grid board misplace with the fine grid groove and forms tiny filtration clearance, intercepts the impurity in the industrial waste water, and accuse pressure mechanism makes the branch liquid fill that receives water form the negative pressure, forces industrial waste water seepage to waiting to detect in the glass test tube for filterable speed has improved the treatment effeciency before the industrial waste water detects.

Through setting up vibration subassembly, satisfy industrial waste water and carry out the quick mixing and detect, when the second motor is reversed, first friction disc and second friction disc simultaneous movement apply effort to the inner shell, make the inner shell do the vibration of multiple directions, realized the self-cleaning to detection device after the clear water enters into in the liquid fill.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall appearance structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the internal structure of the outer bracket of the present invention;

FIG. 4 is a schematic view of the internal structure of the inner housing of the present invention;

FIG. 5 is a schematic view of the internal structure of the inner housing of the present invention;

FIG. 6 is a schematic view of the internal structure of the liquid bucket of the present invention;

in the figure: 1. an outer bracket; 2. an inner housing; 3. a liquid bucket; 4. a liquid separating hopper; 5. a grid plate; 6. a glass test tube; 7. an electromagnetic valve; 8. a drain pipe; 9. fine tuning the lever; 10. a lifting block; 11. a first motor; 12. a screw; 13. an inner slide; 14. a long rod; 15. an end hook rod; 16. a cylinder lever; 17. a compression bar; 18. an air pumping cylinder; 19. an exhaust pipe; 20. briquetting; 21. a second motor; 22. a one-way sleeve; 23. a first friction plate; 24. a first chain; 25. a drive bevel gear; 26. a first sprocket; 27. a driven bevel gear; 28. a second sprocket; 29. a second chain; 30. a second friction plate; 31. a water pump; 32. a water pumping pipe; 33. and a water spraying pipe.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: the utility model provides an industrial wastewater ingredient sampling inspection device for chlorine dissolution processing system, which comprises a component analyzer, outer support 1, inner housing 2 is cuboid form, four sumps of inner housing 2 pass through hook spring (not shown in the figure) to be connected in the central part of outer support 1, the internally mounted of inner housing 2 is equipped with liquid fill 3, divide liquid fill 4, adjust the module, divide liquid fill 4 to set up in liquid fill 3 below, divide liquid fill 4 to be provided with the filter between 3, adjust the module to be connected with the filter, the filter includes grid board 5 and epitaxial rod, grid board 5 slidable mounting is in liquid fill 3 inside, the one end of grid board 5 runs through liquid fill 3, the epitaxial rod is connected at the one end that grid board 5 worn out liquid fill 3, seal contact between grid board 5 and the liquid fill 3, be provided with vibration subassembly on the outer support 1, the vibration subassembly contacts with inner shell 2, the component analyzer is installed on outer support 1, before carrying out waste water component detection, waste water needs to filter in advance, particle impurity in the waste water filters out, wide down is narrow in the liquid separation bucket 4, liquid outlet hole has been seted up to the bottom of liquid separation bucket 4, every liquid outlet hole bottom is connected with a glass test tube 6, the bottom of every glass test tube 6 is connected with solenoid valve 7, solenoid valve 7 and control system circuit connection, the one end that glass test tube 6 was kept away from to every solenoid valve 7 is connected with drain pipe 8, drain pipe 8 that glass test tube 6 lower extreme was connected is except being used for discharging sewage, operating personnel can also add the detector through it, the waste water that filters out impurity mixes with the detector in glass test tube 6, the component analyzer detects the waste water composition in the glass test tube 6.

The adjusting module comprises a displacement mechanism, a pressure control mechanism and a driving mechanism, wherein the displacement mechanism and the pressure control mechanism are driven by the driving mechanism at the same time, the driving mechanism comprises a first motor 11, a screw rod 12, a lifting block 10, an inner slide 13, a long rod 14 and a pair of end hook rods 15, the screw rod 12 is arranged on the first motor 11, a threaded hole is vertically formed in the lifting block 10, one side of the lifting block 10 is in sliding contact with the inner shell 2, the lifting block 10 is in spiral fit with the screw rod 12, the inner slide 13 is arranged in the lifting block 10 in a sliding manner, the long rod 14 is inserted into the inner slide 13, the pair of end hook rods 15 are respectively arranged at two ends of the long rod 14, an operator pours industrial wastewater to be detected into the liquid bucket 3, the control system drives the first motor 11 to drive the screw rod 12 to rotate, and as one end of the lifting block 10 is in contact with the inner wall of the inner shell 2, and when the screw rod 12 rotates, the lifting block 10 is limited by the inner wall of the inner shell 2 and is driven by the screw rod 12 to move up and down only by the lifting block 10.

The displacement mechanism comprises a pair of fine tuning levers 9, the fine tuning levers 9 are arranged in parallel, one ends of the fine tuning levers 9 are connected into a whole through a plurality of auxiliary connecting rods, one ends of the fine tuning levers 9 are connected with the inner shell 2 through a support, two sides of a long rod 14 penetrate through one ends of the fine tuning levers 9 far away from the support, the long rod 14 is connected with the fine tuning levers 9 in a rotating mode, inclined sliding grooves are formed in one sides of the fine tuning levers 9 close to the support, the outer rods are slidably mounted with the inclined sliding grooves, fine grid grooves are formed in the bottoms of the liquid hoppers 3, grid plates 5 plug the fine grid grooves, when lifting blocks 10 move downwards, inner sliding blocks 13 and the long rods 14 are driven to descend simultaneously, one ends of the fine tuning levers 9 are pressed downwards, the fine tuning levers 9 belong to labor-saving levers, after one ends of the fine tuning levers 9 are lifted, the inclined sliding grooves close to the supporting point position move by a small angle, the inclined sliding grooves push the grid plates 5 out of the liquid hoppers 3 through the outer extending rods by a certain distance, the inclined sliding grooves are staggered for a certain distance, and small gaps are formed between the grid plates 5 and the fine grid grooves, so that the liquid hoppers 4 are communicated with the liquid hoppers 3.

The pressure control mechanism comprises a pair of cylinder levers 16, a pressing rod 17, a pressing block 20 and an air suction cylinder 18, wherein the pair of cylinder levers 16 are connected into a whole through a plurality of auxiliary connecting rods, one side of each pair of cylinder levers 16 is provided with a straight sliding groove, the two straight sliding grooves are respectively connected with two end hook rods 15 in a sliding mode, one side, close to the straight sliding groove, of each pair of cylinder levers 16 is connected with the inner shell 2 in a switching mode, one end, far away from the straight sliding groove, of each pair of cylinder levers 16 is connected through the pressing rod 17, the pressing block 20 is arranged on a piston rod of the air suction cylinder 18, the pressing block 20 is provided with a sliding groove, the pressing rod 17 is slidably arranged in the sliding groove, one air suction pipe 19 is arranged on the air suction cylinder 18, and one end of the air suction pipe 19 is communicated with the inside of the liquid separating hopper 4.

When the long rod 14 is pressed downwards, the end hook rod 15 moves downwards simultaneously, the end hook rod 15 enables one end of the cylinder lever 16 to move downwards, the cylinder lever 16 belongs to a laborious lever, the power arm is short in resistance arm length, when the power arm moves to a smaller displacement, the resistance arm moves to a longer displacement, therefore the pressing rod 17 lifts the pressing block 20 upwards, the pressing block 20 drives the air pumping cylinder 18 to pump air, the air pumping pipe 19 pumps air in the liquid separating bucket 4 into the air pumping cylinder 18, the air pressure in the liquid separating bucket 4 is reduced, industrial wastewater in the liquid separating bucket 3 is forced to enter the liquid separating bucket 4 through a fine seam between the grid plate 5 and a fine grid groove, impurities in the industrial wastewater are intercepted by the fine seam, a filtering effect is achieved, the industrial wastewater enters the glass test tube 6, and the displacement mechanism, the pressure control mechanism and the driving mechanism drive the pressure control mechanism to act simultaneously, the grid plate 5 and the fine grid groove are staggered to form a tiny filtering gap, impurities in the industrial wastewater are formed, the negative pressure control mechanism enables the negative pressure in the liquid separating bucket 4 to pump air, and the industrial wastewater to leak is detected before the industrial wastewater is detected, and the filtering efficiency of the test tube is improved.

The vibration assembly comprises a second motor 21, a one-way sleeve 22, a first friction disc 23, a drive bevel gear 25, a driven bevel gear 27 and a second friction disc 30, wherein the second motor 21 is connected with the first friction disc 23 through a rotating shaft, the first friction disc 23 is contacted with the inner shell 2, the one-way sleeve 22 is rotationally arranged on the rotating shaft, one-way ratchets are arranged on the rotating shaft, a ratchet clamping groove is formed in the inner ring of the one-way sleeve 22, a sprocket tooth is arranged on the outer ring of the one-way sleeve 22, a first sprocket wheel 26 is coaxially arranged on the drive bevel gear 25, a first chain 24 is connected between the first sprocket wheel 26 and the one-way sleeve 22, the second motor 21 is electrified to drive the first friction disc 23 to positively rotate, friction force between the first friction disc 23 and the inner shell 2 enables the inner shell 2 to incline, but the hook springs enable the inner shell 2 to positively rotate, namely the first friction disc 23 enables the inner shell 2 to regularly vibrate, the one-way ratchets can not drive the one-way sleeve 22 to rotate when the second motor 21 positively rotates, the vibration auxiliary detector of the inner shell 2 is mixed with industrial wastewater, and then the component analyzer detects components in industrial wastewater through optical analysis.

The outer bracket 1 is provided with a water suction pump 31, the driving bevel gear 25 is coaxially connected with a pump shaft of the water suction pump 31, a water suction pipe 32 is connected with a water suction port of the water suction pump 31, a water spray pipe 33 is connected with a water outlet of the water suction pump 31, one end of the water spray pipe 33 is positioned above the liquid bucket 3, the driven bevel gear 27 is coaxially provided with a second sprocket 28, the outer ring of the second friction disk 30 is provided with sprocket teeth, a second chain 29 is connected between the second sprocket 28 and the second friction disk 30, the driven bevel gear 27 is meshed with the driving bevel gear 25 for transmission, after detection is finished, industrial wastewater is required to be discharged and a detection device is cleaned, an electromagnetic valve 7 is electrified and opened, a glass test tube 6 is communicated with a drain pipe 8, a driving mechanism simultaneously completely opens a gap between a grating plate 5 and a fine grid groove, the detection device starts draining, the second motor 21 reverses, and a unidirectional ratchet drives a unidirectional sleeve 22 to rotate, the unidirectional sleeve 22 drives the driving bevel gear 25 to rotate through the first chain 24, the driving bevel gear 25 drives the driven bevel gear 27, the driven bevel gear 27 drives the second friction disc 30 to rotate through the second chain wheel 28 and the second chain 29, at the moment, the first friction disc 23 and the second friction disc 30 apply force to the inner shell 2 at the same time, so that the inner shell 2 vibrates in multiple directions, the driving bevel gear 25 drives the water suction pump 31 to rotate, the water suction pump 31 pumps water through the water suction pipe 32 and sprays clear water from the water spray pipe 33, the clear water enters the liquid bucket 3, the integral vibration of the inner shell 2 is combined, the cleaning of the detection device is realized, the rapid mixing of industrial wastewater is met through the vibration assembly, when the second motor 21 reverses, the first friction disc 23 and the second friction disc 30 move at the same time, force is applied to the inner shell 2, so that the inner shell 2 vibrates in multiple directions, after the clear water enters the liquid bucket 3, the automatic cleaning of the detection device is realized.

The working principle of the invention is as follows: before the detection of the waste water components, the waste water needs to be filtered in advance, the particle impurities in the waste water are filtered out, besides being used for discharging the waste water, an operator can also add a detection agent through the drain pipe 8 connected with the lower end of the glass test tube 6, the waste water with the impurities filtered out is mixed with the detection agent in the glass test tube 6, the component analyzer detects the waste water components in the glass test tube 6, the operator pours the industrial waste water to be detected into the liquid bucket 3, the control system drives the first motor 11 to drive the screw rod 12 to rotate, and because one end of the lifting block 10 is contacted with the inner wall of the inner shell 2, the lifting block 10 is limited by the inner wall of the inner shell 2 when the screw rod 12 rotates, and the lifting block 10 can only move up and down under the driving of screw rod 12 through screw transmission.

When the lifting block 10 descends, the inner sliding block 13 and the long rod 14 are driven to descend simultaneously, one end of the fine adjustment lever 9 is pressed downwards by the long rod 14, the fine adjustment lever 9 belongs to a labor-saving lever, after one end of the fine adjustment lever 9 is lifted, the inclined sliding groove close to the fulcrum moves by a small angle, the inclined sliding groove pushes the grid plate 5 out of the liquid bucket 3 by a certain distance through the extension rod, the grid plate 5 and the thin grid groove are staggered by a certain distance, and a tiny gap is formed between the grid plate 5 and the thin grid groove, so that the liquid bucket 4 and the liquid bucket 3 are communicated.

When the long rod 14 is pressed downwards, the end hook rod 15 moves downwards simultaneously, the end hook rod 15 enables one end of the cylinder lever 16 to move downwards, the cylinder lever 16 belongs to a laborious lever, the power arm is short in resistance arm length, when the power arm moves to a smaller displacement, the resistance arm moves to a longer displacement, therefore the pressing rod 17 lifts the pressing block 20 upwards, the pressing block 20 drives the air pumping cylinder 18 to pump air, the air pumping pipe 19 pumps air in the liquid separating bucket 4 into the air pumping cylinder 18, the air pressure in the liquid separating bucket 4 is reduced, industrial wastewater in the liquid separating bucket 3 is forced to enter the liquid separating bucket 4 through a fine seam between the grid plate 5 and a fine grid groove, impurities in the industrial wastewater are intercepted by the fine seam, a filtering effect is achieved, the industrial wastewater enters the glass test tube 6, and the displacement mechanism, the pressure control mechanism and the driving mechanism drive the pressure control mechanism to act simultaneously, the grid plate 5 and the fine grid groove are staggered to form a tiny filtering gap, impurities in the industrial wastewater are formed, the negative pressure control mechanism enables the negative pressure in the liquid separating bucket 4 to pump air, and the industrial wastewater to leak is detected before the industrial wastewater is detected, and the filtering efficiency of the test tube is improved.

The second motor 21 is electrified to drive the first friction disc 23 to rotate positively, friction force between the first friction disc 23 and the inner shell 2 enables the inner shell 2 to incline, but the hook spring enables the inner shell 2 to return to the right, namely, the first friction disc 23 enables the inner shell 2 to vibrate regularly, the unidirectional ratchet cannot drive the unidirectional sleeve 22 to rotate when the second motor 21 rotates positively, the vibration auxiliary detecting agent of the inner shell 2 is mixed with industrial wastewater, and then the component analyzer detects components in the industrial wastewater through optical analysis.

After the detection is finished, the industrial wastewater is required to be discharged and the detection device is cleaned, the electromagnetic valve 7 is electrified and opened, the glass test tube 6 is communicated with the drain pipe 8, the driving mechanism simultaneously opens the gap between the grid plate 5 and the fine grid groove, the detection device starts to drain water, the second motor 21 reverses, the unidirectional ratchet drives the unidirectional sleeve 22 to rotate, the unidirectional sleeve 22 drives the driving bevel gear 25 to rotate through the first chain 24, the driving bevel gear 25 drives the driven bevel gear 27, the driven bevel gear 27 drives the second friction disc 30 to rotate through the second chain wheel 28 and the second chain 29, at the moment, the first friction disc 23 and the second friction disc 30 simultaneously apply force to the inner shell 2, so that the inner shell 2 vibrates in multiple directions, the driving bevel gear 25 drives the water pump 31 to pump water through the water suction pipe 32, and sprays clear water from the water spray pipe 33 into the liquid bucket 3, the cleaning of the detection device is realized by combining the whole vibration of the inner shell 2, the rapid mixing and the industrial wastewater is detected through the vibration assembly, and when the second motor 21 reverses, the first friction disc 23 and the second friction disc 30 simultaneously move to the second friction disc 30, so that the inner shell 2 can vibrate in multiple directions, and the cleaning device is realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides an industry waste water ingredient spot check device for chlorine solution processing system, includes component analysis appearance, its characterized in that: the device comprises an outer support (1) and an inner shell (2), wherein the inner shell (2) is in a cuboid shape, four vertexes of the inner shell (2) are connected to the central part of the outer support (1) through hook springs, a liquid hopper (3), a liquid separating hopper (4) and an adjusting module are arranged in the inner shell (2), the liquid separating hopper (4) is arranged below the liquid hopper (3), a filter plate is arranged between the liquid separating hopper (4) and the liquid hopper (3), the adjusting module is connected with the filter plate, a vibration assembly is arranged on the outer support (1), the vibration assembly is in contact with the inner shell (2), and the component analyzer is arranged on the outer support (1);

the bottom of the liquid bucket (3) is provided with a fine grid groove, the filter plate comprises a grid plate (5) and an extension rod, the grid plate (5) is slidably arranged inside the liquid bucket (3), the grid plate (5) seals the fine grid groove, one end of the grid plate (5) penetrates through the liquid bucket (3), the extension rod is connected to one end of the grid plate (5) penetrating through the liquid bucket (3), and the grid plate (5) is in sealing contact with the liquid bucket (3);

The adjusting module comprises a displacement mechanism, a pressure control mechanism and a driving mechanism, wherein the displacement mechanism and the pressure control mechanism are driven by the driving mechanism at the same time, the driving mechanism comprises a first motor (11), a screw rod (12), a lifting block (10), an inner sliding block (13), a long rod (14) and a pair of end hook rods (15), the screw rod (12) is arranged on the first motor (11), a threaded hole is vertically formed in the lifting block (10), one side of the lifting block (10) is in sliding contact with the inner shell (2), the lifting block (10) is in spiral fit with the screw rod (12), the inner sliding block (13) is slidably arranged in the lifting block (10), the long rod (14) is inserted into the inner sliding block (13), and the pair of end hook rods (15) are respectively arranged at two ends of the long rod (14);

The displacement mechanism comprises a pair of fine tuning levers (9), the fine tuning levers (9) are arranged in parallel, the fine tuning levers (9) are connected into a whole through a plurality of auxiliary connecting rods, one end of each fine tuning lever (9) is connected with the inner shell (2) in a switching mode through a support, two sides of each long rod (14) penetrate through one end, far away from the support, of each fine tuning lever (9), the long rods (14) are connected with the fine tuning levers (9) in a rotating mode, inclined sliding grooves are formed in one sides, close to the support, of each fine tuning lever (9), and the outer extending rods are installed in a sliding mode with the inclined sliding grooves;

The pressure control mechanism comprises a pair of air cylinder levers (16), a pressing rod (17), a pressing block (20) and an air extraction cylinder (18), wherein the air cylinder levers (16) are connected into a whole through a plurality of auxiliary connecting rods, one side of each air cylinder lever (16) is provided with a straight sliding groove, two straight sliding grooves are respectively connected with two end hook rods (15) in a sliding mode, one side, close to the straight sliding groove, of each air cylinder lever (16) is connected with the inner shell (2) in a switching mode, one end, far away from the straight sliding groove, of each air cylinder lever (16) is connected through the pressing rod (17), the pressing block (20) is arranged on a piston rod of the air extraction cylinder (18), the pressing block (20) is provided with a sliding groove, the pressing rod (17) is slidably arranged in the sliding groove, one end of each air extraction cylinder (18) is provided with a suction pipe (19), and one end of each suction pipe (19) is communicated with the inside of the liquid distribution hopper (4).

2. The industrial wastewater component sampling device for a chlorine dissolution treatment system of claim 1, wherein: the liquid separating hopper (4) is wide in upper part and narrow in lower part, a liquid outlet hole is formed in the bottom of the liquid separating hopper (4), each liquid outlet hole is connected with a glass test tube (6), each bottom of the glass test tube (6) is connected with an electromagnetic valve (7), the electromagnetic valve (7) is connected with a control system circuit, and one end, away from the glass test tube (6), of each electromagnetic valve (7) is connected with a drain pipe (8).

3. The industrial wastewater component sampling device for a chlorine dissolution treatment system of claim 1, wherein: the vibration assembly comprises a second motor (21), a one-way sleeve (22), a first friction disc (23) and a drive bevel gear (25), wherein the second motor (21) is connected with the first friction disc (23) through a rotating shaft, the first friction disc (23) is contacted with an inner shell (2), the one-way sleeve (22) is rotationally arranged on the rotating shaft, one-way ratchet teeth are arranged on the rotating shaft, a ratchet tooth clamping groove is formed in the inner ring of the one-way sleeve (22), the outer ring of the one-way sleeve (22) is provided with sprocket teeth, a first sprocket (26) is coaxially arranged on the drive bevel gear (25), and a first chain (24) is connected between the first sprocket (26) and the one-way sleeve (22).

4. The industrial wastewater component sampling device for a chlorine dissolution processing system as recited in claim 3, wherein: the vibration assembly further comprises a driven bevel gear (27) and a second friction disc (30), a second sprocket (28) is coaxially arranged on the driven bevel gear (27), the outer ring of the second friction disc (30) is provided with sprocket teeth, a second chain (29) is connected between the second sprocket (28) and the second friction disc (30), and the driven bevel gear (27) is meshed with the driving bevel gear (25).

5. The industrial wastewater component sampling device for a chlorine dissolution processing system as recited in claim 3, wherein: install suction pump (31) on outer support (1), initiative bevel gear (25) and the pump shaft coaxial coupling of suction pump (31), the water pumping mouth of suction pump (31) is connected with suction pipe (32), and the delivery port of suction pump (31) is connected with spray pipe (33), the one end of spray pipe (33) is located liquid fill (3) top.