CN116559402B - Industrial wastewater detection device - Google Patents

Abstract

The invention relates to the technical field of industrial wastewater detection, in particular to an industrial wastewater detection device, which comprises a box body assembly, wherein the box body assembly comprises a detection box, a winding and unwinding assembly is arranged at the left end of the detection box, a traction pumping assembly is arranged at the right end of the winding and unwinding assembly, and a detection assembly is arranged at the right end of the traction pumping assembly; the device has the advantages of high detection precision, good detection effect, simplicity in operation, stability and high efficiency, meets the requirements of different working environments, can lay down and roll up the water suction pipe and the traction rope, has better rolling effect, and effectively avoids influencing subsequent use; meanwhile, the high-frequency reciprocating extrusion water pumping pipe can be matched in the rolling process, so that the industrial wastewater inside the water pumping pipe is reversely discharged to two sides, the impact blocking removal effect of the filter screen is improved, meanwhile, the impurities attached to the inside of the detection groove can be impacted and cleaned, the cleaning effect is better, the cleaning efficiency is higher, the energy is saved, the emission is reduced, and the environment is protected.

Description

Industrial wastewater detection device

Technical Field

The invention relates to the technical field of industrial wastewater detection, in particular to an industrial wastewater detection device.

Background

The industrial wastewater contains a large amount of harmful substances, the content of the harmful substances in different industrial wastewater is different, such as papermaking wastewater, textile wastewater, metallurgical wastewater, pesticide wastewater and the like, the industrial wastewater contains a considerable amount of harmful substances such as acid substances, alkaline substances, heavy metal substances, pesticide residue substances and the like, the industrial wastewater is required to be specially treated to form harmless dischargeable water to be allowed to be discharged outwards, and the industrial wastewater is subjected to sampling inspection by utilizing an industrial wastewater detection device in the prior art to judge whether the industrial wastewater meets the discharge requirement or not.

The patent No. 201711133351X discloses an industrial wastewater detection device, which comprises a shell, wherein a supporting plate is arranged at the center of the top of the shell, the top of the supporting plate is connected with a pull cover through an upper fixing plate, the top of the pull cover is connected with a hanging ring, and water inlet pipes are arranged at the two sides of the top of the shell, which are positioned on the supporting plate; this industrial waste water detection device, when the sampling, can't carry out automatic selective examination to the quality of water of industrial waste water in the different degree of depth scope, therefore its accuracy that detects and the variety of detecting the sample need further improve.

The industrial wastewater detection equipment comprises a supporting plate, wherein the left side of the supporting plate is fixedly connected with a motor, the output end of the motor is fixedly connected with a rotating shaft, and the surface of the rotating shaft is fixedly connected with a transmission rod; after sampling detection, the industrial wastewater detection device cannot separate and backup a plurality of detection water samples facing the same detection, so that the detection results cannot be further compared and detected.

Meanwhile, when the industrial wastewater is extracted and detected, the industrial wastewater needs to be filtered and cleaned by the aid of the filter screen, impurities in the industrial wastewater are prevented from entering the device to affect the detection result, the filter screen is easy to block when the device is used for a long time, and further the suction efficiency of the industrial wastewater is reduced, and meanwhile the detection precision of the industrial wastewater is also affected.

And when carrying out the rolling to the drinking-water pipe, all lack in the current device and carry out the tiling function to the drinking-water pipe to cause the drinking-water pipe to pile up wantonly, not only can reduce at drinking-water pipe rolling efficiency, the decline height of the high-efficient confirmation drinking-water pipe bottom still can't be fast simultaneously, and then can't obtain industrial waste water's height of drawing water.

And after the detection of the industrial wastewater of a certain depth is completed, the detection position and the suction pipe are easy to remain partial impurities, the detection precision of the subsequent industrial wastewater can be reduced by the impurities, the pollution of the detection position can be caused, and the problems of low discharge efficiency, poor emptying effect and the like of the industrial wastewater of the detection position are caused.

Disclosure of Invention

The invention aims to provide an industrial wastewater detection device for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an industrial wastewater detection device, includes box subassembly, box subassembly includes the detection case, the left end of detection case is equipped with receives the unreeling subassembly, receive the right-hand member of unreeling subassembly and be equipped with the traction pumping subassembly, the right-hand member of traction pumping subassembly is equipped with the detection subassembly, the lower extreme of detection subassembly and be equipped with the sample at the bottom of detection case and deposit the subassembly, receive and unreel the drive groove has been seted up to the left end of detection case, the upper end of detection case and have seted up rotation groove, water pump mounting groove and winding displacement groove in proper order from left to right on the right side of receiving and unreeling the drive groove, the detection groove has been seted up in the wall of detection case to the lower right side of water pump mounting groove;

the winding and unwinding assembly comprises a rotating shaft, a rope wheel is fixedly sleeved on the outer side of the rotating shaft, a plurality of groups of electromagnetic blocks are uniformly arranged on one side of the rope wheel in an array mode, an electric push rod is arranged on the inner wall of one side, far away from the electromagnetic blocks, of the rotating groove, an extrusion plate is arranged at the output end of the electric push rod, a distance sensor is arranged on one side of the extrusion plate, damping connecting plates are arranged on two side walls of the other end of the extrusion plate, and a magnetic plate is arranged on the other side of the damping connecting plates;

the outer surface of rope sheave is around being equipped with drinking-water pipe and haulage rope, the bottom of drinking-water pipe and haulage rope all is located between stripper plate and the magnetic plate.

According to the invention, the electromagnetic block applies magnetic repulsion to the magnetic plate, so that the high-frequency reciprocating extrusion is performed on the water pumping pipe when the rope wheel is wound, the tiling effect on the water pumping pipe is improved, and the reciprocating high-frequency blocking removal of the filter screen and the suction impurity removal of the detection groove can be realized.

Preferably, a side groove is formed in the front end face of the detection box, a touch panel is arranged in the side groove, the left end and the right end of the rotating shaft are respectively sleeved with the left side and the right side of the groove body of the rotating groove through bearings, a rotation angle sensor is arranged in the rotating shaft, a driving motor is arranged in the winding and unwinding driving groove, a shaft hole of the driving motor is fixedly inserted and matched with the shaft end of the rotating shaft, a side sealing groove is formed in the outer side of the winding and unwinding driving groove towards the left end of the detection box, a side sealing plate is buckled at a port of the side sealing groove, and a winding and unwinding opening is formed in the bottom of the rotating groove and at a position right below the rope wheel; therefore, the winding of the water suction pipe and the traction rope is realized by means of the rotation of the rope wheel.

Preferably, fixing grooves which are uniformly distributed are formed in the detection groove from the wire arrangement groove, the detection assembly is fixedly arranged in the fixing groove, the lower end of the detection assembly is downwards inserted into the groove body of the detection groove, and a first water passing hole is formed in the water pump mounting groove in the detection groove; the detection assembly detects industrial wastewater in the detection tank.

Preferably, the traction pumping assembly comprises a pumping pump fixedly arranged in a pumping pump mounting groove, a water outlet of the pumping pump is communicated with a left port of the first water passing hole through a first water passing pipe, and a water inlet of the pumping pump is communicated with the pumping pipe towards the rotating groove; the water pump works to pump water.

Preferably, a reinforcing head is fixedly sleeved on the outer side of the lower end of the water pumping pipe, a plumb bob is arranged at the lower end of the traction rope, a through hole fixedly inserted and matched with the reinforcing head is formed in the side face of the plumb bob, a filter screen is arranged at the bottom of the inner wall of the water pumping pipe, a plurality of groups of filter holes are uniformly arranged in the filter screen in an array manner, a flow velocity sensor is arranged in the water pumping pipe and positioned at the top of the filter screen, and the flow velocity sensor is used for detecting the flow velocity value in the water pumping pipe; and correspondingly obtaining the blocking condition of the filter screen by the flow velocity value.

Preferably, a second water passing hole is formed in the bottom of the detection groove towards the lower side of the detection box, a flow sensor is arranged in the second water passing hole and used for detecting a flow value discharged downwards along the detection groove, the sampling storage component comprises a water pipe connector fixedly screwed with the lower port of the second water passing hole, an electric control three-way valve is arranged at the lower end of the water pipe connector, a plurality of groups of backup bins are respectively arranged at the lower port of the electric control three-way valve, a water inlet pipe connector is fixedly communicated with the upper end of the backup bins, and the upper port of the water inlet pipe connector is communicated with the lower port of the electric control three-way valve; and obtaining the discharge amount of the industrial wastewater in the detection tank by means of the flow value correspondence.

Preferably, the lower extreme of backup storehouse is fixed to be linked together and is had the outlet pipe to connect, the lower port department of outlet pipe connects is equipped with automatically controlled check valve, automatically controlled three-way valve is equipped with the protection casing with the outside of backup storehouse and at the bottom cover of detection case, the lower extreme of protection casing is fixed to be linked together and is had the second to cross the water pipe, the upper port of second crosses the water pipe is linked together with the lower extreme of automatically controlled check valve.

Preferably, an end sealing groove is formed in the right end of the detection groove towards the right end face of the detection box, an end sealing plate is arranged in the end sealing groove, a sealing head which is in sliding insertion fit with the inner wall of the detection groove is arranged on the side face of the end sealing plate, a top sealing groove is formed in the upper ends of the rotation groove, the water pump mounting groove and the line slot towards the upper end of the detection box, and a top sealing plate is arranged at the upper end of the top sealing groove; the inner structure is sealed by the end sealing plate and the top sealing plate.

Preferably, the bottom of the detection box is provided with side support plates which are symmetrical in front-back direction, the lower ends of the side support plates are provided with support underframes, the front end and the rear end of the detection box are symmetrically provided with handles which are of C-shaped structures, and the left end and the right end of each handle are fixedly connected with the left end face and the right end face of the detection box through fixing screws; this arrangement further improves the stability of the device structure.

Preferably, the top of the water pumping pipe between the rotating groove and the water pump mounting groove is communicated with a one-way air inlet valve, the top of the one-way air inlet valve penetrates through the top sealing plate and is communicated with the outside, the air inlet direction of the one-way air inlet valve is from the outside to the end of the water pumping pipe, the magnetism of the electromagnetic block and the opposite end face of the magnetic plate is the same, and the gap between the magnetic plate and the extrusion plate is equal to the width of the water pumping pipe and the drawing rope, so that the one-way air inlet of the water pumping pipe is realized.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality and has the following advantages:

1. according to the invention, the industrial wastewater led in the detection groove is detected through the detection component, the detection result is uploaded to the panel of the touch panel, and the accuracy of the whole detection is improved through detecting the water quality of the industrial wastewater at different heights.

According to the invention, the water quality in the industrial wastewater, namely bottom water, middle water and upper water, can be detected and stored in a sample retaining manner, so that the subsequent comparison and detection are facilitated.

According to the invention, the device has the advantages of high detection precision, good detection effect, simplicity in operation, stability and high efficiency, meets different working environment requirements, and simultaneously can be used for tiling and winding the water suction pipe and the traction rope, so that the winding effect is better, and the influence on subsequent use is effectively avoided; meanwhile, the high-frequency reciprocating extrusion water pumping pipe can be matched in the rolling process, so that the industrial wastewater inside the water pumping pipe is reversely discharged to two sides, the impact blocking removal effect of the filter screen is improved, meanwhile, the impurities attached to the inside of the detection groove can be impacted and cleaned, the cleaning effect is better, the cleaning efficiency is higher, the energy is saved, the emission is reduced, and the environment is protected.

Drawings

FIG. 1 is an isometric view I of the overall structure of the present invention;

FIG. 2 is an isometric view II of the overall structure of the present invention;

FIG. 3 is a front view of the overall structure of the present invention;

FIG. 4 is an isometric view of the cross-sectional structure of FIG. 3 at A-A;

FIG. 5 is a front view of the overall structure of the present invention;

FIG. 6 is an isometric view of the cross-sectional structure of FIG. 6 at B-B;

FIG. 7 is an enlarged schematic view of the partial structure at C in FIG. 4;

FIG. 8 is an enlarged schematic view of a portion of the structure at D in FIG. 7;

FIG. 9 is an enlarged schematic view of the partial structure at E in FIG. 7;

FIG. 10 is an enlarged schematic view of the partial structure at F in FIG. 7;

FIG. 11 is an enlarged schematic view of a portion of the structure at G in FIG. 7;

fig. 12 is an enlarged schematic view of a partial structure at H in fig. 7.

In the figure: 1. a housing assembly; 2. a winding and unwinding assembly; 3. traction pumping assembly; 4. a detection assembly; 5. a sample storage assembly; 6. a touch panel; 101. a detection box; 102. a winding and unwinding driving groove; 103. a side seal groove; 104. a rotating groove; 105. a winding and unwinding port; 106. a water pump installation groove; 107. a detection groove; 108. a first water passing hole; 109. a fixing groove; 110. a wire arrangement groove; 111. a second water passing hole; 112. end sealing grooves; 113. an end sealing plate; 114. a sealing head; 115. a top seal groove; 116. a top sealing plate; 117. a side support plate; 118. a supporting bottom frame; 119. a side groove; 120. a handle; 121. a fixing screw; 122. a one-way air inlet valve; 201. a rotating shaft; 202. a rope pulley; 203. a driving motor; 204. a side sealing plate; 205. an electromagnetic block; 206. an electric push rod; 207. an extrusion plate; 208. damping connecting plates; 209. a magnetic plate; 301. a water pump; 302. a water pumping pipe; 303. a reinforcement head; 304. a traction rope; 305. a plumb bob seat; 306. a through hole; 307. a first water pipe; 308. a filter screen; 501. a water pipe connector; 502. an electric control three-way valve; 503. a backup bin; 504. a water inlet pipe joint; 505. a water outlet pipe joint; 506. an electric control one-way valve; 507. a protective cover; 508. and a second water passing 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.

First embodiment

Referring to fig. 1 to 12, the present invention provides a technical solution: an industrial wastewater detection device comprises a box body assembly 1, wherein the box body assembly 1 comprises a detection box 101, a winding and unwinding assembly 2 is arranged at the left end of the detection box 101, a traction pumping assembly 3 is arranged at the right end of the winding and unwinding assembly 2, a detection assembly 4 is arranged at the right end of the traction pumping assembly 3, in addition, the detection assembly 4 is a water quality pH value sensor, a water quality ammonia nitrogen total phosphorus total nitrogen detection sensor, a water quality heavy metal detection sensor, a water quality turbidity detection sensor and the like, industrial wastewater can be comprehensively detected through the detection assembly 4, a sampling and unwinding assembly 5 is arranged at the lower end of the detection assembly 4 and at the bottom of the detection box 101, a side groove 119 is formed in the front end face of the detection box 101, a touch panel 6 is arranged in the side groove 119, a winding and unwinding driving groove 102 is formed at the left end of the detection box 101, the upper end of detection case 101 and from left to right seted up in proper order in the right side of receive and release drive slot 102 and rotated groove 104, water pump mounting groove 106 and winding displacement groove 110, wherein, winding displacement groove 110 is linked together with side groove 119, be convenient for detect and carry out electric connection between subassembly 4 and the touch panel 6, detection case 101 receives the relative receive and release subassembly 2, pull the subassembly 3 that draws, detect subassembly 4, sample storage subassembly 5 plays a supporting role with touch panel 6, receive and release subassembly 2 draws the subassembly 3 that draws relatively and plays a receive and release effect, draw the subassembly 3 that draws and draw the effect that draws, detect subassembly 4 plays a detecting role, sample storage subassembly 5 plays a sample storage effect, the electronic control component in the touch panel 6 relative complete machine plays an association control effect.

The winding and unwinding assembly 2 comprises a rotating shaft 201, the left end and the right end of the rotating shaft 201 are respectively sleeved with the left side and the right side of a groove body of the rotating groove 104 through bearings, a rope wheel 202 is fixedly sleeved on the outer side of the rotating shaft 201, a driving motor 203 is arranged in the winding and unwinding driving groove 102, in addition, the driving motor 203 is electrically connected with the touch panel 6, a shaft hole of the driving motor 203 is fixedly inserted with the shaft end of the rotating shaft 201, a side sealing groove 103 is formed in the left end of the outer side of the winding and unwinding driving groove 102, a side sealing plate 204 is buckled at the port of the side sealing groove 103, a winding and unwinding opening 105 is formed in the groove bottom of the rotating groove 104 and at the position right below the rope wheel 202, the rotating groove 104 plays a role in supporting two sides relative to the rotating shaft 201, and during operation, the driving motor 203 drives the rotating shaft 201 to perform winding and unwinding actions with the rope wheel 202 through control of the touch panel 6.

The lower right side of water pump mounting groove 106 and set up detection groove 107 in the wall body of detection box 101, set up evenly distributed fixed slot 109 in to detection groove 107 by winding displacement groove 110, detection subassembly 4 fixed mounting is in fixed slot 109, the lower extreme of detection subassembly 4 inserts downwards in the cell body of detection groove 107, first water hole 108 has been seted up to detection groove 107 to water pump mounting groove 106, wherein, fixed slot 109 plays a fixed support effect relative to detection subassembly 4, during operation, draw water pumping subassembly 3 through drawing in industrial waste water into detection groove 107, detection subassembly 4 lower extreme and the contact of industrial waste water in the detection groove 107, detect the quality of industrial waste water in the detection groove 107 through detection subassembly 4, and upload the result of detection to touch panel 6.

The traction pumping assembly 3 comprises a pumping pump 301 fixedly installed in a pumping pump installation groove 106, a water outlet of the pumping pump 301 is communicated with a left port of a first water passing hole 108 through a first water passing pipe 307, a water inlet of the pumping pump 301 is fixedly communicated with a pumping pipe 302 in a rotating groove 104, the pumping pump 301 is electrically connected with a touch panel 6, the pumping pump 301 is controlled to be started through the touch panel 6, industrial wastewater at a lower port of the pumping pipe 302 is pumped, and the industrial wastewater enters the detecting groove 107 along the pumping pipe 302, the pumping pump 301, the first water passing pipe 307 and the first water passing hole 108, so that the industrial wastewater sampling action is completed.

The rope pulley 202 is provided with a traction rope 304 on one side, the traction rope 304 and the water suction pipe 302 are synchronously wound on the outer side of the rope pulley 202, a reinforcing head 303 is fixedly sleeved on the outer side of the lower end of the water suction pipe 302, a plumb seat 305 is arranged at the lower end of the traction rope 304, through holes 306 fixedly inserted and matched with the reinforcing head 303 are formed in the side face of the plumb seat 305, a filter screen 308 is arranged at the inner bottom of the water suction pipe 302, a plurality of groups of filter holes are uniformly arranged in the filter screen 308, the plumb seat 305 is made of a plumb material with heavier mass, therefore, after the water suction pipe 302 and the traction rope 304 are filled with water, the water suction pipe 302 and the traction rope 304 are kept in a vertical direction with water surface under the action of plumb gravity of the plumb seat 305, the accuracy of sampling height of the lower port of the water suction pipe 302 in industrial wastewater is kept, during operation, the rope pulley 202 is rotated to drive the water suction pipe 302 and the lower port of the water suction pipe 304 to be correspondingly adjusted, the height of the water suction pipe 302 is adjusted to be one third of the height of the whole surface, namely, the water quality of the water quality is detected and the water quality of the water quality is detected to be different from the water quality is detected by the water quality of the water, and the filter screen is prevented from being blocked by the water quality detection.

The bottom of detection groove 107 has seted up second water hole 111 to the below of detection box 101, sample storage subassembly 5 includes the water pipe connector 501 of the fixed spiro union of lower port with second water hole 111, the lower extreme of water pipe connector 501 is equipped with automatically controlled three-way valve 502, the lower port punishment of automatically controlled three-way valve 502 do not is equipped with multiunit backup storehouse 503, the upper end of backup storehouse 503 is fixed to be linked together and is had inlet tube joint 504, inlet tube joint's 504 upper port is linked together with automatically controlled three-way valve 502's lower port, wherein, automatically controlled three-way valve 502 is linked together with touch panel 6 electric connection, during operation, make its lower extreme corresponding port open through touch panel 6 control automatically controlled three-way valve 502, make the industrial waste water through the test in the detection groove 107 enter into backup storehouse 503 through second water hole 111, water pipe connector 501, automatically controlled three-way valve 502, inlet tube joint 504 carries out the sample storage, the contrast detection of later stage of being convenient for, provide the former foundation for subsequent detection.

The lower end of the backup bin 503 is fixedly connected with a water outlet pipe joint 505, an electric control one-way valve 506 is arranged at the lower port of the water outlet pipe joint 505, the electric control one-way valve 506 is electrically connected with the touch panel 6, the electric control three-way valve 502 is arranged outside the backup bin 503 and is covered with a protective cover 507 at the bottom of the detection box 101, the lower end of the protective cover 507 is fixedly connected with a second water passing pipe 508, the upper port of the second water passing pipe 508 is communicated with the lower end of the electric control one-way valve 506, wherein the protective cover 507 plays an external protective role relative to the electric control three-way valve 502 and the backup bin 503, the protective cover 507 plays a supporting role relative to the second water passing pipe 508, when the reserved sample of industrial wastewater in the backup bin 503 needs to be detected, the upper port of the container to be detected is aligned with the lower port of the second water passing pipe 508, the electric control one-way valve 506 can be controlled to be opened through the touch panel 6, and the reserved sample of industrial wastewater in the backup bin 503 is entered into the container to be detected through the water outlet pipe joint 505, the electric control one-way valve 506 and the second water passing pipe 508.

The right end of the detection tank 107 is provided with an end sealing tank 112 towards the right end face of the detection tank 101, an end sealing plate 113 is arranged in the end sealing tank 112, the side face of the end sealing plate 113 is provided with a sealing head 114 which is in sliding insertion fit with the inner wall of the detection tank 107, the upper ends of the rotary tank 104, the water pump mounting tank 106 and the wire-discharge tank 110 are provided with a top sealing tank 115 towards the upper end of the detection tank 101, and the upper end of the top sealing tank 115 is provided with a top sealing plate 116, wherein the sealing head 114 has a sealing function against a side supporting plate 117, the structure is convenient for processing the tank body of the detection tank 107, and the top sealing tank 115 is convenient for mounting actions of the rotary tank 104, the water pump mounting tank 106 and the upper end of the wire-discharge tank 110, and the top sealing plate 116 has a protective function against the upper end of the detection tank 101.

The bottom of detection case 101 is equipped with downwards and is the side support board 117 of fore-and-aft symmetry, and be equipped with at the lower extreme of side support board 117 and support underframe 118, the front and back both ends symmetry of detection case 101 is equipped with and is C type structure's handle 120, the left and right both ends of handle 120 and the left and right both ends face of detection case 101 are fixed connection mutually through set screw 121, wherein, side support board 117 plays a both sides supporting role relative detection case 101 lower extreme, support underframe 118 plays a bottom supporting role relative side support board 117, handle 120 plays a be convenient for carry and draw the removal effect relative detection case 101.

When the device works, firstly, the whole device is erected on the upper end of industrial wastewater, then the driving motor 203 is controlled by the touch panel 6 to drive the rotating shaft 201 and the rope pulley 202 to turn over, the pumping pipe 302 and the traction rope 304 which are wound on the outer side of the rope pulley 202 are placed in the industrial wastewater through the winding and unwinding port 105, the rotating speed, the turning number and the rotating number of shaft holes of the driving motor 203 are controlled, the purpose of controlling the unwinding height of the pumping pipe 302 is achieved, when the pumping pipe 302 and the traction rope 304 enter the industrial wastewater, under the action of plumb gravity of the plumb base 305, the lower port of the pumping pipe 302 keeps a vertical angle with the horizontal plane of the industrial wastewater, when the lower port of the pumping pipe 302 descends for a certain height in the industrial wastewater, the pumping pump 301 is controlled to be started by the touch panel 6, the water suction pump 301 sucks the industrial wastewater with a corresponding height through the lower port of the water suction pipe 302 and guides the industrial wastewater into the detection groove 107 through the first water passing pipe 307, the detection assembly 4 detects the industrial wastewater in the detection groove 107 and uploads the detection result to the panel of the touch panel 6, after the detection is finished, the touch panel 6 controls one outlet at the lower end of the electric control three-way valve 502 to be opened, so that the industrial wastewater sample in the detection groove 107 enters the backup bin 503 for sample reserving and storing through the second water passing hole 111, the water pipe connector 501, the electric control three-way valve 502 and the water inlet pipe connector 504, the subsequent comparison detection is convenient, and after the backup is finished, the electric control one-way valve 506 is opened, and the industrial wastewater in the backup bin 503 is discharged along the water outlet pipe connector 505 and the second water passing pipe 508.

Second embodiment

Based on the first embodiment, when the filter screen 308 is used to filter the industrial wastewater entering the water pumping pipe 302, part of impurities in the industrial wastewater may be blocked in the filter holes inside the filter screen 308, so that the pumping efficiency of the water pumping pipe 302 on the industrial wastewater is reduced, and the detection accuracy of the industrial wastewater is also affected; when the rope pulley 202 rotates and winds the water pumping pipe 302 and the traction rope 304 on the outer surface, the structure lacks a tiling structure of the water pumping pipe 302 and the traction rope 304, so that the water pumping pipe 302 and the traction rope 304 are stacked at random on the outer surface of the rope pulley 202, the winding efficiency of the water pumping pipe 302 and the traction rope 304 during the rotation of the rope pulley 202 is reduced, and meanwhile, the descending height of the bottom of the water pumping pipe 302 cannot be confirmed quickly and efficiently, and the water pumping height of industrial wastewater cannot be obtained; and when the industrial wastewater at a certain height inside the detection tank 107 is detected, the industrial wastewater inside the detection tank 107 needs to be thoroughly discharged, so that the influence on the detection precision of the industrial wastewater inside the subsequent detection tank 107 is avoided, and the industrial wastewater is discharged downwards into the water inlet pipe joint 504 along the second water passing hole 111 by the gravity of the industrial wastewater in the process, so that the problems of low discharge efficiency, poor emptying effect and the like of the industrial wastewater inside the detection tank 107 are caused.

In order to solve the above problems, the industrial wastewater detection apparatus further comprises: the pulley 202 is provided with a plurality of groups of electromagnetic blocks 205 in a uniform array, specifically, the magnetism of the electromagnetic blocks 205 is correspondingly changed due to the change of the electrified current of the electromagnetic blocks 205, the electromagnetic blocks 205 are arranged at one side end part of the pulley 202, an electric push rod 206 is arranged on the inner wall of one side of the rotating groove 104 far away from the electromagnetic blocks 205, an extrusion plate 207 is arranged at the output end of the electric push rod 206, the electric push rod 206 is started and drives the extrusion plate 207 at the end part to move towards the end close to the electromagnetic blocks 205, then the water pumping pipe 302 and the traction rope 304 are laid in a flat mode by means of the extrusion plate 207, and especially, the output elongation rate of the electric push rod 206 is related to the rotation rate of the rotating shaft 201, namely, when the rotating shaft 201 drives the pulley 202 to rotate and the water pumping pipe 302 and the traction rope 304 to rotate and unreel, the electric push rod 206 drives the extrusion plate 207 to synchronously move and the water pumping pipe 302 and the traction rope 304 transversely, so that the spiral of the water pumping pipe 302 and the traction rope 304 is tightly wound on the outer surface of the pulley 202, and the winding flatness of the water pumping pipe 302 and the traction rope 304 is further improved.

One side of the extrusion plate 207 is provided with a distance sensor, the distance sensor is used for detecting a distance value that the electric push rod 206 drives the extrusion plate 207 to approach the end of the electromagnetic block 205, and correspondingly adjusts the electrified current of the electromagnetic block 205 according to the distance value, and then adjusts the magnetic size of the electromagnetic block 205, two side walls of the other end of the extrusion plate 207 are respectively provided with a damping connecting plate 208, the other side of the damping connecting plate 208 is provided with a magnetic plate 209, a gap between the magnetic plate 209 and the extrusion plate 207 is equal to the width of the water suction pipe 302 and the drawing rope 304, the bottoms of the water suction pipe 302 and the drawing rope 304 are both positioned between the extrusion plate 207 and the magnetic plate 209, and the magnetism of the electromagnetic block 205 and the magnetic plate 209 are the same at the opposite end surfaces, so that when the electromagnetic block 205 is electrified and is provided with magnetism, the magnetic repulsion force of the electromagnetic block 205 drives the magnetic plate 209 to extrude the damping connecting plate 208 and move away from the end of the electromagnetic block 205, the magnetic plate 209 correspondingly extrudes the water suction pipe 302 and the filter screen rope 304, the water suction pipe 302 reversely discharges industrial waste water left inside under the action of the extrusion pipe 302, the 308 can be reversely cleaned, and industrial waste water left inside the detection groove 107 can be reversely discharged, and industrial waste water can be further cleaned, and the industrial waste water inside the device can be continuously cleaned.

The inside of drinking-water pipe 302 and the top that is located filter screen 308 are equipped with flow sensor, flow sensor is used for detecting the inside velocity of flow value of drinking-water pipe 302, consequently, the velocity of flow value that detects through flow sensor corresponds the jam condition that obtains filter screen 308, the inside flow sensor that is equipped with of second water hole 111, flow sensor is used for detecting the flow value of following detection groove 107 downward exhaust, consequently, the flow value that detects through flow sensor corresponds the drainage thoroughness that obtains the inside industrial waste water of detection groove 107, the inside of pivot 201 is equipped with corner sensor, be used for detecting the rotation angle of pivot 201 through corner sensor, and correspond the extension length of adjusting electric putter 206 output according to this rotation angle.

The top of the water pumping pipe 302 between the rotating groove 104 and the water pump mounting groove 106 is communicated with the one-way air inlet valve 122, the top of the one-way air inlet valve 122 penetrates through the top sealing plate 116 and is communicated with the outside, the air inlet direction of the one-way air inlet valve 122 is along the outside towards the end of the water pumping pipe 302, so that when the magnetic plate 209 extrudes the water pumping pipe 302, industrial wastewater inside the water pumping pipe 302 is discharged to the first water passing hole 108 at the end under the action of pressure, and when the magnetic plate 209 moves reversely and cancels extrusion of the water pumping pipe 302, the pressure of the water pumping pipe 302 at the position is reduced under the action of self elasticity of the water pumping pipe 302, and external air enters the inside of the water pumping pipe 302 along the one-way air inlet valve 122, so that the industrial wastewater inside the water pumping pipe 302 can enter the detection groove 107 along the first water passing hole 108 for subsequent cleaning treatment when the water pumping pipe 302 is extruded and exhausted.

When the device is used, firstly, the device is placed at a proper position at the top of industrial wastewater, the touch panel 6 controls the driving motor 203 to rotate forward and drives the rotating shaft 201 to rotate forward, the rotating shaft 201 rotates forward and drives the rope pulley 202 to rotate forward to reach a maximum angle, the rope pulley 202 rotates forward to lower the water pumping pipe 302 and the traction rope 304 to a maximum distance, meanwhile, the water pumping pipe 302 is driven to move downwards to the maximum distance under the action of the gravity of the plumb bob 305 and the reinforcing head 303, and meanwhile, when the water pumping pipe 302 and the traction rope 304 are lowered, the electric push rod 206 is synchronously started to drive the extrusion plate 207 to move reversely to the maximum distance, and the water pumping pipe 302 reaches the proper position.

At this time, the touch panel 6 controls the water suction pump 301 to start and suction, industrial wastewater enters the water suction pipe 302 through the filter screen 308 and reaches the inside of the detection groove 107 through the first water passing hole 108 for subsequent detection, then the detection assembly 4 starts and detects the correspondence of the industrial wastewater in the detection groove 107, after the detection of the industrial wastewater in the detection groove 107 is completed, the electric control three-way valve 502 is opened, and the industrial wastewater in the detection groove 107 enters the inside of the multiple groups of backup bins 503 along the second water passing hole 111 and the water pipe connector 501 for backup storage.

Then the touch panel 6 controls the driving motor 203 to start and reverse, the rotation angle value detected by the rotation angle sensor is increased, the driving motor 203 drives the rope pulley 202 to rotate through the rotating shaft 201, the rope pulley 202 rotates and recovers the water pumping pipe 302 and the traction rope 304, and then the water pumping pipe 302 moves upwards and changes the recovery height of industrial wastewater, so that the recovery range and the recovery effect are enlarged.

At this time, the touch panel 6 controls the electric push rod 206 to start and the output end to stretch, the electric push rod 206 drives the output end extrusion plate 207 to move towards the end close to the electromagnetic block 205, the extrusion plate 207 is matched with the magnetic plate 209 to drive the water pumping pipe 302 and the traction rope 304 to move towards the end close to the electromagnetic block 205, the distance value detected by the distance sensor is increased, the water pumping pipe 302 and the traction rope 304 are spirally wound on the outer surface of the rope pulley 202 in cooperation with the rotation of the rope pulley 202, and further winding tightness and uniformity of the water pumping pipe 302 and the traction rope 304 are effectively improved, and winding and unwinding precision and winding stability of the water pumping pipe 302 and the traction rope 304 are guaranteed.

Meanwhile, the touch panel 6 controls the electromagnetic block 205 to be electrified and provided with magnetism, when the rope pulley 202 rotates and drives the electromagnetic block 205 to continuously rotate, the distance between the electromagnetic block 205 and the magnetic plate 209 is continuously reduced, the magnetic plate 209 is driven by the magnetic repulsive force of the electromagnetic block 205 to the magnetic plate 209 to extrude the water pumping pipe 302 and the traction rope 304, the industrial wastewater inside the water pumping pipe 302 moves to two sides under the action of pressure when being extruded, when the industrial wastewater moves to the top of the filter screen 308 along the bottom of the water pumping pipe 302, impurities and the like blocked in the filter screen 308 are reversely impacted and removed by virtue of the impact of the industrial wastewater on the filter screen 308, and the blocking removal performance of the filter screen 308 is effectively improved.

And the industrial wastewater in the water pumping pipe 302 rapidly flows to the end of the first water passing hole 108 along the other end of the water pumping pipe 302, is discharged to the inside of the detection groove 107 along the first water passing hole 108 and finally is discharged along the second water passing hole 111, thereby effectively avoiding the influence of residual industrial wastewater in the water pumping pipe 302 and the detection groove 107 on the detection of different subsequent depths.

When the rope sheave 202 continues to drive the electromagnetic block 205 to rotate and the magnetic repulsion force between the electromagnetic block 205 and the magnetic plate 209 is reduced, the magnetic plate 209 is driven to reversely move to restore to the original position under the elastic restoring property of the damping connecting plate 208 and the water suction pipe 302, the volume of the water suction pipe 302 is expanded to the original degree, the air pressure of the water suction pipe 302 at the position is reduced, the industrial wastewater reenters the water suction pipe 302 along the filter screen 308 under the action of the external air pressure, meanwhile, the industrial wastewater amount entering the water suction pipe 302 along the filter screen 308 is not too large due to the gravity of the industrial wastewater and the non-starting of the water suction pump 301, and the industrial wastewater does not move upwards for too large distance along the water suction pipe 302, the filter screen 308 is continuously impacted up and down by the industrial wastewater at the moment, the filter screen 308 is effectively and reciprocally impacted and blocked by high frequency, and the blocking and dredging performance of the filter screen 308 is improved.

Meanwhile, the other end of the water pumping pipe 302 enables external air to enter the water pumping pipe 302 along the unidirectional air inlet valve 122 under the action of the unidirectional air inlet valve 122, further the internal space of the water pumping pipe 302 is compensated, the influence on the subsequent detection caused by the reverse suction of industrial waste water in the detection groove 107 to the inside of the water pumping pipe 302 is avoided, and the industrial waste water in the inside of the water pumping pipe 302, especially the right end of the water pumping pipe 302, can be rapidly discharged by means of multiple times of extrusion of the water pumping pipe 302, and the extrusion and elastic reset of the water pumping pipe 302 are carried out, so that gas in the inside of the water pumping pipe 302 is discharged to the inside of the detection groove 107 along the first water passing hole 108, and accordingly industrial waste water impurities attached to the inner wall of the detection groove 107 are effectively and rapidly subjected to wind cleaning along the second water passing hole 111 and the water pipe connector 501 to the inside of the backup bin 503, and in order to avoid the influence on the subsequent detection caused by the external air along the inside of the water pumping pipe 302, the air inlet end of the unidirectional air inlet valve 122 can be communicated with the stable gas, and the stable gas is enabled to be enabled to enter the inside the water pumping pipe 302 under the action of the pressure of the water pumping pipe 302, the unidirectional air inlet valve 122 to finally enter the inside the water pumping pipe 302, the inside of the detection groove 108 is blocked, the stable gas is prevented from entering the inside the detection groove 107, and the inside the detection groove is prevented from entering the detection groove 107, and the detection groove is normally, and the stable detection waste water is detected, and the inside the detection groove is detected, and the stable waste water is detected, and the inside the detection is not normally, and the detection is detected.

Meanwhile, as the rope sheave 202 rotates, the rotation angle value detected by the rotation angle sensor is continuously increased, the electric push rod 206 is controlled by the touch panel 6 to drive the extrusion plate 207 to continuously move towards the end close to the magnetic block 205, the distance value detected by the distance sensor is continuously increased, the distance value between the magnetic block 205 and the magnetic plate 209 is continuously reduced, in order to avoid the damage of the structure caused by overlarge magnetic repulsion force when the magnetic block 205 and the magnetic plate 209 are in positive pair, the magnetic plate 209 extrudes the damping connection plate 208 to the extrusion force of the water pumping pipe 302 and the traction rope 304, and when the distance value detected by the distance sensor is increased, the touch panel 6 correspondingly controls the electrifying current of the magnetic block 205 to be reduced, the magnetism of the magnetic block 205 is correspondingly reduced, and the magnetic repulsion force moment between the magnetic block 205 and the magnetic plate 209 is in stable size when the magnetic block 205 is opposite to the magnetic plate 209, so that the degree and the size of the magnetic plate 209 extruded under the magnetic repulsion force are the same, and the air pressure applied to two sides by the water pumping pipe 302 under the action of the extrusion force are the same.

Further, when the inside of the filter screen 308 and the detection groove 107 is subjected to impact blocking removal, if the impurity blocked inside the filter screen 308 is too large, or if the adhesion force of the impurity attached to the inner wall of the detection groove 107 is too large, the flow velocity value detected by the flow velocity sensor inside the water pumping pipe 302 is smaller than the preset flow velocity value, which indicates that the filter screen 308 is partially blocked and not blocked; or the flow value detected by the flow sensor in the second water passing hole 111 is smaller than the preset flow value, the preset flow value is that the pumping pipe 302 pumps to the detection groove 107 and the inner part of industrial wastewater, which means that at the moment, the inside of the detection groove 107 is blocked to reduce the backup discharge amount of the industrial wastewater, then the extrusion force on the inside of the pumping pipe 302 needs to be improved, the touch panel 6 controls the energizing current of the electromagnetic block 205 to correspondingly increase, when the distance value detected by the distance sensor increases, the energizing current of the electromagnetic block 205 is larger than the preset energizing current value in the corresponding position originally set, the magnetic repulsive force applied by the electromagnetic block 205 to the magnetic plate 209 increases, the degree of the magnetic plate 209 extruding the damping connecting plate 208 and the pumping pipe 302 increases, the elastic deformation amount of the pumping pipe 302 increases under the extrusion action of the magnetic plate 209, and the efficiency and the discharge amount of the industrial wastewater in the pumping pipe 302 to the two sides increase, thereby effectively improving the high-frequency reciprocating cleaning effect on the filter screen 308 and the high-frequency reciprocating cleaning effect on the impurities attached to the inside of the detection groove 107, and ensuring the overall cleaning performance of the self-adapting device.

After the water pumping pipe 302 and the traction rope 304 are wound, the corresponding filter screen 308 and the corresponding detection groove 107 are subjected to impact cleaning, and the plumb base 305 drives the bottom of the water pumping pipe 302 to move upwards to a proper depth, and the process is repeated continuously to realize the suction detection of the industrial wastewater with a subsequent depth by the water pumping pipe 302.

The device has the advantages of high detection precision, good detection effect, simplicity in operation, stability and high efficiency, meets the requirements of different working environments, can also pave and roll the water pumping pipe 302 and the traction rope 304, has a better rolling effect, and effectively avoids influencing subsequent use; meanwhile, the high-frequency reciprocating extrusion water pumping pipe 302 can be matched in the winding process, so that the industrial wastewater inside the water pumping pipe 302 is reversely discharged to two sides, the impact blocking removal effect on the filter screen 308 is improved, meanwhile, the impurities attached to the inside of the detection groove 107 can be impacted and cleaned, the cleaning effect is better, the cleaning efficiency is higher, energy conservation and emission reduction are realized, and the environment is protected.

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

Claims (6)

1. An industrial wastewater detection device which is characterized in that: the automatic water pump comprises a box body assembly, wherein the box body assembly comprises a detection box, a winding and unwinding assembly is arranged at the left end of the detection box, a traction pumping assembly is arranged at the right end of the winding and unwinding assembly, a detection assembly is arranged at the right end of the traction pumping assembly, a sampling storage assembly is arranged at the lower end of the detection assembly and at the bottom of the detection box, a winding and unwinding driving groove is formed in the left end of the detection box, a rotating groove, a water pump mounting groove and a wire arrangement groove are sequentially formed in the upper end of the detection box and on the right side of the winding and unwinding driving groove from left to right, and a detection groove is formed in the wall of the detection box at the right lower part of the water pump mounting groove;

the winding and unwinding assembly comprises a rotating shaft, a rope wheel is fixedly sleeved on the outer side of the rotating shaft, a plurality of groups of electromagnetic blocks are uniformly arranged on one side of the rope wheel in an array mode, an electric push rod is arranged on the inner wall of one side, far away from the electromagnetic blocks, of the rotating groove, an extrusion plate is arranged at the output end of the electric push rod, a distance sensor is arranged on one side of the extrusion plate, damping connecting plates are arranged on two side walls of the other end of the extrusion plate, and a magnetic plate is arranged on the other side of the damping connecting plates;

the outer surface of the rope wheel is wound with a water suction pipe and a traction rope, and the bottoms of the water suction pipe and the traction rope are positioned between the extrusion plate and the magnetic plate;

the outer side of the lower end of the water suction pipe is fixedly sleeved with a reinforcing head, the lower end of the traction rope is provided with a plumb bob seat, the side surface of the plumb bob seat is provided with a through hole fixedly inserted and matched with the reinforcing head, the bottom of the inner wall of the water suction pipe is provided with a filter screen, a plurality of groups of filter holes are uniformly arranged in the filter screen in an array manner, the inside of the water suction pipe is provided with a flow velocity sensor at the top of the filter screen, and the flow velocity sensor is used for detecting the flow velocity value in the water suction pipe;

the bottom of the detection tank is provided with a second water passing hole towards the lower part of the detection box, a flow sensor is arranged in the second water passing hole and used for detecting a flow value discharged downwards along the detection tank, the sampling storage component comprises a water pipe connector fixedly screwed with the lower port of the second water passing hole, the lower end of the water pipe connector is provided with an electric control three-way valve, the lower ports of the electric control three-way valve are respectively provided with a plurality of groups of backup bins, the upper ends of the backup bins are fixedly communicated with a water inlet pipe connector, and the upper ports of the water inlet pipe connector are communicated with the lower ports of the electric control three-way valve;

an end sealing groove is formed in the right end of the detection groove towards the right end face of the detection box, an end sealing plate is arranged in the end sealing groove, a sealing head which is in sliding insertion fit with the inner wall of the detection groove is arranged on the side face of the end sealing plate, a top sealing groove is formed in the upper ends of the rotation groove, the water pump mounting groove and the line slot towards the upper end of the detection box, and a top sealing plate is arranged in the upper end of the top sealing groove;

the electromagnetic block is arranged on the top of the water pumping pipe between the rotating groove and the water pump mounting groove, the top of the one-way air inlet valve penetrates through the top sealing plate and is communicated with the outside, the air inlet direction of the one-way air inlet valve is from the outside to the end of the water pumping pipe, the magnetism of the electromagnetic block and the opposite end face of the magnetic plate is the same, and the gap between the magnetic plate and the extrusion plate is equal to the width of the water pumping pipe and the drawing rope.

2. An industrial wastewater testing device according to claim 1, wherein: the utility model discloses a detection box, including detection box, rotary shaft, angle sensor, winding and unwinding drive groove, detection box, side seal groove, rotary shaft, winding and unwinding drive groove, side seal groove's left end has been seted up to the outside of winding and unwinding drive groove, and the port department knot in side seal groove is equipped with the side seal board, the tank bottom of rotary shaft has been seted up to the position department under the rope sheave and has received and released the mouth through the bearing looks cover with the cell body left and right sides of rotary shaft respectively, the inside of rotary shaft is equipped with angle sensor, receive and release drive inslot is equipped with driving motor, driving motor's shaft hole and the axle head looks fixed cartridge of rotary shaft.

3. An industrial wastewater testing device according to claim 1, wherein: the fixed slots which are uniformly distributed are formed in the detection slots from the wire arrangement slots, the detection assembly is fixedly arranged in the fixed slots, the lower ends of the detection assembly are downwards inserted into the slots of the detection slots, and the water pump mounting slots are provided with first water passing holes in the detection slots.

4. An industrial wastewater testing device according to claim 3, wherein: the traction pumping assembly comprises a pumping pump fixedly installed in a pump installation groove, a water outlet of the pumping pump is communicated with a left port of a first water passing hole through a first water passing pipe, and a water inlet of the pumping pump is communicated with the pumping pipe towards the inside of the rotation groove.

5. An industrial wastewater testing device according to claim 1, wherein: the lower extreme of backup storehouse is fixed to be linked together and is had the outlet pipe to connect, outlet pipe connects's lower port department is equipped with automatically controlled check valve, automatically controlled three-way valve is equipped with the protection casing with the outside of backup storehouse and at the bottom cover of detection case, the lower extreme fixed intercommunication of protection casing has the second to cross the water pipe, the upper port of second crosses the water pipe and is linked together with the lower extreme of automatically controlled check valve.

6. An industrial wastewater testing device according to claim 1, wherein: the bottom of the detection box is downwards provided with side support plates which are symmetrical front and back, the lower ends of the side support plates are provided with support underframes, the front end and the rear end of the detection box are symmetrically provided with handles which are of C-shaped structures, and the left end and the right end of the handles are fixedly connected with the left end face and the right end face of the detection box through fixing screws.