CN115818815A - Cable manufacture is with wasing wastewater treatment ware - Google Patents

Abstract

The present invention relates to the technical field of waste water treatment, in particular to a cleaning waste water processor for cable production, which includes a water collecting pan and a treatment box. A support column is provided, and the treatment box is arranged at the end of the support column, the bottom outer wall of the treatment box is provided with a water outlet pipe, and a solenoid valve is provided on one side of the water outlet pipe, and a guide valve is provided on the top outer wall of the treatment box. waste pipe, and one side of the outer wall of the treatment box is provided with a catheter, and the treatment box is also provided with a layered plate, and the outer wall of the layered plate is provided with a partition, and the outer wall of the layered plate is also provided with a collector A water cylinder, and one side of the outer wall of the water collection cylinder is provided with a guide tube, and the guide tube runs through the partition. The invention enables the waste water to be continuously introduced into the treatment box for treatment, ensures that the waste water can be completely treated, and can accelerate the acid-base neutralization rate of the waste water, so that the use effect is better.

Description

A cleaning waste water processor for cable production

technical field

The invention relates to the technical field of wastewater treatment, in particular to a cleaning wastewater processor for cable production.

Background technique

Cable is the carrier of power transmission. Currently, the price of non-ferrous metals is skyrocketing. Although copper conductors have good performance, they are expensive. In order to ensure that the technical indicators of cable copper conductors are met, a copper layer can be plated on the outer surface of the cable, which can be greatly improved. To reduce the cost of cables, the existing plating method is mainly to introduce the core wire into the copper plating pool, and pass through the DC electric field when the core wire passes through the copper plating pool, and the copper ions in the electrolyte in the copper plating pool are separated and reduced to copper And attached to the surface of the core wire to obtain a copper-clad wire, but after the copper plating is completed, a large amount of electrolyte will adhere to the surface of the cable, which needs to be washed with clean water, and the waste water generated after washing needs to be treated.

At present, there are still some deficiencies in the existing waste water processors. During use, after the waste water is usually introduced into the treatment tank, it is necessary to wait for the waste water in the treatment tank to be treated and discharged before introducing new waste water. In the treatment box, the wastewater in the cable production workshop is continuously generated, and the existing equipment is difficult to completely treat the wastewater when the wastewater continuously flows into the treatment equipment. Therefore, it is urgent to design a cable production The above-mentioned problems are solved by cleaning the waste water processor.

Contents of the invention

The purpose of the present invention is to solve the defects in the prior art, and propose a cleaning wastewater processor for cable production.

In order to achieve the above object, the present invention adopts the following technical solutions:

A cleaning waste water processor for cable production, including a water collection tray and a treatment box, a drainage pipe is provided on one side of the water collection tray, a support column is provided on the inner wall of the water collection tray, and the treatment box is arranged on The end of the support column, the bottom outer wall of the treatment box is provided with a water outlet pipe, and the side outer wall of the water outlet pipe is provided with a solenoid valve, the top outer wall of the treatment box is provided with a waste guide pipe, and the side outer wall of the treatment box A catheter is provided, a layered plate is also arranged in the treatment box, and the outer wall of the layered plate is provided with a partition, the outer wall of the layered plate is also provided with a water collection tube, and one side of the outer wall of the water collection tube is provided There is a diversion pipe, and the diversion pipe runs through the partition, and the outer wall of the layered plate is also fixedly provided with a column, and a drainage channel is opened in the column, and one end of the drainage channel is set on the layered plate above, and the other end of the drainage channel is set under the layered plate, the top of the drain pipe is higher than the top of the partition, the outer wall of the layered plate is also provided with a protective frame, and the protective frame is provided with a drive Part 1, the driving end of the driving part 1 is provided with a rotating shaft, and the outer wall of the rotating shaft is provided with multiple rows of first stirring rods distributed equidistantly in a ring, and there is also a rotating shaft between the layered plate and the inner wall of the bottom of the processing box. A rotating rod, and the outer walls on both sides of the rotating rod are provided with a second stirring rod, and the outer wall of the rotating rod is also provided with a rotating plate, which also includes:

Water blocking mechanism, the water blocking mechanism is arranged at the end of the diversion tube, and is used to close the end of the diversion tube when the liquid level on one side of the partition is lower than the end of the diversion tube, and the liquid level on the side of the partition is higher than The tip of the draft tube is forced to open when the tip of the draft tube is opened;

a toggle mechanism, the toggle mechanism is arranged at the end of the first stirring rod, and is used to drive the rotating plate to rotate;

A liquid level monitoring mechanism, the liquid level monitoring mechanism is arranged in the processing tank and is used to monitor the liquid level on one side of the partition;

A filter mechanism, which is arranged on the bottom outer wall of the treatment box, is used to filter the waste water discharged from the water outlet pipe.

As a further solution of the present invention: the water blocking mechanism includes a cover plate, the inner wall of the guide pipe is provided with a side plate, and the outer wall of the side plate is provided with a movable rod, and the end of the movable rod and the cover plate and the outer wall of the cover plate close to the end of the draft tube is provided with a gasket, the outer wall of the other side of the cover plate is provided with a second floating block, and the outer wall of the movable rod is also sleeved with an elastic Part one, one end of the elastic part one is connected to the outer wall of the cover plate, and the other end of the elastic part one is connected to the outer wall of the side plate.

As a further solution of the present invention: the toggle mechanism includes a movable cover, an installation groove is opened at the end of the first stirring rod, and a moving rod is movably arranged in the installation groove, and the movable cover is sleeved on the first The end of the stirring rod, and the end of the moving rod is connected to the inner wall of the movable cover, and the outer wall of the moving rod is sleeved with two elastic members, and one end of the second elastic member is connected to the end of the first stirring rod , and the other end of the elastic member two is connected to the inner wall of the movable cover, and the outer wall of the movable cover is sleeved with a rubber sleeve.

As a further solution of the present invention: the filter mechanism includes a drive part 2 arranged on the outer wall of the bottom of the processing box, and the drive end of the drive part 2 is provided with a turntable, and the outer wall of the turntable is provided with equidistant and circularly distributed installation openings , and a circular ring is placed in the installation opening, and the outer wall of the circular ring is provided with a filter screen.

As a further solution of the present invention: the liquid level monitoring mechanism includes a measuring cylinder, the measuring cylinder penetrates and is fixedly arranged on the top outer wall of the processing tank, and the inner wall of the measuring cylinder is provided with a pressure sensor, and a lifting rod is movable in the measuring cylinder, and The end of the lifting rod is provided with a first floating block, and the inner wall of the measuring cylinder is provided with grooves that are equidistant and annularly distributed, and balls are rotated in the grooves, and the balls are attached to the outer wall of the lifting rod. combine.

As a further solution of the present invention: the first driving part, the second driving part and the solenoid valve are all connected to a switch through a wire, and the switch is electrically connected to a controller, and the pressure sensor is electrically connected to the controller.

As a further solution of the present invention: the outer wall of the processing box is further provided with an observation port, and an observation window is arranged in the observation port.

Compared with prior art, the beneficial effect of the present invention is:

The present invention provides a cleaning waste water processor for cable production. The waste water to be treated can be continuously introduced into the treatment box through the waste guide pipe. During the introduction process, the waste water will gradually fill up the space on the left side of the partition. As the water level rises, the waste water will still enter the water collection tube. At this time, the water blocking mechanism at the end of the diversion pipe is still in the state of blocking the diversion pipe. As the waste water continues to be added, the waste water will eventually cross the partition and flow to the right side of the partition, and as the liquid level continues to rise on the right side of the partition, part of the waste water will enter the drainage channel in the column, and when the liquid level is higher than the water blocking mechanism, the end of the draft tube will It is in a smooth state, and the waste water between the water collection tube and the right side of the partition can be kept connected through the diversion tube. As the liquid level continues to rise, until the liquid level is higher than the top of the drainage channel, at this time, it Under the action of siphon, the waste water above the layered plate can be quickly discharged into the bottom of the layered plate through the drainage channel. During the drainage process, the waste water in the water collection tube will also be discharged to the right side of the partition through the diversion tube and then discharged downward together. , until the liquid level on the right side of the partition drops below the diversion tube, the water blocking mechanism can re-seal the diversion tube, until the waste water on the right side of the partition is completely discharged into the bottom of the layered plate, at this time the waste water is still flowing It is continuously introduced into the treatment tank through the waste pipe, but because part of the waste water in the water collection tank is discharged, the newly added waste water will be replenished into the water collection tank first, and it will take a period of time for the waste water to flow over the partition to the partition In this way, it can be ensured that no new waste water will fall to the right side of the partition for a period of time after the waste water on the right side of the partition is completely drained, so that the waste water will not cross the partition to the partition until the siphon phenomenon disappears. The right side of the plate is supplemented with waste water. At this time, the waste water added to the right side of the partition can be accumulated again until the next siphon phenomenon occurs, and the waste water that is continuously introduced into the treatment box can be purified in batches. After the waste water is discharged to the bottom of the layered plate, the acid-base neutralizer can be introduced into the treatment tank through the catheter to adjust the pH of the waste water, and the first stirring rod on the outside of the rotating shaft is driven to rotate under the action of the first driving part , realize the agitation of the waste water, so that the waste water and the acid-base neutralizer can be quickly neutralized, and the toggle mechanism at the end of the first stirring rod can also stir the rotating plate to make it rotate, and then drive the outside of the rotating rod The second stirring rod rotates, which can assist in stirring and mixing, and the use effect is better. After neutralization, the waste water can be discharged through the outlet pipe by opening the solenoid valve, and the impurities in the waste water can be filtered through the filter mechanism. The filtered waste water will be It can be reused for cable cleaning after falling into the water collection tray, which is very convenient to use.

Description of drawings

Fig. 1 is a schematic cross-sectional structural view of a cleaning wastewater processor for cable production provided by an embodiment of the present invention;

Fig. 2 is a schematic structural diagram of a water blocking mechanism of a cleaning wastewater processor for cable production provided by an embodiment of the present invention;

Fig. 3 is a structural schematic diagram of a toggle mechanism of a cleaning wastewater processor for cable production provided by an embodiment of the present invention;

Fig. 4 is a schematic structural diagram of a filter mechanism of a cleaning wastewater processor for cable production provided by an embodiment of the present invention;

Fig. 5 is a schematic structural diagram of a treatment tank of a cleaning wastewater processor for cable production provided by an embodiment of the present invention.

In the figure: 1-water collection tray, 2-support column, 3-rotating shaft, 4-processing box, 5-first stirring rod, 6-rotating rod, 7-second stirring rod, 8-turning plate, 9-drive Part 1, 10-drainage tube, 11-layered plate, 12-waste guide tube, 13-water collection tube, 14-partition, 15-drainage tube, 16-water blocking mechanism, 17-measuring cylinder, 18-pressure Sensor, 19-liquid level monitoring mechanism, 20-ball, 21-lift rod, 22-cylinder, 23-first float, 24-drainage channel, 25-toggle mechanism, 26-drain pipe, 27-filter mechanism , 28-outlet pipe, 29-solenoid valve, 30-side plate, 31-moving rod, 32-elastic piece 1, 33-cover plate, 34-sealing gasket, 35-second floating block, 36-installation groove, 37 -moving rod, 38-elastic part two, 39-movable cover, 40-rubber sleeve, 41-drive part two, 42-turntable, 43-ring, 44-filter, 45-installation port, 46-observation window.

Implementation

In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

As shown in Fig. 1 and Fig. 5, a kind of cleaning wastewater processor for cable production provided by an embodiment of the present invention includes a water collecting pan 1 and a treatment box 4, and one side of the outer wall of the water collecting pan 1 is provided with a drain Pipe 26, the inner wall of the water collection tray 1 is provided with a support column 2, and the treatment box 4 is arranged at the end of the support column 2, the bottom outer wall of the treatment box 4 is provided with a water outlet pipe 28, and one side of the water outlet pipe 28 The outer wall is provided with Solenoid valve 29, the top outer wall of treatment box 4 is provided with waste guide pipe 12, and one side outer wall of treatment box 4 is provided with catheter 10, is also provided with layered plate 11 in the treatment box 4, and the layered plate 11 The outer wall is provided with a dividing plate 14, and the outer wall of the layered plate 11 is also provided with a water collecting tube 13, and one side of the outer wall of the water collecting tube 13 is provided with a guide tube 15, and the guiding tube 15 runs through the dividing plate 14, and the layered plate 11 The outer wall is also fixedly provided with a column 22, and a drainage channel 24 is provided in the column 22. The shape of the drainage channel 24 is an inverted U shape. One end of the drainage channel 24 is arranged above the layered plate 11, and the drainage channel 24 The other end is arranged below the layered plate 11, and the top of the drainage pipe 26 is higher than the top of the dividing plate 14. The outer wall of the layered plate 11 is also provided with a protective frame, and the protective frame is provided with a driver-9, the driver The specific structure of one 9 is not limited. In this embodiment, preferably, the driving part one 9 adopts a servo motor, the driving end of the driving part one 9 is provided with a rotating shaft 3, and the outer wall of the rotating shaft 3 is provided with multiple rows of equidistant rings. The first stirring rod 5 of distribution, between the layered plate 11 and the inner wall of the bottom of the treatment box 4, a rotating rod 6 is also rotated, and the outer walls of both sides of the rotating rod 6 are provided with a second stirring rod 7, and the outer wall of the rotating rod 6 is also arranged It is provided with a turntable 8, and also includes:

Water-blocking mechanism 16, water-blocking mechanism 16 is arranged on the end of diversion pipe 15, and when the liquid level on one side of dividing plate 14 is lower than the end of diversion pipe 15, impels the end of diversion pipe 15 to close, dividing plate 14 When the side liquid level is higher than the end of the draft tube 15, the end of the draft tube 15 is prompted to open;

Toggling mechanism 25, the toggling mechanism 25 is arranged on the end of the first stirring rod 5, and is used to drive the rotating plate 8 to rotate;

A liquid level monitoring mechanism 19, the liquid level monitoring mechanism 19 is arranged in the processing tank 4, and is used to monitor the liquid level on one side of the partition 14;

The filter mechanism 27 is arranged on the bottom outer wall of the treatment tank 4 for filtering the waste water discharged from the outlet pipe 28 .

The waste water that needs to be treated can be continuously introduced into the treatment tank 4 through the waste guide pipe 12. During the introduction process, the waste water will gradually fill up the space on the left side of the partition 14. As the water level rises, the waste water will also enter the water collection tube 13 At this time, the water blocking mechanism 16 at the end of the diversion pipe 15 is still in the state of blocking the diversion pipe 15. As the waste water continues to be added, the waste water will eventually cross the partition 14 and flow to the right side of the partition 14. , and as the liquid level continues to rise on the right side of the partition 14, part of the waste water will enter the drainage channel 24 in the column 22, and when the liquid level is higher than the water blocking mechanism 16, the end of the draft tube 15 will Just be in unimpeded state, can make the waste water between water collection tube 13 and the right side of dividing plate 14 keep connected through guide tube 15, along with liquid level constantly rises, when liquid level is higher than the top of drainage channel 24, at this moment Under the siphon effect of the drainage channel 24, the waste water above the stratified plate 11 can be quickly discharged into the bottom of the stratified plate 11 through the drain channel 24. During the drainage process, the waste water in the water collection tube 13 will also be discharged through the guide pipe 15. to the right side of the partition 14 and discharge downward together until the liquid level on the right side of the partition 14 drops below the diversion tube 15, the water blocking mechanism 16 can re-block the diversion tube 15 until the liquid level on the right side of the partition 14 After the waste water is completely discharged into the bottom of the layered plate 11, the waste water is still continuously introduced into the treatment tank 4 through the waste guide pipe 12, but because the waste water in the water collection tube 13 is partially discharged, the newly added waste water will be replenished first. In the water collecting tube 13, waste water can cross the dividing plate 14 and flow to the right side of the dividing plate 14 after a period of neutral time, so that it can be ensured that the waste water on the right side of the dividing plate 14 is completely exhausted in a certain period of time in the neutral position. New waste water falls to the right side of the partition 14. After the siphon phenomenon disappears, the waste water will cross the partition 14 to supplement the waste water on the right side of the partition 14. At this time, the waste water added to the right side of the partition 14 can be accumulated again. When the next siphon phenomenon occurs, it is discharged downwards, so that the waste water that is continuously introduced into the treatment tank 4 can be purified in batches. The acid-base neutralizer is introduced to adjust the pH of the waste water, and the first stirring rod 5 on the outside of the rotating shaft 3 is driven to rotate under the action of the driving part 9 to realize the stirring of the waste water, so that the waste water and the acid-base neutralizer It can be quickly neutralized, and the toggle mechanism 25 at the end of the first stirring rod 5 can also stir the rotating plate 8 to make it rotate, and then drive the second stirring rod 7 on the outside of the rotating rod 6 to rotate, which can assist in stirring Mix well for better use effect. After neutralization, the waste water can be discharged through the outlet pipe 28 by opening the solenoid valve 29, and the impurities in the waste water can be filtered through the filter mechanism 27, and the filtered waste water will fall into the water collection tray 1 , can be reused for cable cleaning, very convenient to use.

As an embodiment of the present invention, please refer to Fig. 2, the water blocking mechanism 16 includes a cover plate 33, the inner wall of the guide pipe 15 is provided with a side plate 30, and the outer wall of the side plate 30 is provided with a movable rod 31, the movable rod The end of 31 is connected with the cover plate 33, and the outer wall of the side of the cover plate 33 near the end of the draft tube 15 is provided with a gasket 34, which can improve the sealing performance when blocking, and the other side of the cover plate 33 The outer wall is provided with a second floating block 35, and the outer wall of the movable rod 31 is also sleeved with an elastic piece 32. The specific structure of the elastic piece 32 is not limited. In the present embodiment, preferably, the elastic piece 32 adopts a spring, and the elastic piece 32 is elastic. One end of part one 32 is connected with the outer wall of cover plate 33, and the other end of elastic part one 32 is connected with the outer wall of side plate 30, when the liquid level is higher than the end of draft tube 15, at this moment the liquid Position is higher than the second floating block 35, under the action of the second floating block 35, the cover plate 33 at the end of the draft tube 15 can be raised, and the elastic member one 32 on the outside of the movable rod 31 is stretched. When the end of the draft tube 15 is in a smooth state, when the liquid level is lower than the end of the draft tube 15, the second floating block 35 no longer produces buoyancy, and now the cover plate 33 can Plug the end of the draft tube 15 again.

As an embodiment of the present invention, please refer to Fig. 3, the toggle mechanism 25 includes a movable cover 39, the end of the first stirring rod 5 is provided with a mounting groove 36, and a moving rod 37 is movably arranged in the mounting groove 36, and the movable rod 37 is movable. Cover 39 is sleeved on the end of the first stirring rod 5, and the end of moving rod 37 is connected with the inwall of movable cover 39, and the outer wall of moving rod 37 is sleeved with elastic member 2 38, the specific structure of elastic member 2 38 Without limitation, in the present embodiment, preferably, the second elastic member 38 adopts a spring, and one end of the second elastic member 38 is connected to the end of the first stirring rod 5, and the other end of the second elastic member 38 is connected to the movable cover 39. The inner walls are connected, and the outer wall of the movable cover 39 is sleeved with a rubber sleeve 40. When the first stirring rod 5 rotates, the movable cover 39 at the end of the first stirring rod 5 can stir the rotating plate 8 to rotate, and when the first stirring rod 5 rotates, the rotating plate 8 can be moved. When the rod 5 rotates, the movable cover 39 at the end of the first stirring rod 5 just abuts against the end of the rotating plate 8. At this moment, the movable cover 39 will move at the end of the first stirring rod 5, so that the elastic member 2 38 Compressed, effectively avoiding obstruction to the rotation of the first stirring rod 5, with a higher safety factor, and can prolong the service life of the equipment and achieve a better use effect.

As an embodiment of the present invention, referring to Fig. 4, the filter mechanism 27 includes a drive part 2 41 arranged on the outer wall of the bottom of the processing box 4, and the specific structure of the drive part 2 41 is not limited. In the present embodiment, preferably, The driving part two 41 adopts a stepping motor, and the driving end of the driving part two 41 is provided with a rotating disk 42, and the outer wall of the rotating disk 42 is provided with an equidistant annular distribution installation opening 45, and an annulus 43 is placed in the installation opening 45, and The outer wall of the ring 43 is provided with a filter screen 44. When the waste water is discharged through the outlet pipe 28, it can fall into the filter screen 44 at the bottom of the ring 43. The waste water can be filtered by the filter screen 44, and the filtered waste water can be dropped to the The water collecting tray 1 is re-used. After a single batch of waste water is exhausted, the turntable 42 can be driven by the drive part 2 41 to rotate, so that a new group of filter screens 44 can be rotated to the bottom of the drain pipe 26, and the collected waste water can be collected simultaneously. The filter screen 44 of sundry directly takes off and cleans up, and it is very convenient to use.

As an embodiment of the present invention, please refer to Fig. 1, liquid level monitoring mechanism 19 comprises measuring cylinder 17, and measuring cylinder 17 penetrates and is fixedly arranged on the top outer wall of processing box 4, and the inner wall of measuring cylinder 17 is provided with pressure sensor 18, and in measuring cylinder 17 A lifting rod 21 is movable, and the end of the lifting rod 21 is provided with a first floating block 23, and the inner wall in the measuring cylinder 17 is provided with grooves which are equidistant and annularly distributed, and balls 20 are rotated in the grooves, and the balls 20 Fitting with the outer wall of the lifting rod 21 can ensure the smoothness of the moving of the lifting rod 21, the liquid level on the right side of the partition 14 can make the first floating block 23 float up and down, and the second floating block 35 can drive the lifting rod 21 moves in the measuring cylinder 17. When the lifting rod 21 contacts the pressure sensor 18 in the measuring cylinder 17, it indicates that more waste water has accumulated on the right side of the partition 14. At this time, the electromagnetic valve 29 can be prompted to open, so that the bottom of the layered plate 11 The neutralized wastewater can be discharged in time to ensure that the wastewater above the layered plate 11 is completely drained before the wastewater above the layered plate 11 is replenished below the layered plate 11, and the use effect is better.

As an embodiment of the present invention, the first driver 9, the second driver 41 and the solenoid valve 29 are all connected to switches through wires, and the switches are electrically connected to the controller, and the pressure sensor 18 is electrically connected to the controller. The specific structure of the controller is not limited. In this embodiment, preferably, the controller adopts a microprogram controller.

As an embodiment of the present invention, referring to Fig. 5, the outer wall of the treatment box 4 is also provided with an observation port, and an observation window 46 is arranged in the observation port, through which the treatment state of the waste water can be observed, and the use effect is better. good.

During use, the waste water that needs to be treated can be continuously introduced into the treatment box 4 through the waste guide pipe 12. During the introduction process, the waste water will gradually fill up the space on the left side of the partition 14. As the water level rises, the waste water will also enter the collecting tank 4. In the water cylinder 13, at this time, the water blocking mechanism 16 at the end of the diversion tube 15 is still in the state of blocking the diversion tube 15. As the waste water continues to be added, the waste water will eventually cross the partition 14 and flow to the partition 14 and as the liquid level continues to rise on the right side of the partition 14, part of the waste water will enter the drainage channel 24 in the column 22, and when the liquid level is higher than the water blocking mechanism 16, the draft tube will The end of 15 is in a smooth state, and the waste water between the water collecting tube 13 and the right side of the partition 14 can be kept connected through the guide tube 15. As the liquid level continues to rise, until the liquid level is higher than the top of the drainage channel 24 At this time, under the siphon effect of the drainage channel 24, the wastewater above the layered plate 11 can be quickly discharged into the bottom of the layered plate 11 through the drainage channel 24. During the drainage process, the wastewater in the water collection tube 13 will also pass through the diversion The pipe 15 is discharged to the right side of the partition 14 and discharged downward together until the liquid level on the right side of the partition 14 drops below the diversion pipe 15, the water blocking mechanism 16 can re-block the diversion pipe 15 until the After the waste water on the right side of 14 is completely discharged into the bottom of the layered plate 11, the waste water is still continuously introduced into the treatment tank 4 through the waste guide pipe 12, but because part of the waste water in the water collection tube 13 is discharged, the newly added waste water It will first be added to the water collecting tube 13, and it will take a period of time for the waste water to flow over the partition 14 to the right side of the partition 14, so as to ensure that the waste water on the right side of the partition 14 is completely drained. There will be no new waste water falling to the right side of the dividing plate 14. After the siphon phenomenon disappears, the waste water will cross the dividing plate 14 to supplement the waste water on the right side of the dividing plate 14. At this time, the waste water added to the right side of the dividing plate 14 can be Re-accumulate until the next siphon phenomenon occurs and discharge downward, so that the waste water that is continuously introduced into the treatment tank 4 can be purified in batches, and when the waste water is discharged to the bottom of the layered plate 11, it can be processed through the catheter 10 The acid-base neutralizer is introduced into the box 4 to adjust the pH of the waste water, and the first stirring rod 5 outside the rotating shaft 3 is driven to rotate under the action of the driving part 9 to realize the stirring of the waste water, so that the waste water and the acid-base The neutralizing agent can be quickly neutralized, and the toggle mechanism 25 at the end of the first stirring rod 5 can also stir the rotating plate 8 to make it rotate, and then drive the second stirring rod 7 on the outside of the rotating rod 6 to rotate, which can Auxiliary stirring and mixing, the use effect is better, the waste water after neutralization can be discharged through the outlet pipe 28 by opening the solenoid valve 29, and the impurities in the waste water can be filtered through the filter mechanism 27, and the filtered waste water will fall into the water collection Disk 1 can be reused for cable cleaning, which is very convenient to use.

It should be noted that although this description is described in terms of implementations, not every implementation includes only an independent technical solution. This description of the description is only for clarity, and those skilled in the art should regard the description as a Overall, the technical solutions in the various embodiments can also be properly combined to form other implementations that can be understood by those skilled in the art.

Claims (7)

1. A cleaning waste water processor for cable production, comprising a water collection tray and a treatment box, characterized in that a drainpipe is provided on one side of the water collection tray, and a support column is provided on the inner wall of the water collection tray , and the treatment box is arranged at the end of the support column, the bottom outer wall of the treatment box is provided with a water outlet pipe, and one side of the outer wall of the water outlet pipe is provided with a solenoid valve, and the top outer wall of the treatment box is provided with a waste guide pipe, and One side of the outer wall of the treatment box is provided with a catheter, and the treatment box is also provided with a layered plate, and the outer wall of the layered plate is provided with a partition, and the outer wall of the layered plate is also provided with a water collecting tube, and the collected The outer wall of one side of the water cylinder is provided with a guide tube, and the guide tube runs through the partition plate, and the outer wall of the layered plate is also fixedly provided with a column, and a drainage channel is opened in the column, and the drainage channel One end is set above the layered plate, and the other end of the drainage channel is set below the layered plate, the top of the drainage pipe is higher than the top of the partition, and the outer wall of the layered plate is also provided with a protective frame, and The protection frame is provided with a driving part one, the driving end of the driving part one is provided with a rotating shaft, and the outer wall of the rotating shaft is provided with multiple rows of first stirring rods distributed equidistantly in a ring, the layered plate and the inner wall of the bottom of the processing box A rotating rod is also rotated between them, and the outer walls on both sides of the rotating rod are provided with a second stirring rod, and the outer wall of the rotating rod is also provided with a rotating plate, which also includes: Water blocking mechanism, the water blocking mechanism is arranged at the end of the diversion tube, and is used to close the end of the diversion tube when the liquid level on one side of the partition is lower than the end of the diversion tube, and the liquid level on the side of the partition is higher than The tip of the draft tube is forced to open when the tip of the draft tube is opened; a toggle mechanism, the toggle mechanism is arranged at the end of the first stirring rod, and is used to drive the rotating plate to rotate; A liquid level monitoring mechanism, the liquid level monitoring mechanism is arranged in the processing tank, and is used to monitor the liquid level height of the side of the partition close to the column; A filter mechanism, which is arranged on the bottom outer wall of the treatment box, is used to filter the waste water discharged from the water outlet pipe. 2. A cleaning waste water processor for cable production according to claim 1, wherein the water blocking mechanism includes a cover plate, the inner wall of the draft pipe is provided with a side plate, and the outer wall of the side plate A movable rod is provided through, and the end of the movable rod is connected with the cover plate, and the outer wall of the cover plate near the end of the draft tube is provided with a gasket, and the outer wall of the other side of the cover plate is provided with For the second floating block, the outer wall of the movable rod is also sleeved with an elastic member one, one end of the elastic member one is connected with the outer wall of the cover plate, and the other end of the elastic member one is connected with the outer wall of the side plate . 3. A cleaning waste water processor for cable production according to claim 1, characterized in that, the toggle mechanism includes a movable cover, the end of the first stirring rod is provided with a mounting groove, and the mounting groove A moving rod is movable in the middle, and the movable cover is sleeved on the end of the first stirring rod, and the end of the moving rod is connected with the inner wall of the movable cover, and the outer wall of the moving rod is sleeved with an elastic part 2, so One end of the elastic member 2 is connected to the end of the first stirring rod, and the other end of the elastic member 2 is connected to the inner wall of the movable cover, and the outer wall of the movable cover is sleeved with a rubber sleeve. 4. A cleaning waste water processor for cable production according to claim 1, characterized in that, the filter mechanism includes a drive part 2 arranged on the outer wall of the bottom of the treatment box, and the drive end of the drive part 2 is provided with a turntable , the outer wall of the turntable is provided with equidistant and circularly distributed installation openings, and a ring is placed in the installation opening, and a filter screen is arranged on the outer wall of the ring. 5. A cleaning waste water processor for cable production according to claim 4, characterized in that, the liquid level monitoring mechanism comprises a graduated cylinder, the graduated cylinder is fixedly installed on the top outer wall of the treatment tank, and the inner wall of the graduated cylinder A pressure sensor is provided, a lifting rod is movable in the measuring cylinder, and the end of the lifting rod is provided with a first floating block, and the inner wall of the measuring cylinder is provided with grooves which are equidistant and circularly distributed, and the grooves rotate Balls are provided, and the balls are in contact with the outer wall of the lifting rod. 6. A kind of cleaning waste water processor for cable production according to claim 5, characterized in that, the drive part 1, the drive part 2 and the solenoid valve are all connected with a switch through a wire, and the switch is electrically connected with a control The device is electrically connected between the pressure sensor and the controller. 7 . The cleaning waste water processor for cable production according to claim 1 , wherein an observation port is provided on the outer wall of the treatment box, and an observation window is arranged in the observation port. 8 .

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