JP6670415B1 - Intelligent purification equipment for nickel plating wastewater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an intelligent purification device for nickel plating wastewater, which has a simple structure and is easy to operate. A controller for controlling automatic operation of an apparatus is fixedly attached to a side wall of a casing 1, a water supply pipe is provided at a top portion of the casing 1, and a water discharge pipe is provided at a bottom portion of the casing 1. Is equipped with a wastewater treatment module 5. The water supply pipe is provided with a detection module, the sulfuric acid introduction pipe 2 is connected to the water supply pipe, and the first magnet 3 is provided at the end. The detection module detects whether the PH value of the wastewater in the water supply pipe meets the requirement. A fresh water introduction pipe 4 is connected to the sulfuric acid introduction pipe 2, and a control valve is attached. The wastewater treatment module 5 is used to purify the wastewater, and in cooperation with the purification unit 6, continuously purifies the wastewater, while ensuring a sufficient wastewater treatment time, without affecting the treatment efficiency, Two purifications will achieve complete purification of water quality and prevent / improve water pollution. [Selection diagram] Fig. 1

Description

The present invention belongs to the technical field of wastewater treatment, especially an intelligent purification device for nickel plating wastewater.

Nickel-containing wastewater is treated intensively after draining, in which process chemicals, acids, and bases are added to adjust to an appropriate pH value, and then a coagulant is added to coagulate and settle nickel heavy metals. And the nickel-containing sludge must be disposed of by a qualified professional company in order to belong to hazardous waste. Water cannot be discharged unless it is biochemically treated.
Among them, adjustment of the pH value is the most important, and the reaction rate of the pH meter is different, so that chemicals are repeatedly added, which is often wasted and increases the processing cost, and also affects the processing efficiency. And the subsequent processing becomes difficult, and in extreme cases the standard cannot be achieved, limiting applicability and practicality.

Several technical solutions for treating nickel-containing wastewater have also emerged in the prior art. For example, Chinese Patent Application No. 2015206636082 discloses an online recycling apparatus for electro-nickel plating wastewater including a filter and a treatment vessel, wherein the filter is connected to a lift pump via a waste liquid introduction pipe and a top of the filter is provided. Is connected to the bottom of the processing vessel via a conduit, a purified water discharge pipe is provided at the top of the processing vessel, a rotating shaft is provided on the inner wall of the processing vessel, a through hole is provided on a side wall of the processing vessel, and the A net is provided in the processing vessel, a phenolic spherical resin filler is provided in the rotating net, a backwash tank is provided outside the processing vessel, and a dilute sulfuric acid spray nozzle is provided on the upper wall of the backwash tank. A movable hole is provided on one side wall of the backwash tank so as to match the through hole, and a drive shaft is provided on the other side wall of the backwash tank. On the wall, the drive motor is provided which is connected to the drive shaft.

This technical solution has a simple structure, good stability, greatly reduces cross-contamination, improves processing efficiency, reduces processing cost, and has high applicability and practicality. However, this technical solution cannot achieve continuous continuous purification without affecting the purification efficiency, and at the same time, cannot completely purify water quality only with the phenolic spherical resin series. This limits this technical solution.

Chinese Patent Application Publication No. 108993248

To make up for the drawbacks of the prior art, the present invention provides an intelligent purification device for nickel plating wastewater, which is simple in structure, easy to operate, and cooperates with wastewater treatment module and purification unit to continuously discharge wastewater. It achieves complete purification of water quality by performing purification twice without affecting the treatment efficiency while ensuring sufficient wastewater treatment time while simultaneously purifying wastewater, and preventing and improving water pollution.

An intelligent purification device for nickel plating wastewater, comprising a casing and a controller, wherein the controller is used to control automatic operation of the device, wherein the controller is fixedly attached to a side wall of the casing, and a top of the casing. A water supply pipe is provided, a water discharge pipe is provided at the bottom of the casing, a wastewater treatment module is provided in the casing, a detection module is provided in the water supply pipe, and a sulfuric acid introduction pipe is connected to the water supply pipe. A first magnet is provided at an end of the water supply pipe, the detection module is used to detect whether a PH value of wastewater in the water supply pipe satisfies a requirement, and the sulfuric acid introduction pipe has a fresh water introduction pipe. Is connected, a control valve is attached to the freshwater introduction pipe, and the wastewater treatment module is used for purifying wastewater.

The wastewater treatment module here includes a turntable, a motor, a rotating shaft, a slider, a fixed rod, and a water discharging unit. A central portion of the turntable is fixed to a rotating shaft, and a set of cavities is formed in the turntable. The rotating shaft is connected to a motor through the casing, one end of a fixed rod is fixed in the cavity, and a water supply port is provided in an outer ring of the cavity. Both are connected to the slider by a spring, the outer ring of the water supply port is provided with a second magnet magnetically attracted to the first magnet, an elastic film is provided inside the water supply port, and both ends of the elastic film are The water discharge unit fixed to the inner ring of the water intake port is used for discharging purified water in the cavity to the bottom of the casing. In operation, when the nickel plating wastewater enters the casing through the water supply pipe, first, the detection module detects whether the PH value satisfies a predetermined range, and if it is not satisfied, it is used for neutralization. The dilute sulfuric acid solution must be passed, and at the same time, a certain amount of fresh water is injected into the dilute sulfuric acid solution so that the pH value after neutralization of the dilute sulfuric acid solution and the wastewater satisfies the requirements. Control the concentration, then put the wastewater treatment module in the casing to perform wastewater treatment, at this time, the control unit controls the rotation of the motor, the motor drives the rotation of the rotating shaft, the rotating shaft is a turntable Is rotated so that the distance between the second magnet on the outer race of the turntable and the first magnet at the end of the water supply pipe is gradually reduced at the same time as the turntable rotates. The stone is adsorbed, and at this time, the control valve in the water supply pipe is opened, and the wastewater in the water supply pipe pushes up the elastic film while colliding with the elastic film. At this time, the wastewater flows into the cavity by communicating with the water supply pipe and the water supply port. After that, the turntable continues to rotate, the water supply pipe repeatedly injects wastewater into the turntable cavity in order, and when the turntable rotates to a certain position, it meets with the water discharge unit and triggers it To discharge the treated water in the cavity, thereby achieving a continuous treatment of the wastewater, while at the same time the controller, under the action of the centrifugal force, causes the slider 52 in the cavity to move along the fixed rod. Control the rotation interval and speed of the motor so that it slides back and forth, thereby avoiding the accumulation of impurities due to the stagnant of wastewater Waste water and mixed completely extruded. In the present invention, after sequentially injecting wastewater into the cavity of the turntable, the turntable is rotated at a constant cycle, and the wastewater in the cavity is taken out after being treated for a sufficient time, without affecting the wastewater treatment time. Achieving sustainable treatment of wastewater, thus improving the efficiency of wastewater treatment and avoiding the problem of degrading the quality of continuous treatment of wastewater.

Preferably, the water discharging unit includes a bump, a rubber block, and an arc-shaped plate, an outer ring of the cavity is provided with an arc-shaped through groove, and both side walls of the arc-shaped through groove are provided with slide grooves. One end of the arc-shaped plate is connected to a slide groove on one side wall by a spring, the other end is fixed to a bump, and the bump is connected to a slide groove on the other opposite side wall by a spring, The lower end of the rubber block is fixed to the center of the fixing plate, the upper end surface of the rubber block is provided in an arc shape, and the height of the rubber block gradually increases from right to left. Become smaller. During operation, when the turntable rotates to the fixed position, the bumps come into contact with the rubber blocks, and the bumps extend a certain length from the turntable, so that the bumps are difficult to move due to the blockage of the rubber blocks. The turntable continues to rotate, causing the bumps to move in the opposite direction relative to the turntable, thereby pushing the connected arcuate plate and sliding it along the arcuate groove in the corresponding side wall, thereby forming the cavity. At this time, the treated water flows out from the opened arc-shaped through-groove, and the arc-shaped plate keeps pushing the spring while the turntable continues to rotate, and the repulsive force of the spring causes the rubber block to If it is greater than the resistance of the rubber block, the spring presses the arc-shaped plate and the bump to forcibly press the rubber block to deform a part of the rubber block. Since the upper end surface of the rubber block is provided in an arc shape, the bump is forcibly pressed and is not interrupted after passing through the highest point of the rubber block, and the bump is driven back by driving the arc-shaped plate, and the arc-shaped through groove is formed. Sealing is again achieved, water is sequentially discharged from the cavity in the turntable via the water discharge unit, and the treated water is discharged in real time, thereby improving the efficiency of wastewater treatment.

Preferably, a water leakage hole is provided on the right side of the fixing plate, and a purification unit is provided at the bottom of the casing, wherein the purification unit includes a purification disk, a regenerated ion exchange resin film, a compression spring, and a pillar, A groove is provided in the purification disk, both ends of the purification disk are connected to the bottom wall of the casing via compression springs, and a regenerated ion exchange resin film is detachably attached to the bottom of the groove, and One end is fixed to the bottom wall of the casing, and the other end is hinged to the bottom of the purification disk, and the bottom of the casing communicates with the fresh water inlet pipe through a conduit. In operation, the water treated by the wastewater treatment module falls from the leak hole to the purification disc, and as the water becomes more and more, it will concentrate on one side, and the purification disc under its own weight of water The purifying disk is tilted to one side, and the purifying disk is repelled by the elastic force of the compression spring at the bottom, so that the purifying disk is swung right and left. Since the resin film is provided, the exchange of regenerated resin and nickel ions in water can be promoted quickly by the flow of water, and the desorption of nickel ions in water can be realized to re-purify water. It can achieve the standard of domestic water, and connect the water source to the freshwater introduction pipe to save water resources.

Preferably, the airbag 7 is fixed to the top of the slider, and the inner wall of the cavity is symmetrically covered with two elastic suction films, and one end of each of the elastic suction films has a side wall of the cavity. And the other end is connected to the slider. In operation, the volume of wastewater injected into the cavity is about two-thirds of the volume of the cavity, and when the slider slides back and forth along the fixed rod by the action of centrifugal force, the elastic adsorption connected to both sides The film is driven to oscillate, thereby extruding and mixing the water in the cavity, while the top airbag pushes out the water on the travel path and forces the water to flow on both sides of the airbag To increase the efficiency of wastewater treatment, and in the cavity after draining, the elastic adsorbing film swings along with the slider to shake off impurities adhering to the surface, and the amount of impurities adhering to the elastic adsorbing film is too large. To avoid the effect on the adsorption effect.

Preferably, a straight groove is provided in a side wall of an adjacent cavity, and a movable block is connected to the inside of the straight groove via an elastic rope, and a set of inclined holes is provided in both side walls of the straight groove. Are evenly distributed. During operation, the movable block slides outward due to the action of centrifugal force, thereby generating a negative pressure in the linear groove to attract the elastic suction film, and at this time, the slider moves along the fixed rod due to the action of centrifugal force. The elastic suction film slides and tries to move with the slider, but due to the suction action of the negative pressure in the linear groove, the elastic suction film moves slowly with the slider, and at this time, the impurities attached to the elastic suction film are strong. It is extracted by the action of the suction force, and then enters the linear groove along the inclined hole, thereby realizing the recovery of impurities and avoiding the influence of the accumulation of impurities on the wastewater treatment effect.

Preferably, a cylinder is fixed to a left side wall of the casing, an end of the cylinder is hingedly connected to a suction disc, and the suction disc is provided with a distance sensor, and the distance sensor includes a movable block and a suction disc. The collection box is slidably mounted on the left side of the fixed plate, and one end of the collection box protrudes out of the casing. When operating, the movable block cannot be disengaged from the linear groove by the action of centrifugal force, so when the distance sensor detects the movable block, the controller controls the end of the cylinder to extend quickly, thereby The suction disk is extended so as to be in close contact with the movable block, and then the cylinder is controlled so as to be quickly returned.Then, the movable block is quickly moved out of the linear groove via the suction disk and is driven to move away. In the process, a large negative pressure is instantaneously generated in the straight groove, and the extraction efficiency of impurities is increased.On the other hand, impurities in the straight groove can be discharged instantaneously, and then dropped into the lower collection box, Workers are cleaned and replaced regularly.

1. According to the present invention, after sequentially injecting wastewater into a cavity of a turntable, the turntable is rotated at a fixed cycle, and the wastewater in the cavity is treated after being treated for a fixed time, and is then discharged. Achieves sustainable treatment of wastewater, thus improving the efficiency of wastewater treatment and avoiding the problem of degrading the quality of continuous treatment of wastewater.

2. The present invention cooperates with the wastewater treatment module and the purification unit to continuously purify the wastewater, secure sufficient wastewater treatment time, and without affecting the treatment efficiency, and purify the water quality twice. Achieve complete purification and prevent / improve water pollution; at the same time, oscillate the elastic adsorption film through the slider to avoid the adsorption of impurities, while promoting the flow of wastewater and treating efficiency Can be improved.

Hereinafter, the present invention will be further described with reference to the drawings.
It is a schematic diagram of the structure of the present invention. It is the elements on larger scale of the A section in FIG.

Here, a casing 1, a sulfuric acid introduction pipe 2, a first magnet 3, a fresh water introduction pipe 4, a wastewater treatment module 5, a turntable 51, a cavity 511, a slider 52, a water discharge unit 53, a bump 531, a rubber block 532, an arc-shaped plate 533, a second magnet 54, a purifying unit 6, a purifying disk 61, a recycled resin film 62, an airbag 7, an elastic suction film 8, a linear groove 9, a movable block 10, a cylinder 11, a suction disk 12, and a collection box 13.

The present invention is further described by specific embodiments to facilitate an understanding of the technical means, creative features, goals, and advantages achieved by the present invention. .

As shown in FIGS. 1 and 2, the intelligent purification apparatus for nickel plating wastewater according to the present invention includes a casing 1 and a controller, wherein the controller is used to control automatic operation of the apparatus, and the controller is a casing 1 A water supply pipe is provided at the top of the casing 1, a water discharge pipe is provided at the bottom of the casing 1, a wastewater treatment module 5 is provided in the casing 1, and the water supply pipe is provided. , A sulfuric acid introduction pipe 2 is connected to the water supply pipe, a first magnet 3 is provided at an end of the water supply pipe, and the detection module satisfies a requirement of a PH value of wastewater in the water supply pipe. A fresh water introduction pipe 4 is connected to the sulfuric acid introduction pipe 2, and a control valve is attached to the fresh water introduction pipe 4. The wastewater treatment module 5 is used for purifying waste water,

The wastewater treatment module 5 includes a turntable 51, a motor, a rotating shaft, a slider 52, a fixing rod, and a water discharging unit 53. A central portion of the turntable 51 is fixed to a rotating shaft. A cavity 511 is provided in the circumferential direction, the rotating shaft penetrates the casing 1 and is connected to a motor, one end of a fixed rod is fixed inside the cavity 511, and a water supply port is provided on an outer ring of the cavity 511. Are connected to the slider 52 by springs, and the outer ring of the water supply port is provided with a second magnet 54 which is magnetically attracted to the first magnet 3, and an elastic film is provided on the water supply port. , The both ends of the elastic film are fixed to the inner ring of the water intake port, and the water discharge unit 53 is installed in the cavity 511. The reduction water is used for discharging the bottom of the casing 1. In operation, when the nickel plating wastewater enters the casing 1 via the water supply pipe, first, the detection module detects whether the PH value satisfies a predetermined range, and if it is not satisfied, it is neutralized. The dilute sulfuric acid solution must be passed, and at the same time, a certain amount of fresh water is injected into the dilute sulfuric acid solution so that the pH value after neutralization of the dilute sulfuric acid solution and the wastewater satisfies the requirements. The concentration is controlled, and then the wastewater is treated in the wastewater treatment module 5 of the casing 1. At this time, the control unit controls the rotation of the motor, the motor drives the rotation of the rotating shaft, and the rotating shaft is turned. The table 51 is driven to rotate, and at the same time as the turntable 51 rotates, the distance between the second magnet 54 on the outer race of the turntable 51 and the first magnet 3 at the end of the water supply pipe gradually decreases. Then, two magnets are attracted, and at this time, the control valve in the water supply pipe is opened, and the wastewater in the water supply pipe pushes up the elastic film while colliding with the elastic film, and at this time, the water supply pipe communicates with the water supply port. Thereby, the wastewater is introduced into the cavity 511, and then the turntable 51 continues to rotate, and the water supply pipe repeatedly injects the wastewater into the cavity 511 of the turntable 51 in order, until the turntable 51 is located. Upon rotation, it meets and triggers the spouting unit 53 to drain the treated water in the cavity 511, thereby achieving a continuous treatment of the wastewater, while at the same time the controller controls the centrifugal force. The interval and speed of the rotation of the motor so that the slider 52 in the cavity 511 slides back and forth along the fixed rod under the action. Controlled, thereby mixing completely extruded wastewater in order to avoid the deposition of impurities by stationary wastewater. In the present invention, after sequentially injecting wastewater into the cavity 511 of the turntable 51, the turntable 51 is rotated at a constant cycle, and the wastewater in the cavity 511 is treated after being treated for a fixed period of time, and is derived. Achieving a sustainable treatment of wastewater without giving it, thus improving the efficiency of wastewater treatment and avoiding the problem of continuously reducing the quality of treatment by wastewater treatment.

As one embodiment, the water discharging unit 53 includes a bump 531, a rubber block 532, and an arc-shaped plate 533, an outer ring of the cavity 511 is provided with an arc-shaped through groove, and both side walls of the arc-shaped through groove are provided. In each case, a slide groove is provided, one end of the arc-shaped plate 533 is connected to a slide groove on one side wall by a spring, and the other end is fixed to a bump 531. The bump 531 is connected to the other opposite side wall by a spring. A fixed plate is provided below the turntable 51, a lower end of the rubber block 532 is fixed to a central portion of the fixed plate, and an upper end surface of the rubber block 532 is provided in an arc shape, The height of the rubber block 532 gradually decreases from right to left. When the turntable 51 rotates to the fixed position during operation, the bump 531 comes into contact with the rubber block 532 and the bump 531 extends from the turntable 51 by a certain length. Is difficult to move, and at this time, the turntable 51 continues to rotate, so that the bump 531 moves in the opposite direction to the turntable 51, thereby pushing the connected arc-shaped plate 533 to form the corresponding arc-shaped side wall. Slide along the groove, thereby achieving the opening of this cavity 511, at which time the treated water flows out of the open arcuate through groove and as the turntable 51 continues to rotate, the arcuate plate 533 is If the spring continues to be pressed and the repulsive force of the spring is greater than the resistance of the rubber block 532, the spring 33 and the bump 531 are pressed to forcibly press the rubber block 532 to deform a part of the rubber block 532, and the upper end surface of the rubber block 532 is provided in an arc shape. After passing through the highest point of 532, the bump 531 drives the arc-shaped plate 533 back to achieve sealing of the arc-shaped through groove again, and the cavity in the turntable 51 via the water discharging unit 3 is achieved. Water is discharged sequentially from 511, and the treated water is discharged in real time, thereby improving the efficiency of wastewater treatment.

As one embodiment, a water leakage hole is provided on the right side of the fixing plate, and a purification unit 6 is provided at the bottom of the casing 1. The purification unit 6 includes a purification disk 61, a regenerated ion exchange resin film 62, A groove is provided in the purification disk 61 including a compression spring and a pillar, and both ends of the purification disk 61 are connected to the bottom wall of the casing 1 via compression springs. A resin film 62 is detachably attached, one end of the pillar is fixed to the bottom wall of the casing 1, the other end is hinged to the bottom of the purification disk 61, and the bottom of the casing 1 is connected to the fresh water introduction pipe 4 through a conduit. Communicate with In operation, the water treated by the wastewater treatment module 5 falls from the leak hole to the purifying disc 61, and as the water becomes more and more, it will concentrate on one side and the purifying disc by its own weight The purifying disk 61 is tilted to one side by pushing, and the purifying disk 61 is repelled by the elastic force of the compression spring at the bottom, so that the purifying disk 61 is swung right and left, whereby water sways in the purifying disk 61, and Since the regenerated ion exchange resin film 62 is provided at the bottom, the exchange of the regenerated resin with the nickel ions in the water can be accelerated by the flow of the water, and the desorption of the nickel ions in the water is realized. Then, repurification of water quality can be realized, the standard of domestic water can be achieved, and a water source can be connected to the fresh water introduction pipe 4 to save water resources.

In one embodiment, the airbag 7 is fixed to the top of the slider 52, and the inner wall of the cavity 511 is symmetrically covered with two elastic suction films 8. One end is fixed to the side wall of the cavity 511, and the other end is connected to the slider 52. In operation, the volume of wastewater injected into the cavity 511 is about two-thirds of the volume of the cavity 511, and is connected to both sides when the slider 52 slides back and forth along the fixed rod under the action of centrifugal force. The elastic suction film 8 is driven to oscillate, thereby extruding and mixing the water in the cavity 511, and at the same time, the top airbag 7 extrudes the water on the movement path, and the water in the airbag 7 is removed. Forcibly flowing to both sides to increase the efficiency of wastewater treatment, and in the cavity 511 after draining, the elastic adsorbing film 8 swings along with the slider 52 to shake off impurities adhering to the surface. The effect on the adsorption effect due to too much impurities attached to 8 is avoided.

As one embodiment, a linear groove 9 is provided in a side wall of the adjacent cavity 511, and a movable block 10 is connected to each of the linear grooves 9 via an elastic rope. In each case, one set of inclined holes is evenly distributed. . In operation, the movable block 10 slides outward by the action of centrifugal force, thereby generating a negative pressure in the linear groove 9 and attracting the elastic suction film 8, and at this time, the slider 52 is fixed by the action of centrifugal force. The elastic suction film 8 slides along the rod, and the elastic suction film 8 tries to move together with the slider 52. However, due to the suction effect of the negative pressure in the linear groove 9, the elastic suction film 8 moves slowly together with the slider 52. Impurities adhering to the film 8 are extracted by the action of a strong suction force, and then enter the straight groove 9 along the inclined hole, thereby realizing the recovery of the impurities, and the effect of the accumulation of the impurities on the wastewater treatment effect. Avoid.

As one embodiment, a cylinder 11 is fixed to a left side wall of the casing 1, an end of the cylinder 11 is hinged to a suction plate 12, and a distance sensor is provided on the suction plate 12, The sensor is used to sense the distance between the movable block 10 and the suction plate 12, and a collection box 13 is slidably mounted on the left side of the fixed plate, and one end of the collection box 13 is provided outside the casing 1. Sticking out. During operation, the movable block 10 cannot be detached from the linear groove 9 by the action of centrifugal force. Therefore, when the distance sensor detects the movable block 10, the controller controls the end of the cylinder 11 to extend rapidly. Then, the suction disk 12 is rapidly extended and brought into close contact with the movable block 10, and then the cylinder 11 is controlled to be quickly returned. Further, the movable block 10 is quickly moved from the linear groove 9 through the suction disk 12. In this process, a large negative pressure is instantaneously generated in the linear groove 9 to increase the extraction efficiency of impurities, and on the other hand, it is possible to discharge the impurities in the linear groove 9 instantaneously. Shortly thereafter, it is dropped into the collection box 13 below, and the worker periodically cleans and replaces it.

During operation, when the nickel plating wastewater enters the casing 1 through the water supply pipe, first, a detection module detects whether the PH value satisfies a predetermined range, and if the PH value does not satisfy the predetermined range, it is used for neutralization. At the same time, a certain amount of fresh water is injected into the diluted sulfuric acid solution so that the pH value after neutralization of the diluted sulfuric acid solution and the wastewater satisfies the requirements. , And then the wastewater is treated in the wastewater treatment module 5 of the casing 1. At this time, the control unit controls the rotation of the motor, the motor drives the rotation of the rotating shaft, Drives the turntable 51 to rotate, and at the same time as the turntable 51 rotates, the distance between the second magnet 54 on the outer race of the turntable 51 and the first magnet 3 at the end of the water supply pipe gradually decreases. Then, two magnets are attracted, and at this time, the control valve in the water supply pipe is opened, and the wastewater in the water supply pipe pushes up the elastic film while colliding with the elastic film. Communicates, wastewater is introduced into the cavity 511, and then the turntable 51 continues to rotate, and the water supply pipe repeatedly injects wastewater into the cavity 511 of the turntable 51 in order. Upon rotation to a certain position, it meets and triggers and activates the spout unit 53 to drain the treated water in the cavity 511, thereby achieving a continuous treatment of the wastewater, while at the same time the controller The rotation interval of the motor and the distance between the motors are adjusted so that the slider 52 in the cavity 511 slides back and forth along the fixed rod under the action of the centrifugal force. Controls degrees, thereby mixing completely extruded wastewater in order to avoid the deposition of impurities by stationary wastewater. In the present invention, after sequentially injecting wastewater into the cavity 511 of the turntable 51, the turntable 51 is rotated at a constant cycle, and the wastewater in the cavity 511 is treated after being treated for a fixed period of time, and is derived. Achieving sustainable treatment of wastewater without giving it, thus improving the efficiency of wastewater treatment and avoiding the problem of degrading the treatment quality by continuous treatment of wastewater.

Thus, the basic principles, key features, and advantages of the present invention have been shown and described. Those skilled in the art will understand that the present invention is not limited by the above embodiments, and the descriptions of the above embodiments and the description are merely for explaining the principles of the present invention, and the spirit and scope of the present invention are not limited thereto. Without departing from this invention, it is to be understood that various changes and modifications can be made, which are within the scope of the invention to be protected. The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

An intelligent purification device for nickel plating wastewater, comprising a casing (1) and a controller, wherein the controller is used to control automatic operation of the device, the controller being fixedly mounted on a side wall of the casing (1). A water supply pipe is provided at the top of the casing (1); a water discharge pipe is provided at the bottom of the casing (1); a wastewater treatment module (5) is provided within the casing (1); A detection module is provided in the pipe, a sulfuric acid introduction pipe (2) is connected to the water supply pipe, and a first magnet (3) is provided at an end of the water supply pipe. It is used to detect whether the value satisfies the requirement, and a fresh water introduction pipe (4) is connected to the sulfuric acid introduction pipe (2), and a control valve is connected to the fresh water introduction pipe (4). Ri attached, the wastewater treatment module (5) is used to purify waste water,
The wastewater treatment module (5) includes a turntable (51), a motor, a rotating shaft, a slider (52), a fixing rod, and a water discharging unit (53), and a central portion of the turntable (51) is fixed to the rotating shaft. In the turntable (51), one set of cavities (511) is provided in the circumferential direction, and the rotating shaft penetrates the casing (1) and is connected to a motor. One end of a fixed rod is also fixed, and a water supply port is provided in each of outer rings of the cavity (511). Each of the fixed rods is connected to a slider (52) by a spring. (3) is provided with a second magnet (54) that is magnetically attracted, an elastic film is provided inside the water supply port, and both ends of the elastic film are fixed to the inner ring of the water intake port. Is the water discharge unit (53) is used for discharging the water that has been purified in the cavity (511) to the bottom of the casing (1), the intelligent purifier for nickel plating wastewater, characterized in that. The water discharging unit (53) includes a bump (531), a rubber block (532), and an arc-shaped plate (533),
An arc-shaped through groove is provided in an outer ring of the cavity (511), and a slide groove is provided on both side walls of the arc-shaped through groove. And the other end is fixed to a bump (531). The bump (531) is connected to a slide groove in the other opposite side wall by a spring, and a fixing plate is provided below the turntable 51. The lower end of the rubber block (532) is fixed to the center of the fixed plate, the upper end surface of the rubber block (532) is provided in an arc shape, and the height of the rubber block (532) gradually increases from right to left. The intelligent purifying apparatus for nickel-plated wastewater according to claim 1, wherein the size is reduced. A water leak hole is provided on the right side of the fixing plate, and a purification unit (6) is provided at the bottom of the casing (1). The purification unit (6) includes a purification disk (61), a regenerated ion exchange resin film. (62), including a compression spring and a pillar, a groove is provided in the purification disk 61, and both ends of the purification disk (61) are connected to the bottom wall of the casing (1) via compression springs; A regenerated ion exchange resin film (62) is detachably attached to the bottom of the groove, one end of the pillar is fixed to the bottom wall of the casing (1), and the other end is hinged to the bottom of the purification disk (61), The intelligent purifier for nickel plating wastewater according to claim 2, characterized in that the bottom of the casing (1) communicates with a fresh water inlet pipe (4) via a conduit. . The airbag (7) is fixed to the top of the slider (52), and the inner wall of the cavity (511) is symmetrically covered with two elastic suction films (8). 2.) The intelligent purifying apparatus for nickel plating wastewater according to claim 1, wherein one end is fixed to a side wall of the cavity (511), and the other end is connected to the slider (52). A linear groove (9) is provided on the side wall of the adjacent cavity (511), and a movable block (10) is connected to the linear groove (9) via an elastic rope. The intelligent purifying apparatus for nickel plating wastewater according to claim 2, wherein a set of inclined holes is uniformly distributed on both side walls. A cylinder (11) is fixed to a left side wall of the casing (1), and an end of the cylinder (11) is hinged to a suction disc (12), and a distance sensor is provided on the suction disc (12). The distance sensor is used to detect a distance between the movable block (10) and the suction plate (12), and a collection box (13) is slidably mounted on the left side of the fixed plate. The intelligent purifier for nickel-plated wastewater according to claim 5, characterized in that one end of the collection box (13) protrudes out of the casing (1).