KR101434636B1 - Washing water treatment system for hard chronium coated object - Google Patents

Abstract

The present invention relates to a treatment system for washing water generated during a washing process of a coated object in a typical hard chrome coating method including warehousing an object to be coated, processing (CNC) the object, wet-polishing, chrome coating, washing and polishing the coated object, in sequence, and more specifically, to a treatment system for washing water used for washing a hard chrome coated object, the system which settles and filters chromium particles from washing water which is used for washing a coated object and is generated during the washing process of the coated object, by using gravity and magnetic force, and allows, the washing water from which the chrome particle is filtered, to be recycled as the washing water for washing a coated object or supplementary water for a chrome coating solution. In addition, according to the invention, the washing water which is used for washing a chromium solid particle attached to the surface of the coated object treated by the chromium plating process is settled and filtered by gravity and magnetic force thorough a primary filtration tank and a secondary filtration tank, to convert a great amount of washing water into filtered water in a short time, so that the filtered water can be recycled; and only the filtered water containing precipitated chromium particles with high density is micro-filtered by using a hollow fiber membrane filtering device to reduce economic loss for a replacement of the hollow fiber membrane filter; and furthermore the washing water generated from the washing process of the coated object is collectively filtered by using large-capacity primary and secondary filtration tanks.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a washing water treatment system for hard chrome-

The present invention relates to a method and apparatus for general plating of a hard chrome plating process, in which a process such as coating, painting (CNC), wet polishing, chrome plating, cleaning of the object to be polished and polishing of the object to be polished is performed sequentially More particularly, the present invention relates to a treatment system for treating washing water generated in a washing process, which comprises washing and washing chromium particles using gravity and magnetic force, The present invention relates to a system for treating chromium particles washed with a hard chromium-plated object to be filtered so that the filtered wash water can be recycled as washing water for washing the object to be plated or as replacement water for the chromium plating liquid.

In general, hard chromium plating is applied to the object requiring high abrasion resistance, lubricity, heat resistance, corrosion resistance or releasability, and the hard chromium plating treatment is generally carried out using anhydrous chromic acid (CrO ₃ ) solution (Cr ^{6 +} ) in a chrome plating process, and the chrome plated material is automatically cleaned by an automatic cleaning device and then manually cleaned by hand.

That is, the general hard chrome plating process is a sequential process such as coating, CNC, wet polishing, chrome plating, cleaning of the object to be cleaned (automatic or manual cleaning) The plating waste water of the chromium plating solution used in the chromium plating process recovered the chromium component by the adsorption method or the chemical precipitation method. However, the solid chromium particles generated in the washing process after the chromium plating process However, since the concentration of chromium particles contained in the washing water is lower than that of the plating wastewater, the washing water is ineffectively treated, or general hollow fiber membrane filtering Since it is performed by a device, it takes a long time for filtering, resulting in a problem that economical efficiency is very low It was.

The following is a typical conventional technique for treating the plating wastewater generated in the hard chrome plating process.

Korean Patent Laid-Open No. 10-2004-0087440 relates to a method for separating hexavalent chromium from a plating wastewater using an adsorption method (the same meaning as "washing water washed with a plating solution"), Adding an anion exchange resin to adsorb hexavalent chromium; And desorbing the hexavalent chromium adsorbed on the resin by adding caustic soda and sodium chloride to the resin adsorbed with hexavalent chromium to provide a method for separating hexavalent chromium from the plating waste water by using the adsorption method, , The recovered hexavalent chromium can be reused as a raw material of the chromium plating solution and the strongly basic anion exchange resin can be reused as an adsorbent after desorption so that an economical recovery method is provided and the process is simple due to easy adsorption and desorption And the reaction was fast.

That is, conventionally, a method of separating and reusing ionized hexavalent chromium from the plating wastewater has been proposed. However, after the chromium plating process of plating the chromium plating solution to be plated, the cleaning water used in the process of cleaning the plating solution Since the method of separating the contained solid chrome particles from the washing water is performed by a general hollow fiber membrane filtering apparatus, the filtration time is long, resulting in a problem that the economical efficiency is very low. .

The present invention is directed to solve the problems of the prior art of a cleaning system for washing water washed with a hard chromium-plated object, and a system for treating wash water in which a conventional hard chromium-plated object is washed, Since the amount of the washing water is larger than that of the plating wastewater generated in the chromium plating process, the filtration treatment time for filtering the chromium particles contained in the washing water of a large capacity, This long problem occurs;

There is a problem that the cost of frequent replacement of the expensive hollow fiber filter is high;

Since the processing capacity of the general hollow fiber membrane filtering apparatus is small, the washing water generated in the washing process can not be collectively filtered, and most of the washing water is stored in the temporary storage tank. The main purpose is to provide a solution.

The present invention has been made to solve the above-

A system for treating washing water washed with a hard chromium-plated object, the washing water containing chromium particles having a paramagnetic property is temporarily taken in from the loading vessel storing the washing water into the inner space, and then the gravity and magnetic force A primary filtration tank for precipitating chrome particles by a magnetic force generated by the generator, separating the filtered water according to the degree of inclusion of the chrome particles, and discharging each of the filtered water to the take-out storage tank, the secondary filtration tank or the hollow fiber membrane filtering apparatus; An unloading storage tank for receiving the filtered water from which the chrome particles discharged from the primary filtration tank have been completely removed; The filtered water containing low-density chromium particles discharged from the primary filtration tank is drawn in, and the chrome particles are re-precipitated by the magnetic force generated by the gravity and magnetic force generator to filter the chromium particles, and the filtered water, A secondary filtration tank for discharging the filtered water containing the precipitated chrome particles to the hollow fiber membrane filtering device; The filtered water having high density of chrome particles discharged from the primary filtration tank is taken in and re-filtered with a hollow fiber membrane filter. The filtered water, from which the chromium particles have been completely removed, is discharged to the unloading storage tank through the discharge port, And a hollow fiber membrane filtering device for discharging the chrome particles,

Wherein the primary filtration tank comprises:

An inner space provided in the upper part of the upper part to receive the washing water containing the chromium particles from the inlet tank and to receive the washing water containing the chromium particles supplied to the inlet, A first vibration filtration plate provided at a lower portion of the inner space and having a plurality of filtration holes through which the precipitated chromium particles can pass, the first vibration filtration plate being capable of vibrating by the vibration generator; And a first magnetic force generator located at a lower portion of the first vibration filtering plate and applying a magnetic attraction force to allow the chrome particles to pass through the filtration hole; An inner space for holding the washing water including the chromium particles passing through the first vibration filtering plate and for allowing the lower portion of the first settling portion to be closed and the upper portion of the first settling portion to be in an open state, A second vibration filtering plate provided at a lower portion of the second vibration filtering plate and closing a lower portion of the inner space, the second vibration filtering plate having a plurality of filtration holes through which the precipitated chrome particles can pass, A second vibration filtering plate disposed at a lower portion of the second vibration filtering plate for discharging the filtered water containing low-density chromium particles to the receiving tank; A second salivating part configured to include a magnetic force generator; An inner space for holding the washing water containing the chromium particles passing through the second vibration filtering plate and fixing the lower portion of the second settling portion and the upper portion of the open state, A third vibration filtering plate provided at a lower portion of the third vibration filtering plate and closing a lower portion of the inner space and having a plurality of filtration holes through which the precipitated chrome particles can pass, And an outlet for discharging the filtered water having a low density of chrome particles to the inlet of the secondary filtration tank and a suction port disposed at a portion corresponding to the lower portion of the third vibration filtering plate to allow the chromium particles to pass through the filtration hole A third magnetism generating unit configured to apply a magnetic field to the third magnetism generating unit; An inner space in which the lower portion of the third settling portion and the upper portion of the open state are coupled with each other to surround the third magnetism generator of the third settling portion and the washing water containing chrome particles passing through the third vibration filtering plate is received and allowed to stand, A permanent magnet collector disposed at a lower portion of the permanent magnet collector for collecting chromium particles precipitated by closing the lower portion of the inner space by gravity; and a hollow fiber membrane disposed at a predetermined portion of the upper portion of the permanent magnet collector, And a fourth sinker part including an exhaust port for discharging the water to the inlet of the filtering device. The present invention also provides a treatment system for washing water washed with a hard chrome plated material.

The cleaning system for washing the hard chromium-plated object according to the present invention as described above is characterized in that the cleaning water for washing the solid chromium particles attached to the surface of the chromium-plated object to be plated is placed in a primary filtration tank And the secondary filtration tank through sedimentation filtration by gravity and magnetic force to obtain the effect of recycling the most amount of washing water as filtration water in a short time;

Only the filtrate containing the chrome particles precipitated at a high density is subjected to microfiltration using a hollow fiber membrane filtering apparatus, so that an economical loss for replacement of the hollow fiber membrane filter can be reduced;

It is possible to obtain the effect that the washing water generated in the washing process of the object to be poured can be collectively filtered using the large-capacity primary filtration tank and the secondary filtration tank.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a process block diagram showing the flow of washing water and filtrate in a washing water treatment system in which a hard chromium-plated object to be plated is washed according to a preferred embodiment of the present invention. FIG.
FIG. 2 is a side sectional view showing a primary filtration tank of a treatment system for washing water washed with a hard chromium-plated object according to a preferred embodiment of the present invention. FIG.
3 is a side cross-sectional view showing a secondary filtration tank of a treatment system for washing water washed with a hard chromium-plated object according to a preferred embodiment of the present invention.
4 is a partial detail sectional view showing a main portion of a primary filtration tank of a treatment system for washing water washed with a hard chromium-plated object according to a preferred embodiment of the present invention.
5 (a) to 5 (b) are a plan view and a partial cross-sectional view showing a vibration filtering plate of a washing water washing system in which a hard chromium-plated object to be plated is washed according to a preferred embodiment of the present invention.
6A and 6B are a plan view and a partial cross-sectional view showing a magnetic force generator of a treatment system for washing water washed with a hard chromium-plated object according to a preferred embodiment of the present invention.
7 is a partial cross-sectional view showing a permanent magnet collector of a treatment system for cleaning water washed with a hard chromium-plated object according to a preferred embodiment of the present invention.

The present invention relates to a method and apparatus for general plating of a hard chrome plating process, in which a process such as coating, painting (CNC), wet polishing, chrome plating, cleaning of the object to be polished and polishing of the object to be polished is performed sequentially The present invention relates to a treatment system for treating washing water generated in a process of treating a washing water to be washed with a hard chromium-plated object, After the washing water containing the particles is received and accommodated in the inner space, the chrome particles are precipitated by the gravity and the magnetic force generated by the magnetic force generator, and the filtered water is divided according to the degree of inclusion of the chrome particles. A primary filtration tank 20 for discharging the waste water to the secondary filtration tank 30 or the hollow fiber filtering apparatus 40; A take-out storage tank (50) for receiving the filtered water from which the chrome particles discharged from the first order filtration tank (20) are completely removed; The filtered water containing low-density chromium particles discharged from the first secondary filtration tank 20 is taken in, and the chrome particles are re-precipitated by the magnetic force generated by the gravity and the magnetic force generator to filter the chromium particles. A second secondary filtration tank 30 for discharging the filtered water containing the precipitated chrome particles to the hollow fiber membrane filtering device 40; The filtered water having high density of the chrome particles discharged from the first primary filtration tank 20 is taken in and re-filtered into the hollow fiber membrane filter so that the filtered water having been completely removed from the chrome particles is discharged to the unloading storage tank 50 through the discharge port And a hollow fiber membrane filtering device (40) for taking out the chrome particles filtered in the hollow fiber membrane,

The first primary filtration tank (20)

An inlet 21-1 provided in the upper part and supplied with the washing water containing the chromium particles from the loading and unloading tank 10 and a washing water containing chromium particles supplied to the inlet 21-1 are received and allowed to stand A discharge port 21-3 for discharging the filtered water which is provided in a predetermined portion of the lower portion and completely removed the chrome particles and a discharge port 21-2 provided in the lower portion of the inner space 21-2, , A first vibration filtering plate (21-4) having a plurality of filtration holes (21-5) through which the precipitated chrome particles can pass and which can be vibrated by the vibration generator, and a second vibration filtering plate -4), and a first magnetic force generator (21-6) which applies a force to allow the chrome particles to pass through the filtration hole (21-5) 21); The lower part of the first settling part 21 and the upper part in the open state are fastened together with the first magnetic force generator 21-6 of the first settling part 21, An inner space 22-2 for allowing the washing water containing one chromium particle to be received and allowed to stand, and a lower part of the inner space 22-2 provided below the inner space 22-2, A second vibration filtering plate 22-4 having a plurality of filtration holes 21-5 capable of being vibrated by the vibration generator and a second vibration filtering plate 22-4 capable of vibrating at a predetermined portion corresponding to the upper portion of the second vibration filtering plate 22-4 A discharge port 22-3 for discharging the filtered water containing low-density chromium particles to the loading vessel 10 and a chromium particle disposed at a lower portion of the second vibration filtering plate 22-4, And a second magnetic force generator (22-6) for applying attraction force to penetrate the filtration hole (21-5); The lower part of the second settling part 22 and the upper part in the open state are fastened together with the second magnetic force generator 22-6 of the second settling part 22, An inner space 23-2 for allowing the washing water containing one chromium particle to be received and allowed to stand and a lower portion of the inner space 23-2 provided below the inner space 23-2 to be closed, A third vibration filtering plate 23-4 having a plurality of filtration holes 21-5 capable of being vibratable by the vibration generator and a second vibration filtering plate 23-4 capable of vibrating by a predetermined portion corresponding to the upper portion of the third vibration filtering plate 23-4 A discharge port 23-3 for discharging the filtered water containing low-density chromium particles to the inlet 31 of the second filtration tank 30 and a discharge port 23-3 for discharging the portion corresponding to the lower portion of the third vibration filtration plate 23-4 And a third magnetic force generator (23-6) that applies a force to the chrome particles to pass through the filtration hole (21-5). The lower part of the third settling part 23 and the upper part of the third settling part 23 are engaged with each other and the third vibration filtering plate 23-4 is passed through the third magnetizing force generating part 23-6 of the third settling part 23 An inner space 24-2 for allowing the washing water containing one chromium particle to be received and allowed to stand and a lower portion of the inner space 24-2 provided below the inner space 24-2, A permanent magnet collector 24-4 for collecting the chromium particles at a predetermined position corresponding to the upper portion of the permanent magnet collector 24-4 and filtering the filtered water containing chromium particles at a high density into an inlet of the hollow fiber membrane filtering device 40 And a fourth settling portion 24 including a discharge port 24-3 for discharging the plating liquid to the plating bath 21-1, and a system for treating the washing water that has been subjected to hard chromium plating treatment .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

Specifically, the first primary filtration tank 20 temporarily receives washing water containing chromatic particles having a paramagnetic property from the loading vessel 10 storing the washing water into the inner space, and then the gravity and the magnetic force generator The chrome particles are precipitated by the magnetic force, and the filtered water is separated according to the degree of inclusion of the chromium particles, and each of the filtered water is discharged to the take-out storage tank 50, the secondary filtration tank 30 or the hollow fiber membrane filtering apparatus 40 .

That is, the loading vessel 10 is a water tank for temporarily storing the washing water generated by the process of washing the object to be plastered. The washing process of the object to be plastered is first cleaned by the general automatic washing device , And temporarily stores the wash water generated in the first and second washing processes even if the first washing process is performed by the second washing process by the manpower.

The primary filtration tank 20 has a predetermined internal space and accommodates the washing water supplied from the loading vessel 10 to naturally sediment the paramagnetic chrome particles contained in the washing water by gravity and simultaneously It is possible to deposit the chrome particles by the magnetic force generated by the magnetic force generator and to divide the filtered water which is accommodated in the inner space of the primary filtration tank 20 and in which the chromium particles are precipitated according to the density of the precipitated chrome particles, The chrome particles may be completely removed as shown in FIG. 2, provided that they can be discharged to the reservoir 50, the secondary filtration tank 30, or the hollow fiber membrane filtering device 40, A first precipitating section 21 for making filtration water (referred to as filtration water which can contain a small amount of chrome particles but which can be recycled to a degree of being able to be recycled), a first precipitating section 21 in which chrome particles remain in a low- The second precipitating section 22 and the third precipitating section 23 in which the chrome particles are precipitated at a low density but precipitated at a lower density than the first precipitating section 21 and most of the chrome particles contained in the washing water are precipitated, And a fourth settling portion 24 having particles.

That is, in the first primary filtration tank 20 according to the present invention, the inner spaces 21-2, 22-2, 23-2, and 24-2, which receive the washing water in the downward direction from the upper side, The first precipitating section 21, the second precipitating section 22, the third precipitating section 23 and the fourth precipitating section 24 in order to precipitate the paramagnetic chrome particles contained in the washing water to form filtered water, It is possible to increase the density of the chromium particles contained in the filtration water and to increase the washing water amount of the filtration process by the hollow fiber membrane filtering device 40 which requires a long filtration time or high cost of filtration The effect can be reduced.

That is, the primary filtration tank 20 has the above-described structure, in which the filtered water is classified according to the density of the chrome particles precipitated and contained in the filtered water, and the filtered water, To the carry-out tank (50), which is separately provided, and can be recycled as the replenishing water for washing water or chromium plating solution for washing the object to be plated, and the filtered water having low- And is then re-precipitated in the precipitating section 21 to be filtered or discharged to the secondary filtration tank 30 and then to be re-filtered by gravity and magnetic force so that the filtrate precipitated at a high density of chrome particles can be collected by a hollow fiber membrane filter The chrome particles precipitated in the lower part of the fourth settling part 24 are collected by the permanent magnet collector 24-4, Collected by It can be configured to allow.

Specifically, the first settling portion 21 of the first order filtration tank 20 is provided at an upper portion thereof with an inlet 21-1 for receiving washing water containing chromium particles from the loading and unloading tank 10, An inner space 21-2 for receiving and retaining the washing water containing the chrome particles supplied to the inlet 21-1 and an outlet 21-2 for discharging the filtered water, 3), and a plurality of filtration holes (21-5) provided below the inner space, through which the lower part of the inner space is closed and the precipitated chrome particles can pass through. A vibrating filter plate 21-4 and a first magnetic force generator 21-4 disposed at a portion corresponding to a lower portion of the first vibration filtering plate 21-4 and applying a force to allow the chrome particles to pass through the filtration hole 21-5, (21-6).

At this time, the inlet 21-1 is configured to receive the washing water from the loading tank 10, which is separately provided outside the primary filtration tank 20. The inlet 21-1 is connected to the discharge port of the loading tank 10 and the transfer pipe (not shown) And supplies the washing water to the inner spaces 21-2, 22-2, 23-2, and 24-2 of the primary filtration tank 20, respectively. That is, the inner spaces 21-2, 22-2, 23-2, and 24-2 of the primary filtration tank 20 are initially empty, and the washing water is supplied through the inlet 21-1 The washing water is filled in the reverse order from the inner space 24-2 of the fourth settling portion 24 located at the lowermost end of the first filtration tank 20. [

As shown in FIG. 2, a discharge port (not shown) adjacent to the inner side wall of the inner space 21-2 or the first vibration filtering plate 21-4 is provided at the end of the inlet 21-1 on the side of the inner space 21-2. So that the vortex caused by the washing water supplied to the inner space 21-2 can be minimized.

In addition, a valve for controlling whether or not the washing water is fed may be mounted on a part of the transfer pipe connected between the inlet 21-1 and the loading tank 10 for transferring the washing water, In the direction of the inlet port 21-1 due to the water pressure that can be applied when the washing water is filled in the inner spaces 21-2, 22-2, 23-2, and 24-2 of the tea filter tank 20, It is preferable that the first and second deposition units 21 and 21 are provided on the upper portion of the first deposition unit 21 to prevent backflow.

The discharge port 21-3 has a structure for discharging to the carry-out reservoir 50 separately formed outside the first filtration tank 20. The discharge port 21-3 has a predetermined lower portion of the first deposit portion 21 21-4), and is configured to discharge filtered water in which the chrome particles have been completely removed after being accommodated in the first settling portion 21 and then being held for a predetermined time.

At this time, the discharge port 21-3 may be connected to the carry-out reservoir 50 through a transfer pipe to transfer the filtration, and a valve may be provided at a certain portion of the transfer pipe to control the transfer of the filtrate.

A discharge induction pipe 21-9 having a buoyancy means 21-8 having a predetermined buoyancy is fastened to the end of the discharge port 21-3 on the side of the inner space 21-2, The filtration water to be discharged to the end of the discharge induction pipe 21-9 fastened to the buoyancy means 21-8 which is continuously floated to the storage tank 21-8 can be received, 50, it is possible to prevent the chromium particles, which may remain on the upper surface of the first vibration filtering plate 21-4, from being discharged.

In connection with the above, the unloading storage tank 50 is a general storing means for storing the recycled water. The unloading storage tank 50 is connected to the outlet of the first primary filtration tank 20 (the first settling portion 21) Is connected to the discharge port (33) of the tank (30) so that the chrome particles are supplied with the filtered water, and the filtered water can be supplied by the washing water for washing the object to be plated or the replenishing water for the chrome plating liquid.

The first vibration filtering plate 21-4 is provided under the inner space 21-2 of the first settling portion 21 so as to close the lower portion of the inner space 21-2, The chromium particles precipitated in the lower part of the inner space 21-2 are arranged in the lower part of the first settling part 21 as a constitution capable of vibrating by the vibration generator, 2 to the second settling portion 22 to prevent the chrome particles located in the second settling portion 22 from flowing back to the first settling portion 21. [

At this time, the first vibration filtering plate 21-4 has an area corresponding to the entire lower surface of the internal space 21-2, so that even when the chrome particles in the internal space 21-2 are deposited downward, 1 filtration hole 21-5 of the first vibration filtering plate 21-4 is formed so as to be capable of being deposited in the direction of the upper surface of the first vibration filtering plate 21-4, So that the chromium particles precipitated in the second settling portion 22 can penetrate into the inner space 22-2 of the second settling portion 22.

In addition, the filtration hole 21-5 may be formed in any shape as long as it passes through the upper surface and the lower surface of the first vibration filtration plate 21-4. However, as shown in FIG. 5 (b) 21-4 are wide and the discharge port located on the bottom surface has a narrow vertical cross section so that chromium particles precipitated in the inner space 21-2 of the first deposition part 21 The chromium particles positioned in the inner space 22-2 of the second settling portion 22 can be easily removed from the inner space 22-2 of the second settling portion 22, It is preferable not to flow back into the internal space 21-2 of the casing 21.

The first vibration filtering plate 21-4 is connected to a vibration generator that is vibrated by a power source supplied from the outside of the first primary filtration tank 20. When vibration occurs in the vibration generator, -4) can be vibrated. At this time, one or more vibration generators may be configured to vibrate the first vibration filtering plate 21-4, and a description of vibration timing of the vibration generators will be specifically described below.

In addition, the first vibration filtering plate 21-4 should be made of a material having a semi-magnetic property because when the first vibration filtering plate 21-4 is magnetized by the magnetic force generated by the first magnetic force generator 21-6 This is because the chrome particles can not penetrate through the filtration holes 21-5 and stick to the magnetized first vibration filtering plate 21-4.

In addition, the first magnetic force generator 21-6 is positioned at a lower portion of the first vibration filtering plate 21-4, and applies a force to the chromium particles to penetrate the filtration hole 21-5 , A magnetic force is applied to the precipitated chrome particles which can not pass through the filtration holes 21-5 of the first vibration filtering plate 21-4 of the first settling portion 21 by gravity so as to penetrate the filtration holes 21-5 Or is deposited on the upper surface of the first vibration filtering plate 21-4 at the same time as the vibration of the first vibration filtering plate 21-4 is applied to the upper surface of the first vibration filtering plate 21-4, -2) to attract the chrome particles that can be stretched out by hand.

That is, the first magnetic force generator 21-6 is constituted by means such as an electromagnet capable of generating a magnetic force by a power source supplied from the outside of the primary filtration tank 20, A plurality of electromagnets for generating a certain magnetic force so as to secure a magnetic field capable of covering the entire area of the first vibration filtering plate 21-4 are provided on the lower portion of the first vibration filtering plate 21-4 As shown in Fig.

At this time, the electromagnet is spaced apart from the lower surface of the first vibration filtering plate 21-4 and may be fastened to a predetermined lower portion of the first vibration filtering plate 21-4, And may be fastened to a predetermined portion of the inner space 22-2 of the second settling part 22 corresponding to the lower part of the inner space 22-2.

The magnetic force generated by the first magnetic force generator 21-6 is transmitted to the first vibration filtering plate 21-4 by the magnetic force that can cover the entire lower portion of the first vibration filtering plate 21-4 and the generated magnetic force It should be constructed so as to have a magnetic force enough to reach the washing water accommodated in the internal space of the corresponding predetermined portion.

The first magnetic force generator 21-6 may be configured to continuously generate magnetic force. However, the first magnetic force generator 21-6 may be configured such that: (1) the washing water is supplied to the first settling portion 21, (2) the vibration generator mounted on the first vibration filtering plate 21-4 is operated to move the chrome particles precipitated on the upper surface of the first vibration filtering plate 21-4 to the filtration holes 21-5 (3) After the precipitation of the chrome particles in the internal space 21-2 of the first settling portion 21 is completed and the first settling portion 21 is moved to the inside space 21-2, And to generate a magnetic force in a situation such as the case where the received filtered water is discharged to the discharge port 21-3.

In the case of (1) in which the magnetic force of the first magnetic force generator (21-6) is generated, the effect of accelerating the precipitation of the chromium particles can be obtained. The chrome particles which can be diffused in the upper direction of the inner space 21-2 by the vibration of the washing water by pulling the chrome particles in the lower direction of the filtration hole 21-5 of the first vibration filtering plate 21-4, In the case of (3), it is possible to obtain an effect of allowing the chrome particles to pass through the filtration hole 21-5 and enter the second settling portion 22. In the case of (3) The chromium particles located in the first settling portion 21 can be prevented from flowing back to the first settling portion 21.

The first magnetic force generator 21-6 according to the present invention may be configured in various forms as long as it can generate magnetic force according to the judgment of a person skilled in the art and apply gravity to the chrome particles according to the above circumstances. (a), a plurality of mutually intersecting linear support frames 25; A plurality of circular support frames (26) radially fastened to the linear support frame (25) at the intersections of the linear support frames (25) as center points; And a plurality of electromagnet members (27) fastened to respective ones of the linear support frames (25) corresponding to each other between the adjacent circular support frames (26).

That is, the linear support frame 25 and the circular support frame 26 are configured to stably maintain the plurality of electromagnet members 27 in a state where they are firmly fastened. The plurality of linear support frames 25, And the circular support frame 26 provides a clamping force between adjacent linear support frames 25 to support the linear support frame 25 in the horizontal direction. The effect of reinforcing the horizontal supporting force is exerted.

At this time, it is preferable that a portion corresponding to the intersection of the straight support frames 25 forms the same center point as the portion corresponding to the center of the first vibration filtering plate 21-4, as shown in Fig. 6 (a) It is preferable that the center point of the support frame 26 also has a center point corresponding to the intersection point of the straight support frames 25 to secure the same center of gravity point.

The electromagnet member 27 also has a linear support frame 25 corresponding to a space between the circular support frames 26 having a predetermined gap and being radially fastened to the linear support frame 25 at the intersection of the straight support frames 25, The first vibrating filter plate 21-4 and the second vibrating filter plate 21-4 are fixed to the first vibrating filter plate 21-4 and the second vibrating filter plate 21-4, Any structure may be employed as long as it is capable of generating a magnetic force enough to reach the washing water accommodated in the internal space of a certain portion.

In addition, when the first magnetic force generator 21-6 is constituted by the linear support frame 25, the circular support frame 26 and the electromagnet member 27 as mentioned above, the present invention can be applied to the linear support frame 25 A predetermined portion corresponding to the intersection point of the first filtration tank 20 and the second filtration tank 20 penetrates through the first vibration filtering plate 21-4 of the first settling portion 21 and the rotating means 29- 1) so that the first magnetic force generator 21-6 can be pivoted about the pivot 29 as necessary.

That is, the rotating means 29-1 is a device such as a motor, which is mounted on an upper portion of the upper portion corresponding to the outside of the primary filtration tank 20 and is connected to a device such as a speed reducer Configurable.

In addition, the rotary shaft 29 is fixed to the upper center of the primary filtration tank 20 in a state in which a pulley or gear capable of receiving a rotary force by the rotary unit 29-1 is fixed, And the other fixed portion is coupled so as to be rotatable to a predetermined lower portion of the fourth settling portion 24 described below. That is, the rotary shaft 29 is connected to the first vibration filtering plate 21-4 of the first settling portion 21 in the downward direction from the upper portion of the first primary filtration tank 20, the second vibration filtering plate 21-4 of the second settling portion 22, The first vibrating filter plate 22-4 and the third vibrating filter plate 23-4 of the third settling portion 23 are sequentially passed through the first vibrating filter plate 21-4 and the first vibrating filter plate 21-4, A predetermined portion of the intersection of the linear support frames 25 of the second magnetic force generator 22-6 provided at the lower portion of the second vibration filtering plate 22-4, And a certain portion of the intersection points of the linear support frames 25 of the third magnetic force generator 23-6 provided at the lower portion of the third vibration filtering plate 23-4 are coupled to each other to form a first magnetic force generator 21 -6), the second magnetic force generator 22-6 and the third magnetic force generator 23-6 can be turned as needed.

Specifically, the electromagnet member 27 (the same applies also to the second magnetic force generator 22-6 and the third magnetic force generator 23-6) of the first magnetic force generator 21-6 according to the present invention The chrome particles attached to the electromagnet member 27 due to the generated magnetic force are released from the electromagnet member 27 when the magnetic force of the electromagnet member 27 disappears, When the rotating shaft 29 is rotated in a predetermined direction in a state in which the magnetic force of the electromagnet member 27 is extinguished, the electromagnet member 27 is caught by the electromagnet member 27 So that the chrome particles can be separated from the washing water in the downward direction.

2, in order to prevent swirling of the washing water or the filtration water due to the rotation of the rotary shaft 29 passing through the inner space 21-2 of the first settling part 21 from the upper part to the lower part thereof, , One side of which is fixed to the inside of the upper lid of the first filtration tank and has a cavity through which the rotation shaft (29) can penetrate and has a certain length in the longitudinal direction of the rotation shaft (29) And may further include a pivot shaft cover 29-2. At this time, the other end of the rotary shaft cover 29-2 is configured not to contact with the upper surface of the first vibration filtering plate 21-4, (29-2) is not vibrated.

6 (a) to 6 (b), the first magnetic force generator 21-6 (the second magnetic force generator 22-6 and the third magnetic force generator 23-6 described below) A plurality of impellers 28 having the same structure as the linear support frame 25 of the linear support frame 25 and forming an intersection point are mounted between the linear support frame 25 and the linear support frame 25 adjacent to each other The impeller 28 is rotated together with the linear support frame 25, the circular support frame 26 and the electromagnet member 27 that are rotated by the rotation of the rotary shaft 29 and the washing water forms a vortex in the downward direction So that the chromium particles contained in the washing water can be rapidly precipitated in the downward direction.

It is to be understood that the angle of rotation of the impeller 28 is freely adjustable according to the judgment of a person skilled in the art and that the direction of rotation of the rotary shaft 29 is such that the washing water convected by the impeller 28 can be guided in the downward direction will be.

The second settling portion 22 of the first filtration tank 20 is connected to the lower portion of the first settling portion 21 in a state including the first magnetic force generator 21-6 of the first settling portion 21 An inner space 22-2 for receiving the washing water containing the chrome particles penetrating through the first vibration filtering plate 21-4, A second vibration filtering plate (22-4) having a plurality of filtration holes (21-5) through which the chrome particles to be precipitated can pass through and which can be vibrated by the vibration generator while closing the lower part of the inner space (22-2) A discharge port 22-2 for discharging the filtered water having a low density of chromium particles to the inlet 21-1 of the first settling portion 21, which is provided at a predetermined portion corresponding to the upper portion of the second vibration filtering plate 22-4, -3) and a second magnetic force generator (22-2) which is located at a lower portion of the second vibration filtering plate (22-4) and applies a force to allow the chrome particles to pass through the filtration hole (21-5) (22-6). The internal space (22-2), the second vibration filtering plate (22-4), and the second vibration filtering plate (22-4), which have the same purpose and effect as those of the first settling portion (Corresponding to the first magnetic force generator 21-4), the discharge port 22-3 and the second magnetic force generator 22-6 (corresponding to the first magnetic force generator 21-6) The chrome particles passing through the filtration hole 21-5 of the first settling portion 22-4 flow into the inner space 23-2 of the third settling portion 23 described below, The filtered water discharged from the internal space 22-2 of the settler 22 is again introduced into the loading tank 10 and is discharged into the internal space 21-2 of the first settler 21 22-2).

That is, the second settling portion 22 has an open upper portion having a size enough to cover the first magnetic force generator 21-6 provided at the lower portion of the first settling portion 21, And the chrome particles precipitated in the first settling portion 21 are introduced. At this time, the chrome particles contained in the washing water initially accommodated in the inner space 22-2 of the second settling portion 22 are supplied to the third settling portion 23).

Specifically, the second settling portion 22 has an internal space 22-2 having a smaller size than the internal space 21-2 of the first settling portion 21, and has a small washing water (or filtered water) capacity Since the precipitated chrome particles in the first precipitating section 21 are continuously supplied for a predetermined period of time, the filtered water having a higher chrome particle density than the filtered water in the first precipitating section 21 is received The filtered water contained in the internal space 22-2 of the settler 22 has a lower density of chrome particles than the filtered water contained in the internal space 23-2 of the third settled portion 23 by the same principle as described above. ), The filtered water filtered in the second settling portion 22 in the above state has a chrome particle density that is not directly recyclable as compared with the filtered water made in the first settling portion 21, And mixed with the initial washing water stored in the loading tank 10, And so.

That is, the filtered water received in the inner space 22-2 of the second settling portion 22 is filtered by the inner space 21-2 of the first settling portion 21 in the state of washing water as described above, But after the sedimentation by gravity and the sedimentation process by magnetic force are performed for a predetermined time, the filtered water is received in the inner space 21-2 of the first sedimentation unit 21, After the discharge of the filtered water in the internal space 21-2 of the first settling portion 21 is completed, the chrome particles contained in the internal space 22-2 of the second settled portion 22 are discharged through the low- (The density is higher than the filtered water contained in the inner space 21-2 of the first settling portion 21 and the density is lower than the filtered water contained in the inner space 23-2 of the third settled portion 23) And is discharged to the loading tank 10 through the discharge port 22-3.

The inner space 22-2, the second vibration filtering plate 22-4, and the first vibration filtering plate 21-4, which have the same purpose and effect as the first settling portion 21, A detailed description of the discharge port 22-3 and the second magnetic force generator 22-6 (corresponding to the first magnetic force generator 21-6) I will substitute it for correspondence.

The third settling portion 23 of the first filtration tank 20 is connected to the lower portion of the second settling portion 22 in a state covering the second magnetic force generator 22-6 of the second settling portion 22 An inner space 23-2 for receiving the washing water containing the chrome particles penetrating through the second vibration filtering plate 22-4 and allowing the washing water to pass therethrough and the inner space 23-2, A third vibration filtering plate 23-4 having a plurality of filtration holes 21-5 through which the chrome particles to be precipitated can pass through and which can be vibrated by the vibration generator while closing the lower part of the inner space 23-2, (23-3) for discharging filtered water having a low density of chromium particles in a predetermined portion corresponding to the upper portion of the third vibration filtering plate (23-4) to the inlet (31) of the secondary filtration tank (30) , And a third magnetic force generator (2) positioned at a portion corresponding to the lower portion of the third vibration filtering plate (23-4) and applying a force to allow the chrome particles to pass through the filtration hole (21-5) The inner space 23-2 and the third vibration filtering plate 23-2 having the same purpose and effect as those of the first and second settling portions 21 and 22, 4, corresponding to the first and second vibration filter plates), the discharge port 23-3 and the third magnetic force generator 23-6 (corresponding to the first and second magnetic force generators) The chrome particles penetrating through the filtration hole 21-5 of the first settling portion 23-4 flow into the inner space 24-2 of the fourth settling portion 24 described below, The filtered water discharged from the inner space 22-2 of the front part 23 is discharged to the inlet 31 of the second secondary filtration tank 30 and flows into the inner space 22-2 of the second settling part 22, There is a difference with an internal space 23-2 of smaller capacity.

That is, the third settling part 23 has an open upper part having a size enough to cover the second magnetic force generator 22-6 provided at the lower part of the second settling part 22, And the chrome particles precipitated in the second settling portion 22 are introduced. At this time, the chrome particles contained in the washing water initially accommodated in the inner space 23-2 of the third settling part 23 may be supplied to the third settling part (not shown) during the flow of the chrome particles in the second settling part 22 23).

Specifically, the third settling portion 23 has an inner space 23-2 having a smaller size than the inner space 22-2 of the second settling portion 22, and has a small washing water (or filtered water) capacity Since the precipitated chrome particles in the second precipitating section 22 are continuously supplied for a predetermined period of time, the filtered water having a higher density of chrome particles than the filtered water in the second precipitating section 22 is accommodated The filtered water contained in the inner space 23-2 of the settler 23 has a lower density of chrome particles than the filtered water contained in the inner space 24-2 of the fourth settled portion 24 by the same principle as described above. ), Since the filtered water filtered in the third settling portion 23 in the above-mentioned state has a chrome particle density that is not more reusable than the filtered water made in the second settling portion 22, ), And the chrome particles are reprecipitated by the magnetic force generated by the gravity and the magnetic force generator, Re-filtration.

That is, as mentioned above, the filtered water received in the inner space 23-2 of the third settling part 23 is supplied to the inner space 21-2 of the first settling part 21 in the state of washing water, And the inner space 22-2 of the second settling portion 22 but after the settling by gravity and the settling by the magnetic force have been performed for a certain time, the inner space 22-2 of the second settling portion 22 -2 and the filtered water is discharged first through the discharge port 22-3 and after the discharge of the filtered water in the inner space 22-2 of the second settling part 22 is completed, Is discharged to the secondary filtration tank (30) through the discharge port (23-3) with the chrome particles contained in the inner space (23-2) at a low density.

At this time, the filtered water, which is filtered and discharged in the inner space 23-2 of the third settling part 23, has a higher density than the filtered water contained in the inner space 22-2 of the second settling part 22 The filtered water having a density higher than that of the washing water which is first introduced into the first settling portion 21 in the loading tank 10 is repeatedly discharged from the loading tank 10 and re-filtered in the first settling portion 21, The filtration is performed by the second secondary filtration tank 30 separated from the first primary filtration tank 20 because it results in re-filtration.

In addition, the inner space 23-2, the third vibration filtering plate 23-4, the first and second vibration filtering plates 23-1, 23-2, and 23-3, which have the same purpose and effect as the first and second settling portions 21 and 22, (Corresponding to the first and second magnetic force generators), the discharge port 23-3 and the third magnetic force generator 23-6 (corresponding to the first and second magnetic force generators) (22) will be described.

The fourth settling portion 24 of the first filtration tank 20 is connected to the lower portion of the third settling portion 23 in the state of covering the third magnetic force generator 23-6 of the third settling portion 23 An inner space 24-2 for receiving the washing water including the chrome particles penetrating through the third vibration filtering plate 23-4 and allowing the washing water to pass through the third vibration filtering plate 23-4, A permanent magnet collector 24-4 for closing the lower part of the inner space 24-2 and collecting the precipitated chrome particles by attraction force and a permanent magnet collector 24-4 disposed at a predetermined portion corresponding to the upper portion of the permanent magnet collector 24-4 And a discharge port (24-3) for discharging the filtered water containing chrome particles at high density to the hollow fiber membrane filtering device (40), wherein the first settling part (21), the second settling part (22) The inner space 24-2 and the discharge port 23-3 having the same purpose and effect as those of the settling portion 23 are provided in the inner space 24-2, 2) And is collected by the permanent magnet collector 24-4 which collects the precipitated chrome particles by attraction force and is collected by the inner space 24-2 of the fourth settling portion 24 through the discharge port 24-3, Is discharged to the hollow fiber membrane filtering apparatus 40 having a hollow fiber membrane filter and has an internal space 24-2 having a smaller capacity than the internal space 23-2 of the third settling part 23 There is a difference.

That is, the fourth settling portion 24 has an open top portion having a size enough to cover the third magnetic force generator 23-6 provided at the lower portion of the third settling portion 23, And the chrome particles precipitated in the third settling portion 23 are introduced. At this time, the chrome particles contained in the washing water initially accommodated in the inner space 24-2 of the fourth settling part 24 are removed by the permanent magnet collecting device 24 -4). ≪ / RTI >

Specifically, the fourth settling portion 24 has an inner space 24-2 having a smaller size than the inner space 23-2 of the third settling portion 23, and has a small washing water (or filtrate) capacity Since the precipitated chrome particles in the third precipitating section 23 are continuously supplied for a predetermined period of time, it is in a state of receiving the filtered water having a higher density of the chrome particles than the filtered water of the third precipitating section 23 The chrome particles contained in the filtered water in the above state are collected by the permanent magnet 24-6 provided in the permanent magnet collector 24-4, Collected.

That is, the filtered water received in the inner space 24-2 of the fourth settling portion 24 is filtered by the inner space 21-2 of the first settling portion 21 in the state of washing water, The inner space 22-2 of the second settling portion 22 and the inner space 23-2 of the third settling portion 23 are filled in advance, but the settling by gravity and the settling by the magnetic force are performed for a predetermined time The filtered water filtered in the inner space 23-2 of the third settling unit 23 is first discharged through the discharge port 23-3 and the inner space 23 of the third settling unit 23 After the completion of the discharge of the filtered water from the hollow fiber membrane filtering device 40, the chrome particles contained in the inner space 24-2 of the fourth settling part 24 are discharged from the hollow fiber filtering device 40 through the discharge port 24-3, .

At this time, the filtrate water contained in the inner space 24-2 of the fourth settling portion 24 is mixed with the chrome particles precipitated in the first settling portion 21, the second settling portion 22 and the third settled portion 23 The chrome particles included in the filtered water contained in the inner space 24-2 are directly supplied to the permanent magnet 24-2 through the permanent magnet 24-2, The uncollected chrome particles contained in the filtrate water at high density are discharged to the discharge port 24-3 together with the filtered water contained in the inner space 24-2, Is filtered by the desert filtering device (40).

2 or 7, the permanent magnet collector 24-4 mounted on the lower part of the fourth settling part 24 in such a manner as to close the lower part of the inner space 24-2 of the fourth settling part 24, A housing 24-5 which can be separated or fastened to a certain part of the fourth settling part 24 by closing the lower part of the fourth settling part 24 and an inner space 24- 2 to keep the airtightness at the time of tightening between a certain portion of the housing 24-5 and the fourth settling portion 24, and a permanent magnet 24-6, It is preferable that the member 24-7 is configured to be provided between a certain portion of the fourth settling portion 24 and the inside of the housing 24-5.

In a case where the first magnetic force generator 21-6 of the first settling portion 21 is constituted by a combination of the plurality of linear supporting frames 25, the plurality of circular supporting frames 26 and the plurality of electromagnet members 27 The second magnetic force generator 22-6 and the third magnetic force generator 23-6 constituted by the second settling portion 22 and the third settling portion 23 are also provided with a plurality of linear support frames 25, And a plurality of electromagnet members 27 can be constituted by the combination of the circular support frame 26 and the plurality of electromagnet members 27 and the rotation shaft 29 rotated by the rotation means 29-1 corresponds to the intersection of the straight support frames 25 A predetermined portion of the first and second openings can be engaged and turned.

In addition, the second filtration tank 30 according to the present invention is configured such that the filtered water containing low-density chromium particles discharged from the first secondary filtration tank 20 is taken in, and the chrome particles are reprecipitated by the gravity and the magnetic force generated by the magnetic force generator The chrome particles are filtered to remove the chromium particles completely and the filtered water is discharged to the unloading storage tank 50 and the filtered water containing the precipitated chrome particles is discharged to the hollow fiber membrane filtering device 40, And the chrome particles supplied from the filtration tank 20 are re-filtered from the filtered water containing the low-density chromium particles.

At this time, the second filtration tank 30 has a structure similar to that of the first filtration tank 20, so that the chromium particles supplied to the inlet 31 from the first filtration tank 20 are mixed with the low- As shown in FIG. 3, washing water containing chromium particles may be supplied to the first filtration tank 20 (see FIG. 3) so as to smoothly filter the chromium particles using gravity and magnetic force. An inlet space 31 provided at the third settling portion 23 of the inlet port 31 and an internal space 5 for receiving and retaining the filtered water contained at a low density of chrome particles supplied to the inlet 31, A discharge port 33 for discharging filtered water from which the chrome particles have been completely removed and a plurality of filtration holes (not shown) provided in the lower part of the inner space 5 for closing the lower part of the inner space 5, 21-5) and is oscillated by the vibration generator A fourth magnetic force generator disposed at a portion corresponding to a lower portion of the fourth vibration filtering plate and applying a force to allow the chrome particles to pass through the filtration hole 21-5; And a lower outlet port 32 for closing the lower portion of the inner space 5 and discharging the filtered water containing the chrome particles passing through the fourth vibration filtering plate to the hollow fiber membrane filtering device 40 desirable.

Specifically, the filtered water containing the chromium particles supplied to the inner space 5 of the secondary filtration tank 30 is supplied to the primary filtration tank 20 from the carry-in tank 10 at a density lower than that of the wash water initially supplied to the primary filtration tank 20 Chrome particles but has chromium particles of a high density to be supplied to the direct take-out storage tank 50 for recycling, and quantitatively has a small amount of the washing water initially supplied to the primary filtration tank 20 And is supplied to the unloading storage tank 50 or reintroduced into the loading tank 10, it is a filtered water corresponding to another washing water whose efficiency of the washing water treatment is low.

That is, the filtered water discharged from the third settling portion 23 of the first-order filtration tank 20 supplied to the second-order filtration tank 30 flows into the first settling portion 21 of the first- The filtered water filtered by the second secondary filtration tank 30 is discharged to the unloading storage tank 50 to be recyclable and a part of the filtered water containing the precipitated chrome particles Is discharged from the secondary filtration tank (30), is supplied to the hollow fiber membrane filtering device (40) and subjected to filtering treatment.

At this time, the inner space 5, the discharge port 33, the fourth vibration filtering plate, and the fourth magnetic force generator of the second filtration tank 30 are connected to the first suction port 21 of the first secondary filtration tank 20 Since the same objects and effects are exhibited by corresponding to the inner space 21-2, the discharge port 21-3, the first vibration filtering plate 21-4 and the first magnetic force generator 21-6, The explanation will be given with the explanation of the first settling portion 21 of the first primary filtration tank 20.

However, the lower discharge port 32 is connected to the hollow fiber membrane filtering device 40 through a transfer pipe to filter the filtered water containing the chrome particles contained in the internal space 5 corresponding to the lower portion of the fourth magnetic force generator, (40), and a valve capable of controlling the discharge of the filtered water discharged from the lower discharge port (32) may be formed in a certain portion of the transfer pipe.

Further, the hollow fiber membrane filtering device 40 has a general structure in which a hollow fiber membrane having a filter hole smaller than that of the chrome particles is mounted, and a detailed description thereof will be omitted.

In addition, the density of the chromium particles contained in the filtered water according to the present invention represents the density of the chromium particles to a degree suitable for each type of the object to be coated, the plating method, or the use of the filtered water to be recycled. That is, the term 'low density' or 'high density' in the description of the present invention indicates the relative density of the chromium particles contained in the filtered water contained in each of the sedimentation sections, but does not specifically limit the density of the chromium particles.

The following is an embodiment showing a preferable operation method using the cleaning water washing system in which the hard chromium-plated object to be polished according to the present invention is cleaned.

First, the valve installed at the inlet of the first settling portion of the primary filtration tank is opened to supply the washing water (containing solid chrome particles) washed with the object to be plated after chrome plating from the transfer tank Receive.

The washing water supplied to the primary filtration tank is discharged in the order of the fourth settling portion (capacity 0.5 ton), the third settling portion (capacity 1 ton), the second settling portion (capacity 2 tons) and the first settling portion (capacity 6.5 tons) When all the internal space (10 tons in total) is filled, the valve of the inlet is closed to cut off the supply of the washing water from the loading tank.

The washing water accommodated in the inner space of the entire settling portion is allowed to stand for about 1 hour and the chrome particles contained in the washing water accommodated in each settling portion are filtered through the vibration filtering plate of each settling portion (first to third settling portions) Through the holes to be collected in the permanent magnets of the permanent magnet collector installed at the lower part of the inner space of the fourth settling portion. (Here, some of the chrome particles are stacked on the upper surface of the vibrating filter plate of each settling portion. Have.

Thereafter, the operator forms a magnetic field by operating the first magnetic force generator of the first settling portion, and operates the vibration generator connected to the first vibration filtering plate for about 10 minutes, so that all of the chrome particles stacked on the upper surface of the first vibration filtering plate The vibration generator is stopped first and the operation of the first magnetic force generator is stopped. After the rotation axis of the first magnetic force generator is rotated at a speed of about 10 rpm Allow the motor to run for about 5 minutes to pivot, and leave the settling tank for about 10 minutes after the motor stops.

Thereafter, the valve installed at the outlet of the first settling portion is opened to discharge the filtered water filtered by the chrome particles in the first settling portion to the take-out storage tank. At this time, the discharge induction pipe is fastened to the end of the discharge port located on the inner space side of the first settling portion, and one end of the discharge induction pipe is connected to the discharge induction pipe by buoyancy means Adjacent to the water surface of the first settling portion, it sits on the filtered water and sucks the filtered water from the top of the water surface.

When the filtered water contained in the internal space of the first settling portion is exhausted (discharged to have a water surface higher than the first vibrating filter plate by about 2 cm), the outlet valve of the first settled portion is closed and the second magnetic force generator of the second settled portion is operated, And the vibration generator connected to the second vibration filtering plate is operated for about 10 minutes so that the chrome particles stacked on the upper surface of the second vibration filtering plate can pass through the second vibration filtering plate by gravity and magnetic force, The operation of the vibration generator is stopped first, the operation of the second magnetic force generator is stopped, the motor is operated for about 5 minutes so that the rotation axis of the second magnetic force generator is rotated at a speed of about 10 rpm, .

Thereafter, the valve mounted on the outlet of the second settling tank is opened to discharge the filtered water filtered by the chrome particles in the second settling tank to the loading tank. At this time, the discharge port of the second settling tank is configured such that the lower portion of the upper surface of the second vibration filtering plate is positioned at an upper side of about 2 cm, thereby blocking the external discharge of chrome particles that may possibly remain on the upper surface of the second vibration filtering plate.

When all of the filtered water contained in the second settling portion is discharged, the discharge valve of the second settling portion is closed, the third magnetic force generator of the third settling portion is operated to form a magnetic field, and the vibration generator connected to the third vibration filtering plate After the chrome particles stacked on the upper surface of the third vibration filtering plate are allowed to pass through the third vibration filtering plate by gravity and magnetic force, the operation of the vibration generator is stopped first and the operation of the third magnetic force generator is stopped The motor is allowed to run for about 5 minutes so that the rotation axis of the third magnetic force generator is rotated at a speed of about 10 rpm and the settling tank is allowed to stand for about 10 minutes after the motor is stopped.

Thereafter, the valve installed at the outlet of the third settling tank is opened to discharge the filtered water filtered by the chrome particles in the third settling tank to the inlet of the secondary filtration tank. At this time, the discharge port of the third settling tank is configured such that the lower portion is located at an upper side of about 2 cm from the upper surface of the third vibration filtering plate, thereby blocking the external discharge of chrome particles that may possibly remain on the upper surface of the third vibration filtering plate.

When all of the filtered water contained in the third settling portion is discharged, the outlet valve of the third settling portion is closed, and the valve attached to the outlet of the fourth settling portion is opened to filter the filtered water containing a large amount of the chrome particles contained in the fourth settling tank, To the inlet of the device.

At this time, the hollow fiber membrane filtering apparatus can keep the filtration water accommodated in the inner space of the fourth settling unit until the discharge is completed.

Thereafter, when the filtered water containing a large amount of the chromium particles contained in the inner space of the fourth settling portion is discharged, the outlet of the fourth settled portion is closed and the housing of the permanent magnet trapping portion located below the outlet is separated from the lower portion of the fourth settled portion, Removes the solid chrome particles captured by the magnet.

In addition, the secondary filtration tank supplied with the filtered water discharged from the third settling tank is maintained in a standby state until the filtered water is filled in the internal space (capacity: 5 tons) by repeating the washing water treatment system of the primary filtration tank a plurality of times, When the filtered water is filled in the inner space with a capacity of 90% or more, the filtered water contained in the inner space is allowed to stand for about 30 minutes, so that the chrome particles contained in the filtered water are passed through the fourth vibration filter plate (The inner space corresponding to the lower part of the fourth vibration filtering plate has a capacity of 4.5 ton, and the capacity of the inner space corresponding to the lower part of the fourth vibration filtering plate has a capacity of 0.5 ton) Some chrome particles are stacked on top of the fourth vibrating filter plate.)

Thereafter, the operator operates the fourth magnetic force generator of the secondary filtration tank to form a magnetic field, and operates the vibration generator connected to the fourth vibration filter plate for about 10 minutes to remove all of the chromium particles stacked on the upper surface of the fourth vibration filter plate The vibration generator is stopped first and the operation of the fourth magnetic force generator is stopped. After the rotation axis of the fourth magnetic force generator is rotated at a speed of about 10 rpm The motor is run for about 5 minutes, and the settling tank is allowed to stand for about 10 minutes after the motor is stopped.

Thereafter, the valve attached to the outlet of the secondary filtration tank is opened to discharge the filtered water filtered through the secondary filtration tank to the inlet of the storage tank. At this time, the discharge induction pipe is fastened to the end of the discharge port located on the inner space side of the secondary filtration tank, and the buoyancy means (buoy) fastened to the end of the discharge induction pipe opposite to the discharge port, Sits in the filtrate water adjacent to the inner space surface of the secondary filtration tank and sucks the filtrate from the top of the water surface.

When all the filtered water contained in the secondary filtration tank is discharged, the outlet valve of the secondary filtration tank is closed and the lower discharge port provided in the lower space is opened to filter the filtered water containing a large amount of chrome particles contained in the internal space, To the inlet of the device.

At this time, the hollow fiber membrane filtering apparatus can maintain the operation state until the filtered water accommodated in the inner space of the secondary filtration tank is discharged.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And various changes can be made without departing from the scope of the invention.

10: Importing group
20: Primary filtration tank
21: first settling portion 21-1: inlet
21-2: inner space 21-3: outlet
21-4: First vibration filtering plate 21-5: Filtration hole
21-6: first magnetic force generator 21-7: guide tube
21-8: buoyancy means 21-9: discharge induction pipe
22: second settling portion 22-2: inner space
22-3: outlet 22-4: second vibration filtering plate
22-6: Second magnetic force generator
23: Third settling portion 23-2: Inner space
23-3: outlet 23-4: third vibration filtering plate
23-6: Third magnetic force generator
24: fourth settling portion 24-2: inner space
24-3: Outlet 24-4: Permanent magnet collector
24-5: housing 24-6: permanent magnet
24-7: Packing member
25: linear support frame 26: circular support frame
27: electromagnet member 28: impeller
29: Pivot shaft 29-1:
29-2: Shaft cover
30: secondary filtration tank 31: inlet
32: lower outlet 33: outlet
40: Hollow Fiber Membrane Filtering Device
50: Take-out storage tank

Claims (3)

CLAIMS 1. A system for treating wash water from a hard chromium-plated workpiece,
The washing water containing the chromatic particles having the paramagnetic property is received into the inner space from the loading vessel 10 for temporarily storing the washing water, and then the chrome particles are precipitated by the magnetic force generated by the gravity and the magnetic force generator, A first primary filtration tank 20 for separating the filtered water and discharging the respective filtered water to the take-out storage tank 50, the secondary filtration tank 30 or the hollow fiber membrane filtering apparatus 40;
A take-out storage tank (50) for receiving the filtered water from which the chrome particles discharged from the first order filtration tank (20) are completely removed;
The filtered water containing low-density chromium particles discharged from the first secondary filtration tank 20 is taken in, and the chrome particles are re-precipitated by the magnetic force generated by the gravity and the magnetic force generator to filter the chromium particles. A second secondary filtration tank 30 for discharging the filtered water containing the precipitated chrome particles to the hollow fiber membrane filtering device 40;
The filtered water having high density of the chrome particles discharged from the first primary filtration tank 20 is taken in and re-filtered into the hollow fiber membrane filter so that the filtered water having been completely removed from the chrome particles is discharged to the unloading storage tank 50 through the discharge port And a hollow fiber membrane filtering device (40) for taking out the chrome particles filtered in the hollow fiber membrane,
The first primary filtration tank (20)
An inlet 21-1 provided in the upper part and supplied with the washing water containing the chromium particles from the loading and unloading tank 10 and a washing water containing chromium particles supplied to the inlet 21-1 are received and allowed to stand A discharge port 21-3 for discharging the filtered water which is provided in a predetermined portion of the lower portion and completely removed the chrome particles and a discharge port 21-2 provided in the lower portion of the inner space 21-2, , A first vibration filtering plate (21-4) having a plurality of filtration holes (21-5) through which the precipitated chrome particles can pass and which can be vibrated by the vibration generator, and a second vibration filtering plate -4), and a first magnetic force generator (21-6) which applies a force to allow the chrome particles to pass through the filtration hole (21-5) 21);
The lower part of the first settling part 21 and the upper part in the open state are fastened together with the first magnetic force generator 21-6 of the first settling part 21, An inner space 22-2 for allowing the washing water containing one chromium particle to be received and allowed to stand, and a lower part of the inner space 22-2 provided below the inner space 22-2, A second vibration filtering plate 22-4 having a plurality of filtration holes 21-5 capable of being vibrated by the vibration generator and a second vibration filtering plate 22-4 capable of vibrating at a predetermined portion corresponding to the upper portion of the second vibration filtering plate 22-4 A discharge port 22-3 for discharging the filtered water containing low-density chromium particles to the loading vessel 10 and a chromium particle disposed at a lower portion of the second vibration filtering plate 22-4, And a second magnetic force generator (22-6) for applying attraction force to penetrate the filtration hole (21-5);
The lower part of the second settling part 22 and the upper part in the open state are fastened together with the second magnetic force generator 22-6 of the second settling part 22, An inner space 23-2 for allowing the washing water containing one chromium particle to be received and allowed to stand and a lower portion of the inner space 23-2 provided below the inner space 23-2 to be closed, A third vibration filtering plate 23-4 having a plurality of filtration holes 21-5 capable of being vibratable by the vibration generator and a second vibration filtering plate 23-4 capable of vibrating by a predetermined portion corresponding to the upper portion of the third vibration filtering plate 23-4 A discharge port 23-3 for discharging the filtered water containing low-density chromium particles to the inlet 21-1 of the secondary filtration tank 30 and a discharge port 23-3 for discharging the filtered water to the lower portion of the third vibration filtering plate 23-4 And a third magnetic force generator (23-6) positioned at a portion where the chrome particles are allowed to pass through the filtration hole (21-5) ;
The lower part of the third settling part 23 and the upper part of the third settling part 23 are engaged with each other and the third vibration filtering plate 23-4 is passed through the third magnetizing force generating part 23-6 of the third settling part 23 An inner space 24-2 for allowing the washing water containing one chromium particle to be received and allowed to stand and a lower portion of the inner space 24-2 provided below the inner space 24-2, A permanent magnet collector 24-4 for collecting the chromium particles at a predetermined position corresponding to the upper portion of the permanent magnet collector 24-4 and filtering the filtered water containing chromium particles at a high density into an inlet of the hollow fiber membrane filtering device 40 And a fourth settling part (24) including a discharge port (24-3) for discharging the plating liquid to the plating tank (21-1). system.
The method according to claim 1,
The first magnetic force generator 21-6, the second magnetic force generator 22-6, and the third magnetic force generator 23-6,
A plurality of mutually intersecting linear support frames (25);
A plurality of circular support frames (26) radially fastened to the linear support frame (25) at the intersections of the linear support frames (25) as center points;
And a plurality of electromagnet members (27) fastened to respective ones of the linear support frames (25) corresponding to each other between the adjacent circular support frames (26). A system for the treatment of wash water which has been washed with a plating solution.
3. The method of claim 2,
A certain portion corresponding to the intersection of the straight support frames 25,
The first vibration filtering plate 21-4 of the first settling portion 21, the second vibration filtering plate 22-4 of the second settling portion 22 and the third vibration filtering plate 23 of the third settling portion 23 4), and is configured to be capable of being pivotally connected to a rotary shaft 29 which is rotated by a rotary unit 29-1 provided at a certain upper portion of the primary filtration tank 20 Characterized in that the treatment system of the washing water which has washed the hard chromium-plated object.

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