KR101858955B1 - Apparatus for recovering gold component from the plating solution - Google Patents

Abstract

Disclosed is a recovery apparatus including a recovery treatment unit provided with an internal space for a recovery material-based recovery treatment of a gold component of a treatment solution, a first treatment portion formed on the upper portion side of the internal space of the recovery treatment unit for primary recovery treatment of the gold component of the treatment solution, a second treatment portion formed on the lower portion side of the internal space of the recovery treatment unit for a secondary recovery treatment of the gold component of the treatment solution, a blocking portion providing blocking between the first treatment portion and the second treatment portion while forming a passage such that the treatment solution on the first treatment portion side can be supplied to the second treatment portion side in a freefall state, a stirring shaft provided with a spiral stirring blade formed to be capable of mutually stirring the treatment solution and the recovery material inside the first treatment portion and the second treatment portion in a state where a backflow on the blocking portion passage side can be suppressed and disposed to be capable of rotational drive about an axis inside the recovery treatment unit, and a stirring guide portion formed to be capable of guiding a stirring operation of the stirring blade in a state where a stirring force can be increased in conjunction with the rotational operation of the stirring shaft.

Description

[0001] APPARATUS FOR RECOVERING GOLD COMPONENTS [0002]

The present invention relates to a recovery device for recovering a gold component from a solution used for a gold plating operation or the like.

Generally, since the gold component remains in the solution (plating solution, washing water, etc.) used for the plating treatment of the gold (Ag) component, most of these solutions are subjected to a treatment for recovering the gold component, and then the wastewater is treated.

Therefore, when recovering the gold component from the solution, it is preferable from the resource saving and the economic point of view to carry out the recovery treatment work by using an apparatus capable of improving the collection treatment efficiency as much as possible.

As a device used for such gold component recovery processing, there is a " gold recovery device of patent registration No. 10-0789786 ".

However, the gold recovery device of the above-mentioned Patent Registration No. 10-0789786 is structurally limited to increase the recovery rate when the gold component is recovered from the gold-containing solution inside the recovery portion (recovery tank).

In other words, not only is the circulation pipe arranged on the inner side of the recovery tank, and a plurality of the anti-rebambers are simply protruded on the outer surface of the circulation pipe, but also the circulation pipe and the anti- Non-floating structure that is integrally fixed to the base plate.

Therefore, satisfactory recovery efficiency can not be expected because the internal structure of the recovery tank can not actively induce the active contact (agitation) of the solution and the ion resin inside the tank.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art,

It is an object of the present invention to provide a recovery device capable of further increasing the recovery efficiency of a gold component from various solutions containing a gold component.

In order to realize the object of the present invention as described above,

A recovery processing unit having an internal space for recovering the gold component of the treatment solution by the recovery material;

A first processing unit formed on the upper side of the inner space of the recovery processing unit for primarily recovering the gold component of the treatment solution;

A second processing unit formed on the lower side of the inner space of the recovery processing unit for recovering the gold component of the treatment solution by a second order;

A blocking portion that blocks the first processing portion and the second processing portion in a state of forming a passage that can be supplied to the second processing portion in a state in which the treatment solution on the first processing portion side falls naturally;

The treatment solution and the recovery material are agitated with each other in the first treatment portion and the second treatment portion inside the recovery treatment portion so as to be rotatably driven around the axis and to suppress the reverse flow phenomenon on the shutoff portion passage side An agitating shaft having a spiral agitating blade formed so as to allow the agitating blade to rotate;

An agitation inducing unit configured to induce an agitating operation of the agitating blade in a state in which the agitating force can be increased in conjunction with the agitating operation of the agitating shaft;

And a recovery device.

In the present invention as described above, various treatment solutions (for example, plating solutions) containing gold components are sequentially passed through the first treatment portion and the second treatment portion inside the recovery treatment portion, and gold components are recovered from the treatment solution Therefore, it is possible to secure a further improved collection efficiency in the gold component recovery operation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing an overall structure of a recovery apparatus according to an embodiment of the present invention; FIG.
FIG. 2 to FIG. 12 are views for explaining the detailed structure and operation of the collecting apparatus according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The embodiments of the present invention will be described by those skilled in the art to which the present invention is applicable.

Therefore, the embodiments of the present invention can be modified into various other forms, so that the claims of the present invention are not limited to the embodiments described below.

FIG. 1 is a view schematically showing the overall structure of a collecting apparatus according to an embodiment of the present invention. FIGS. 2 to 12 are views for explaining the detailed structure and operation, And includes a processing section 2, a first processing section 4, a second processing section 6, a blocking section 8, a stirring shaft 10, and an agitation inducing section 12.

The recovery processing section 2 is formed so as to provide a space for recovering the gold (Ag) component from the processing solution W using the recovering material R.

The recovery processing unit 2 may have a cylindrical inner space A extending upwardly and downwardly as shown in Fig. 1, for example.

The recovery processing unit 2 may be installed in a separate state inside the case M as shown in FIG. 1. The case M may be a wheel (for example, a roller caster) or a handle Can be installed.

The material of the recovery processing unit 2 is preferably made of a transparent or semitransparent material so that the state of the internal space A can be visually confirmed from the outside.

The first processing section 4 and the second processing section 6 are formed in such a state that the internal space A of the recovery processing section 2 is divided into two and the recovery processing of the processing solution W is performed inside the recovery processing section 2 And provides a structure that can be progressed twice (primary and secondary) sequentially.

1, the first processing unit 4 is formed in a state of forming the first processing space B on the upper side of the inner space A of the recovery processing unit 2, And the second processing space C corresponding to the first processing space B on the lower side of the space A can be formed.

The blocking portion 8 is formed so as to be able to block the gap between the first processing portion 4 and the second processing portion 6 in a state in which the dropping of the processing solution W can be supplied from the recovery processing portion 2 side.

1, the blocking portion 8 is provided on the side of the passage E1 of the blocking plate D, and the recovery material R is filtered And a passage hole (E) formed therein.

That is, the blocking plate D is set in a state of blocking the first processing unit 4 and the second processing unit 6 so that they can communicate with each other only by the passage E1 as shown in FIG.

The passage hole E can use a strainer having a filtration function capable of passing only the treatment solution W in a state where the recovered material R is filtered and the passage E1 And is set on the side of the blocking plate D in a state corresponding to each of them.

3, the blocking portion 8 is formed in a state in which the processing solution W recovered by the recovery material R from the first processing portion 2 is dropped through the passage holes E, It is possible to provide a blocking structure which can be supplied and introduced into the processing unit 6 side.

Therefore, in the recovery processing section 2, the treatment solution W is recovered by the first treatment section 4 and the second treatment section 6 on the side of the single inner space A in two recovery process steps (first and second) It is possible to provide a space that can be reclaimed by the user.

The treatment solution W may be supplied with a waste plating solution used for gold plating or washing water, and an ion exchange resin may be used as the recovering material R.

The treatment solution W and the recovered material R are supplied and supplied through the tubes T connected and formed so as to correspond to the first treatment section 4 and the second treatment section 6 side as shown in Fig. Emissions can be made.

The recovery processing unit 2 may further include a filter F. [

The filter F is set so as to filter various foreign substances contained in the treatment solution W flowing from the outside at the inside of the first treatment section 4. [

The filter F may be formed in a cylindrical net shape smaller than the periphery of the first processing space B of the first processing unit 4 as shown in FIG. And the processing solution W flowing into the processing chamber 10 is filtered.

In particular, since the filter F is provided in an internal structure disposed inside the first processing unit 4, the structure can be simplified and the occupied space can be greatly reduced as compared with general external filter structures.

The recovery processing unit 2 may further include an exhaust port F1.

The exhaust port F1 is formed in such a manner that a gas generated upon contact (stirring) of the treatment solution W and the recovery material R on the side of the first treatment section 4 and the second treatment section 6 formed on the side of the recovery treatment section 2, .

The exhaust port F1 may be installed, for example, in a state of passing through the outer peripheral surface at the upper side of the first processing section 4 and the second processing section 6, respectively, as shown in Fig.

Although the exhaust port F1 is not shown in the drawing, for example, the exhaust port can be opened and closed by the atmospheric pressure. That is, the exhaust port F1 can be set so that the exhaust is performed while the internal pressure of the first and second processing sections 4 and 6 is elastically released when the internal pressure of the first and second processing sections 4 and 6 rises above the allowable range by the gas.

Therefore, by providing such an exhaust port F1, it is possible to suppress the phenomenon that the internal pressure is excessively raised by the gas generation on the side of the first processing section 4 or the second processing section 6, thereby preventing the malfunctioning as much as possible .

The stirring shaft 10 provides a stirring structure in which the processing solution W and the recovering material R can smoothly contact with each other inside the first processing part 4 and the second processing part 6. [

The stirring shaft 10 can be set to be rotatably set about the axis at the peripheral portion side of the first processing portion 4 and the second processing portion 6 on the side of the recovery processing portion 2 as shown in Fig. .

The agitating shaft 10 is provided with an agitating blade G1 on the outer peripheral side so that the agitating blade G1 is projected from the one end of the shaft toward the other end in an extended state forming a spiral shape, .

1, the stirring shaft 10 is connected to the upper end of the shaft in the form of a belt G2 and a pulley G3, receives rotation force from a separate driving source (not shown), rotates about an axis Can be set to be driven.

On the other hand, the stirring inducing portion 12 is formed so as to induce the agitating operation of the stirring blade G1 in a state in which it is operated in conjunction with the stirring shaft 10 and in compliance with the agitating force.

The stirring guide portion 12 includes a blade guide hole H for allowing the stirring blade G1 to be slidably disposed in the axial length direction of the stirring shaft 10 as shown in FIG. And a guide contact hole (I) for guiding the stirring operation of the blade guide hole (H) by a contact force.

The stirring inducing portion 12 may be formed inside the first processing portion 4 and the second processing portion 6 in a state corresponding to the stirring blade G1 of the stirring shaft 10, Is set to a state corresponding to the stirring blade (G1) on the side of the stirring blade (6).

That is, the blade guide hole H has a pipe shape having a guide hole H1 for movably fitting along the axial length direction of the stirring shaft 10, and an agitating blade G1 is disposed on the outer peripheral side of the pipe As shown in FIG.

Particularly, the guide hole H1 is rotated in the same direction along the axis when the stirring shaft 10 rotates, and in the fitting state (for example, spline or serration) in which the guide hole H1 can freely move in the axial direction 10) side.

The guide contact I comprises a first contact I1 and a second contact I2 as shown in FIG.

The first contact I1 may be formed in a disc shape having one or more contact protrusions J1 formed on one surface thereof and the lower portion (end) side of the stirring shaft 10 may be rotatably disposed inside the second processing portion 6 And fixed on the bottom surface of the second processing space C in a fitted state.

The second contact I2 may be in the form of a disk having one or more contact grooves J2 corresponding to the contact protrusions J1 formed on one surface thereof. And may be provided on the lower (end) side of the sphere H.

The contact protrusions J1 are in the form of a ball and one or two or more of the contact protrusions J1 may be spaced apart from the peripheral edge of the first contact hole I1.

The contact projection JI can be formed so as to be adjustable in position (height) in a protruding or non-protruding state. 6, the contact protrusion J1 is fitted to the support hole K1 side of the first contact hole I1 and the support hole K1 is formed in a state of supporting the lower side of the contact protrusion J1, (K2) can be set by screwing on the side (K1).

Since the support position of the contact projection J1 can be changed in the upward and downward directions from the inside of the support hole K1 by the forward and reverse directions of the adjustment screw K2, It is possible to easily operate the contact protrusion J1 in a protruding state or a non-protruding state on the contact surface (upper surface). Such an operation structure can easily adjust and set the contact state between the contact protrusion J1 and the contact groove J2 so that stirring operation of the stirring blade G1 can be induced in a state in which it matches with the working condition.

6, the contact groove J2 has a hemispherical groove shape in which the protruding portion of the contact protrusion J1 can be fitted, and the contact groove J2 is formed on the side of the one side (lower surface) of the second contact hole I2, One or two or more of them may be spaced apart and formed.

That is, the first contact I1 and the second contact I2 are temporarily fitted to the contact protrusion J1 side while the contact groove J2 moves about the axis when the stirring shaft 10 rotates, And the operation of separating again is formed in such a state that it can be repeatedly performed.

Therefore, the stirring inducing portion 12 is configured such that the state in which the contact protrusion J1 and the contact groove J2 are temporarily fitted to each other and separated again as shown in Figs. 7 to 8 upon one-directional rotation of the stirring shaft 10 is repeatedly So that the blade guide hole H is moved along the axis of the stirring shaft 10 so that the agitating operation of the stirring blade G1 is repeatedly moved in the upward and downward directions.

Particularly, according to the operation of the stirring inducing portion 12, when the stirring blade G1 rotates and stirs around the axis by the rotation of the stirring shaft 10 as shown in FIG. 9, It is possible to induce the agitation to be performed even when the agitation is performed.

In the above description, the stirring inducing portion 12 is formed on the second processing portion 6 side. Alternatively, the stirring portion may be formed on the first processing portion 4 side to induce the stirring operation.

The recovery device according to an embodiment of the present invention may further include an elastic stirring member 14 as shown in FIGS. 10 to 11.

The elastic stirring member 14 is formed in such a manner that the stirring force of the treatment solution W and the recovering material R can be further increased while being operated in conjunction with the operation of the stirring shaft 10. [

Particularly, the elastic stirring member 14 is formed so as to be elastically bent in the direction in which the external force acts, and to be agitated in a manner such that when the external force is removed, the elastic stirring member 14 is elastically restored to its original shape.

10, the one end of the spring is fixed to the inner wall surface side of the peripheral portion of the second processing portion 6, and the other end of the spring is horizontally So that at least one or more of the stirring blades G1 and G2 may be spaced apart from each other so that contact interference may occur with one side of the stirring blade G1 of the stirring shaft 10. [

11, when the stirring shaft 10 is rotated in one direction, the end (free end) side of the stirrer is temporarily contacted to the blade blade side of the spiral stirring blade G1 So that the stirring operation can be repeatedly performed in a state in which the blade is elastically bent in the advancing direction of the blade and then resiliently restored to its original shape when the contact force with the blade side is removed.

Therefore, the elastic stirring member 14 can further increase the stirring force by a simple stirring structure and stirring operation operated in conjunction with the operation of the stirring shaft 10, without using any driving source.

12, the treatment solution W containing the gold component is separated from the recovery material R on the side of the first treatment section 4 and the second treatment section 6 in the recovery treatment section 2, It is possible to provide a structure capable of easily recovering the gold component from the treatment solution W in the primary and secondary directions while being treated in the contact state.

2: recovery processing unit 4: first processing unit 6: second processing unit
8: breaking portion 10: stirring shaft 12: stirring inducing portion
14: elastic agitator W: treating solution R: recovering material

Claims (10)

A recovery processing unit having an internal space for recovering the gold component of the treatment solution by the recovery material;
A first processing unit formed on the upper side of the inner space of the recovery processing unit for primarily recovering the gold component of the treatment solution;
A second processing unit formed on the lower side of the inner space of the recovery processing unit for recovering the gold component of the treatment solution by a second order;
A blocking portion that blocks the first processing portion and the second processing portion in a state of forming a passage that can be supplied to the second processing portion in a state in which the treatment solution on the first processing portion side falls naturally;
The treatment solution and the recovery material are agitated with each other in the first treatment portion and the second treatment portion inside the recovery treatment portion so as to be rotatably driven around the axis and to suppress the reverse flow phenomenon on the shutoff portion passage side An agitating shaft having a spiral agitating blade formed so as to allow the agitating blade to rotate;
An agitation inducing unit configured to induce an agitating operation of the agitating blade in a state in which the agitating force can be increased in conjunction with the agitating operation of the agitating shaft;
. The method according to claim 1,
The recovery processing unit,
Wherein the inner space is disposed in a raised state with a cylindrical transparent or semitransparent peripheral portion. The method according to claim 1,
Wherein the first processing unit and the second processing unit,
And the upper and lower sides of the recovery processing unit are divided into two. The method according to claim 1,
The cut-
Wherein a passage for passing the treatment solution through the passage is formed through the passage plate, a passage for allowing only the solution to pass therethrough is provided on the passage plate, and a passage between the first treatment unit and the second treatment unit is provided And is provided on the side of the inner space of the collection processing unit in a state of blocking the communication with each other by the passage. The method of claim 4,
In the passage,
A collection device in which a strainer is used. The method according to claim 1,
The stirring shaft
And a second processing unit disposed on the side of the inner space of the recovery processing unit in a direction passing through a peripheral portion of the first processing unit and the second processing unit, the stirring blade extending in a spiral shape along the longitudinal direction of the shaft, To be disposed in the recovery chamber. The method according to claim 1,
The stirring inducing portion
A blade guide hole for allowing the stirring blade to be slidably disposed in the axial direction of the stirring shaft and a guide contact hole for moving the blade guide hole in a longitudinal direction of the stirring shaft by generating a contact force during a rotating operation of the stirring shaft . The method of claim 7,
The blade guide means includes:
And the guide hole is set in a state of spline-fitting or serration-fitting engagement with the outer surface side of the stirring shaft. The method of claim 7,
The guide-
And a second contact hole having a first contact hole formed with a contact protrusion and a contact groove formed corresponding to the contact projection and arranged to face the first contact hole side,
Wherein the first contact hole and the second contact hole are formed in the upper and lower directions along the axial length direction of the stirring shaft by repetitive operations in which the contact projection and the contact groove are fitted or separated from each other during the rotation operation of the stirring shaft, Wherein the guide means is set so as to move the guide means in such a manner that the stirring guide operation can be performed. The method according to claim 1,
The recovery device may further include an elastic stirring member,
The elastic stirring member has elastic restoring force and has one end fixed to the inner wall surface side of the first processing member or the second treatment member and the other end can be in contact with the blade blade member side of the stirring blade of the stirring shaft Is set to the " on " state.

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