CN211612621U - A material loading and waste liquid treatment integrated device for electrolytic copper processing - Google Patents

Abstract

The utility model discloses a material loading and waste liquid treatment integrated device for electrolytic copper processing, include the shell, rise and hang structure, acid bin, feed structure and basicity bin, the acid bin is installed on the inside top of shell, and the inside basicity bin that is fixed with of shell of acid bin one side, the feed structure is all installed on the top of acid bin and basicity bin, the separation chamber is installed to the inside bottom of shell, separates the inside top of chamber and installs the transition pipe, and the one end of transition pipe extends to the inside of reaction chamber, the inside central point of separation chamber puts the department and articulates there is the centrifugal separation pole, the clear liquid export is installed to the inside one end in separation chamber, the inside bottom mounting of shell has the second motor, and the second pivot is installed through the shaft coupling to the output of second motor. The utility model discloses not only improve the processing speed when equipment uses, caused secondary pollution when avoiding equipment to use, improved the resource utilization who uses of equipment moreover.

Description

A material loading and waste liquid treatment integrated device for electrolytic copper processing

Technical Field

The utility model relates to an electrolytic copper technical field specifically is a material loading and waste liquid treatment integrated device for electrolytic copper processing.

Background

The waste liquid regeneration is actually a process that the waste liquid discharged from a printed circuit board etching line adopts a closed circulation system, copper ions in the waste liquid are extracted out by waste liquid regeneration and circulation equipment and then return to the production line, wherein the application of a feeding and waste liquid treatment integrated device for electrolytic copper processing is important.

The devices on the market are various, and the basic requirements of people can be basically solved, but a plurality of problems are troubled by people, and the specific problems comprise the following points:

(1) when the traditional equipment is used, the treated solution can be directly discharged, so that the utilization rate of the equipment is seriously influenced;

(2) when the traditional equipment is used, secondary pollution is easily caused when the treatment is not thorough, so that the practicability of the equipment is greatly influenced;

(3) when the traditional equipment is used, the flow of the solution in the equipment is large, and the reaction speed is high when the equipment is used, so that great difficulty is brought to the use of people.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a material loading and waste liquid treatment integrated device for electrolytic copper processing to propose among the above-mentioned background art that equipment utilization is low, the practicality is poor and reaction rate is little problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a material loading and waste liquid treatment integrated device for electrolytic copper processing, includes the shell, rises and hangs structure, acid bin, feed structure and alkaline bin, the acid bin is installed on the inside top of shell, and the inside alkaline bin that is fixed with of shell of acid bin one side, the feed structure is all installed with the top of alkaline bin to acid bin, and the one end of feed structure extends to the outside of shell, the internally mounted of shell has the reaction chamber, and the one end of reaction chamber is fixed with to rise and hangs the structure, the central point on reaction chamber top puts the department and installs first motor, and the output of first motor leads to the shaft coupling and installs first pivot, the central point of reaction chamber inside puts the department and articulates there is the bull stick, and the one end fixed connection of first motor is kept away from to the one end of bull stick and first pivot, the leading-in pipe is all installed with the inside bottom of alkaline bin to acid bin, and the one end of induction pipe extends to the inside of reaction chamber, the separation chamber is installed to the inside bottom of shell, and the transition pipe is installed on the inside top of separation chamber, and the one end of transition pipe extends to the inside of reaction chamber, the central point department of putting of the inside of separation chamber articulates there is the centrifugal separation pole, the clear liquid export is installed to the one end of the inside of separation chamber, and the one end of clear liquid export extends to the outside of shell, the inside bottom mounting of shell has the second motor, and the output of second motor passes through the shaft coupling and installs the second pivot, and the one end of second motor and the one end fixed connection of centrifugal separation pole are kept away from in the second pivot, control panel is installed to one side on shell surface, and the output of the inside singlechip of control panel respectively with the input electric connection of first motor and second motor.

Preferably, the corner positions of the bottom end of the shell are welded with supporting foot seats.

Preferably, the internally mounted of reaction chamber has the asbestos gauge heated board, and the inside central point of asbestos gauge heated board puts the department and is fixed with temperature sensor simultaneously, and temperature sensor's output and the input electric connection of the inside singlechip of control panel to the asbestos gauge heated board of temperature sensor one side is inside to be fixed with equidistant heating piece, and the input of heating piece and the output electric connection of the inside singlechip of control panel.

Preferably, the inside of rising hanging structure has set gradually support frame, tube-shape bracing piece, adjustable shelf and linking hook, the top welding of support frame has the tube-shape bracing piece, and the both sides of tube-shape bracing piece all articulate there is the linking hook to the bottom mounting of linking hook has the adjustable shelf.

Preferably, a feeding hopper, a heat insulation plate, a flow guide cavity, an anti-blocking roller, a sorting plate and a receiving flat pipe are sequentially arranged inside the feeding structure, the heat insulation plate is arranged inside the feeding hopper, the receiving flat pipe is fixed at the bottom end of the feeding hopper, and one end of the receiving flat pipe extends to the inside of the shell.

Preferably, a diversion cavity is fixed inside the feeding hopper, the diversion cavity is hinged with anti-blocking rollers at equal intervals, and a sorting plate is installed inside the feeding hopper.

Preferably, one end of the rotating rod, which is far away from the first rotating shaft, is hinged with a stirring blade.

Preferably, the surfaces of the leading-in pipe and the transition pipe are provided with electromagnetic valves, and the input end of each electromagnetic valve is electrically connected with the output end of the single chip microcomputer in the control panel.

Preferably, a slurry outlet is fixed at one end of the inner part of the separation cavity, and one end of the slurry outlet extends to the outer part of the shell.

Compared with the prior art, the beneficial effects of the utility model are that: the feeding and waste liquid treatment integrated device for electrolytic copper processing not only improves the treatment speed of equipment in use, avoids secondary pollution caused by the equipment in use, but also improves the resource utilization rate of the equipment in use;

(1) by arranging the heat insulation plate, the diversion cavity, the anti-clogging roller, the sorting plate and the receiving flat pipe, raw materials are fed into the diversion cavity through the feeding hopper and enter the shell through the sorting plate under the diversion action of the anti-clogging roller, so that the anti-clogging function of the equipment is realized, and the processing speed of the equipment in use is improved;

(2) the first rotating shaft drives the stirring blade at the bottom end of the rotating rod to rotate in the reaction chamber through the arrangement of the rotating rod, the alkaline storage tank, the inlet pipe, the stirring blade, the separation chamber and the clear liquid outlet, and after the solution in the reaction chamber is reacted, the electromagnetic valve on the surface of the transition pipe is controlled to be opened through operating the control panel, so that the solution enters the separation chamber, the thorough treatment function of the equipment is realized, and the secondary pollution caused by the use of the equipment is avoided;

(3) through being provided with transition pipe, centrifugal separation pole, mud export, second pivot, asbestos gauge heated board and heating piece, the second motor can drive the inside rotation of centrifugal separation pole at the disengagement chamber through the second pivot, and then makes the inside clear water of disengagement chamber flow out from the clear liquid export, and the fixed recovery function from the mud export of following has realized equipment to the resource utilization who has improved equipment use has rateed.

Drawings

FIG. 1 is a schematic sectional view of the present invention;

FIG. 2 is a schematic view of the front cross-sectional structure of the separation chamber of the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of the side wall of the insulation board of the present invention;

fig. 4 is a schematic view of a front section structure of the feeding structure of the present invention;

FIG. 5 is a schematic side view of the hanging structure of the present invention;

fig. 6 is a schematic diagram of the system framework structure of the present invention.

In the figure: 1. a housing; 2. a reaction chamber; 3. a lifting and hanging structure; 301. a supporting seat; 302. a cylindrical support rod; 303. a movable frame; 304. a connecting hook; 4. an acid storage tank; 5. a feeding structure; 501. feeding a hopper; 502. a heat insulation plate; 503. a flow guide cavity; 504. an anti-jam roller; 505. a sorting plate; 506. carrying flat pipes; 6. a first motor; 7. a first rotating shaft; 8. a rotating rod; 9. an alkaline storage tank; 10. an introducing pipe; 11. An electromagnetic valve; 12. stirring blades; 13. a control panel; 14. a separation chamber; 15. a supporting foot seat; 16. a clear liquid outlet; 17. a transition duct; 18. a centrifugal separation rod; 19. a slurry outlet; 20. a second rotating shaft; 21. A second motor; 22. asbestos mesh insulation board; 23. a heating block; 24. a temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: a feeding and waste liquid treatment integrated device for electrolytic copper processing comprises a shell 1, a lifting and hanging structure 3, an acid storage tank 4, a feeding structure 5 and an alkaline storage tank 9, wherein the acid storage tank 4 is mounted at the top end inside the shell 1, supporting foot seats 15 are welded at the corner positions of the bottom end of the shell 1 and used for supporting, the alkaline storage tank 9 is fixed inside the shell 1 on one side of the acid storage tank 4, and the feeding structure 5 is mounted at the top ends of the acid storage tank 4 and the alkaline storage tank 9;

a feeding hopper 501, a heat insulation plate 502, a diversion cavity 503, an anti-jamming roller 504, a sorting plate 505 and a receiving flat pipe 506 are sequentially arranged in the feeding structure 5, the heat insulation plate 502 is arranged in the feeding hopper 501, the receiving flat pipe 506 is fixed at the bottom end of the feeding hopper 501, one end of the receiving flat pipe 506 extends into the shell 1, the diversion cavity 503 is fixed in the feeding hopper 501, the anti-jamming rollers 504 with equal intervals are hinged in the diversion cavity 503, and the sorting plate 505 is arranged in the feeding hopper 501;

when the device is used, raw materials are conveyed to the interior of the diversion cavity 503 through the feeding hopper 501, enter the interior of the shell 1 through the diversion effect of the anti-clogging roller 504 and the sorting plate 505, so that the accelerated reaction function of the device is realized, and the processing speed of the device is improved when the device is used;

one end of the feeding structure 5 extends to the outside of the shell 1, a reaction cavity 2 is installed inside the shell 1, an asbestos mesh heat insulation plate 22 is installed inside the reaction cavity 2, a temperature sensor 24 is fixed at the center position inside the asbestos mesh heat insulation plate 22, the type of the temperature sensor 24 can be WRM-101, the output end of the temperature sensor 24 is electrically connected with the input end of a single chip microcomputer inside the control panel 13, heating blocks 23 with equal intervals are fixed inside the asbestos mesh heat insulation plate 22 on one side of the temperature sensor 24, the type of the heating blocks 23 can be DH-2DB-IV, the input end of the heating blocks 23 is electrically connected with the output end of the single chip microcomputer inside the control panel 13 and used for accelerating the reaction speed, and a lifting structure 3 is fixed at one end of the reaction cavity 2;

a support frame 301, a cylindrical support rod 302, a movable frame 303 and a connecting hook 304 are sequentially arranged in the lifting structure 3, the cylindrical support rod 302 is welded at the top end of the support frame 301, the connecting hooks 304 are hinged to two sides of the cylindrical support rod 302, and the movable frame 303 is fixed at the bottom end of the connecting hook 304;

when the lifting device is used, a heavy object to be lifted is connected with the connecting hook 304, so that the distance between the lifting device and the cylindrical support rod 302 is adjusted through the movable frame 303, and the overall height of the support frame 301 is further changed;

a first motor 6 is installed at the center position of the top end of the reaction cavity 2, the type of the first motor 6 can be Y112M-2, the output end of the first motor 6 is connected with a coupler to be provided with a first rotating shaft 7, a rotating rod 8 is hinged at the center position inside the reaction cavity 2, one end of the rotating rod 8 far away from the first rotating shaft 7 is hinged with a stirring blade 12 for stirring, one end of the rotating rod 8 is fixedly connected with one end of the first rotating shaft 7 far away from the first motor 6, the bottom ends inside the acid storage box 4 and the alkaline storage box 9 are both provided with an inlet pipe 10, the surfaces of the inlet pipe 10 and a transition pipe 17 are both provided with an electromagnetic valve 11, the type of the electromagnetic valve 11 can be 4V210-08, the input end of the electromagnetic valve 11 is electrically connected with the output end of a single chip microcomputer inside a control panel 13 for controlling outflow, one end of the inlet pipe 10 extends to the inside the reaction cavity 2, the bottom end inside, a slurry outlet 19 is fixed at one end inside the separation cavity 14, one end of the slurry outlet 19 extends to the outside of the shell 1 and is used for discharging solids, a transition pipe 17 is installed at the top end inside the separation cavity 14, one end of the transition pipe 17 extends to the inside of the reaction cavity 2, a centrifugal separation rod 18 is hinged at the central position inside the separation cavity 14, a clear liquid outlet 16 is installed at one end inside the separation cavity 14, one end of the clear liquid outlet 16 extends to the outside of the shell 1, a second motor 21 is fixed at the bottom end inside the shell 1, the model of the second motor 21 can be Y90S-2, a second rotating shaft 20 is installed at the output end of the second motor 21 through a coupler, one end, far away from the second motor 21, of the second rotating shaft 20 is fixedly connected with one end of the centrifugal separation rod 18, a control panel 13 is installed at one side of the surface of the shell 1, the model of the control panel 13 can be KTP, and the output end of the single chip microcomputer in the control panel 13 is electrically connected with the input ends of the first motor 6 and the second motor 21 respectively.

The working principle is as follows: when the device is used, raw materials are conveyed to the inside of the diversion cavity 503 through the feeding hopper 501, enter the inside of the shell 1 through the diversion effect of the anti-clogging roller 504 and enter the inside of the separation plate 505 through the separation plate, so that the accelerated reaction function of the device is realized, the processing speed of the device is improved, meanwhile, the control panel 13 is operated according to the pH value of the solution to control the corresponding electromagnetic valve 11 to work, meanwhile, the heating block 23 inside the asbestos mesh heat insulation plate 22 inside the reaction cavity 2 and the temperature sensor 24 are matched to work, so as to heat the solution inside the reaction cavity 2 and measure the temperature of the solution, at the moment, the control panel 13 is operated to control the first motor 6 to work, the first motor 6 drives the first rotating shaft 7 to drive the stirring blades 12 at the bottom end of the rotating rod 8 to rotate in the reaction cavity 2, and after the reaction of the solution inside the reaction cavity 2 is finished, the control panel 13 is operated to control the electromagnetic valve 11 on the surface of the transition pipe 17 to be opened, the clear water enters the separation cavity 14, the control panel 13 is operated to control the second motor 21 to work, the second motor 21 drives the centrifugal separation rod 18 to rotate in the separation cavity 14 through the second rotating shaft 20, and then the clear water in the separation cavity 14 flows out from the clear water outlet 16 and is fixed to flow out from the slurry outlet 19, so that the use work of the equipment is completed.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a material loading and waste liquid treatment integrated device for electrolytic copper processing, includes shell (1), rises and hangs structure (3), acid storage tank (4), material loading structure (5) and alkaline storage tank (9), its characterized in that: acid storage box (4) is installed on the top of the inside of shell (1), alkaline storage box (9) is fixed inside shell (1) on one side of acid storage box (4), feeding structure (5) is installed on the top of acid storage box (4) and alkaline storage box (9), one end of feeding structure (5) extends to the outside of shell (1), reaction chamber (2) is installed inside shell (1), one end of reaction chamber (2) is fixed with lifting structure (3), first motor (6) is installed at the central position of the top end of reaction chamber (2), first rotating shaft (7) is installed on the output end of first motor (6) through the coupler, rotating rod (8) is hinged at the central position of the inside of reaction chamber (2), and one end of rotating rod (8) and one end of first rotating shaft (7) are kept away from one end fixed connection of first motor (6), leading-in pipe (10) is all installed with the inside bottom of alkaline storage case (9) in acid storage case (4), and the one end of leading-in pipe (10) extends to the inside of reaction chamber (2), separation chamber (14) is installed to the inside bottom of shell (1), transition pipe (17) is installed on the inside top of separation chamber (14), and the one end of transition pipe (17) extends to the inside of reaction chamber (2), the inside central point department of putting of separation chamber (14) articulates there is centrifugal separation pole (18), clear liquid export (16) is installed to the inside one end of separation chamber (14), and the one end of clear liquid export (16) extends to the outside of shell (1), the inside bottom mounting of shell (1) has second motor (21), and second pivot (20) are installed through the shaft coupling to the output of second motor (21), and the one end that second motor (21) was kept away from to second pivot (20) is fixed connection with the one end of centrifugal separation pole (18), control panel (13) are installed to one side on shell (1) surface, and the output of the inside singlechip of control panel (13) respectively with the input electric connection of first motor (6) and second motor (21).

2. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 1, characterized in that: and supporting foot seats (15) are welded at the corner positions of the bottom end of the shell (1).

3. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 1, characterized in that: the internally mounted of reaction chamber (2) has asbestos gauge heated board (22), and the inside central point of asbestos gauge heated board (22) puts the department and is fixed with temperature sensor (24) simultaneously, and the output of temperature sensor (24) and the input electric connection of the inside singlechip of control panel (13), and asbestos gauge heated board (22) the inside heating piece (23) that are fixed with equidistant of temperature sensor (24) one side, and the input of heating piece (23) and the output electric connection of the inside singlechip of control panel (13).

4. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 1, characterized in that: the inside of structure (3) is hung in rising has set gradually support frame (301), tube-shape bracing piece (302), adjustable shelf (303) and coupling hook (304), the top welding of support frame (301) has tube-shape bracing piece (302), and the both sides of tube-shape bracing piece (302) all articulate coupling hook (304) to the bottom mounting of coupling hook (304) has adjustable shelf (303).

5. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 1, characterized in that: the inside of feed structure (5) has set gradually feeding funnel (501), heat insulating board (502), water conservancy diversion chamber (503), anti-jam roller (504), sorting plate (505) and accepts flat pipe (506), the internally mounted of feeding funnel (501) has heat insulating board (502), the bottom mounting of feeding funnel (501) has the bottom mounting of accepting flat pipe (506), and the one end of accepting flat pipe (506) extends to the inside of shell (1).

6. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 5, characterized in that: a diversion cavity (503) is fixed in the feeding hopper (501), anti-blocking rollers (504) with equal intervals are hinged in the diversion cavity (503), and a sorting plate (505) is mounted in the feeding hopper (501).

7. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 1, characterized in that: one end of the rotating rod (8) far away from the first rotating shaft (7) is hinged with a stirring blade (12).

8. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 1, characterized in that: the surface of the leading-in pipe (10) and the surface of the transition pipe (17) are both provided with electromagnetic valves (11), and the input ends of the electromagnetic valves (11) are electrically connected with the output end of a singlechip in the control panel (13).

9. The integrated device for feeding and waste liquid treatment for electrolytic copper processing according to claim 1, characterized in that: a slurry outlet (19) is fixed at one end of the inner part of the separation cavity (14), and one end of the slurry outlet (19) extends to the outer part of the shell (1).

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