CN110804745A - Electrolytic zinc-zinc mud rinsing device - Google Patents

Abstract

The invention relates to the technical field of electrolytic zinc-zinc mud treatment, in particular to an electrolytic zinc-zinc mud rinsing device which comprises a zinc slurry storage tank, a feeding shell, a mounting frame and a neutralization tank, wherein the zinc slurry storage tank is arranged at the upper left position of the mounting frame, an eccentric wheel is arranged at the right side position inside the feeding shell, the eccentric wheel is rotatably connected with the feeding shell through a rotating shaft, the rotating shaft of the eccentric wheel is connected with an output shaft of a feeding motor through a coupling, the feeding motor is arranged in the feeding shell, a transmission block is arranged at one side of the eccentric wheel close to a rinsing tank, a neutralization tank is arranged at the lower position of the rinsing tank, a discharge port of the rinsing tank corresponds to the neutralization tank, and transmission line rails are symmetrically arranged at two side positions above the neutralization tank; according to the invention, the feeding shell and the discharging box are arranged, so that the feeding precision of the device is increased, the quantitative feeding of the device can be realized, the automation level of the device is increased, and the rinsing quality of the device is ensured.

Description

Electrolytic zinc-zinc mud rinsing device

Technical Field

The invention relates to the technical field of electrolytic zinc slime treatment, in particular to a rinsing device for electrolytic zinc slime.

Background

Electrolytic zinc is an important production process in industrial production, electrolytic zinc is a chemical reaction, pure zinc is extracted through electrolysis, zinc mud can be produced in the electrolytic zinc process, heavy metal and acid wastewater are contained in the zinc mud, the zinc mud is directly discharged, the environment and water resources are polluted, and the waste of resources is also caused, so the zinc mud needs to be rinsed before being discharged, the rinsing aims at separating zinc slag from the acid wastewater, the zinc slag and the acid wastewater are respectively treated, the resources are fully utilized under the condition of not polluting the environment, and therefore, the demand on an electrolytic zinc mud rinsing device is increased day by day.

The prior art has the problems that feeding is inconvenient and feeding amount cannot be accurately controlled when the device is used, the problem that feeding is uneven due to the fact that a neutralization pond is large when feeding is caused, the feeding amount cannot be controlled to influence the neutralization quality in the prior art when feeding is caused, and therefore the electrolytic zinc-zinc mud rinsing device is provided aiming at the problems.

Disclosure of Invention

The invention aims to provide an electrolytic zinc-zinc mud rinsing device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an electrolytic zinc mud rinsing device, includes zinc thick liquid storage jar, reinforced shell, mounting bracket and neutralization pond, be provided with zinc thick liquid storage jar on the upper left side position of mounting bracket, sealing connection between the discharge gate of zinc thick liquid storage jar passes through the passage and the first slush pump, sealing connection between the discharge gate of first slush pump passes through the passage and the feed inlet of centrifuge, centrifuge installs on the mounting bracket, sealing connection between the discharge gate of centrifuge passes through the passage and the feed inlet of rinsing pond, install reinforced shell on the mounting bracket of rinsing pond upper right side, be provided with the eccentric wheel on the inside right side position of reinforced shell, the eccentric wheel rotates between through pivot and the reinforced shell to be connected, the pivot of eccentric wheel passes through the output shaft of shaft coupling and reinforced motor, reinforced motor is installed in reinforced shell, the eccentric wheel is close to rinsing pond one side and installs the transmission piece, the utility model discloses a potcher, including potcher, eccentric wheel, transmission piece, piston rod, rinsing pond, transmission frame, eccentric wheel, piston rod, piston block, piston rod, rinsing pond, transmission piece, piston rod, rinsing pond, the material discharge gate of rinsing pond is corresponding with the neutralizing pond, the symmetry is provided with the transmission line rail, two on the both sides position of neutralizing pond top be provided with the transmission frame on the transmission line rail, sliding connection between transmission frame and the transmission line rail, install the blowing case on the intermediate position of transmission frame.

Preferably, be provided with the weighing plate on the inside top position of blowing case, install the storage case on the top position of weighing plate, the blowing incasement of weighing plate below is installed and is divided the workbin, install the feeder hopper on dividing the top position of workbin, the discharge gate of feeder hopper and storage case communicates with each other, divide the inside pipe support that is provided with of workbin, the pipe support rotates through the pivot and divides between the workbin to be connected, install rotatory passage on the pipe support, the feed inlet and the feed cylinder of rotatory passage communicate with each other, sliding connection between the discharge gate of rotatory passage and the bottom surface of dividing the workbin, the position that sets up of rotatory passage is corresponding with the position that sets up of the play hopper on dividing the workbin.

Preferably, go out hopper and hose one end sealing connection, sealing connection between the hose other end and the blanking head, the blanking head is installed on the swinging arms, the swinging arms rotates between through pivot and transmission case to be connected, the transmission case is installed on the below position of blowing case.

Preferably, a turntable is arranged in the middle of the outer surface of the discharging box and is rotatably connected with the transmission box through a rotating shaft, the rotating shaft of the turntable is connected with an output shaft of a swing motor through a coupler, the swing motor is installed in the transmission box, a guide pillar is installed on the turntable and is arranged in a guide groove of a swing rod, and the guide pillar is slidably connected with the guide groove.

Preferably, a three-way joint is installed on a material opening of the charging barrel, a feeding one-way valve is installed on a water inlet of the three-way joint and is in sealing connection with the liquid storage tank through a water guide pipe, a discharging one-way valve is installed on a water outlet of the three-way joint and is in sealing connection with a spray head through a water guide pipe, and the spray head is arranged at the position above the rinsing pool.

Preferably, a settling tank is installed on the installation frame on the left side of the rinsing tank, a feed inlet of the settling tank is in sealing connection with a discharge outlet of a second slurry pump, and a feed inlet of the second slurry pump is in sealing connection with a discharge outlet of a zinc slurry storage tank through a guide pipe.

Preferably, a water pump is installed on the installation frame on one side of the neutralization pond, a water inlet of the water pump is connected with the neutralization pond in a sealing mode through a water guide pipe, and a water outlet of the water pump is connected with an external water pipe in a sealing mode.

Preferably, the rotating shaft on the pipe support is connected with an output shaft of the material distribution motor through a coupler, and the material distribution motor is installed in the material discharge box.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the automatic level of the device is increased by arranging the feeding shell, the eccentric wheel, the connecting rod, the transmission block, the charging barrel and the spray head, so that the device can automatically add additives, the working efficiency of the device is increased, meanwhile, the movement period of the transmission block can be controlled according to the number of rotation turns of the feeding motor, and further, the feeding amount can be adjusted, the problems of inconvenience in feeding and incapability of accurately controlling the feeding amount in the use of the prior art are solved, and the rinsing quality is increased;

2. according to the automatic feeding device, the transmission line rail, the material distribution box, the rotary material guide pipe, the pipe frame, the rotary table, the swing rod, the material distribution motor and the swing motor are arranged, so that the automation level of the device is increased, the device can realize uniform feeding, the feeding quality is ensured, the problem of nonuniform feeding caused by a large neutralization pond in the feeding process is solved, meanwhile, the device can realize quantitative feeding due to the matched use of the weighing plate and the rotary material guide pipe, and the problem that the feeding quantity cannot be controlled to influence the neutralization quality in the feeding process in the prior art is solved.

Drawings

FIG. 1 is a front view of the apparatus of the present invention;

FIG. 2 is an assembly view of the neutralization tank of FIG. 1 according to the present invention;

FIG. 3 is an assembly view of the discharge box of FIG. 2 in accordance with the present invention;

FIG. 4 is a front cross-sectional view of the discharge box of FIG. 3 of the present invention;

fig. 5 is a front cross-sectional view of the feed shell of fig. 1 in accordance with the present invention.

In the figure: 1-zinc slurry storage tank, 2-first slurry pump, 3-centrifuge, 4-rinsing tank, 5-liquid storage tank, 6-feeding shell, 7-mounting rack, 8-neutralization tank, 9-water pump, 10-settling tank, 11-second slurry pump, 12-transmission line rail, 13-transmission rack, 14-discharging tank, 15-hose, 16-discharging head, 17-transmission tank, 18-turntable, 19-guide groove, 20-swing motor, 21-swing rod, 22-guide column, 23-material storage tank, 24-weighing plate, 25-feeding hopper, 26-material distribution tank, 27-pipe rack, 28-material distribution motor, 29-rotary material guide pipe, 30-discharging hopper, 31-material feeding stop valve, 32-three-way joint, 33-material cylinder, 34-piston block, 35-piston rod, 36-transmission block, 37-connecting rod, 38-feeding motor, 39-eccentric wheel, 40-discharging one-way valve and 41-spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution:

the utility model provides an electrolytic zinc mud rinsing device, includes zinc thick liquid storage jar 1, reinforced shell 6, mounting bracket 7 and neutralization pond 8, be provided with zinc thick liquid storage jar 1 on the upper left side position of mounting bracket 7, sealing connection between the discharge gate of zinc thick liquid storage jar 1 passes through the passage and first slush pump 2, sealing connection between the discharge gate of first slush pump 2 passes through the passage and centrifuge 3's the feed inlet, centrifuge 3 installs on mounting bracket 7, sealing connection between the discharge gate of centrifuge 3 passes through the passage and rinse pond 4's the feed inlet, install reinforced shell 6 on rinse pond 4 upper right side's the mounting bracket 7, be provided with eccentric wheel 39 on the inside right side position of reinforced shell 6, eccentric wheel 39 rotates between pivot and reinforced shell 6 to be connected, eccentric wheel 39's pivot is passed through the output shaft coupling and is connected with reinforced motor 38, the feeding motor 38 is installed in the feeding shell 6, the eccentric wheel 39 is close to one side of the rinsing pool 4 and is provided with the transmission block 36, the transmission block 36 is hinged to the eccentric wheel 39 through the connecting rod 37, the transmission block 36 is in sliding connection with the feeding shell 6, the transmission block 36 is connected with one end of the piston rod 35, the other end of the piston rod 35 is arranged in the charging barrel 33, the charging barrel 33 is installed on the feeding shell 6, the piston block 34 is installed on the piston rod 35 in the charging barrel 33, the feeding shell 6, the eccentric wheel 39, the connecting rod 37, the transmission block 36, the charging barrel 33 and the spray head 41 are matched for use, the automation level of the device is increased, the device can independently add additives, the working efficiency of the device is increased, meanwhile, the movement period of the transmission block 36 can be controlled according to the number of rotation turns of the feeding motor 38, the feeding amount can be adjusted, and the problem that the feeding amount cannot be accurately controlled in the prior art is solved, the rinsing quality is improved, a neutralization tank 8 is arranged below the rinsing tank 4, a discharge port of the rinsing tank 4 corresponds to the neutralization tank 8, transmission line rails 12 are symmetrically arranged on two sides above the neutralization tank 8, transmission frames 13 are arranged on the two transmission line rails 12, the transmission frames 13 are connected with the transmission line rails 12 in a sliding mode, and a discharge box 14 is arranged in the middle of each transmission frame 13.

The utility model discloses a material distributing box, including the blowing box 14, be provided with weighing plate 24 on the inside top position of blowing box 14, install storage case 23 on weighing plate 24's the top position, install branch workbin 26 in the blowing box 14 of weighing plate 24 below, install feeder hopper 25 on the top position of branch workbin 26, feeder hopper 25 communicates with each other with storage case 23's discharge gate, divide workbin 26 inside to be provided with pipe support 27, pipe support 27 rotates between being connected through pivot and branch workbin 26, install rotatory passage 29 on the pipe support 27, the feed inlet of rotatory passage 29 communicates with each other with feed cylinder 33, sliding connection between rotatory passage 29's discharge gate and the bottom surface of branch workbin 26, the position that sets up of rotatory passage 29 corresponds with the position that sets up of the play hopper on the branch workbin 26, go out hopper and hose 15 one end sealing connection, sealing connection between the hose 15 other end and the blanking head 16, the blanking head 16 is mounted on a swing rod 21, the swing rod 21 is rotatably connected with a transmission box 17 through a rotating shaft, the transmission box 17 is mounted at the lower position of the discharging box 14, a turntable 18 is arranged at the middle position of the outer surface of the discharging box 14, the turntable 18 is rotatably connected with the transmission box 17 through a rotating shaft, the rotating shaft of the turntable 18 is connected with an output shaft of a swing motor 20 through a coupler, the swing motor 20 is mounted in the transmission box 17, a guide pillar 22 is mounted on the turntable 18, the guide pillar 22 is arranged in a guide groove 19 of the swing rod 21, the guide pillar 22 is slidably connected with the guide groove 19, the transmission line rail 12, the distributing box 26, the rotary guide pipe 29, the pipe frame 27, the turntable 18, the swing rod 21, the distributing motor 28 and the swing motor 20 are used in a matched mode, the automation level of the device is increased, and the device can realize uniform material feeding, the feeding quality is ensured, the problem of uneven feeding caused by a large neutralization pond 8 is avoided when feeding is carried out, meanwhile, the weighing plate 24 and the rotary material guide pipe 29 are matched for use, so that the device can realize quantitative feeding, the problem that the feeding quantity cannot be controlled to influence the neutralization quality in the prior art when feeding is carried out is solved, a three-way joint 32 is installed on a material port of a charging barrel 33, a feeding one-way valve 31 is installed on a water inlet of the three-way joint 32, the feeding one-way valve 31 is in sealing connection with a liquid storage tank 5 through a water guide pipe, a discharging one-way valve 40 is installed on a water outlet of the three-way joint 32, the discharging one-way valve 40 is in sealing connection with a spray head 41 through the water guide pipe, the spray head 41 is arranged at the upper position of a rinsing pond 4, a precipitation tank 10 is installed on a mounting rack 7 at the left side of the rinsing pond 4, and a feeding port of the precipitation tank 10 is, the feed inlet of second slush pump 11 passes through sealing connection between the discharge gate of passage and zinc thick liquid storage jar 1, install water pump 9 on the mounting bracket 7 of neutralization pond 8 one side, water pump 9's water inlet passes through sealing connection between aqueduct and the neutralization pond 8, water pump 9's delivery port and external water pipe sealing connection, the pivot on the pipe support 27 is passed through the shaft coupling and is divided the output shaft of material motor 28, divide material motor 28 to install in the blowing case 14.

The first mud pump 2, the second mud pump 11 and the water pump 9 are of the type XVm60, and the swing motor 20, the dividing motor 28 and the feeding motor 38 are of the type Y160M 1-2.

The working process is as follows: when the device is used, an external power supply is connected, the first slurry pump 2 conveys zinc slurry in the zinc slurry storage tank 1 to the centrifuge 3 for centrifugal treatment, the second slurry pump 11 conveys a solution above the zinc slurry storage tank 1 to the precipitation tank 10 for precipitation, then the centrifuge 3 and the precipitation tank 10 convey the slurry into the rinsing tank 4 respectively, at the moment, the feeding motor 38 drives the eccentric wheel 39 to rotate, the eccentric wheel 39 rotates and drives the transmission block 36 to move by matching with the connecting rod 37, the transmission block 36 slides in the feeding shell 6, when the transmission block 36 drives the piston rod 35 to move towards one side close to the eccentric wheel 39, the piston rod 35 drives the piston block 34 to perform pumping movement, an additive in the liquid storage tank 5 is conveyed into the material barrel 33 through the feeding one-way valve 31, the eccentric wheel 39 rotates along with the rotation, and then the eccentric wheel 39 drives the transmission block 36 to move towards one side far away from the eccentric wheel 39 through, the transmission block 36 drives the piston rod 35 to perform discharging movement, the additive in the charging barrel 33 is sprayed out from the spray nozzle 41 through the discharging one-way valve 40 and is added into the rinsing tank 4, in the process, the feeding shell 6, the eccentric wheel 39, the connecting rod 37, the transmission block 36, the charging barrel 33 and the spray nozzle 41 are matched for use, the automation level of the device is increased, the device can independently add the additive, the working efficiency of the device is increased, meanwhile, the movement period of the transmission block 36 can be controlled according to the rotation turns of the feeding motor 38, the feeding amount can be adjusted, the problems that in the prior art, feeding is inconvenient and the feeding amount cannot be accurately controlled are solved, the rinsing quality is increased, after rinsing is completed, the slurry in the rinsing tank 4 is conveyed into the neutralization tank 8, then, the transmission line rail 12 drives the transmission frame 13 to move, the material dividing motor 28 drives the pipe frame 27 to rotate, the discharging port of the rotary material guiding pipe 29 is overlapped with the discharging hopper 30 gradually while the pipe frame 27 rotates, at this time, the powder additive inside the material storage box 23 is conveyed into the hose 15 along the rotary material guiding pipe 29, at the same time, the swing motor 20 drives the rotary disc 18 to rotate, the guide pillar 22 slides in the guide groove 19 while the rotary disc 18 rotates, at this time, the rotary disc 18 drives the swing rod 21 to do left-right swing motion, the added powder is discharged from the discharging head 16, when the weighing plate 24 senses that the discharging amount reaches the specified amount, at this time, the material distributing motor 28 drives the rotary material guiding pipe 29 to rotate, the discharging port of the rotary material guiding pipe 29 is separated from the discharging hopper, at this time, the feeding is completed, in the process, the transmission line rail 12, the material distributing box 26, the rotary material guiding pipe 29, the pipe frame 27, the rotary disc 18, the swing rod 21, the material distributing motor 28 and the swing motor 20 are used in, the feeding quality is guaranteed, the problem that feeding is uneven due to the fact that the neutralization pond 8 is large when feeding is avoided, meanwhile, the weighing plate 24 and the rotary material guide pipe 29 are matched for use, quantitative feeding can be achieved through the device, and the problem that feeding quantity cannot be controlled to affect the neutralization quality when feeding in the prior art is solved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an electrolysis zinc mud rinsing device, includes zinc thick liquid storage jar (1), reinforced shell (6), mounting bracket (7) and neutralization pond (8), its characterized in that: be provided with zinc thick liquid storage jar (1) on the upper left side position of mounting bracket (7), sealing connection between passage and first slush pump (2) is passed through to the discharge gate of zinc thick liquid storage jar (1), sealing connection between the feed inlet of passage and centrifuge (3) is passed through to the discharge gate of first slush pump (2), centrifuge (3) are installed on mounting bracket (7), sealing connection between the feed inlet of passage and rinsing pond (4) is passed through to the discharge gate of centrifuge (3), install reinforced shell (6) on mounting bracket (7) of rinsing pond (4) upper right side, be provided with eccentric wheel (39) on the inside right side position of reinforced shell (6), eccentric wheel (39) are connected through rotating shaft and rotation between reinforced shell (6), the output shaft of shaft coupling and reinforced motor (38) is passed through in the pivot of eccentric wheel (39), the feeding motor (38) is installed in the feeding shell (6), a transmission block (36) is installed on one side, close to the rinsing pool (4), of the eccentric wheel (39), the transmission block (36) is hinged to the eccentric wheel (39) through a connecting rod (37), the transmission block (36) is connected with the feeding shell (6) in a sliding mode, the transmission block (36) is connected with one end of a piston rod (35), the other end of the piston rod (35) is arranged in the charging barrel (33), the charging barrel (33) is installed on the feeding shell (6), the piston block (34) is installed on the piston rod (35) in the charging barrel (33), a neutralization pool (8) is arranged at the position below the rinsing pool (4), a discharging port of the rinsing pool (4) corresponds to the neutralization pool (8), transmission line rails (12) are symmetrically arranged at the positions on two sides above the neutralization pool (8), two be provided with driving frame (13) on transmission line rail (12), sliding connection between driving frame (13) and transmission line rail (12), install blowing case (14) on the intermediate position of driving frame (13).

2. The electrolytic zinc-zinc sludge rinsing device according to claim 1, wherein: a weighing plate (24) is arranged at the upper position inside the material discharging box (14), a material storing box (23) is arranged at the upper position of the weighing plate (24), a material distributing box (26) is arranged in the material placing box (14) below the weighing plate (24), a feed hopper (25) is arranged above the material distributing box (26), the feed hopper (25) is communicated with a discharge hole of the material storage box (23), a pipe frame (27) is arranged in the material distribution box (26), the pipe frame (27) is rotationally connected with the material distribution box (26) through a rotating shaft, a rotary material guide pipe (29) is arranged on the pipe support (27), a feed inlet of the rotary material guide pipe (29) is communicated with the charging barrel (33), the discharge hole of the rotary material guide pipe (29) is connected with the bottom surface of the material distribution box (26) in a sliding way, the arrangement position of the rotary material guide pipe (29) corresponds to the arrangement position of a discharge hopper on the material distribution box (26).

3. The electrolytic zinc-zinc sludge rinsing device according to claim 2, wherein: go out hopper and hose (15) one end sealing connection, sealing connection between hose (15) other end and the stub bar (16) down, install on swinging arms (21) stub bar (16) down, swinging arms (21) rotate between through pivot and transmission case (17) and are connected, install on the below position of blowing case (14) transmission case (17).

4. The electrolytic zinc-zinc sludge rinsing device according to claim 3, wherein: the automatic feeding device is characterized in that a rotary table (18) is arranged in the middle of the outer surface of the feeding box (14), the rotary table (18) is rotatably connected with the transmission box (17) through a rotary shaft, the rotary shaft of the rotary table (18) is connected with an output shaft of a swing motor (20) through a coupler, the swing motor (20) is installed in the transmission box (17), a guide pillar (22) is installed on the rotary table (18), the guide pillar (22) is arranged in a guide groove (19) of a swing rod (21), and the guide pillar (22) is slidably connected with the guide groove (19).

5. The electrolytic zinc-zinc sludge rinsing device according to claim 1, wherein: install three way connection (32) on the material mouth of feed cylinder (33), install feeding check valve (31) on the water inlet of three way connection (32), sealing connection between feeding check valve (31) through aqueduct and liquid reserve tank (5), install ejection of compact check valve (40) on the delivery port of three way connection (32), ejection of compact check valve (40) are through sealing connection between aqueduct and shower nozzle (41), shower nozzle (41) set up on the top position of rinsing pond (4).

6. The electrolytic zinc-zinc sludge rinsing device according to claim 1, wherein: install on rinsing mount (7) on the left of pond (4) and precipitate tank (10), sealing connection between the discharge gate of feed inlet through second slush pump (11) of precipitate tank (10), sealing connection between the discharge gate of feed inlet through passage and zinc thick liquid storage jar (1) of second slush pump (11).

7. The electrolytic zinc-zinc sludge rinsing device according to claim 1, wherein: install water pump (9) on mounting bracket (7) of neutralization pond (8) one side, the water inlet of water pump (9) passes through between aqueduct and neutralization pond (8) sealing connection, the delivery port and the external water pipe sealing connection of water pump (9).

8. The electrolytic zinc-zinc sludge rinsing device according to claim 2, wherein: the pivot on pipe support (27) passes through the shaft coupling and divides the output shaft of material motor (28), divide material motor (28) to install in blowing case (14).

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