CN114775030B

CN114775030B - Be used for electrolysis box solid-liquid separation structure

Info

Publication number: CN114775030B
Application number: CN202210487646.1A
Authority: CN
Inventors: 罗荣华
Original assignee: Hunan Jindiao Energy Technology Co ltd
Current assignee: Hunan Jindiao Energy Technology Co ltd
Priority date: 2022-05-06
Filing date: 2022-05-06
Publication date: 2023-03-24
Anticipated expiration: 2042-05-06
Also published as: CN114775030A

Abstract

The invention relates to the technical field of waste alloy recycling tungsten carbide electrolysis, and discloses a solid-liquid separation structure for an electrolytic tank, which comprises an electrolytic tank, a partition plate, a lifting mechanism, a lifting support and an electrolytic box, wherein a guide plate is embedded at the bottom of the electrolytic tank, guide steps are arranged on the upper surface of the guide plate, the guide steps are sequentially reduced from left to right, the partition plate is arranged on the upper side of the guide plate, the lifting support is arranged on the upper side of the partition plate, guide slide rods are fixedly connected at the four corners of the bottom of the electrolytic tank, the lifting support is connected with the guide slide rods in a sliding fit manner, the lifting mechanism is respectively arranged on the left side and the right side of the electrolytic tank, the lifting support is arranged between the lifting mechanisms, and the electrolytic box is uniformly distributed on the inner side of the lifting support; solves the problems that the prior electrolytic bath is blocked in the circulation of electrolytic solution and slow in solid-liquid separation during the electrolytic process of preparing the tungsten carbide raw material, thereby influencing the production efficiency.

Description

Be used for electrolysis box solid-liquid separation structure

Technical Field

The invention relates to the technical field of tungsten carbide electrolysis by recycling waste alloys, in particular to a solid-liquid separation structure for an electrolytic tank.

Background

At present, the production raw materials of tungsten carbide mainly comprise waste tungsten-cobalt hard alloy, the common method for recovering tungsten carbide from waste hard alloy is an electrolytic method, a titanium mesh is used as an anode, a graphite plate or a conductive metal sheet is used as a cathode, electrochemical dissolution is carried out in an acid electrolyte, then tungsten carbide is obtained at the anode, and cobalt is obtained at the cathode; when raw materials for preparing tungsten carbide are electrolyzed, alloy is placed in an electrolytic box provided with through holes, the electrolytic box is placed in an electrolytic tank provided with a graphite plate or a conductive metal sheet to be electrolyzed in acid electrolyte, however, the alloy with small particle size is different, the alloy with small particle size can easily fall into the electrolytic tank from the through holes on the electrolytic box, so that the alloy can not be effectively electrolyzed, the content of tungsten carbide on the anode after the electrolysis is finished is less, the yield of tungsten carbide is reduced, meanwhile, in the invention patent with the publication number of CN108996505A, the solution needs to be recycled in the electrolysis process, or the solution is discharged after the electrolysis is finished, but in the process, the flow of the solution can be influenced due to the arrangement of the electrolytic box in a motor tank, so that the circulation or the discharge of the solution is influenced due to the flow blockage, the solid-liquid separation is slow, the production efficiency is not high, and other substances are easy to cause the blockage of pipelines, so that the normal circulation of the solution is influenced, therefore, a separation structure for the electrolytic box is needed to solve the problem that solid-liquid falls into the solid-liquid separation.

Disclosure of Invention

The invention provides a solid-liquid separation structure for an electrolytic tank, which solves the problems that the circulation of an electrolytic solution is blocked and the solid-liquid separation is slow in the electrolytic process of preparing a tungsten carbide raw material in the existing electrolytic tank, so that the production efficiency is influenced.

The invention provides the following technical scheme: the utility model provides a be used for electrolysis box solid-liquid separation structure, includes electrolysis trough, baffle, elevating system, lifting support and electrolysis box, the electrolysis trough bottom inlays and is equipped with the guide plate, the guide plate upper surface is equipped with the water conservancy diversion ladder, the water conservancy diversion ladder reduces from a left side to the right side in proper order, the baffle sets up the guide plate upside, lifting support sets up the baffle upside, electrolysis trough bottom four corners fixedly connected with leads the slide bar, lifting support with lead slide bar sliding fit and connect, elevating system sets up respectively the electrolysis trough left and right sides, lifting support sets up between the elevating system, elevating system includes motor, axis of rotation, rack, dwang and gear, motor fixed connection be in the electrolysis trough outside, axis of rotation fixed connection be in the motor output end, gear fixed connection be in the axis of rotation is terminal, the dwang with the elevating system normal running fit is connected, rack fixed connection be in the dwang lower extreme, the rack with the gear meshes mutually, electrolysis box evenly distributed is in the lifting support is inboard, electrolysis box bottom is equipped with the slope all around, the slope is drawn together to the electrolysis box center screw thread, the electrolysis box bottom is connected with the plunger is located the slope lower extreme.

Preferably, the lifting support comprises an upper cross rod, side plates, a lower cross rod and a connecting plate, the upper cross rod and the lower cross rod are respectively and fixedly connected between the side plates, the upper cross rod is located on the upper side of the lower cross rod, the connecting plate is fixedly connected to the upper end of the outer side of the side plates, two ends of the connecting plate are respectively provided with a guide sliding hole, the guide sliding holes are connected with the guide sliding rods in a sliding fit manner, the rotating rod is connected with the middle part of the bottom side of the connecting plate in a rotating fit manner, first clamping grooves are uniformly distributed on the inner side of the upper cross rod, second clamping grooves are uniformly distributed on the inner side of the lower cross rod and correspond to the first clamping grooves, and the electrolytic box is clamped in the first clamping grooves and the second clamping grooves.

Preferably, the partition plate is provided with a plurality of filtering holes, the electrolysis box is provided with a plurality of through holes, and the inner diameter of each through hole is larger than that of each filtering hole.

Preferably, the upper end of the left side of the electrolytic cell is provided with a liquid inlet pipe, and the liquid inlet pipe is provided with a first control valve.

Preferably, the lower extreme of electrolysis trough right side is equipped with the drain pipe, the drain pipe with guide plate right-hand member upper surface is equal, be equipped with the second control valve on the drain pipe, the second control valve with be equipped with the circulating pipe between the electrolysis trough, be equipped with the third control valve on the circulating pipe.

Preferably, the inner side of the electrolytic cell is provided with an annular clamping table, and the partition plate is embedded on the annular clamping table.

Preferably, the number of the toothed bars is two, the toothed bars are respectively connected to the front side and the rear side of the gear in a meshed mode, and the rotating directions of the toothed bars on the two sides of the gear are opposite.

The invention has the following beneficial effects:

1. according to the invention, in the circulation process of the electrolytic solution, the electrolytic box can be lifted through the lifting action of the lifting support, so that the electrolytic solution has a larger flowing space, the solution can be filtered out quickly, the solid-liquid separation is promoted, the solution circulation is convenient, quick and effective, and the production efficiency is improved.

2. According to the invention, the guide plate is arranged at the bottom of the electrolytic cell, so that the electrolytic solution in the electrolytic cell can be effectively ensured to flow out quickly, the solid-liquid separation speed is increased, and the production efficiency is improved.

3. According to the invention, the slope is arranged at the bottom of the electrolytic box, so that the liquid in the electrolytic box can be rapidly discharged, the collection of solid impurities can be facilitated, and the plunger is designed to facilitate the discharge of water and other solid impurities when the electrolytic box is cleaned.

4. According to the invention, the partition plate is arranged between the guide plate and the lifting support, the aperture of the partition plate is smaller than that of the electrolytic box, so that solid particles passing through the aperture of the electrolytic box can be prevented from being mixed into an electrolytic solution on one hand, and other impurities mixed in the electrolytic solution can be filtered off on the other hand, and a double-insurance effect is achieved.

5. According to the invention, the gear is matched with the toothed bars with opposite rotation directions on two sides, so that not only can enough power be ensured to lift the lifting support, but also the stability of the lifting support can be ensured, and the lifting support can normally and effectively work.

Drawings

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

FIG. 2 isbase:Sub>A schematic cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is a schematic view of the lifting frame of the present invention;

FIG. 5 is a schematic cross-sectional view of a lower cross-bar according to the present invention;

FIG. 6 is a schematic view showing the structure of the electrolytic cartridge of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in FIGS. 1 to 6, a solid-liquid separation structure for an electrolytic tank comprises an electrolytic bath 1, a partition plate 2, a lifting mechanism 3, a lifting support 4 and an electrolytic box 5.

The bottom of the electrolytic cell 1 is embedded with a guide plate 11, the upper surface of the guide plate 11 is provided with a guide ladder 111, the guide ladder 111 is sequentially lowered from left to right, the guide ladder 111 can play a good role in guiding the electrolytic solution in a circulating process or in a discharging process of the electrolytic solution, so that the electrolytic solution can rapidly flow from left to right, the partition plate 2 is arranged on the upper side of the guide plate 11, the partition plate 2 is used for separating the electrolytic solution between the electrolytic box 5 and the bottom of the electrolytic cell 1, so that the electrolytic solution is not influenced by the electrolytic box 5 and can rapidly flow, the lifting support 4 is arranged on the upper side of the partition plate 2, the four corners of the bottom of the electrolytic cell 1 are fixedly connected with guide slide rods 13, the lifting support 4 is connected with the guide slide rods 13 in a sliding fit manner, the lifting support 4 can drive the electrolytic box 5 to vertically slide along the guide slide rods 13, so as to lift the electrolytic box 5, on one hand, the electrolytic solution in the electrolytic box 5 can rapidly flow out, on the other hand, the electrolytic solution can be ensured to rapidly and effectively circulate; elevating system 3 sets up respectively in 1 left and right sides of electrolysis trough, elevating support 4 sets up between elevating system 3, it drives elevating system 3 and realizes the lifting or the dropping of electrolysis box 5 in electrolysis trough 1 to raise elevating system 3, elevating system 3 includes motor 31, axis of rotation 32, ratch 33, dwang 34 and gear 35, motor 31 fixed connection is in the electrolysis trough 1 outside, axis of rotation 32 fixed connection is at the motor 31 output, gear 35 fixed connection is at axis of rotation 32 end, dwang 34 is connected with elevating system 4 normal running fit, ratch 33 fixed connection is at dwang 34 lower extreme, ratch 33 and gear 35 mesh mutually, electrolysis box 5 evenly distributed is inboard at elevating system 4, electrolysis box 5 bottom is equipped with slope 51 all around, slope 51 draws close to electrolysis box 5 center, electrolysis box 5 bottom threaded connection has plunger 52, plunger 52 is located slope 51 lowermost extreme.

The lifting support 4 comprises an upper cross rod 41, side plates 42, a lower cross rod 43 and a connecting plate 44, wherein the upper cross rod 41 and the lower cross rod 43 are respectively and fixedly connected between the side plates 42, the upper cross rod 41 is positioned on the upper side of the lower cross rod 43, the connecting plate 44 is fixedly connected to the upper end of the outer side of the side plates 42, two ends of the connecting plate 44 are respectively provided with a slide guide hole 441, the slide guide holes 441 are connected with the slide guide rods 13 in a sliding fit manner, the middle part of the bottom side of the connecting plate 44 of the rotating rod 34 is connected in a rotating fit manner, the rotating shaft 32 is driven to rotate by the motor 31, and further the gear 35 is driven to rotate, due to the existence of the rotating rod 34, the gear 35 can drive the gear 33 with two sides thereof in a meshing connection manner and with opposite rotating directions to rotate, and further can enable the gear 33 to move upwards or downwards under the cooperation effect of the gear 33 and the gear 35, so as to drive the lifting mechanism 4 to guide the slide guide rods 13 to move upwards and downwards, so as to provide enough space for the flow of the electrolytic solution in the electrolytic tank 1, and is also beneficial to discharge of the electrolytic solution in the electrolytic box 5, thereby improving the efficiency of solid-liquid separation.

The first clamping grooves 411 are uniformly distributed on the inner side of the upper cross rod 41, the second clamping grooves 431 are uniformly distributed on the inner side of the lower cross rod 43, the second clamping grooves 431 correspond to the first clamping grooves 411, the electrolysis boxes 5 are clamped in the first clamping grooves 411 and the second clamping grooves 431, the first clamping grooves 411 and the second clamping grooves 431 are improved, the electrolysis boxes 5 can be fixed in the lifting support 4 one by one, and then the simultaneous lifting work of the electrolysis boxes 5 in the electrolysis cell 1 is realized, and the operation is very convenient.

The partition board 2 is provided with a plurality of filtering holes 21, the electrolytic box 5 is provided with a plurality of through holes 53, the inner diameter of each through hole 53 is larger than that of each filtering hole 21, so that not only can the solid matters be prevented from entering other pipelines to influence the service life of the electrolytic box, but also the electrolytic matters with smaller particles can be prevented from leaking out of the electrolytic box 5, and meanwhile, favorable conditions can be provided for the flowing of the electrolytic solution.

The upper end of the left side of the electrolytic cell 1 is provided with a liquid inlet pipe 14, and the liquid inlet pipe 14 is provided with a first control valve 141 which is responsible for the electrolytic solution entering the electrolytic cell 1.

The lower end of the right side of the electrolytic cell 1 is provided with a liquid outlet pipe 15, the liquid outlet pipe 15 is flush with the upper surface of the right end of the guide plate 11, the liquid outlet pipe 15 is provided with a second control valve 151, the electrolytic solution in the electrolytic cell 1 is effectively discharged, a circulating pipe 16 is arranged between the second control valve 151 and the electrolytic cell 1, and the circulating pipe 16 is provided with a third control valve 161, so that the electrolytic solution can be recycled.

Above-mentioned 1 inboard of electrolysis trough is equipped with annular ka tai 12, and baffle 2 inlays to be established on annular ka tai 12, guarantees the stability and the detachability of baffle 2, is favorable to changing or clearing up it.

Above-mentioned ratch 33's quantity is two, and ratch 33 is the both sides around gear 35 in meshing connection respectively, and the ratch 33 that is located gear 35 both sides revolves to opposite, both can guarantee to have sufficient power to lift lifting support, can guarantee lifting support's stability again for lifting support can normally effectual work, prevents that it from producing the atress inequality and slope or block.

Claims

1. The utility model provides a be used for electrolysis box solid-liquid separation structure which characterized in that: comprises an electrolytic bath (1), a clapboard (2), a lifting mechanism (3), a lifting bracket (4) and an electrolytic box (5);

a flow guide plate (11) is embedded in the bottom of the electrolytic cell (1), a flow guide step (111) is arranged on the upper surface of the flow guide plate (11), and the flow guide steps (111) are sequentially lowered from left to right;

the baffle (2) is arranged on the upper side of the guide plate (11), and a plurality of filter holes (21) are formed in the baffle (2);

the electrolytic cell is characterized in that the lifting mechanisms (3) are respectively arranged on the left side and the right side of the electrolytic cell (1), the lifting support (4) is arranged between the lifting mechanisms (3), each lifting mechanism (3) comprises a motor (31), a rotating shaft (32), a toothed bar (33), a rotating rod (34) and a gear (35), the motors (31) are fixedly connected to the outer side of the electrolytic cell (1), the rotating shafts (32) are fixedly connected to the output end of the motors (31), the gears (35) are fixedly connected to the tail ends of the rotating shafts (32), the rotating rods (34) are in rotating fit connection with the lifting support (4), the toothed bars (33) are fixedly connected to the lower end of the rotating rods (34), and the toothed bars (33) are meshed with the gears (35);

the lifting support (4) is arranged on the upper side of the partition plate (2), guide sliding rods (13) are fixedly connected to four corners of the bottom of the electrolytic cell (1), and the lifting support (4) is connected with the guide sliding rods (13) in a sliding fit manner; the lifting support (4) comprises an upper cross bar (41), side plates (42), a lower cross bar (43) and a connecting plate (44), the upper cross bar (41) and the lower cross bar (43) are respectively and fixedly connected between the side plates (42), the upper cross bar (41) is positioned on the upper side of the lower cross bar (43), the connecting plate (44) is fixedly connected to the upper end of the outer side of the side plates (42), two ends of the connecting plate (44) are respectively provided with a slide guide hole (441), the slide guide hole (441) is connected with the slide guide rod (13) in a sliding fit manner, the rotating rod (34) is connected with the middle part of the bottom side of the connecting plate (44) in a rotating fit manner, first clamping grooves (411) are uniformly distributed on the inner side of the upper cross bar (41), second clamping grooves (431) are uniformly distributed on the inner side of the lower cross bar (43), the second clamping grooves (431) correspond to the first clamping grooves (411), and the electrolytic box (5) is clamped in the first clamping grooves (411) and the second clamping grooves (431);

electrolysis box (5) evenly distributed is in lifting support (4) are inboard, electrolysis box (5) bottom is equipped with slope (51) all around, slope (51) to electrolysis box (5) center draws close, electrolysis box (5) bottom threaded connection has plunger (52), plunger (52) are located slope (51) lower extreme, be equipped with a plurality of through-holes (53) on electrolysis box (5), the internal diameter of through-hole (53) is greater than filter the internal diameter in hole (21).

2. The solid-liquid separation structure for electrolytic tanks according to claim 1, characterized in that: the electrolytic cell is characterized in that a liquid inlet pipe (14) is arranged at the upper end of the left side of the electrolytic cell (1), and a first control valve (141) is arranged on the liquid inlet pipe (14).

3. The solid-liquid separation structure for electrolytic tanks according to claim 1, characterized in that: electrolytic cell (1) right side lower extreme is equipped with drain pipe (15), drain pipe (15) with guide plate (11) right-hand member upper surface is held level mutually, be equipped with second control valve (151) on drain pipe (15), second control valve (151) with be equipped with circulating pipe (16) between electrolytic cell (1), be equipped with third control valve (161) on circulating pipe (16).

4. The solid-liquid separation structure for electrolytic tanks according to claim 1, characterized in that: the inner side of the electrolytic cell (1) is provided with an annular clamping table (12), and the partition plate (2) is embedded on the annular clamping table (12).

5. The solid-liquid separation structure for electrolytic tanks according to claim 1, characterized in that: the number of ratchets (33) is two, ratchets (33) are meshing connection respectively and are in both sides around gear (35), are located gear (35) both sides ratchets (33) are to opposite.