CN118637799B

CN118637799B - A hazardous waste sludge acid leaching tank

Info

Publication number: CN118637799B
Application number: CN202410732609.1A
Authority: CN
Inventors: 孙承良; 周生伟; 曹洪团
Original assignee: Lianyungang Lv Run Environmental Protection Co ltd
Current assignee: Lianyungang Lv Run Environmental Protection Co ltd
Priority date: 2024-06-07
Filing date: 2024-06-07
Publication date: 2025-03-21
Anticipated expiration: 2044-06-07
Also published as: CN118637799A

Abstract

The present invention relates to the technical field of sludge acid leaching tanks, and discloses a hazardous waste sludge acid leaching tank, including a sludge tank installation unit, a transmission unit and a collection unit. The sludge tank installation unit includes a sludge tank body, a conical plate is fixedly installed at the bottom of the inner cavity of the sludge tank body, and the outer wall of the sludge tank body is provided with two mutually symmetrical support legs, and a mounting plate is installed above the two support legs. A circular notch is opened in the middle of the bottom of the inner cavity of the conical plate. In the present invention, when the collection box moves downward, it can drive the storage box into the water, so that under the action of water, the first floating plate can be pushed to open with the assistance of the first rotating shaft and enter the storage box. At this time, the second floating plate arranged in the storage box will be able to open with the assistance of the second rotating shaft under the impact force of the water, so that the floating objects that initially enter the collection box can enter the storage box for collection, which is suitable for wide promotion and use.

Description

Dangerous waste sludge acid leaching tank

Technical Field

The invention belongs to the technical field of sludge acid leaching tanks, and particularly relates to a hazardous waste sludge acid leaching tank.

Background

Besides metals, the sludge also contains other impurities such as soil, stones and the like, which are easy to precipitate in a leaching tank and influence the leaching of metals.

However, in the existing sludge acid leaching tank, in the process of immersing sludge, some floaters contained in soil are easy to float in water slowly after stirring, so that a large amount of floaters float above the sludge tank, and the cleaning is troublesome.

The present invention has been made in view of this.

Disclosure of Invention

In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that:

The dangerous waste sludge acid leaching tank comprises a sludge tank installation unit, a transmission unit and a collection unit,

The sludge tank installation unit comprises a sludge tank body, wherein a conical plate is fixedly installed at the bottom of the inner cavity of the sludge tank body, two mutually symmetrical supporting legs are arranged on the outer side wall of the sludge tank body, an installation plate is installed above the two supporting legs, and a circular notch is formed in the middle of the bottom of the inner cavity of the conical plate;

The transmission unit comprises a motor, the motor is arranged at the bottom of the mounting plate, the output end of the motor is positioned at one end far away from the mounting plate, a rotating rod is fixedly arranged at the output end of the motor, a stirring barrel is fixedly arranged on the rotating rod, one end of the stirring barrel far away from the motor is rotationally connected to the inner wall of a circular notch, two first stirring rods and two second stirring rods are fixedly arranged on the outer side wall of the stirring barrel, the two first stirring rods and the two second stirring rods are mutually symmetrical, a cavity is formed in the stirring barrel, a transmission mechanism is arranged in the stirring barrel, the transmission mechanism comprises a first bevel gear, a second bevel gear and a third bevel gear, a plurality of first crushing rods and a second crushing rod which are distributed at equal intervals are arranged on one side opposite to the first stirring rods and the second stirring rods, the two second crushing rods are respectively positioned on one side wall far away from the stirring barrel, rectangular notches (1022) are formed in the second stirring rods (1021) positioned at the upper ends of the two second crushing rods (2026), a rectangular notch (2023) is formed in each stirring barrel, and a rotary rod (2023) is fixedly arranged on one side opposite side to the first crushing rod and a second crushing rod (2026), and a rotary rod (2012) is fixedly arranged on one side opposite to the first crushing rod and a rotary rod (2023) and a rotary rod (2012) are driven to rotate;

The collecting unit comprises two collecting boxes, two collecting boxes are all link up and are provided with two receiver above the collecting boxes, fixed mounting has the barrier plate between collecting boxes and the receiver, barrier plate and the relative side wall of collecting boxes are provided with first tilting mechanism, the second tilting mechanism is installed in the receiver inner chamber to the barrier plate top, two rectangular channel has been seted up respectively to collecting box side wall, two the collecting box is kept away from the filter hole that a plurality of equidistance distributions set up respectively of rectangular channel's side wall, two the receiver top is provided with the apron, two the handle is all installed to the apron top, two semicircular notch has all been seted up to the relative side wall of collecting boxes, two semicircular notch mutual symmetry, two semicircular notch agrees with each other with the bull stick respectively.

As a preferred implementation mode of the invention, the rotary rod is sleeved with a circular sleeve in the inner cavity of the stirring cylinder, four support rods which are circumferentially distributed are fixedly arranged at the bottom of the circular sleeve, and one ends of the four support rods, which are far away from the circular sleeve, are fixedly connected to the circular notch.

As a preferred implementation mode of the invention, the side wall of the circular sleeve is provided with a circular through hole in a penetrating way, the inner cavities of the two circular through holes are fixedly provided with circular sealing cylinders, and a rotating rod is movably penetrated between the two circular sealing cylinders.

As a preferred embodiment of the invention, the first bevel gear is fixedly sleeved on the circular sleeve, a second bevel gear and a third bevel gear are respectively and vertically meshed and installed on the first bevel gear, the second bevel gear and the third bevel gear are mutually symmetrical, and opposite side walls of the second bevel gear and the third bevel gear are respectively and fixedly connected with a rotating rod.

As a preferable implementation mode of the invention, one end of each rotary rod far away from the stirring cylinder is fixedly connected with a plurality of first crushing rods which are distributed at equal intervals, and one opposite end of each rotary rod is fixedly provided with a second crushing rod on a side wall of the first crushing rod opposite to the furthest end of the first crushing rod from the stirring cylinder.

As a preferred implementation mode of the invention, the inner cavities of the two rectangular plug-in cylinders are provided with the sliding mechanisms, the sliding mechanisms comprise four sliding grooves, the four sliding grooves are respectively arranged on the inner walls of the rectangular plug-in cylinders, the four sliding grooves are symmetrical to each other, the inner cavities of the four sliding grooves are respectively provided with sliding blocks, the four sliding blocks are symmetrical to each other, and a circular mounting plate is arranged above the four sliding blocks.

As a preferred implementation mode of the invention, rectangular plugboards are fixedly arranged at the bottoms of the two circular mounting plates, the two rectangular plugboards respectively penetrate through the rectangular notch in a movable mode, two mutually symmetrical inclined ports are formed in one ends, close to the second crushing rod, of the two rectangular plugboards respectively, moving rods are fixedly arranged above the two circular mounting plates, the two moving rods respectively penetrate through the two rectangular plugboards in a movable mode, return springs are fixedly arranged above the two circular mounting plates, the other ends of the two return springs are fixedly connected to the inner wall of the rectangular plugboards, and the other ends of the moving rods are fixedly connected to the bottom of the collecting box.

As a preferred implementation mode of the invention, a rectangular sleeve is sleeved on the movable rod, a connecting rod is fixedly arranged on one side wall of the rectangular sleeve, a scraper is fixedly connected to one end of the connecting rod, which is far away from the movable rod, and is movably attached to the inner wall of the sludge pond body, a fixing rod is fixedly arranged above the connecting rod, and one end of the fixing rod is fixedly connected to the bottom of the collecting box.

As a preferred embodiment of the invention, the first turnover mechanism comprises a first floating plate, the first floating plate is arranged on one side wall opposite to the inner cavity of the baffle plate and the collecting box in a sealing way, first rotating shafts are fixedly penetrated through two opposite side walls of the first floating plate, first bearings are arranged on two opposite side walls of the first rotating shafts, the two first bearings are respectively arranged on the inner wall of the collecting box, and a conical mounting plate is fixedly arranged above the baffle plate.

As a preferred embodiment of the invention, the second turnover mechanism comprises two second floating plates, the two second floating plates are mutually symmetrical, the two second floating plates are respectively attached to the rear side of the conical mounting plate, second rotating shafts are fixedly arranged on two opposite sides of the two second floating plates, second bearings are arranged on two opposite side walls of the two second rotating shafts, four second bearings are respectively arranged on one opposite side wall of the blocking plate and the storage box, two mutually symmetrical torsion springs are respectively arranged on the two second rotating shafts, and two ends of each torsion spring are respectively arranged on one opposite side wall of the second bearing and the second floating plate.

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

According to the invention, when the collecting box moves downwards, the collecting box can be driven to enter water, so that the first floating plate can be pushed to open under the assistance of the first rotating shaft and enter the collecting box, and the second floating plate arranged in the collecting box can be opened under the assistance of the second rotating shaft under the impact force of water, so that floating matters entering the collecting box at first can enter the collecting box to be collected, when the second crushing rod rotates for one circle, the second crushing rod can extrude the rectangular inserting plate to move upwards, and when the rectangular inserting plate moves upwards, the circular mounting plate can be pushed to move upwards, so that the circular mounting plate can drive the moving rod to move upwards, and when the moving rod moves upwards, the circular mounting plate can be pushed to move upwards, so that the collecting box is positioned above in boiled water, and the floating matters generated after the sludge in the water in the sludge pool body are crushed can be collected, and the floating matters can be cleaned to a certain extent.

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a schematic perspective view of an acid leaching tank of hazardous waste sludge;

FIG. 2 is a schematic side view of an acid leaching tank of hazardous waste sludge;

FIG. 3 is a schematic diagram of a cross-sectional structure of a sludge tank body of a hazardous waste sludge pickling tank;

FIG. 4 is a schematic diagram of a partial structure of a cross section of a sludge tank body of a hazardous waste sludge pickling tank;

FIG. 5 is a schematic cross-sectional view of an acid leaching tank of hazardous waste sludge;

FIG. 6 is a schematic diagram of a cross-sectional partial (one) structure of a hazardous waste sludge pickling tank;

FIG. 7 is a schematic diagram of a cross-sectional partial (second) structure of a hazardous waste sludge pickling tank;

FIG. 8 is a schematic diagram of a collection unit structure of a hazardous waste sludge pickling tank;

FIG. 9 is a schematic cross-sectional view of a collection unit of the hazardous waste sludge pickling tank;

FIG. 10 is a schematic diagram of the structure of the inner cavity of a collection unit of the hazardous waste sludge pickling tank;

FIG. 11 is an enlarged schematic view of the structure of the hazardous waste sludge pickling tank at A in FIG. 4;

FIG. 12 is an enlarged schematic view of the structure of the hazardous waste sludge pickling tank at B in FIG. 6;

Fig. 13 is an enlarged structural schematic diagram of the structure at C in fig. 7 of a hazardous waste sludge pickling tank.

In the figure:

100. Sludge tank installation units, 101, sludge tank bodies, 1011, supporting legs, 1012, installation plates, 1013, conical plates, 1014, round notches, 1015, round through holes, 1016, round sealing cylinders, 102, first stirring rods, 1021, second stirring rods, 1022, rectangular notches;

200. the device comprises a transmission unit, 201, a motor, 2011, a rotating rod, 2012, a stirring cylinder, 2013, a circular sleeve, 2014, a supporting rod, 202, a first bevel gear, 2021, a second bevel gear, 2023, a rotating rod, 2024, a third bevel gear, 2025, a first crushing rod, 2026, a second crushing rod, 203, a rectangular plugboard, 2031, a rectangular plugboard, 2032, an inclined opening, 2033, a chute, 2034, a sliding block, 2035, a circular mounting plate, 2036, a return spring, 2037, a moving rod, 204, a rectangular sleeve, 2041, a connecting rod, 2042, a scraping plate, 2043 and a fixed rod;

300. The collecting unit comprises a collecting unit body 301, a collecting box body 3011, a containing box body 3012, a filtering hole 3013, a cover plate 3014, a handle 3015, a rectangular groove 3016, a semicircular notch 3017, a conical mounting plate 3018, a blocking plate 302, a first floating plate 3021, a first bearing 3022, a first rotating shaft 303, a second floating plate 3031, a second bearing 3032, a second rotating shaft 3033 and a torsion spring.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and the following embodiments are used to illustrate the present invention.

Example 1:

As shown in fig. 1 to 13, a hazardous waste sludge pickling tank includes a sludge tank installation unit 100, a transmission unit 200 and a collection unit 300,

The sludge tank installation unit 100 comprises a sludge tank body 101, wherein a conical plate 1013 is fixedly arranged at the bottom of the inner cavity of the sludge tank body 101, two mutually symmetrical supporting legs 1011 are arranged on the outer side wall of the sludge tank body 101, an installation plate 1012 is arranged above the two supporting legs 1011, and a circular notch 1014 is formed in the middle of the bottom of the inner cavity of the conical plate 1013;

The transmission unit 200 comprises a motor 201, the motor 201 is arranged at the bottom of a mounting plate 1012, the output end of the motor 201 is positioned at one end far away from the mounting plate 1012, a rotary rod 2011 is fixedly arranged at the output end of the motor 201, a stirring barrel 2012 is fixedly arranged on the rotary rod 2011, one end of the stirring barrel 2012 far away from the motor 201 is rotationally connected to the inner wall of a circular notch 1014, two first stirring rods 102 and second stirring rods 1021 are fixedly arranged on the outer side wall of the stirring barrel 2012, two first stirring rods 102 and two second stirring rods 1021 are mutually symmetrical, a cavity is formed in the stirring barrel 2012, a transmission mechanism is arranged in the stirring barrel 2012, the transmission mechanism comprises a first bevel gear 202, a second bevel gear 2021 and a third bevel gear 2024, a plurality of first crushing rods 2025 and a second crushing rod 2026 which are distributed at equal intervals are arranged on the opposite sides of the first stirring rods 102 and the second stirring rods 1021, two second crushing rods 2026 are respectively positioned on one side wall far away from the stirring barrel 2012, rectangular notches 1022 are formed in the second stirring rods 1021 respectively, two rectangular stirring rods 1022 are formed in the upper ends of the second stirring rods 1021, two rectangular stirring rods 2026 are fixedly arranged on the two second stirring rods 2026, two rectangular stirring rods 2023 are fixedly arranged on the two second stirring rods 2023 and rotate the first stirring rods 2023 and rotate the second stirring rods 2026, and rotate the first stirring rods 2026, and rotate the two stirring rods 2012, and are fixedly arranged, and rotate the first stirring rods and rotate and are correspondingly, and are driven by the first stirring rods and rotate and are correspondingly;

The collecting unit 300 comprises two collecting boxes 301, two storage boxes 3011 are arranged above the two collecting boxes 301 in a penetrating manner, a blocking plate 3018 is fixedly arranged between the collecting boxes 301 and the storage boxes 3011, a first turnover mechanism is arranged on one side wall of the blocking plate 3018 opposite to the collecting boxes 301, a second turnover mechanism is arranged in an inner cavity of the storage boxes 3011 above the blocking plate 3018, rectangular grooves 3015 are respectively formed in one side wall of the two collecting boxes 301, a plurality of filter holes 3012 which are distributed at equal intervals are formed in one side wall, far away from the rectangular grooves 3015, of the two collecting boxes 301, cover plates 3013 are arranged above the two storage boxes 3011, handles 3014 are arranged above the two cover plates 3013, semicircular grooves 3016 are respectively formed in one side wall opposite to the two collecting boxes 301, the two semicircular grooves 3016 are symmetrical to each other, and the two semicircular grooves 3016 are respectively matched with the rotating rods 2011. When the collection box 301 moves downwards, the collection box 3011 can be driven to enter water at this moment, so that the first floating plate 302 can be pushed to open under the assistance of the first rotating shaft 3022 and enter the collection box 3011, at this moment, the second floating plate 303 arranged in the collection box 3011 can be opened under the assistance of the second rotating shaft 3032 under the impact force of water, so that the floating matters entering the collection box 301 at the beginning can enter the collection box 3011 to be collected, when the second crushing rod 2026 rotates for one circle, the rectangular inserting plate 203 can be extruded to move upwards, the circular mounting plate 2035 can be pushed to move upwards when the rectangular inserting plate 203 moves upwards, so that the circular mounting plate 2035 can drive the moving rod 2037 to move upwards, and when the moving rod 2037 moves upwards, the second floating plate 303 can be pushed to move upwards, so that the floating matters generated in the water in the collection box 3011 can be located above, so that the floating matters in the water in the sludge pool body 101 can be crushed, and the floating matters can be cleaned to a certain extent.

As shown in fig. 1 to 7 and 11, in a specific embodiment, a rotary rod 2011 is sleeved with a circular sleeve 2013 in an inner cavity of a stirring barrel 2012, four support rods 2014 installed in a circumferentially distributed manner are fixedly installed at the bottom of the circular sleeve 2013, and one ends, far away from the circular sleeve 2013, of the four support rods 2014 are fixedly connected to a circular notch 1014 respectively. In this setting, the mounted position of bull stick 2011 has been confirmed, has guaranteed when bull stick 2011 rotates, and it can drive the churn 2012 and rotate this moment, has confirmed the mounted position of circular sleeve 2013 and bracing piece 2014 simultaneously.

As shown in fig. 1 to 7 and 11, further, the side wall of the circular sleeve 2013 is provided with a circular through hole 1015, the inner cavities of the two circular through holes 1015 are fixedly provided with circular sealing drums 1016, and a rotating rod 2023 is movably penetrated between the two circular sealing drums 1016. In this arrangement, the opening position of the circular through hole 1015 and the installation position of the circular sealing cylinder 1016 are determined.

As shown in fig. 1 to 7 and 11, further, the first bevel gear 202 is fixedly sleeved on the circular sleeve 2013, the first bevel gear 202 is respectively and vertically engaged with and provided with a second bevel gear 2021 and a third bevel gear 2024, the second bevel gear 2021 and the third bevel gear 2024 are symmetrical to each other, and opposite side walls of the second bevel gear 2021 and the third bevel gear 2024 are respectively and fixedly connected with a rotating rod 2023. In this setting, guaranteed that when the churn 2012 rotated it can drive two rotary rods 2023 and rotate along with it, use along with rotating when two rotary rods 2023, fixed mounting's second bevel gear 2021 and third bevel gear 2024 are the circumference and move on two rotary rods 2023 this moment, consequently can let second bevel gear 2021 and third bevel gear 2024 walk on first bevel gear 202.

As shown in fig. 1 to 7 and 11, further, one end of each of the two rotating rods 2023 far from the mixing drum 2012 is fixedly connected with a plurality of first crushing rods 2025 which are equidistantly distributed, and opposite ends of the two rotating rods 2023 are fixedly provided with second crushing rods 2026 on a side wall of the first crushing rods 2025 which is opposite to the farthest end of the mixing drum 2012. In this setting, guaranteed to walk on first bevel gear 202 when second bevel gear 2021 and third bevel gear 2024, two rotary rods 2023 at this moment can rotate, so rotary rod 2023 can drive second broken pole 2026 and first broken pole 2025 and rotate, broken the condition of mud caking has been reduced to a certain extent to the large scale mud.

Example 2:

Based on the difference between the embodiment and the embodiment, as shown in fig. 1 to 7, 12 and 13, a sliding mechanism is arranged in the inner cavities of the two rectangular plug-in cylinders 2031, the sliding mechanism comprises four sliding grooves 2033, the four sliding grooves 2033 are respectively arranged on the inner walls of the rectangular plug-in cylinders 2031, the four sliding grooves 2033 are symmetrical to each other, sliding blocks 2034 are respectively arranged in the inner cavities of the four sliding grooves 2033 in a sliding manner, the four sliding blocks 2034 are symmetrical to each other, and a round mounting plate 2035 is arranged above the four sliding blocks 2034. The mounting position and the component parts of the sliding mechanism are determined, and it is ensured that the circular mounting plate 2035 can be moved up and down horizontally with the aid of the sliding mechanism.

As shown in fig. 1 to 7 and 12 and fig. 13, in a specific embodiment, the bottoms of the two circular mounting plates 2035 are fixedly provided with rectangular plug boards 203, the two rectangular plug boards 203 respectively movably penetrate through the rectangular notch 1022, two mutually symmetrical inclined ports 2032 are respectively formed at one ends of the two rectangular plug boards 203, which are respectively close to the second crushing rod 2026, the moving rods 2037 are fixedly provided above the two circular mounting plates 2035, the two moving rods 2037 respectively movably penetrate through the upper parts of the two rectangular plug cylinders 2031, the upper parts of the two circular mounting plates 2035 are fixedly provided with return springs 2036, the other ends of the two return springs 2036 are fixedly connected to the inner wall of the rectangular plug cylinders 2031, and the other ends of the moving rods 2037 are fixedly connected to the bottom of the collecting box 301. In this setting, it is ensured that when the second crushing rod 2026 rectangular plugboard 203 is separated, the return spring 2036 will be able to press the circular mounting plate 2035 to move downward under the assistance of the sliding mechanism under the elastic action, so that the rectangular plugboard 203 can move downward, when the circular mounting plate 2035 moves downward, the circular mounting plate 2035 will be able to drive the moving rod 2037 to move downward, and when the moving rod 2037 moves downward, it can drive the collection box 301 to move downward at this time.

Example 3:

based on the difference between the above embodiment and the present embodiment, as shown in fig. 1 to 9, 12 and 13, a hazardous waste sludge pickling tank is provided, a moving rod 2037 is sleeved with a rectangular sleeve 204, a side wall of the rectangular sleeve 204 is fixedly provided with a connecting rod 2041, one end of the connecting rod 2041 far away from the moving rod 2037 is fixedly connected with a scraper 2042, the scraper 2042 is movably and snugly connected to the inner wall of the sludge tank body 101, a fixing rod 2043 is fixedly installed above the connecting rod 2041, and one end of the fixing rod 2043 is fixedly connected to the bottom of the collecting box 301. It is guaranteed that when the second stirring rod 1021 rotates, at this time, the second stirring rod 1021 can drive the rectangular plug-in cylinder 2031 to rotate, so the rectangular plug-in cylinder 2031 can drive the moving rod 2037 to rotate, and when the moving rod 2037 rotates, the moving rod 2031 can drive the scraping plate 2042 to clean sludge adsorbed on the inner wall of the sludge pond body 101 through the connecting rod 2041, so that the inner wall of the sludge pond body 101 is guaranteed to be free of sludge.

As shown in fig. 1 to 10 and 12 and fig. 13, in a specific embodiment, the first turning mechanism includes a first floating plate 302, the first floating plate 302 is mounted on opposite side walls of the inner cavity of the blocking plate 3018 and the collecting box 301 in a sealing manner, two opposite side walls of the first floating plate 302 fixedly penetrate through a first rotating shaft 3022, two opposite side walls of the first rotating shaft 3022 are respectively provided with a first bearing 3021, two first bearings 3021 are respectively mounted on the inner wall of the collecting box 301, and a conical mounting plate 3017 is fixedly mounted above the blocking plate 3018. In this arrangement, the mounting position and the components of the first tilting mechanism are determined, ensuring that when the first floating plate 302 is acted upon by water, the water can then push the first floating plate 302 open with the aid of the first swivel 3022.

As shown in fig. 1 to 10 and 12 and fig. 13, the second turning mechanism further includes two second floating plates 303, the two second floating plates 303 are symmetrical to each other, the two second floating plates 303 are respectively attached to the rear side of the conical mounting plate 3017, two opposite sides of the two second floating plates 303 are fixedly provided with second rotating shafts 3032, two opposite side walls of the two second rotating shafts 3032 are respectively provided with second bearings 3031, four second bearings 3031 are respectively installed on opposite side walls of the blocking plate 3018 and the storage box 3011, two torsion springs 3033 which are symmetrical to each other are respectively arranged on the two second rotating shafts 3032, and two ends of each torsion spring 3033 are respectively arranged on opposite side walls of the second bearings 3031 and the second floating plates 303. In this setting, it is ensured that the second floating plate 303 provided in the storage box 3011 when water enters will be able to open under the force of impact of water with the aid of the second rotating shaft 3032, so that the floats initially entering the collection box 301 can enter the storage box 3011 to be collected.

The implementation principle of the hazardous waste sludge pickling tank in the embodiment is as follows:

Firstly, a worker pours the adaptive acid liquor into the inner cavity of the sludge tank body 101, and simultaneously, the worker controls the motor 201 to rotate through the controller, and when the motor 201 rotates, the motor 201 can drive the rotating rod 2011 to rotate;

When the rotating rod 2011 rotates, the rotating rod 2011 can drive the stirring barrel 2012 to rotate, and when the stirring barrel 2012 rotates, the stirring barrel 2012 can drive the first stirring rod 102 and the second stirring rod 1021 to rotate so as to stir the injected acid liquid and the sludge, so that the acid liquid can better acidolysis the sludge, and the acidolysis efficiency is higher;

Meanwhile, when the mixing drum 2012 rotates, the two rotating rods 2023 can be driven to rotate, when the two rotating rods 2023 rotate, the second bevel gear 2021 and the third bevel gear 2024 fixedly installed on the two rotating rods 2023 move circumferentially, so that the second bevel gear 2021 and the third bevel gear 2024 can walk on the first bevel gear 202, the two rotating rods 2023 can rotate at the moment, and the rotating rods 2023 can drive the second crushing rod 2026 and the first crushing rod 2025 to rotate, so that sludge is crushed, and large sludge caking in the sludge pool body 101 is avoided to a certain extent;

When the second crushing rod 2026 is separated from the rectangular plugboard 203, the return spring 2036 can press the circular mounting plate 2035 to move downwards under the assistance of the sliding mechanism under the elastic action, so that the rectangular plugboard 203 can move downwards and the circular mounting plate 2035 is driven to move downwards, at this time, the circular mounting plate 2035 can drive the moving rod 2037 to move downwards, and at this time, the moving rod 2037 can drive the collection box 301 to move downwards;

When the collecting box 301 moves downwards, the collecting box 301 can drive the collecting box 3011 to enter water, so that the first floating plate 302 can be pushed to open under the action of the water under the assistance of the first rotating shaft 3022 and enter the collecting box 3011, and the second floating plate 303 arranged in the collecting box 3011 can be opened under the assistance of the second rotating shaft 3032 under the impact force of the water, so that the floating matters entering the collecting box 301 can enter the collecting box 3011 to be collected;

Meanwhile, when the second crushing rod 2026 rotates for one circle, the second crushing rod 2026 can extrude the rectangular plugboard 203 to move upwards, and the rectangular plugboard 203 can push the round mounting plate 2035 to move upwards when moving upwards, so that the round mounting plate 2035 can drive the moving rod 2037 to move upwards, and when the moving rod 2037 moves upwards, the second crushing rod 2026 can push the collecting box 301 to move upwards, so that the boiled water in the collecting box 3011 is positioned above, and the above movements are repeated, so that floating matters generated after the sludge in the water in the sludge tank body 101 is crushed can be collected, and the floating matters can be cleaned to a certain extent;

when the second stirring rod 1021 rotates, the second stirring rod 1021 can drive the rectangular plug-in cylinder 2031 to rotate at this time, so the rectangular plug-in cylinder 2031 can drive the moving rod 2037 to rotate, and when the moving rod 2037 rotates, the moving rod 2037 can drive the scraping plate 2042 to clean the sludge adsorbed on the inner wall of the sludge pond body 101 through the connecting rod 2041.

Claims

1. A hazardous waste sludge acid leaching tank, comprising a sludge tank installation unit (100), a transmission unit (200) and a collection unit (300), characterized in that:

The sludge pool installation unit (100) comprises a sludge pool body (101), a conical plate (1013) is fixedly installed at the bottom of the inner cavity of the sludge pool body (101), two mutually symmetrical supporting legs (1011) are arranged on the outer side wall of the sludge pool body (101), a mounting plate (1012) is installed above the two supporting legs (1011), and a circular notch (1014) is opened in the middle of the inner cavity bottom of the conical plate (1013);

The transmission unit (200) comprises a motor (201), the motor (201) being mounted at the bottom of a mounting plate (1012), the output end of the motor (201) being located at an end away from the mounting plate (1012), the output end of the motor (201) being fixedly mounted with a rotating rod (2011), a mixing drum (2012) being fixedly mounted on the rotating rod (2011), the end of the mixing drum (2012) away from the motor (201) being rotatably connected to the inner wall of a circular notch (1014), two first mixing rods (102) and a second mixing rod (1021) being fixedly mounted on the outer wall of the mixing drum (2012), the two first mixing rods (102) and the two second mixing rods (1021) being symmetrical to each other, a cavity being provided in the mixing drum (2012), a transmission mechanism being arranged in the mixing drum (2012), the transmission mechanism comprising a first bevel gear (202), a second bevel gear (2021) and a third bevel gear (2021). bevel gear (2024), a rotating rod (2023) is fixedly connected to the side wall opposite to the second bevel gear (2021) and the third bevel gear (2024), a plurality of first crushing rods (2025) and a second crushing rod (2026) are arranged on the side opposite to the first stirring rod (102) and the second stirring rod (1021), the two second crushing rods (2026) are respectively located on the side wall away from the stirring drum (212), a rectangular notch (1022) is provided on the second stirring rod (1021) located at the upper end of the two second crushing rods (2026), a rectangular plug-in barrel (2031) is fixedly installed above the two second stirring rods (1021), the stirring drum (212) rotates to drive the two rotating rods (223) to rotate accordingly, and the rotating rod (223) drives the second crushing rod (2026) and the first crushing rod (2025) to rotate, so as to crush large pieces of sludge;

The inner cavities of the two rectangular plug-in tubes (2031) are provided with a sliding mechanism, the sliding mechanism comprising four slide grooves (2033), the four slide grooves (2033) are respectively provided on the inner wall of the rectangular plug-in tube (2031), the four slide grooves (2033) are symmetrical to each other, the inner cavities of the four slide grooves (2033) are all slidably installed with a slider (2034), the four sliders (2034) are symmetrical to each other, and a circular mounting plate (2035) is installed above the four sliders (2034);

The collection unit (300) comprises two collection boxes (301), two storage boxes (3011) are arranged through the top of the two collection boxes (301), a blocking plate (3018) is fixedly installed between the collection box (301) and the storage box (3011), a first turning mechanism is arranged on a side wall opposite to the blocking plate (3018) and the collection box (301), a second turning mechanism is installed in the inner cavity of the storage box (3011) above the blocking plate (3018), and a rectangular groove (3018) is respectively opened on one side wall of the two collection boxes (301). 15), a plurality of equidistantly distributed filtering holes (3012) are provided on one side wall of the two collecting boxes (301) respectively away from the rectangular groove (3015), a cover plate (3013) is provided above the two storage boxes (3011), a handle (3014) is installed above the two cover plates (3013), and a semicircular notch (3016) is provided on one side wall opposite to the two collecting boxes (301), the two semicircular notches (3016) are symmetrical to each other, and the two semicircular notches (3016) respectively fit with the rotating rod (2011);

A rectangular plug-in plate (203) is fixedly installed at the bottom of the two circular mounting plates (2035), and the two rectangular plug-in plates (203) are respectively movably inserted into the rectangular slot (1022). Two symmetrical inclined openings (2032) are respectively provided at one end of the two rectangular plug-in plates (203) close to the second crushing rod (2026). A moving rod (2037) is fixedly installed above the two circular mounting plates (2035), and the two moving rods (2037) are respectively movably inserted into the tops of the two rectangular plug-in tubes (2031). A reset spring (2036) is also fixedly installed above the two circular mounting plates (2035), and the other ends of the two reset springs (2036) are fixedly connected to the inner wall of the rectangular plug-in tube (2031), and the other ends of the moving rods (2037) are fixedly connected to the bottom of the collection box (301);

A rectangular sleeve (204) is sleeved on the movable rod (2037), a connecting rod (2041) is fixedly mounted on one side wall of the rectangular sleeve (204), one end of the connecting rod (2041) away from the movable rod (2037) is fixedly connected to a scraper (2042), the scraper (2042) is movably connected to the inner wall of the sludge tank body (101), a fixing rod (2043) is fixedly mounted above the connecting rod (2041), and one end of the fixing rod (2043) is fixedly connected to the bottom of the collecting box (301).

2. A hazardous waste sludge acid leaching tank according to claim 1, characterized in that the rotating rod (2011) is sleeved with a circular sleeve (2013) in the inner cavity of the mixing drum (2012), and four support rods (2014) installed in a circumferential distribution are fixedly installed at the bottom of the circular sleeve (2013), and one end of the four support rods (2014) away from the circular sleeve (2013) is fixedly connected to the circular groove (1014).

3. A hazardous waste sludge acid leaching tank according to claim 2, characterized in that a circular through hole (1015) is penetrated through the side wall of the circular sleeve (2013), a circular sealing cylinder (1016) is fixedly installed in the inner cavity of two of the circular through holes (1015), and a rotating rod (2023) is movably penetrated in the middle of the two circular sealing cylinders (1016).

4. A hazardous waste sludge acid leaching tank according to claim 3, characterized in that the first bevel gear (202) is fixedly sleeved on the circular sleeve (2013), and the second bevel gear (2021) and the third bevel gear (2024) are respectively mounted vertically meshing on the first bevel gear (202), and the second bevel gear (2021) and the third bevel gear (2024) are symmetrical to each other.

5. A hazardous waste sludge acid leaching tank according to claim 4, characterized in that the two rotating rods (2023) are respectively fixedly connected to a plurality of first crushing rods (2025) arranged at equal intervals at one end away from the mixing drum (212), and the opposite ends of the two rotating rods (2023) are fixedly installed with second crushing rods (2026) on the side wall opposite to the farthest end of the first crushing rod (2025) from the mixing drum (212).

6. A hazardous waste sludge acid leaching tank according to claim 1, characterized in that the first turning mechanism comprises a first floating plate (302), the first floating plate (302) is sealed and mounted on a side wall opposite to the inner cavity of the blocking plate (3018) and the collecting box (301), a first rotating shaft (3022) is fixedly passed through the opposite side walls of the first floating plate (302), the opposite side walls of the first rotating shaft (3022) are both provided with first bearings (3021), two first bearings (3021) are respectively mounted on the inner wall of the collecting box (301), and a conical mounting plate (3017) is fixedly mounted above the blocking plate (3018).

7. A hazardous waste sludge acid leaching tank according to claim 1, characterized in that the second turning mechanism comprises two second floating plates (303), the two second floating plates (303) are symmetrical to each other, the two second floating plates (303) are respectively arranged on the rear side of the conical mounting plate (3017), the two opposite sides of the two second floating plates (303) are fixedly mounted with second rotating shafts (3032), the two opposite side walls of the two second rotating shafts (3032) are respectively arranged with second bearings (3031), the four second bearings (3031) are respectively mounted on the opposite side wall of the blocking plate (3018) and the storage box (3011), two mutually symmetrical torsion springs (3033) are respectively arranged on the two second rotating shafts (3032), and the two ends of each torsion spring (3033) are respectively arranged on the opposite side wall of the second bearing (3031) and the second floating plate (303).