CN116116297A - Dangerous waste salt dissolving device - Google Patents

Abstract

The invention provides a dangerous waste salt dissolving device, and belongs to the technical field of waste salt treatment devices. The device comprises a tank body assembly, a crushing assembly, a linkage dispersing assembly, a linkage stirring assembly and a linkage exhaust assembly, wherein a first partition plate and a second partition plate are arranged in a main tank body from right to left; and exhaust fan in the exhaust chamber still is connected with rotatory cam transmission, can inhale outside exhaust treatment equipment with the waste gas that produces in the dissolution, and still revolves in the top of first baffle and second baffle and be equipped with filter unit, can realize the filtration to impurity, be convenient for clear up again.

Description

Dangerous waste salt dissolving device

Technical Field

The invention relates to the technical field of hazardous waste salt treatment devices, in particular to a hazardous waste salt dissolving device.

Background

The treatment technology of hazardous waste salt is one of the difficulties in the current hazardous waste treatment field, and the recycling treatment technology represented by heat treatment is becoming a research hotspot in the field. The heat treatment technology of high-salt organic waste liquid such as waste liquid incineration, evaporation crystallization, pyrolysis gasification and the like is currently the main stream hazardous waste salt treatment technology in China.

After the dangerous waste salt is crystallized, dissolving treatment is needed to form a solution, impurities in the solution are removed, and the high-temperature molten waste salt dissolving device disclosed in the prior art (CN 112588136A) comprises a dissolving tank, a circulating water pipe and a filtering mechanism, wherein the circulating water pipe comprises a U-shaped filtering and adsorbing section, one end of the filtering and adsorbing section is provided with a feeding port, and the bottom of the filtering and adsorbing section is provided with a water draining port; the filter mechanism is arranged in the filter adsorption section and comprises a filter screen, a rotary pushing unit and a plugging unit, the filter screen is rotationally arranged in the filter adsorption section, the rotary pushing unit comprises a rotary block, a connecting rod and an annular block, the rotary block is connected with the annular block through the connecting rod, the rotary block and the annular block are positioned on two sides of the filter screen, a plurality of inclined holes are formed in the rotary block, and an annular groove is formed in the outer side wall of the annular block; the plugging unit comprises a plugging plate, the plugging plate is slidably arranged at the water drain, a clamping block is fixed on the plugging plate, the clamping block is rotatably arranged in the annular groove, and the service efficiency of the filter element can be improved to a certain extent.

In the process of dissolving the hazardous waste salt, the hazardous waste salt powder entering the dissolving tank cannot be uniformly dispersed into water, and the defect of low dissolving efficiency exists; meanwhile, the massive dangerous waste salt is crushed by special equipment and then is transferred into a dissolving tank, and the defect of low operation efficiency exists.

Disclosure of Invention

Aiming at the technical problems, the invention provides a dangerous waste salt dissolving device which comprises a tank body assembly, a crushing assembly, a linkage dispersing assembly, a linkage stirring assembly and a linkage exhaust assembly, wherein the crushing assembly comprises a crushing cylinder, the linkage dispersing assembly comprises a dispersing net and a rotating cam, the linkage stirring assembly comprises a stirring shaft, and the linkage exhaust assembly comprises a connecting wheel;

the crushing cylinder is positioned at the right end above the main body of the pool body assembly, a crushing rotary column is vertically arranged in the crushing cylinder in a rotary way, a rotatable driving bevel gear is arranged at the front side of the crushing cylinder and is in transmission connection with the crushing rotary column, the dispersing net is slidingly arranged below an outlet at the bottom end of the crushing cylinder in the front-back direction, a rotary cam is in transmission connection with the lower side of the driving bevel gear, an eccentric shaft is connected at the eccentric position of the lower end of the rotary cam, a connecting rod is rotationally connected in the eccentric shaft, the other end of the connecting rod is fixedly provided with a reciprocating shaft, the reciprocating shaft is connected to the front side of the dispersing net in a rotating mode, the stirring shaft is fixedly connected to the bottom end of the reciprocating shaft and stretches into the inner cavity of the pool body assembly, the connecting wheel is fixedly connected to the bottom end of the eccentric shaft, the connecting wheel is coaxial with the rotating cam, an exhaust cavity is arranged in the middle position of the front side of the pool body assembly body, and an exhaust fan is transversely arranged in the exhaust cavity in a rotating mode and is in transmission connection with the connecting wheel.

The inside of a main tank body of a square structure in the tank body assembly is transversely connected with a first partition plate and a second partition plate in sequence from right to left, the front end of the lower left wall of the main tank body is provided with a liquid outlet, the front end of the lower right wall of the main tank body is provided with a liquid return port, a circulating pipe is connected between the liquid outlet and the liquid return port, and a circulating pump is arranged in a main pipeline of the circulating pipe;

a main controller is also arranged and fixed on the front side wall of the main tank body, and the circulating pump is electrically connected with the main controller;

the front end still is connected with the inlet tube on the right wall of main cell body, install and be connected with the water intaking valve in the inlet tube, the intermediate position of main cell body right wall still is connected with into the pencil, install in the pencil and be connected with into the pencil and advance the pencil, the right wall lower rear end of main cell body still is connected with the fluid-discharge tube, install in the fluid-discharge tube and be connected with the fluid-discharge valve, just water intaking valve, pencil and fluid-discharge valve all with the main control unit electricity federation. The two groups of outer vertical plates in the crushing assembly are symmetrically and fixedly connected to the right top ends of the front and rear outer walls of the main tank body, the right top ends of the front and rear outer walls of the main tank body are fixedly connected with inner vertical plates, the two groups of inner vertical plates are positioned on the left sides of the two groups of outer vertical plates, the top ends of the two groups of inner vertical plates and the top ends of the two groups of outer vertical plates are transversely and fixedly connected with vertical connecting plates, the outer wall of the lower end of the crushing cylinder is fixedly connected with a cylinder seat, and the bottom surface of the cylinder seat is fixedly connected to the top ends of the two groups of vertical connecting plates;

the crushing device comprises a crushing cylinder, a crushing rotary seat, a driving motor, a main controller, a driving bevel gear, a driving motor and a bevel gear driving bevel gear, wherein a cylinder cover is covered and connected at an opening at the top end of the crushing cylinder, a feeding opening is connected at the right end of the top surface of the cylinder cover, the feeding opening is communicated with the inner cavity of the crushing cylinder, a crushing rotary seat is arranged at the middle position of the top surface of the cylinder cover, the shaft top end of the crushing rotary seat is communicated with the crushing rotary seat, a rotary motor is fixedly connected in the crushing rotary seat in a sleeved mode, the driving motor is fixedly connected with the inner cavity of the crushing cylinder in a rotary mode, the top end of the crushing rotary column is fixedly connected with the crushing rotary belt wheel, the driving bevel gear is fixedly connected in the bevel gear of the driving motor in a rotary bevel gear of the driving motor in a sleeved mode, and the driving bevel gear is meshed with the driving bevel gear;

and the crushing cylinder is positioned in the middle of the first partition plate and the right inner wall of the main tank body.

Two groups of outer shaft seats in the linkage dispersion assembly are coaxially arranged in the two groups of outer vertical plates front and back, inner shaft seats are coaxially arranged in the two groups of inner vertical plates front and back, sliding shafts are inserted in the two groups of outer shaft seats and the inner shaft seats which are coaxial front and back, sliding blocks are connected to the same position in each group of sliding shafts in a sliding manner, a dispersion frame is connected between the sliding blocks distributed left and right in a plurality of groups, and a dispersion net is connected in the dispersion frame;

the lower side of the driving bevel gear is meshed with a dispersion connection bevel gear, a dispersion rotating seat is arranged on the coaxial position of the bottom surface of the driving vertical plate and the dispersion connection bevel gear, a dispersion rotating shaft is connected in the dispersion rotating seat in a penetrating and rotating way, the dispersion connection bevel gear is fixedly inserted at the upper end of the dispersion rotating shaft, and the center of the rotating cam is fixedly connected at the lower end of the dispersion rotating shaft;

the middle position of the front side of the dispersion frame is fixedly connected with a reciprocating seat, and the reciprocating shaft is communicated with the reciprocating seat in a rotating way;

the stirring fan with the S-shaped structure is vertically and fixedly connected to the rear end of the stirring shaft in the linkage stirring assembly, and the medicine feeding pipe is positioned at a position opposite to the stirring fan.

The bottom end of the connecting wheel in the linkage exhaust assembly is coaxially and fixedly connected with an exhaust driving shaft, the bottom end of the exhaust driving shaft is fixedly connected with an exhaust bevel gear in an inserting way, the left side of the exhaust bevel gear is meshed with an exhaust connecting bevel gear, the front end of a group of inner vertical plates on the front side is fixedly connected with a transverse shaft seat at the position coaxial with the exhaust connecting bevel gear, the transverse shaft seat is rotationally connected with a transverse shaft, the exhaust connecting bevel gear is fixedly connected with the right shaft end of the transverse shaft in an inserting way, the rear side main body of the exhaust cavity is fixedly connected to the front side surface of the main tank body, an exhaust internal rotation seat is fixedly connected to the position, coaxial with the transverse shaft, of the left end cavity wall of the exhaust cavity, an exhaust external rotation seat is arranged on the position, coaxial with the exhaust internal rotation seat, of the right end cavity wall of the exhaust cavity, the left shaft end of the transverse shaft is rotatably connected to the exhaust internal rotation seat after being sealed and rotatably inserted into the cavity of the exhaust cavity from the exhaust external rotation seat, and the exhaust fan is fixedly inserted into the shaft of the transverse exhaust fan positioned in the cavity of the exhaust cavity;

the bottom end opening part of the exhaust cavity is connected with a bottom connecting cover, and the bottom connecting cover is connected with external waste gas treatment equipment.

The left side of the vertical connecting plates is also provided with a filter assembly, two groups of filter fixing seats in the filter assembly are fixedly connected to the left side of the vertical connecting plates at the left end in front and back, a filter main shaft is rotatably arranged between the two groups of filter fixing seats, the left end of the filter main shaft is connected with a filter frame body, a filter screen is arranged in an inner frame at the left side of the filter frame body, a group of filter screens are fixedly arranged at the front end of the left side of the vertical connecting plates, a turnover motor is fixedly arranged at the front end of the left side of the vertical connecting plates, the front shaft end of the filter main shaft penetrates through the front group of filter fixing seats at the front side and is connected to a rotating shaft of the turnover motor after being rotated out, the turnover motor is electrically connected with a main controller, and after the filter screen is turned down, the filter screen is just attached to an inclined plane formed by coplanarity at the top ends of a first baffle and a second baffle.

Further, the top of the first partition plate is higher than the top of the second partition plate, a neutral gear is arranged between the bottom of the first partition plate and the bottom surface of the inner cavity of the main tank body, and the top of the first partition plate and the top of the second partition plate are of coplanar inclined structures.

Further, the opening at the lower end of the crushing cylinder is of an inverted cone-shaped structure, so that the crushed hazardous waste salt powder can flow out conveniently.

Compared with the prior art, the dangerous waste salt dissolving device provided by the invention has the following advantages:

(1) According to the invention, the crushing assembly is arranged on the right side above the main tank body for dissolving dangerous waste salt, the massive dangerous waste salt can be crushed to form powder to fall into the main tank body, the driving bevel gear for driving the crushing rotary column to rotate is used as a basis, the linkage dispersion assembly in transmission connection with the driving bevel gear is further arranged at the lower end outlet of the crushing barrel, on one hand, the rotation of the crushing rotary column can be driven through the rotation of the driving bevel gear to crush massive dangerous waste salt, meanwhile, the driving bevel gear drives the dispersion net positioned at the lower side of the lower end outlet of the crushing barrel to reciprocate back and forth through the transmission mechanism, so that dangerous waste salt forming powder can not directly fall into water in the main tank body and can fall into the dispersion net which reciprocates back and forth, and the dangerous waste salt powder can be uniformly dispersed into water through the movement of the dispersion net, so that the uniformity and efficiency of dissolution are improved.

(2) Meanwhile, a linkage stirring assembly is arranged below the dispersing net, the stirring shaft is fixedly connected to the lower end of the reciprocating shaft, the connecting rod drives the dispersing net to reciprocate back and forth through the cooperation of the reciprocating shaft and the reciprocating seat, and meanwhile, the reciprocating shaft can drive the stirring shaft and the stirring fan to reciprocate left and right due to the left and right reciprocating rotation of the reciprocating shaft, so that water and dangerous waste salt in the main tank body can be stirred, and the dissolving process is accelerated again.

(3) The invention also provides a linkage exhaust assembly, and a power source exhaust fan for collecting the harmful gas is in transmission connection with a rotating cam, namely, when the dispersion net is driven to reciprocate back and forth and the stirring fan is driven to reciprocate left and right by a driving bevel gear, the rotation of the exhaust fan can be driven by a transmission mechanism, and the harmful gas can be recovered into waste gas treatment equipment through an exhaust cavity by aerodynamic force generated by the rotation of the exhaust fan.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic diagram of the whole structure of a hazardous waste salt dissolving device provided by the invention;

FIG. 2 is a schematic view of the structure of the cell body assembly of the present invention;

FIG. 3 is a schematic view of the structure of a first separator portion of the present invention;

FIG. 4 is a schematic view of the mounting structure of the crushing assembly of the present invention;

FIG. 5 is a schematic view of the structure of the inside of the crushing cylinder of the present invention;

FIG. 6 is a schematic view of the structure of the linkage dispersion assembly of the present invention;

FIG. 7 is a schematic view of a linkage stirring assembly of the present invention;

FIG. 8 is a schematic view of a linkage exhaust assembly of the present invention;

fig. 9 is a schematic view of the structure of the filter assembly of the present invention.

Reference numerals: 1. a tank assembly; 2. a crushing assembly; 3. a linkage dispersion assembly; 4. a linkage stirring assembly; 5. a linkage exhaust assembly; 6. a filter assembly; 101. a main tank body; 102. a first separator; 103. a second separator; 104. a liquid outlet; 105. a liquid return port; 106. a circulation pipe; 107. a circulation pump; 108. a main controller; 109. a water inlet pipe; 110. a water inlet valve; 111. a medicine inlet pipe; 112. a drug inlet valve; 113. a liquid discharge pipe; 114. a liquid discharge valve; 201. an outer vertical plate; 202. an inner vertical plate; 203. a vertical connecting plate; 204. a crushing cylinder; 205. a cylinder seat; 206. a cylinder cover; 207. a feed inlet; 208. crushing the rotary seat; 209. crushing the rotary column; 210. crushing belt wheels; 211. driving the vertical plate; 212. crushing a driving shaft rotating seat; 213. crushing a rotating shaft; 214. a crushing driving belt wheel; 215. a connecting belt; 216. rotating the bevel gear; 217. a driving motor; 218. driving a bevel gear; 301. an outer shaft seat; 302. an inner shaft seat; 303. a slide shaft; 304. a slide block; 305. a dispersion frame; 306. a dispersion net; 307. a bevel gear is connected in a dispersed manner; 308. a dispersion rotary seat; 309. a dispersion rotation shaft; 310. rotating the cam; 311. an eccentric shaft; 312. a connecting rod; 313. a reciprocating seat; 314. a reciprocating shaft; 401. a stirring shaft; 402. a stirring fan; 501. a fifth wheel; 502. exhausting and driving the shaft; 503. an exhaust bevel gear; 504. the exhaust is connected with a bevel gear; 505. a transverse axis; 506. a transverse shaft seat; 507. an exhaust chamber; 508. an internal rotating seat in exhaust; 509. an exhaust external rotating seat; 510. a bottom connecting cover; 511. an exhaust fan; 601. a filtering fixed seat; 602. a filtering main shaft; 603. a filter frame; 604. a filter screen; 605. and (5) turning over the motor.

Detailed Description

An example of a hazardous waste salt dissolving device provided by the invention is described below with reference to the accompanying drawings.

Embodiment one:

before the dangerous waste salt is dissolved, the water for dissolving in the main tank body 101, the addition of the adsorbent and the crushing work of the massive dangerous waste salt are shown in fig. 1, 2, 3 and 4, a crushing cylinder 204 in the crushing assembly 2 is positioned at the right end above the main body of the tank body assembly 1, a crushing rotary column 209 is vertically and spirally arranged in the crushing cylinder 204, a rotatable driving bevel gear 218 is arranged at the front side of the crushing cylinder 204, and the driving bevel gear 218 is in transmission connection with the crushing rotary column 209;

the inside of a main tank body 101 with a square structure in the tank body assembly 1 is sequentially and transversely connected with a first partition plate 102 and a second partition plate 103 from right to left, the front end of the lower left wall of the main tank body 101 is provided with a liquid outlet 104, the front end of the lower right wall of the main tank body 101 is provided with a liquid return port 105, a circulating pipe 106 is connected between the liquid outlet 104 and the liquid return port 105, a circulating pump 107 is arranged in a main pipeline of the circulating pipe 106, a main controller 108 is also arranged and fixed on the front side wall of the main tank body 101, the circulating pump 107 is electrically connected with the main controller 108, the front end of the right wall of the main tank body 101 is also connected with a water inlet pipe 109, a water inlet valve 110 is arranged and connected in the water inlet pipe 109, the middle position of the right wall of the main tank body 101 is also connected with a medicine inlet pipe 111, the lower rear end of the right wall of the main tank body 101 is also connected with a liquid discharge pipe 113, a liquid discharge valve 114 is arranged and connected in the liquid discharge pipe 113, and the main controller 108, the medicine inlet valve 112 and the liquid discharge valve 114 are electrically connected with the main controller 108;

the two groups of outer vertical plates 201 in the crushing assembly 2 are symmetrically and fixedly connected to the right top ends of the front and rear outer walls of the main tank body 101, the right top ends of the front and rear outer walls of the main tank body 101 are also fixedly connected with inner vertical plates 202, the two groups of inner vertical plates 202 are positioned on the left sides of the two groups of outer vertical plates 201, the top ends of the two groups of inner vertical plates 202 and the top ends of the two groups of outer vertical plates 201 are transversely and fixedly connected with vertical connecting plates 203, the outer walls of the lower ends of the crushing cylinders 204 are fixedly connected with cylinder seats 205, and the bottom surfaces of the cylinder seats 205 are fixedly connected to the top ends of the two groups of vertical connecting plates 203;

the top end opening of the crushing barrel 204 is covered and connected with a barrel cover 206, the right end of the top surface of the barrel cover 206 is connected with a feed inlet 207, the feed inlet 207 is communicated with the inner cavity of the crushing barrel 204, a crushing rotary seat 208 is arranged at the middle position of the top surface of the barrel cover 206, the shaft top end of the crushing rotary column 209 is communicated and rotatably connected in the crushing rotary seat 208, the main body of the crushing rotary column 209 is positioned in the inner cavity of the crushing barrel 204, the top shaft end of the crushing rotary column 209 is connected and fixedly connected with a crushing belt pulley 210, the front ends of two groups of vertical connecting plates 203 are jointly connected and fixedly connected with a driving riser 211, the top surface of the driving riser 211 is provided with a crushing rotary shaft 213, the top end of the crushing rotary shaft 213 is fixedly connected with a crushing driving belt pulley 214 in a sleeved mode, a connecting belt 215 is sleeved between the crushing rotary driving belt pulley 214 and the crushing rotary belt pulley 210, the bottom end of the crushing rotary shaft 213 is fixedly connected with a driving motor 217 and a main control bevel gear 108 in a sleeved mode, the driving bevel gear 218 is fixedly connected and fixedly connected in the shaft 216 of the driving motor 217 and rotatably meshed with the main control bevel gear 218;

the main controller 108 is used for opening the water inlet valve 110, so that external water enters the inner cavity of the main tank body 101 from the water inlet pipe 109, and the dissolved water entering the main tank body 101 can be filled from the right side to the left side of the main tank body 101 through a neutral gear between the lower end of the first partition plate 102 and the inner bottom surface of the main tank body 101 until the set value is reached, and then the water inlet valve 110 is closed;

at this time, the highest level of the dissolution water entering the inner cavity of the main tank body 101 does not exceed the top end of the second partition plate 103;

then opening the medicine inlet valve 112 to add the adsorption medicine for adsorbing impurities into the main tank body 101 through the medicine inlet pipe 111;

the main controller 108 is used for starting the driving motor 217, the massive dangerous waste salt is slowly added into the inner cavity of the crushing barrel 204 from the feed inlet 207, the driving bevel gear 218 is driven to rotate along with the starting of the driving motor 217, the driving bevel gear 218 and the rotating bevel gear 216 form matched transmission, the rotating bevel gear 216 drives the crushing driving belt pulley 214 to rotate coaxially through the crushing rotating shaft 213, the crushing driving belt pulley 214 drives the crushing belt pulley 210 to rotate through the connecting belt 215, and therefore the rapid rotation of the crushing rotating column 209 can be driven to crush the massive dangerous waste salt entering the inner cavity of the crushing barrel 204.

Embodiment two:

on the basis of the first embodiment, as shown in fig. 1, 2, 3, 4, 5, 6, 7 and 9, an example of the specific dissolving operation of the hazardous waste salt is realized in the invention, a dispersing net 306 in the linkage dispersing assembly 3 is slidingly arranged below an outlet at the bottom end of a crushing cylinder 204 in the front-back direction, a rotary cam 310 is in transmission connection with the lower side of a driving bevel gear 218, an eccentric shaft 311 is connected at the eccentric position of the lower end of the rotary cam 310, a connecting rod 312 is in rotary connection with the eccentric shaft 311, a reciprocating shaft 314 is fixed at the other end of the connecting rod 312, the reciprocating shaft 314 is rotatably connected at the front side of the dispersing net 306, and a stirring shaft 401 is fixedly connected at the bottom end of the reciprocating shaft 314 and extends into the inner cavity of the pool body assembly 1;

the two groups of outer shaft seats 301 in the linkage dispersion assembly 3 are coaxially arranged in the two groups of outer vertical plates 201 front and back, the two groups of inner vertical plates 202 are coaxially arranged in the front and back, the two groups of outer shaft seats 301 and the inner shaft seats 302 which are coaxial in the front and back are respectively inserted with sliding shafts 303, sliding blocks 304 are connected to the same position in each group of sliding shafts 303 in a sliding way, a dispersion frame 305 is connected between the sliding blocks 304 distributed left and right, the dispersion net 306 is connected in the dispersion frame 305, the lower side of the driving bevel gear 218 is meshed with a dispersion connection bevel gear 307, a dispersion rotating seat 308 is arranged at the position of the bottom surface of the driving vertical plate 211 coaxial with the dispersion connection bevel gear 307, a dispersion rotating shaft 309 is connected in a penetrating way in the dispersion rotating seat 308, the dispersion connection bevel gear 307 is inserted and fixed at the upper end of the dispersion rotating shaft 309, the center of the rotating cam 310 is fixedly connected to the lower end of the dispersion rotating shaft 309, the middle position of the front side of the dispersion frame 305 is fixedly connected with a reciprocating seat 313, and the reciprocating shaft 314 is connected in a through rotation in the reciprocating seat 313;

the stirring fan 402 with an S-shaped structure is vertically and fixedly connected to the rear end of the stirring shaft 401 in the linkage stirring assembly 4, and the medicine feeding pipe 111 is positioned at a position opposite to the stirring fan 402, so that the hazardous waste salt and the dispersing agent can be dissolved;

the left side surfaces of a group of vertical connecting plates 203 which are fixedly connected to the left end and correspond to each other from front to back in the two groups of filtering fixed seats 601 in the filtering assembly 6 are provided with a filtering main shaft 602 in a rotating way, the left end of the filtering main shaft 602 is connected with a filtering frame 603, a filter screen 604 is arranged in an inner frame on the left side of the filtering frame 603, a turnover motor 605 is also arranged and fixed on the front end of the left side of the group of vertical connecting plates 203, the front shaft end of the filtering main shaft 602 penetrates through a group of filtering fixed seats 601 on the front side and is connected in a rotating shaft of the turnover motor 605 after being rotated out, and the turnover motor 605 is electrically connected with the main controller 108; after the filter screen 604 is turned down to the proper position, the filter screen 604 just abuts against the inclined planes formed on the top ends of the first partition plate 102 and the second partition plate 103 in a coplanar manner;

the dangerous waste salt which is rapidly rotated and crushed by the crushing rotary column 209 in the inner cavity of the crushing cylinder 204 can form powder and fall onto the top surface of the dispersing net 306;

meanwhile, when the drive bevel gear 218 rotates, a matched transmission is formed with the dispersion connection bevel gear 307, the dispersion connection bevel gear 307 drives the rotation of the rotating cam 310 coaxially through the dispersion rotating shaft 309, the rotating cam 310 drives the eccentric shaft 311 to eccentrically rotate, and the eccentric shaft 311 can drive the reciprocating shaft 314 to reciprocally swing left and right to rotate and the dispersion frame 305 to reciprocally move back and forth through the matched transmission formed by the connecting rod 312, so that the dispersion net 306 can be driven to reciprocally move back and forth, and the processing powdery hazardous waste salt is evenly dispersed into water in the inner cavity of the main tank body 101;

meanwhile, the reciprocating shaft 314 can swing and rotate in a left-right reciprocating manner, so that the stirring shaft 401 and the stirring fan 402 can be driven to rotate in a left-right reciprocating manner, and dangerous waste salt powder falling into water can be stirred through the left-right reciprocating rotation of the stirring fan 402, and dissolution is accelerated;

at this time, the main controller 108 starts the circulating pump 107, and the circulating pump 107 pumps the water source on the left side of the second partition board 103 to be conveyed to the right side of the first partition board 102 through the circulating pipe 106, so as to provide power for the circulating flow of the liquid in the main tank body 101;

liquid entering the right side of the first partition plate 102 from the liquid return port 105 flows from a neutral position formed by the bottom end of the first partition plate 102 and the inner top surface of the main tank body 101 to a space between the first partition plate 102 and the second partition plate 103, and the liquid entering the space between the first partition plate 102 and the second partition plate 103 is diffused to the left side of the second partition plate 103 from the upper end of the second partition plate 103 because the first partition plate 102 is higher than the second partition plate 103, so that the circulation of the liquid in the main tank body 101 can be formed;

meanwhile, the main controller 108 starts the turnover motor 605 to drive the filter main shaft 602 and the filter frame 603 to rotate downwards, so that a filter screen 604 with a filtering effect is supported on an inclined plane formed by the coplanar top ends of the first partition board 102 and the second partition board 103, and precipitated impurities in the hazardous waste salt solution can be filtered through the filter screen 604;

after the hazardous waste salt is dissolved, the hazardous waste salt solution can be discharged by opening a liquid discharge valve 114 on the integration of opening the circulating pump 107;

and the filter spindle 602 and the filter frame 603 are driven to rotate upwards by the turnover motor 605, so that the filter screen 604 is separated from the contact with inclined planes formed on the top ends of the first partition plate 102 and the second partition plate 103 in a coplanar manner, and impurities adsorbed in the filter screen 604 can be cleaned.

Embodiment III:

on the basis of the first embodiment and the second embodiment, as shown in fig. 1, 2 and 8, an example of treatment of harmful gas in the hazardous waste salt dissolving process of the invention is that a fifth wheel 501 in a linkage exhaust assembly 5 is fixedly connected to the bottom end of an eccentric shaft 311, the fifth wheel 501 is coaxial with a rotary cam 310, an exhaust cavity 507 is arranged in the middle of the front side of a main body of the pool body assembly 1, an exhaust fan 511 is transversely arranged in the exhaust cavity 507 in a rotating way, and the exhaust fan 511 is in transmission connection with the fifth wheel 501;

the bottom end of a connecting wheel 501 in the linkage exhaust assembly 5 is coaxially and fixedly connected with an exhaust driving shaft 502, the bottom end of the exhaust driving shaft 502 is fixedly connected with an exhaust bevel gear 503 in an inserting way, the left side of the exhaust bevel gear 503 is meshed with an exhaust connecting bevel gear 504, the front ends of a group of inner vertical plates 202 on the front side are fixedly connected with a transverse shaft seat 506 at the position coaxial with the exhaust connecting bevel gear 504, the transverse shaft 505 is rotatably connected in the transverse shaft seat 506, the exhaust connecting bevel gear 504 is fixedly connected with the right shaft end of the transverse shaft 505 in an inserting way, the rear side main body of the exhaust cavity 507 is fixedly connected with the front side surface of the main tank body 101, the left end cavity of the exhaust cavity 507 is fixedly connected with an exhaust inner rotary seat 508 at the position coaxial with the transverse shaft 505, the right end cavity wall of the exhaust cavity 507 is provided with an exhaust outer rotary seat 509 at the position coaxial with the exhaust inner rotary seat 508, the left shaft end of the transverse shaft 505 is rotatably connected in the exhaust inner rotary seat 508 after being hermetically inserted into the cavity of the exhaust outer rotary seat 509, the exhaust fan 511 is fixedly connected in the axial middle position of the transverse exhaust fan 505 in the transverse exhaust cavity 507, the bottom end opening of the exhaust cavity 507 is connected with a bottom cover 510, and the bottom cover 510 is connected with an external treatment device;

because the dissolving water in the main tank body 101 needs to keep a certain temperature, harmful gas can be generated in the process of dissolving the hazardous waste salt;

at this time, in the process that the rotating cam 310 and the dispersing rotating shaft 309 coaxially rotate, the connecting wheel 501 is coaxially driven to rotate, and the connecting wheel 501 coaxially drives the exhaust driving shaft 502 to rotate, so as to drive the exhaust bevel gear 503 to rotate, the exhaust bevel gear 503 and the exhaust connection bevel gear 504 form a matched transmission, the exhaust connection bevel gear 504 coaxially drives the exhaust fan 511 to rotate through the transverse shaft 505, the exhaust fan 511 rotates to generate aerodynamic force, and the harmful gas in the space above the main tank 101 can be sucked into the exhaust cavity 507 and is conveyed from the bottom connection cover 510 to external harmful gas treatment equipment.

Finally, it should be noted that: the above-listed embodiments are only for illustrating the technical solution of the present invention, and are not limiting thereof; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (9)

1. The utility model provides a danger salt dissolving device that gives up, includes cell body subassembly (1), its characterized in that: the device also comprises a crushing assembly (2), a linkage dispersing assembly (3), a linkage stirring assembly (4) and a linkage exhausting assembly (5);

the crushing assembly (2) comprises a crushing cylinder (204), the linkage dispersing assembly (3) comprises a dispersing net (306) and a rotary cam (310), the linkage stirring assembly (4) comprises a stirring shaft (401), and the linkage exhaust assembly (5) comprises a connecting wheel (501);

the utility model discloses a device for exhausting air, including cell body subassembly (1), broken section of thick bamboo (204) are located the right-hand member of cell body subassembly (1) main part top, vertical rotatory broken rotary column (209) that is equipped with in broken section of thick bamboo (204), the front side of broken section of thick bamboo (204) is equipped with rotatable drive bevel gear (218), just drive bevel gear (218) are connected with broken rotary column (209) transmission, the smooth export below in broken rotary column (204) bottom of direction is established in broken section of thick bamboo (306), rotary cam (310) transmission connection is in the downside of drive bevel gear (218), the eccentric department of the lower extreme of rotary cam (310) is connected with eccentric shaft (311), rotary connection has connecting link (312) in eccentric shaft (311), the other end of connecting link (312) is fixed with reciprocating shaft (314), reciprocating shaft (314) connect in the front side of dispersed net (306) soon, stirring shaft (401) are connected at the bottom of reciprocating shaft (314), connecting wheel (501) are connected at the bottom of eccentric shaft (311), and rotary cam (310) are equipped with the air exhausting fan (511), and the position of rotating fan (511) is equipped with in the middle part (511).

2. A hazardous waste salt dissolving device according to claim 1, wherein: the utility model discloses a medicine feeding device for a medicine, including main cell body (101) in cell body subassembly (1), inside of main cell body (101) is from right side to left transversely is connected with first baffle (102) and second baffle (103) in proper order, liquid outlet (104) have been seted up to left wall lower front end of main cell body (101), liquid return port (105) have been seted up to right wall lower front end of main cell body (101), be connected with circulating pipe (106) between liquid outlet (104) and liquid return port (105), install circulating pump (107) in the main line of circulating pipe (106), main cell body (101)'s front side wall still installs and is fixed with main control unit (108), just circulating pump (107) and main control unit (108) electricity federation, main cell body (101)'s right wall upper front end still is connected with inlet tube (109), install in inlet tube (109) and be connected with inlet valve (110), the intermediate position of main cell body (101) right wall still is connected with medicine feed inlet valve (111), install in medicine feed valve (112) and medicine feed valve (108), main cell body (101) and drain valve (113) are connected with main control unit (114).

3. A hazardous waste salt dissolving device according to claim 2, wherein: the top of the first partition plate (102) is higher than the top of the second partition plate (103), a neutral gear is arranged between the bottom of the first partition plate (102) and the bottom surface of the inner cavity of the main tank body (101), and the top of the first partition plate (102) and the top of the second partition plate (103) are of coplanar inclined structures.

4. A hazardous waste salt dissolving device according to claim 3, wherein: two sets of outer risers (201) in crushing subassembly (2) symmetrical fixed connection is on the right top of outer wall around main cell body (101), the right top of outer wall still fixedly connected with interior riser (202) around main cell body (101), and two sets of interior riser (202) are located the left side of two sets of outer riser (201), two sets of the top of interior riser (202) and two sets of the top of outer riser (201) are all horizontal fixedly connected with vertical connection board (203), the fixed connection of a lower extreme outer wall of a crushing section of thick bamboo (204) has a cartridge holder (205), the bottom surface fixed connection of cartridge holder (205) is on the top of two sets of vertical connection boards (203), the top opening of a crushing section of thick bamboo (204) is covered with lid (206), the right end of lid (206) top surface is connected with feed inlet (207), crushing spin seat (208) have been seted up to the intermediate position of top surface of crushing spin lid (206), the spin seat (212) have a spin drive in the spin seat (211) spin connection of spin connection board (211), the spin connection of two sets (211), the utility model discloses a crushing drive pulley, including broken spiral axle (213), connecting belt (215) are installed in grafting between broken drive pulley (214) and broken band pulley (210), the bottom grafting of broken spiral axle (213) is fixed with rotatory bevel gear (216), the facade fixed mounting of drive riser (211) has driving motor (217), driving motor (217) and main control unit (108) electricity federation, driving bevel gear (218) are pegged graft and are fixed in the spiral axle of driving motor (217), just rotatory bevel gear (216) and driving bevel gear (218) meshing.

5. The hazardous waste salt dissolving device according to claim 4, wherein: the opening at the lower end of the crushing cylinder (204) is of an inverted cone structure.

6. The hazardous waste salt dissolving device according to claim 4, wherein: two groups of outer shaft seats (301) in the linkage dispersion assembly (3) are coaxially arranged in the two groups of outer vertical plates (201) in the front-back mode, inner shaft seats (302) are coaxially arranged in the two groups of inner vertical plates (202) in the front-back mode, sliding shafts (303) are inserted in the two groups of outer shaft seats (301) and the inner shaft seats (302) which are coaxial in the front-back mode, sliding blocks (304) are slidingly connected to the same positions in the sliding shafts (303) in each group, dispersion frames (305) are connected between the sliding blocks (304) distributed in the left-right mode, the dispersion nets (306) are connected in the dispersion frames (305), dispersion connection bevel gears (307) are meshed to the lower sides of the driving bevel gears (218), dispersion rotary seats (308) are arranged at positions where the bottom surfaces of the driving vertical plates (211) are coaxial with the dispersion connection bevel gears (307), dispersing rotary shafts (309) are connected in a penetrating mode in a rotary mode, the dispersion rotary shafts (307) are fixedly connected to the upper ends of the dispersion rotary shafts (309), the dispersing rotary shafts (310) are fixedly connected to the upper ends of the dispersing rotary shafts (309), and the rotary shafts (313) are fixedly connected to the lower sides of the reciprocating shafts (313).

7. A hazardous waste salt dissolving device according to claim 1, wherein: and a stirring fan (402) is vertically and fixedly connected with the rear end of a stirring shaft (401) in the linkage stirring assembly (4).

8. The hazardous waste salt dissolving device according to claim 6, wherein: the bottom end of a connecting wheel (501) in the linkage exhaust assembly (5) is coaxially and fixedly connected with an exhaust driving shaft (502), the bottom end of the exhaust driving shaft (502) is fixedly connected with an exhaust bevel gear (503) in a plugging manner, the left side of the exhaust bevel gear (503) is meshed with an exhaust connecting bevel gear (504), the front end of a group of inner vertical plates (202) is fixedly connected with a transverse shaft seat (506) at the coaxial position of the exhaust connecting bevel gear (504), the transverse shaft seat (506) is rotatably connected with a transverse shaft (505), the exhaust connecting bevel gear (504) is fixedly connected with the right shaft end of the transverse shaft (505) in a plugging manner, the rear side main body of the exhaust cavity (507) is fixedly connected with the front side surface of the main tank body (101), the left end cavity of the exhaust cavity (507) is fixedly connected with an exhaust inner rotary seat (508) at the coaxial position of the transverse shaft (505), the right end cavity wall of the exhaust cavity (507) is provided with an exhaust outer rotary seat (509) at the coaxial position of the exhaust rotary seat (508), the left end of the transverse shaft (505) is rotatably connected with the inner cavity (507) in the air cavity (511) in the rotary seat (511) in a plugging manner, a bottom connecting cover (510) is connected to the bottom end opening of the exhaust cavity (507).

9. The hazardous waste salt dissolving device according to claim 4, wherein: the left side of perpendicular even board (203) of a set of left end still installs filter component (6), two sets of filtration in filter component (6) are filtered the left surface of a set of perpendicular even board (203) of fixed connection in the left end that correspond around, two sets of filter between fixed seat (601) soon have filter main shaft (602), the left end of filter main shaft (602) is connected with filter framework (603), install filter screen (604) in the inside casing of filter framework (603) left side, a set of on the left side still install in the left side front end of perpendicular even board (203) and be fixed with upset motor (605), connect in the rotary shaft of upset motor (605) after the front axle head of filter a set of filtration of front side that runs through of main shaft (602) is rotated out, just upset motor (605) and main control unit (108).

Images