CN114890522A - Ocean waste water mixing packaging discharging equipment - Google Patents

Abstract

The invention discloses a marine wastewater mixing, packaging and discharging device, which relates to the technical field of wastewater treatment equipment and comprises a fixing mechanism, a mixing mechanism, a door closing mechanism and a packaging mechanism, wherein the mixing mechanism comprises a liquid medicine tank and a wastewater tank which are fixedly arranged on two sides of a U-shaped plate; the device comprises a mixing tank, a magnetic sealing cover, a sealing box, a displacement assembly, a door closing mechanism and a control system, wherein the mixing tank is arranged in the mixing tank, the door closing mechanism is arranged on the front side of the mixing tank and comprises a sealing plate which is slidably mounted in the mixing tank, a blanking bin is arranged below the sealing plate, a heating wire is wound on the outer side of the blanking bin, the magnetic sealing cover is placed on the sealing box through the sealing cover assembly, and the sealing box moves forwards through the displacement assembly.

Description

Ocean waste water mixing packaging discharging equipment

Technical Field

The invention relates to the technical field of wastewater treatment equipment, in particular to a marine wastewater mixed packaging discharge device.

Background

The seawater polluted by the nuclear is extremely harmful to the nature, the polluted seawater can be treated by a precipitation method generally, specifically, a precipitator is added into the nuclear polluted seawater, the purpose of reducing the content of radioactive elements in the nuclear wastewater is achieved through a coprecipitation reaction between chemical components in the precipitator and the radioactive elements, the currently common industrial precipitants mainly comprise an aluminum-iron precipitator, a lime-soda precipitator, a phosphate precipitator and the like, during precipitation, the marine wastewater and the precipitator need to be fully mixed, and the precipitated marine wastewater needs to be subjected to encapsulation treatment to prevent the nuclear pollution from diffusing.

The Chinese patent application with the publication number of CN114133023A discloses a marine wastewater treatment device based on biological treatment technology, relates to the technical field of marine wastewater treatment, and solves the problem that the prior marine wastewater treatment device based on biological treatment is difficult to carry out the pre-solid-liquid separation treatment on the sewage sludge at the seabed in the practical application, thereby influencing the subsequent treatment operation, the device comprises a pretreatment mechanism, the main body of the pretreatment mechanism is designed as a box body structure, the device supplies air to an aeration component by starting an aerator in the aeration mechanism, and carries out the continuous aeration operation on the inside of a containing component by an aeration pipe arranged at the inner side of the aeration component, at the moment, the supplied oxygen can not only accelerate the decomposition speed of the sewage, but also can promote the growth of organisms in the biological component, thus the treatment speed of the sewage can be accelerated by self-circulation, however, nuclear pollution marine wastewater cannot be treated, and therefore, the invention provides a marine wastewater mixed packaging discharge device which can effectively solve the technical problems.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: provides a marine wastewater mixed packaging discharge device capable of treating nuclear pollution.

Aiming at the technical problem, the technical scheme adopted by the invention is as follows: a marine wastewater mixing, packaging and discharging device comprises a fixing mechanism, a mixing mechanism, a door closing mechanism and a packaging mechanism, wherein the fixing mechanism comprises a U-shaped plate fixedly mounted on an inclined plate, the inclined plate is fixedly connected with a supporting plate, a first support and a second support are fixedly mounted on the supporting plate, the mixing mechanism comprises a liquid medicine tank and a wastewater tank which are fixedly mounted on two sides of the U-shaped plate, a mixing tank is fixedly mounted on the supporting plate, the liquid medicine tank is connected to the inside of the mixing tank through a second water pump, the wastewater tank is connected to the inside of the mixing tank through a first water pump, a stirring assembly is arranged inside the mixing tank, an opening is formed in the front side of the mixing tank, and a packaging box is arranged below the opening; the mixing tank front side be equipped with the mechanism of closing a door, the mechanism of closing a door include the closing plate of slidable mounting in the mixing tank, the closing plate below be equipped with the blanking storehouse, be equipped with the parallel plate on the blanking storehouse, the parallel plate on place the encapsulation case, the outside winding of blanking storehouse have the heater strip, encapsulation case upper end be equipped with the spout, utilize the closing cap subassembly to place magnetic seal lid the spout on, the encapsulation case passes through the displacement subassembly and moves forward.

Further, the closing cap subassembly include the magnet of fixed mounting in the backup pad, the backup pad set up the feed inlet, feed inlet below fixed mounting have the storage box, the storage box in slidable mounting have a plurality of magnetism sealed lid, backup pad lower fixed surface install the riser, fixed mounting has the refrigerator on the riser, refrigerator and storage box are linked together for sealed encapsulation case.

Further, the inside slidable mounting of storage box have the roof, the inside return spring that is equipped with of storage box, the return spring both ends respectively with roof, storage box fixed connection, the roof top is equipped with a plurality of magnetic seal lid, feed inlet top be equipped with the clamp plate, clamp plate and second support sliding connection are equipped with coupling spring on the clamp plate, the coupling spring both ends respectively with clamp plate, second support fixed connection for the magnetic seal lid is in same water flat line with the encapsulation case that the storage was accomplished.

Furthermore, a mounting plate is fixedly mounted on the side face of the second support, a displacement motor is fixedly mounted on the mounting plate, a displacement gear is coaxially and fixedly mounted on an output shaft of the displacement motor, the displacement gear is meshed with the horizontal rack, a linkage rod is arranged on the rear side of the horizontal rack, and the linkage rod is in contact with the packaging box and is used for driving the packaging box to move forwards.

Further, the parallel plate on fixed mounting have a curb plate, fixed mounting has a deflector in the backup pad, the deflector on be equipped with vertical guide way, vertical guide way on slidable mounting have a curb plate, fixed mounting has a dead lever on the deflector, the first end fixed connection of dead lever and gag lever post, parallel plate and gag lever post between be connected through reset spring for the blanking storehouse resets.

Furthermore, the parallel plates are fixedly provided with vertical racks which are meshed with the rotating gears, the second end of the limiting rod is rotatably provided with the rotating gears, the rotating gears are fixedly connected with the first end of the first rotating rod, the second end of the first rotating rod is hinged with the first end of the second rotating rod, the second end of the second rotating rod is hinged with the first end of the push rod, and the second end of the push rod is coaxially and fixedly provided with a sealing plate for driving the sealing plate to slide.

Further, the stirring subassembly install the inside gear wheel at the blending tank including rotating, gear wheel and pinion mesh mutually, the pinion has four, angular distribution such as pinion is in the outside of gear wheel, pinion and blending tank rotate to be connected, fixed mounting has the stirring rod on the pinion, gear wheel and stirring gear fixed connection, stirring gear and drive gear mesh mutually, drive gear passes through gear shaft and two fixed connection of band pulley, two outsides of band pulley are equipped with conveyor belt, the inside fixed mounting of U-shaped board has hybrid motor, the coaxial fixed mounting of hybrid motor output shaft has the universal driving shaft, fixed mounting has band pulley one on the universal driving shaft, a band pulley outside is equipped with conveyor belt, be used for carrying out intensive mixing with marine waste water and precipitant.

Further, the universal driving type waste water tank is characterized in that a first water pump impeller is fixedly mounted on the universal driving shaft, the waste water tank is communicated with the first water pump, the first water pump is connected to the interior of the mixing tank through a steel pipe, a driving gear is fixedly mounted on the first water pump impeller and meshed with a driven gear, the driven gear is connected with a vertical main gear through a universal joint assembly, the vertical main gear is meshed with a vertical pinion, the vertical pinion is fixedly connected with a second water pump impeller, the second water pump is communicated with the liquid medicine tank, the second water pump is connected to the interior of the mixing tank through a steel pipe and used for conveying liquid of the liquid medicine tank and the waste water tank to the mixing tank.

Compared with the prior art, the invention has the beneficial effects that: (1) the mixing mechanism comprises a liquid medicine tank and a waste water tank which are fixedly arranged on two sides of a U-shaped plate, the mixing tank is fixedly arranged on a supporting plate through a first support and a second support, a stirring assembly is arranged in the mixing tank, the liquid medicine tank and a waste water pipe convey liquid into the mixing tank through a water pump, the first water pump, the second water pump and the stirring assembly realize synchronous work through a control assembly, ocean waste water and a liquid precipitator are fully mixed through stirring, and the ocean waste water is preliminarily treated; (2) the door closing mechanism comprises a sealing plate which is slidably arranged on the front side of a mixing tank, an opening is formed in the front side of a mixing pipe, a packaging box is arranged below the opening, treated marine wastewater flows into the packaging box through the opening when the sealing plate is arranged on the front side of the opening of the mixing tank, the treated wastewater is in the mixing tank when the sealing plate is arranged on the rear side of the opening of the mixing tank, the packaging box moves downwards under the action of gravity when storage is finished, the sealing plate moves backwards along the axis of the mixing tank, redundant marine wastewater is prevented from flowing into the packaging box, and the marine wastewater can be treated in batches; (3) the packaging mechanism comprises a packaging box which is slidably mounted on the supporting plate, the packaging box moves forwards through the displacement assembly, a chute is formed in the upper end of the packaging box, the magnetic sealing cover can be placed on the chute of the packaging box through the sealing cover assembly, the packaged packaging box enters the blanking bin, the heating wire is electrified and heated, the magnetic sealing cover expands after being heated, the packaging box is subjected to centralized treatment after being sealed, and the damage of nuclear-polluted marine wastewater to the nature can be effectively reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the fixing mechanism of the present invention.

Fig. 3 is a schematic structural diagram (first view) of the mixing mechanism of the present invention.

Fig. 4 is a schematic structural diagram (second view angle) of the mixing mechanism of the present invention.

Fig. 5 is a schematic view of the mixing tank structure of the present invention.

Fig. 6 is a sectional view taken along a line a-a in fig. 5.

Fig. 7 is a schematic structural diagram of the door closing mechanism of the present invention.

Fig. 8 is a schematic structural diagram (first view angle) of the packaging mechanism of the present invention.

Fig. 9 is a schematic structural view (second view angle) of the packaging mechanism of the present invention.

Fig. 10 is a cross-sectional view of the storage case of the present invention.

Reference numerals: 1-a fixing mechanism; 2-a mixing mechanism; 3-a door closing mechanism; 4-a packaging mechanism; 101-U-shaped plate; 102-a swash plate; 103-a support plate; 104-a fixing frame; 105-a first scaffold; 106-a second scaffold; 107-guide plate; 108-a mounting plate; 201-hybrid motor; 202-linkage shaft; 203-a first belt wheel; 204-a first water pump; 205-a drive gear; 206-driven gear; 207-a gimbal assembly; 208-vertical main gear; 209-vertical pinion; 210-a second water pump; 211-liquid medicine tank; 212-wastewater tank; 213-a mixing tank; 214-a conveyor belt; 215-pulley two; 216-a drive gear; 217-stirring gear; 218-a bull gear; 219-pinion gear; 220-a stirring rod; 301-sealing plate; 302-a push rod; 303-fixing the rod; 304-side plate; 305-a vertical rack; 306-a rotating gear; 307-a first rotating bar; 308-a second rotating rod; 309-a return spring; 310-a limiting rod; 401-displacement motor; 402-a displacement gear; 403-horizontal rack; 404-packaging box; 405-a blanking bin; 406-a heating wire; 407-a platen; 408-a connecting spring; 409-vertical plate; 410-a refrigerator; 411-a storage box; 412-magnetic seal cover; 413-a top plate; 414-a return spring; 415-magnet.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): the marine wastewater mixed packaging and discharging device shown in fig. 1-10 comprises a fixing mechanism 1, a mixing mechanism 2, a door closing mechanism 3 and a packaging mechanism 4, wherein the fixing mechanism 1 comprises a U-shaped plate 101 fixedly mounted on an inclined plate 102, the inclined plate 102 is fixedly connected with a supporting plate 103, the fixing mechanism 1 is provided with the mixing mechanism 2 for mixing marine wastewater and a precipitator, the mixing mechanism 2 comprises a liquid medicine tank 211 and a wastewater tank 212 fixedly mounted on two sides of the U-shaped plate 101, the supporting plate 103 is fixedly mounted with a mixing tank 213, the liquid medicine tank 211 and the wastewater tank 212 are communicated with the mixing tank 213 through steel pipes, the mixing tank 213 is axially and slidably mounted with the door closing mechanism 3, the outer wall of a sealing plate 301 is attached to the inner wall of the mixing tank 213, and the packaging mechanism 4 is arranged below the mixing tank 213 and used for packaging the marine wastewater after packaging treatment.

Fixing mechanism 1 includes U-shaped plate 101, the swash plate 102, the backup pad 103, mount 104, first support 105, second support 106, deflector 107 and mounting panel 108, be connected through swash plate 102 between U-shaped plate 101 and the backup pad 103, fixed surface installs mount 104 on the U-shaped plate 101, fixed surface installs first support 105 and second support 106 on the backup pad 103, the backup pad 103 upper surface is located second support 106 front side position fixed mounting has deflector 107, be equipped with vertical guide way on the deflector 107, the backup pad 103 upper surface is located second support 106 left side position fixed mounting has mounting panel 108.

Mixing mechanism 2 includes the left liquid medicine jar 211 of fixed mounting at U-shaped board 101, U-shaped board 101 right side fixed mounting has waste water jar 212, liquid medicine jar 211 and waste water jar 212 upper end are equipped with the steel pipe, liquid medicine jar 211 is used for carrying the precipitant, waste water jar 212 is used for carrying marine wastewater, liquid medicine jar 211 and second water pump 210 are linked together, waste water jar 212 and first water pump 204 are linked together, second water pump 210 is linked together through steel pipe and blending tank 213, first water pump 204 is linked together through steel pipe and blending tank 213, blending tank 213 is through first support 105, second support 106 fixed mounting is in backup pad 103 upper surface, the inside stirring subassembly that is equipped with of blending tank 213, be used for realizing precipitant and marine wastewater misce bene, first water pump 204, second water pump 210 and stirring subassembly realize synchronous operation through control subassembly.

The stirring assembly comprises a large gear 218 rotatably mounted inside the mixing tank 213, the large gear 218 is meshed with a small gear 219, the small gears 219 are four, four small gears 219 are arranged on the outer side of the large gear 218 at equal angles, the small gears 219 are rotatably connected with the mixing tank 213, a stirring rod 220 is fixedly mounted on each small gear 219, the large gear 218 is fixedly connected with the stirring gear 217, the stirring gear 217 is rotatably mounted on the rear side of the mixing tank 213, in operation, the stirring gear 217 rotates to drive the large gear 218 to rotate, the large gear 218 rotates to drive the four small gears 219 to rotate simultaneously, and the small gears 219 rotate to drive the stirring rod 220 to rotate, so that the precipitant and the marine wastewater are fully mixed.

The control assembly comprises a mixing motor 201, a linkage shaft 202, a first belt wheel 203, a first water pump 204, a driving gear 205, a driven gear 206, a universal joint assembly 207, a vertical main gear 208, a vertical pinion 209, a conveying belt 214, a second belt wheel 215 and a transmission gear 216, the mixing motor 201 is fixedly installed on the U-shaped plate 101, the linkage shaft 202 is coaxially and fixedly installed on an output shaft of the mixing motor 201, impellers are rotatably installed inside the first water pump 204 and the second water pump 210 and are used for driving liquid to flow, the upper end of the linkage shaft 202 is fixedly connected with the impeller of the first water pump 204, the water inlet end of the first water pump 204 is communicated with a waste water tank 212, the water outlet end of the first water pump 204 is connected to the inside of the mixing tank 213 through a steel pipe, the driving gear 205 is fixedly installed on the impeller of the first water pump 204, the driving gear 205 is meshed with the driven gear 206, the first end of the universal joint assembly 207 is fixedly installed in the center of the driven gear 206, the second end of the universal joint component 207 is fixedly provided with a vertical main gear 208, the vertical main gear 208 is meshed with a vertical pinion 209, the impeller of a second water pump 210 is fixedly provided with a vertical pinion 209, the second water pump 210 is fixedly arranged on the upper surface of the U-shaped plate 101, the water inlet end of the second water pump 210 is communicated with the liquid medicine tank 211, and the water outlet end of the second water pump 210 is connected to the inside of the mixing tank 213 through a steel pipe.

The universal joint assembly 207 is divided into three sections of universal joints, the first section of universal joint is perpendicular to the third section of universal joint, two ends of the second section of universal joint are hinged to the other two sections of universal joints respectively, a driven gear 206 is fixedly mounted at the lower end of the first section of universal joint, a vertical main gear 208 is fixedly mounted at the left end of the third section of universal joint, the first section of universal joint is rotatably connected with the U-shaped plate 101, and the third section of universal joint is rotatably connected with the fixing frame 104.

A first belt wheel 203 is fixedly installed on the linkage shaft 202, a second belt wheel 215 is rotatably installed on the U-shaped plate 101, a conveying belt 214 is arranged on the outer sides of the first belt wheel 203 and the second belt wheel 215, a transmission gear 216 is fixedly installed on the second belt wheel 215 through a gear shaft, the transmission gear 216 is meshed with the stirring gear 217, when the device works, the mixing motor 201 is started, an output shaft of the mixing motor 201 rotates to drive the linkage shaft 202 which is coaxial with the output shaft to rotate, the linkage shaft 202 simultaneously drives the first belt wheel 203 and the first water pump 204 to rotate, the first water pump 204 conveys the ocean wastewater in the wastewater tank 212 into the mixing tank 213 through a steel pipe, the impeller of the first water pump 204 rotates to drive the driving gear 205 to rotate, the driving gear 205 rotates to drive the driven gear 206 to rotate, power is transmitted to the vertical main gear 208 through the universal joint assembly 207, the vertical main gear 208 drives the vertical auxiliary gear 209 to rotate, the vertical auxiliary gear 209 rotates to drive the impeller of the second water pump 210 to rotate, the precipitator in the liquid medicine tank 211 is conveyed to the mixing tank 213 through a steel pipe, meanwhile, the first belt wheel 203 rotates to drive the second belt wheel 215 to rotate through the conveying belt 214, the transmission gear 216 is driven to rotate through the gear shaft, and the transmission gear 216 rotates to drive the stirring gear 217 to rotate, so that the precipitator in the mixing tank 213 and the ocean wastewater are fully mixed.

The door closing mechanism 3 comprises a sealing plate 301, a push rod 302, a fixed rod 303, a side plate 304, a vertical rack 305, a rotating gear 306, a first rotating rod 307, a second rotating rod 308, a return spring 309 and a limiting rod 310, blending tank 213 front side is equipped with the opening, coaxial slidable mounting has sealing plate 301 in blending tank 213, blending tank 213 opening below is equipped with encapsulation case 404, blanking storehouse 405 upper end integrated into one piece has the parallel plate, the first end at blanking storehouse 405 parallel plate is placed to encapsulation case 404 that is located blending tank 213 opening below, the second end fixed mounting of blanking storehouse 405 parallel plate has curb plate 304, curb plate 304 and the vertical guide way sliding connection of deflector 107, fixed surface installs dead lever 303 on the deflector 107, dead lever 303 and the first end fixed connection of gag lever post 310, blanking storehouse 405 parallel plate second end is equipped with a plurality of reset spring 309, reset spring 309 both ends respectively with gag lever post 310, blanking storehouse 405 parallel plate fixed connection.

The second end of the parallel plate of the refrigerator 410 is fixedly provided with a vertical rack 305, the vertical rack 305 is meshed with the rotating gear 306, the second end of the limiting rod 310 is rotatably provided with the rotating gear 306, the rotating gear 306 is fixedly connected with the first end of the first rotating rod 307, the second end of the first rotating rod 307 is hinged with the first end of the second rotating rod 308, the second end of the second rotating rod 308 is hinged with the first end of the push rod 302, the second end of the push rod 302 is coaxially and fixedly provided with a sealing plate 301, when the refrigerator works, after the packaging box 404 is filled with the processed waste water, the gravity of the packaging box 404 is increased, as the first packaging box 404 is placed on the parallel plate of the blanking bin 405, acting force can be applied to the blanking bin 405, so as to drive the blanking bin 405 to downwards move against the elastic force of the reset spring 309, the blanking bin 405 downwards moves to drive the side plate 304 to downwards move along the vertical guide groove of the guide plate 107, and the blanking bin 405 moves downwards to drive the vertical rack 305 to synchronously move downwards, the vertical rack 305 rotates to drive the rotation gear 306 to rotate, the rotation gear 306 rotates to drive the first rotating rod 307 and the second rotating rod 308 to rotate, and the push rod 302 drives the sealing plate 301 to move axially along the mixing tank 213.

The packaging mechanism 4 comprises a plurality of packaging boxes 404 which are slidably mounted on the supporting plate 103, the packaging boxes 404 move forwards through a displacement assembly, in an initial state, the parallel plates of the blanking bin 405 and the supporting plate 103 are in the same horizontal plane, a heating wire 406 is wound on the outer side of the blanking bin 405, a sliding groove is formed in the upper end of each packaging box 404, a magnetic sealing cover 412 can be placed on the sliding groove of each packaging box 404 through the sealing cover assembly, in a working process, when the first packaging box 404 is stored, the first packaging box 404 moves downwards under the action of gravity, the uppermost magnetic sealing cover 412 moves into the sliding groove of each packaging box 404 under the action of magnetic force, the displacement assembly pushes each packaging box 404 to move forwards, the covered packaging box 404 falls into the blanking bin 405, the heating wire 406 is electrified and heated, the magnetic sealing covers 412 and the packaging boxes 404 are sealed, and after the sealing is completed, the blanking bins 405 reset under the elastic force of a reset spring 309.

The displacement assembly comprises a displacement motor 401, a displacement gear 402 and a horizontal rack 403, the displacement motor 401 is fixedly mounted on the mounting plate 108, the displacement gear 402 is coaxially and fixedly mounted on an output shaft of the displacement motor 401, the displacement gear 402 is meshed with the horizontal rack 403, a linkage rod is arranged on the rear side of the horizontal rack 403 and is in contact with the rear-side packaging box 404, when the displacement assembly works, the displacement motor 401 is started, the output shaft of the displacement motor 401 rotates to drive the displacement gear 402 to rotate, the displacement gear rotates to drive the horizontal rack 403 to move, and the linkage rod of the horizontal rack 403 pushes the packaging box 404 to move forwards.

The cover sealing assembly comprises a pressing plate 407, a connecting spring 408, a vertical plate 409, a refrigerator 410, a storage box 411, a magnetic sealing cover 412, a top plate 413, a return spring 414 and a magnet 415, the pressing plate 407 is slidably mounted on the second support 106, the connecting spring 408 is arranged on the outer side of the pressing plate 407, two ends of the connecting spring 408 are respectively fixedly connected with the pressing plate 407 and the mounting plate 108, the vertical plate 409 is fixedly mounted on the lower surface of the support plate 103, the refrigerator 410 is fixedly mounted on the vertical plate 409, an outlet of the refrigerator 410 is communicated with the storage box 411, the storage box 411 is a shell with an open top end, the top plate 413 is slidably mounted in the storage box 411, a plurality of magnetic sealing covers are placed on the top plate 413, the top plate 413 is connected with the bottom 412 of the storage box 411 through the return spring 414, a feeding hole is formed in the left side of the first packaging box 404 on the support plate 103, the magnetic sealing cover 412 is convenient to convey, and the pressing plate 407 is arranged above the feeding hole of the support plate 103, the magnetic sealing cover 412 is used for pressing the magnetic sealing cover 412, a magnet 415 is fixedly arranged on the supporting plate 103 corresponding to the feeding hole of the supporting plate 103, when the refrigerator 410 works, cold air is conveyed into the storage box 411 by the refrigerator 410, the magnetic sealing cover 412 in the storage box 411 contracts when meeting cold, when the packaging box 404 moves downwards under the action of gravity, under the action of the magnetic force of the magnet 415, the uppermost magnetic sealing cover 412 seals the packaging box 404 along the chute of the packaging box 404, under the action of the displacement assembly, the sealed packaging box 404 falls into the blanking bin 405, and the magnetic sealing cover 412 expands when meeting heat, so that the packaging box 404 enters the next process after being sealed.

The invention discloses a marine wastewater mixed packaging discharge device, which has the working principle that: the waste water tank 212 is communicated with the ocean waste water through a steel pipe, the liquid medicine tank 211 is communicated with the liquid precipitator through a steel pipe, a plurality of packaging boxes 404 are arranged below the supporting plate 103, and in an initial state, the sealing plate 301 is arranged at the rear side of the opening of the mixing tank 213, the mixing motor 201 is started, the output shaft of the mixing motor 201 rotates to drive the linkage shaft 202 to rotate, simultaneously drives the first water pump 204 impeller and the belt wheel one 203 to rotate, the first water pump 204 impeller rotates to convey the ocean wastewater in the liquid medicine tank 211 to the mixing tank 213 through the steel pipe, the first water pump 204 impeller rotates to drive the driving gear 205 to rotate, the driven gear 206 is driven to rotate through gear engagement, the vertical main gear 208 is driven to rotate through the universal joint assembly 207, the vertical main gear 208 rotates to drive the vertical pinion 209 to rotate, the vertical pinion 209 rotates to drive the second water pump 210 impeller to rotate, and the second water pump 210 impeller rotates to convey a precipitator in the wastewater tank 212 to the mixing tank 213 through a steel pipe.

The first belt wheel 203 rotates to drive the second belt wheel 215 to rotate through the conveying belt 214, the second belt wheel 215 drives the transmission gear 216 to rotate, the transmission gear 216 drives the stirring gear 217 to rotate by taking the axis of the mixing tank 213 as a circle center, the stirring gear 217 drives the large gear 218 to rotate, the large gear 218 rotates to drive the four small gears 219 to synchronously rotate through gear meshing, the small gears 219 drive the stirring rod 220 to rotate, the marine wastewater and the precipitating agent in the mixing tank 213 are fully mixed, and after the mixing is finished, the marine wastewater after treatment needs to be subjected to encapsulation treatment for preventing nuclear pollution.

The sealing plate 301 resets under the effect of reset spring 309 elasticity, the sealing plate 301 removes to the open-ended front side of blending tank 213, the marine wastewater after handling falls into encapsulation case 404 through blending tank 213 opening, encapsulation case 404 receives the effect of gravity to drive blanking storehouse 405 downstream, reset spring 309 extends, heater strip 406 downstream drives perpendicular rack 305 and slides downwards, perpendicular rack 305 slides and drives rotating gear 306 and rotate, rotating gear 306 rotates and drives first bull stick 307, second bull stick 308 rotates, promote sealing plate 301 along blending tank 213 axial slip through push rod 302, when encapsulation case 404 storage is accomplished, sealing plate 301 just moves to the open-ended rear side of blending tank 213, prevent that the marine wastewater that handles from continuing to fall into encapsulation case 404.

The packing box 404 moves downward by gravity, stopping when the chute of the packing box 404 and the uppermost magnetic sealing cap 412 are at the same level, the refrigerator 410 delivers cold air into the storage box 411, the magnetic sealing cap 412 contracts upon cooling, under the magnetic force of the magnet 415, the uppermost magnetic sealing cover 412 seals the packaging box 404 along the sliding groove of the packaging box 404, meanwhile, the displacement motor 401 is started, the output shaft of the displacement motor 401 rotates to drive the displacement gear 402 to rotate, the displacement gear 402 rotates to drive the horizontal rack 403 to move, the packing box 404 is pushed to move forwards by the linkage rod of the horizontal rack 403, the packed packing box 404 falls into the blanking bin 405, meanwhile, the heating wire 406 is electrified and heated, the magnetic sealing cover 412 covered on the packaging box 404 expands when heated, the packaging box 404 is sealed, the sealed packaging box 404 enters the next process, centralized discharge treatment is carried out, and the blanking bin 405 is reset under the elastic force action of the reset spring 309.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (8)

1. The utility model provides a mixed encapsulation discharging equipment of ocean waste water, includes fixed establishment (1), its characterized in that: also comprises a mixing mechanism (2), a door closing mechanism (3) and a packaging mechanism (4), the fixing mechanism (1) comprises a U-shaped plate (101) fixedly arranged on an inclined plate (102), the inclined plate (102) is fixedly connected with a supporting plate (103), a first bracket (105) and a second bracket (106) are fixedly arranged on the supporting plate (103), the mixing mechanism (2) comprises a liquid medicine tank (211) and a waste water tank (212) which are fixedly arranged on two sides of the U-shaped plate (101), a mixing tank (213) is fixedly arranged on the supporting plate (103), the liquid medicine tank (211) is connected to the inside of the mixing tank (213) through a second water pump (210), the waste water tank (212) is connected to the inside of the mixing tank (213) through a first water pump (204), a stirring component is arranged inside the mixing tank (213), an opening is formed in the front side of the mixing tank (213), and a packaging box (404) is arranged below the opening; blending tank (213) front side be equipped with and close a mechanism (3), close a mechanism (3) including sliding mounting sealing plate (301) in blending tank (213), sealing plate (301) below be equipped with blanking storehouse (405), be equipped with the parallel plate on blanking storehouse (405), the parallel plate on place encapsulation case (404), blanking storehouse (405) outside winding have heater strip (406), encapsulation case (404) upper end be equipped with the spout, utilize the closing cap subassembly to place magnetism sealed lid (412) the spout on, encapsulation case (404) move forward through the displacement subassembly.

2. The marine wastewater mixed package discharging device as claimed in claim 1, wherein: the closing cap subassembly include magnet (415) of fixed mounting on backup pad (103), backup pad (103) set up the feed inlet, feed inlet below fixed mounting have storage box (411), storage box (411) slidable mounting have a plurality of magnetism seal lid (412), backup pad (103) lower surface fixed mounting have riser (409), fixed mounting has refrigerator (410) on riser (409), refrigerator (410) and storage box (411) are linked together.

3. The marine wastewater mixed package discharging device as claimed in claim 2, wherein: storage box (411) inside slidable mounting have roof (413), storage box (411) inside is equipped with return spring (414), return spring (414) both ends respectively with roof (413), storage box (411) fixed connection, roof (413) top is equipped with a plurality of magnetic seal lid (412), feed inlet top be equipped with clamp plate (407), clamp plate (407) and second support (106) sliding connection are equipped with coupling spring (408) on clamp plate (407), coupling spring (408) both ends respectively with clamp plate (407), second support (106) fixed connection.

4. The marine wastewater mixed package discharging device as claimed in claim 3, wherein: the side surface of the second support (106) is fixedly provided with a mounting plate (108), a displacement motor (401) is fixedly mounted on the mounting plate (108), an output shaft of the displacement motor (401) is coaxially and fixedly provided with a displacement gear (402), the displacement gear (402) is meshed with a horizontal rack (403), a linkage rod is arranged on the rear side of the horizontal rack (403), and the linkage rod is contacted with a packaging box (404).

5. The marine wastewater mixed package discharging device as claimed in claim 4, wherein: the parallel plate on fixed mounting have curb plate (304), fixed mounting has deflector (107) on backup pad (103), deflector (107) on be equipped with vertical guide way, vertical guide way on slidable mounting have curb plate (304), fixed mounting has dead lever (303) on deflector (107), dead lever (303) and gag lever post (310) first end fixed connection, parallel plate and gag lever post (310) between be connected through reset spring (309).

6. The marine wastewater mixed package discharging device as claimed in claim 5, wherein: the parallel plate on fixed mounting have perpendicular rack (305), perpendicular rack (305) and rotating gear (306) mesh mutually, rotating gear (306) are installed in the rotation of gag lever post (310) second end, rotating gear (306) and first bull stick (307) first end fixed connection, first bull stick (307) second end and second bull stick (308) first end are articulated, second bull stick (308) second end and push rod (302) first end are articulated, push rod (302) second end coaxial fixed mounting has closing plate (301).

7. The marine wastewater mixed package discharging device as claimed in claim 6, wherein: the stirring assembly comprises a large gear (218) rotatably arranged in a mixing tank (213), the large gear (218) is meshed with a small gear (219), the number of the small gears (219) is four, the small gears (219) are distributed on the outer side of the large gear (218) at equal angles, the small gear (219) is rotatably connected with the mixing tank (213), stirring rods (220) are fixedly arranged on the small gear (219), the large gear (218) is fixedly connected with stirring gears (217), the stirring gears (217) are meshed with transmission gears (216), the transmission gears (216) are fixedly connected with a second belt wheel (215) through gear shafts, a conveying belt (214) is arranged on the outer side of the second belt wheel (215), a mixing motor (201) is fixedly arranged in a U-shaped plate (101), a linkage shaft (202) is coaxially and fixedly arranged on an output shaft of the mixing motor (201), a first belt wheel (203) is fixedly arranged on the linkage shaft (202), and a conveying belt (214) is arranged outside the first belt wheel (203).

8. The marine wastewater mixed package discharging device as claimed in claim 7, wherein: the utility model discloses a waste water mixing tank, including universal joint assembly (207), universal joint assembly (209), vertical main gear (208), vertical pinion (209), second water pump (210) and liquid medicine jar (211) are linked together, second water pump (210) are connected to the mixing tank (213) inside through the steel pipe inside through fixed mounting first water pump (204) impeller, waste water jar (212) and first water pump (204) are linked together, inside water pump (204) are connected to first water pump (204) through the steel pipe, fixed mounting has driving gear (205) on first water pump (204) impeller, driving gear (205) and driven gear (206) mesh mutually, driven gear (206) are connected with vertical main gear (208) through universal joint assembly (207), vertical main gear (208) and vertical pinion (209) mesh mutually, vertical pinion (209) and second water pump (210) impeller fixed connection, second water pump (210) and liquid medicine jar (211) are linked together, inside second water pump (210) are connected to mixing tank (213) through the steel pipe.

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