CN112387058A

CN112387058A - Spraying and cooling device of solid waste incineration system

Info

Publication number: CN112387058A
Application number: CN202011227321.7A
Authority: CN
Inventors: 徐新会
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-02-23

Abstract

The invention relates to a spray cooling device, in particular to a spray cooling device of a solid waste incineration system. Mainly provides a spraying and cooling device of a solid waste incineration system, which recycles water and liquid, has low cost and treats and purifies waste gas. A spray cooling device of a solid waste incineration system comprises: a water storage tank is arranged on one side of the top of the base; one side of the top of the base is connected with the spraying and cooling mechanism; one side of the top of the base is connected with an air exhaust mechanism. The spraying cooling mechanism is matched with the air exhaust mechanism to cool and liquefy the waste gas, and then the exhaust fan is driven to rotate to exhaust the residual gas; through setting up waste gas pretreatment mechanism, carry out primary filter to the waste gas of liquefaction.

Description

Spraying and cooling device of solid waste incineration system

Technical Field

The invention relates to a spray cooling device, in particular to a spray cooling device of a solid waste incineration system.

Background

The garbage is a waste product which loses use value and cannot be utilized, is an important link of material circulation, and is solid and fluid materials which are not needed or useless.

The waste incineration field generally burns the solid wastes by using pulverized coal, waste gas discharged by burning is directly discharged to the high altitude by virtue of a very high exhaust port, or tap water is adopted to directly irrigate the waste gas, so that the waste gas enters water to become waste water, most manufacturers can select to directly discharge the waste water due to higher purification cost, and the method also causes pollution to the environment on the basis of wasting raw materials.

Disclosure of Invention

In order to overcome the direct aquatic of discharging waste gas into of traditional mode of burning, discharge again afterwards, the cost is higher, extravagant raw materials easily, the shortcoming of polluted environment, the technical problem that solves is: provides a spraying and cooling device of a solid waste incineration system, which recycles water and liquid, has low cost and treats and purifies waste gas.

The technical scheme of the invention is as follows: a spray cooling device of a solid waste incineration system comprises:

a water storage tank is arranged on one side of the top of the base;

one side of the top of the base is connected with the spraying and cooling mechanism;

one side of the top of the base is connected with an air exhaust mechanism.

Further, spray cooling mechanism including:

one side of the base is connected with the supporting seat;

the upper part of the supporting seat is provided with a cooling tank, and the top of the cooling tank is connected with an air inlet pipeline;

the water suction pump is arranged at the top of the base, and water inlet pipes are connected to two sides of the upper part of the water suction pump;

the atomizing water spray heads are connected to the upper portions of the water inlet pipes and connected with the top of the cooling tank.

Further, the air exhaust mechanism comprises:

the mounting seat is arranged on one side of the top of the base, and the servo motor is arranged on the top of the mounting seat;

the top of the base is connected with an exhaust fan, and a rotating shaft of the exhaust fan is connected with an output shaft of the servo motor;

a waste water return pipe is connected between one side of the exhaust fan and the cooling tank;

the exhaust fan is characterized in that an exhaust pipeline is connected to one side of the top of the exhaust fan.

Further, still include waste gas pretreatment mechanism, waste gas pretreatment mechanism includes:

the upper part of the inner wall of the cooling tank is sequentially connected with a first filter box, a second filter box and a third filter box.

Further, still including gas-liquid separation mechanism, gas-liquid separation mechanism is including:

the lower part of the inner wall of the cooling tank is connected with a flow guide pipe;

the bottom of the inner wall of the cooling tank is connected with a water outlet pipe, and the top of the water outlet pipe is connected with a flow distribution plate.

Further, still including sewage filtering mechanism, sewage filtering mechanism is including:

the top of the base is provided with a plurality of supporting frames, and a sewage tank is connected between the upper parts of the supporting frames;

a sewage inflow pipeline is connected between one side of the sewage tank and the bottom of the cooling tank;

one side of the sewage inflow pipeline is connected with the Y-shaped water pipe, and the inner wall of the upper part of the Y-shaped water pipe is connected with a filter screen;

the inner wall of the lower part of the sewage tank is rotatably connected with a stirring blade, and the stirring blade is in transmission connection with an output shaft of a servo motor;

the lower part of the sewage tank is connected with a sediment discharge pipe.

Further, still including chemical agent input mechanism, chemical agent input mechanism including:

the top of the sewage tank is connected with a bracket;

the device comprises a medicament placing barrel, a medicament placing barrel is connected between the upper parts of brackets, and a cut-off rod is connected to the bottom of the medicament placing barrel;

and one side of the inner wall of the sewage tank is connected with the limiting groove plate, and the limiting groove plate is internally connected with a buoy in a sliding manner, and the buoy is matched with the intercepting rod.

Further, still including water supply mechanism, water supply mechanism includes:

the mounting frame is connected to one side of the top of the base;

the upper part of the mounting frame is connected with a movable rack in a sliding manner, and a return spring is connected between the movable rack and the front part of the mounting frame;

the top of the movable rack is connected with a piston rod;

the water supply pipeline is connected between the top of the base and one side of the sewage tank, and the piston rod is matched with the water supply pipeline;

the check valve is connected to the water supply pipeline;

one side of the base is rotatably connected with a rotating shaft, one side of the rotating shaft is connected with a sector gear, and the sector gear is meshed with the movable rack;

and a bevel gear set is connected between the other side of the rotating shaft and the stirring blade.

Compared with the prior art, the invention has the following advantages: the spraying cooling mechanism is matched with the air exhaust mechanism to cool and liquefy the waste gas, and then the exhaust fan is driven to rotate to exhaust the residual gas; the liquefied waste gas is primarily filtered by arranging a waste gas pretreatment mechanism; the gas-liquid separation mechanism is arranged to separate the generated gas and liquid, so that the gas and the liquid can be conveniently separated; the liquid entering the sewage tank is subjected to secondary filtration and cleaning precipitation through a sewage filtration mechanism and a chemical agent feeding mechanism; through setting up water supply mechanism, drive the liquid that finishes processing and get into the storage water tank, realize its cyclic utilization.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the spray cooling mechanism and the air exhaust mechanism of the present invention.

Fig. 3 is a schematic perspective view of the water supply mechanism of the present invention.

Fig. 4 is an exploded view of the exhaust gas pretreatment mechanism and the gas-liquid separation mechanism of the present invention.

Fig. 5 is a partial exploded view of the sewage filter mechanism of the present invention.

Fig. 6 is an exploded view of the chemical agent delivery mechanism of the present invention.

Fig. 7 is a partial sectional view of the sewage filtering mechanism of the present invention.

The meaning of the reference symbols in the figures: 1-base, 2-water storage tank, 3-spray cooling mechanism, 31-support base, 32-air inlet pipeline, 33-cooling tank, 34-water pump, 35-water inlet pipe, 36-atomized water spray head, 4-air pumping mechanism, 41-mounting base, 42-servo motor, 43-wastewater return pipe, 44-air draft fan, 45-air outlet pipeline, 5-waste gas pretreatment mechanism, 51-first filter box, 52-second filter box, 53-third filter box, 6-gas-liquid separation mechanism, 61-guide pipe, 62-flow distribution plate, 63-water outlet pipe, 7-sewage filtering mechanism, 71-support frame, 72-sewage inflow pipeline, 73-sewage tank, 74-Y type water pipe, 75-filter screen, 76-stirring blades, 77-sediment discharge pipes, 8-chemical agent feeding mechanisms, 81-supports, 82-limiting groove plates, 83-agent placing barrels, 84-cutoff rods, 85-buoys, 9-water supply mechanisms, 91-mounting frames, 92-bevel gear sets, 93-sector gears, 94-movable racks, 95-return springs, 96-piston rods, 97-check valves and 98-water supply pipelines.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

The utility model provides a solid waste burns system spray cooling device, as shown in figure 1, including base 1, storage water tank 2, spray cooling mechanism 3 and air exhaust mechanism 4, the right back side in base 1 top is equipped with storage water tank 2, and the left back side in base 1 top is connected with spray cooling mechanism 3, and the left front side in base 1 top is connected with air exhaust mechanism 4.

The staff can insert the waste gas discharge pipe and spray cooling mechanism 3, starts spray cooling mechanism 3 afterwards, and waste gas liquefies through the work of spray cooling mechanism 3, and the work of spray cooling mechanism 3 drives air exhaust mechanism 4 work simultaneously, and residual gas can be discharged through air exhaust mechanism 4, so alright accomplish the processing to waste gas, and the processing finishes, stops to spray cooling mechanism 3 work can.

Example 2

On embodiment 1's basis, as shown in fig. 2, spray cooling mechanism 3 is including supporting seat 31, admission line 32, cooling tank 33, suction pump 34, inlet tube 35 and atomizing water shower nozzle 36, base 1 left side rear side is connected with supporting seat 31, supporting seat 31 upper portion is equipped with cooling tank 33, cooling tank 33 top is connected with admission line 32, base 1 top is equipped with suction pump 34, suction pump 34 is connected with storage water tank 2, suction pump 34 is located cooling tank 33 right side, the front and back both sides on suction pump 34 upper portion all are connected with inlet tube 35, inlet tube 35 upper portion all is connected with atomizing water shower nozzle 36, atomizing water shower nozzle 36 all is connected with cooling tank 33 top.

Air exhaust mechanism 4 is including mount pad 41, servo motor 42, waste water back flow pipe 43, induced draft fan 44 and outlet duct 45, the 1 top left front side of base is equipped with mount pad 41, the 41 top of mount pad is equipped with servo motor 42, the 1 top of base is connected with induced draft fan 44, induced draft fan 44's axis of rotation and servo motor 42's output shaft, be connected with waste water back flow pipe 43 between induced draft fan 44 rear side and the cooling tank 33, induced draft fan 44 top left side is connected with outlet duct 45.

The staff can insert the exhaust pipe into admission line 32, start servo motor 42 and suction pump 34 afterwards, the clear water of suction pump 34 work in with storage water tank 2 is spout by atomizing water shower nozzle 36 through inlet tube 35, waste gas gets into behind cooling tank 33 through admission line 32 and liquefies with spun clear water contact, servo motor 42's output shaft rotates simultaneously and drives induced draft fan 44 and rotate, induced draft fan 44 rotates alright discharge the residual gas after the cooling through waste water by back flow 43 and outlet duct 45, the cooling finishes, close servo motor 42 and suction pump 34, the liquid in cooling tank 33 carries out the collection processing again can.

Example 3

On the basis of embodiment 2, as shown in fig. 3 to 7, the system further comprises an exhaust gas pretreatment mechanism 5, the exhaust gas pretreatment mechanism 5 comprises a first filter cartridge 51, a second filter cartridge 52 and a third filter cartridge 53, and the first filter cartridge 51, the second filter cartridge 52 and the third filter cartridge 53 are sequentially connected to the upper part of the inner wall of the cooling tank 33 from top to bottom.

Still including gas-liquid separation mechanism 6, gas-liquid separation mechanism 6 is including honeycomb duct 61, flow distribution plate 62 and outlet pipe 63, and cooling tank 33 inner wall sub-unit connection has honeycomb duct 61, and cooling tank 33 inner wall bottom is connected with outlet pipe 63, and the outlet pipe 63 top is connected with flow distribution plate 62, and flow distribution plate 62 is located the honeycomb duct 61 below.

Still including sewage filtering mechanism 7, sewage filtering mechanism 7 is including support frame 71, sewage inflow pipe 72, sewage case 73, Y type water pipe 74, filter screen 75, stirring leaf 76 and precipitate discharge pipe 77, base 1 top is equipped with a plurality of support frames 71, be connected with sewage case 73 between the support frame 71 upper portion, be connected with sewage inflow pipe 72 between sewage case 73 left rear side and the cooling tank 33 bottom, sewage inflow pipe 72 right side is connected with Y type water pipe 74, Y type water pipe 74 upper portion inner wall left side is connected with filter screen 75, sewage case 73 lower part inner wall rotary type is connected with stirring leaf 76, stirring leaf 76 is connected with servo motor 42's output shaft transmission, sewage case 73 lower part front side is connected with precipitate discharge pipe 77.

Still including chemical agent input mechanism 8, chemical agent input mechanism 8 is including support 81, spacing frid 82, the bucket 83 is placed to the medicament, dams pole 84 and buoy 85, and bilge tank 73 top is connected with support 81, is connected with the medicament between the support 81 upper portion and places bucket 83, and the medicament is placed the bucket 83 bottom and is connected with dams pole 84, and bilge tank 73 inner wall is connected with spacing frid 82, and slidingtype is connected with buoy 85 in the spacing frid 82, buoy 85 and the cooperation of dams pole 84.

Still including water supply mechanism 9, water supply mechanism 9 is including mounting bracket 91, bevel gear group 92, sector gear 93, movable rack 94, reset spring 95, piston rod 96, check valve 97 and water supply pipe 98, 1 top right side of base is connected with mounting bracket 91, the movable rack 94 that slides before mounting bracket 91 upper portion, be connected with reset spring 95 between movable rack 94 rear side and the mounting bracket 91 front side, movable rack 94 top is connected with piston rod 96, be connected with water supply pipe 98 between 1 top of base and the sewage case 73 right side, piston rod 96 and the cooperation of water supply pipe 98, water supply pipe 98 left part is connected with check valve 97, 1 front side rotation type of base is connected with the axis of rotation, the axis of rotation right side is connected with sector gear 93, sector gear 93 meshes with movable rack 94, be connected with bevel gear group 92 between the axis of rotation left side and the stirring leaf 76 front side.

The staff can place the dissolving agent in the agent placing barrel 83, then the waste gas is accessed, the waste gas enters the cooling tank 33 through the air inlet pipeline 32, the liquid generated after the waste gas contacts with the clear water is primarily filtered through the first filter box 51, the second filter box 52 and the third filter box 53, the liquid enters the water outlet pipe 63 through the flow guide pipe 61 and then flows into the Y-shaped water pipe 74 through the sewage inflow pipeline 72 to be contacted with the filter screen 75 for secondary filtering, the secondarily filtered liquid enters the sewage tank 73 through the Y-shaped water pipe 74, meanwhile, the dissolving agent in the agent placing barrel 83 enters the sewage tank 73, meanwhile, the output shaft of the servo motor 42 rotates to drive the stirring blade 76 to rotate, the stirring blade 76 rotates to accelerate the fusion of the sewage and the dissolving agent, so that the metal substances in the sewage can be dissolved and precipitated, when the water level rises to a certain degree, the buoy 85 moves upwards to drive the cut-off rod 84 to move upwards, the cutoff rod 84 moves upwards to block the outlet of the medicine placing barrel 83, the dissolving agent does not flow out any more, the stirring blade 76 rotates and simultaneously drives the sector gear 93 to rotate through the bevel gear set 92, the sector gear 93 rotates to drive the movable rack 94 to reciprocate back and forth, the state of the return spring 95 is changed accordingly, the movable rack 94 reciprocates back and forth to drive the dissolved liquid in the sewage tank 73 to enter the water storage tank 2 through the water supply pipeline 98, the recycling of the clear water is realized, the liquid does not flow back under the action of the check valve 97, after the proper amount of the dissolved liquid flows into the water storage tank 2, the water level of the sewage tank 73 descends to drive the buoy 85 to move downwards, the cutoff rod 84 does not contact with the buoy 85 to move downwards to reset again, the dissolving agent flows out again, the waste gas can be cooled and treated, and the worker stops the servo motor 42 and the water pump 34, the valve is rotated to drive the sediment to be discharged through the sediment discharge pipe 77.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims

1. The utility model provides a solid waste burns system spray cooling device, characterized by, including:

the water storage device comprises a base (1), wherein a water storage tank (2) is arranged on one side of the top of the base (1);

the spraying and cooling mechanism (3) is connected with one side of the top of the base (1);

the air exhaust mechanism (4) is connected with one side of the top of the base (1).

2. The spray cooling device of a solid waste incineration system as set forth in claim 1, wherein the spray cooling mechanism (3) includes:

the supporting seat (31) is connected with one side of the base (1);

the cooling tank (33) is arranged at the upper part of the supporting seat (31), and the top of the cooling tank (33) is connected with an air inlet pipeline (32);

the water pump (34) is arranged at the top of the base (1), and water inlet pipes (35) are connected to two sides of the upper part of the water pump (34);

atomizing water shower nozzle (36), inlet tube (35) upper portion all is connected with atomizing water shower nozzle (36), and atomizing water shower nozzle (36) all is connected with cooling tank (33) top.

3. The spray cooling device of a solid waste incineration system as set forth in claim 1, wherein the air exhaust mechanism (4) includes:

the mounting seat (41) is arranged on one side of the top of the base (1), and the servo motor (42) is arranged on the top of the mounting seat (41);

the top of the base (1) is connected with an air extracting fan (44), and a rotating shaft of the air extracting fan (44) is connected with an output shaft of the servo motor (42);

a waste water return pipe (43), wherein the waste water return pipe (43) is connected between one side of the exhaust fan (44) and the cooling tank (33);

an air outlet pipeline (45) is connected with one side of the top of the exhaust fan (44).

4. A spray cooling device of a solid waste incineration system as claimed in claim 2 or 3, further comprising an exhaust gas pretreatment mechanism (5), wherein the exhaust gas pretreatment mechanism (5) comprises:

the upper part of the inner wall of the first filter box (51) and the temperature reduction tank (33) is sequentially connected with the first filter box (51), the second filter box (52) and the third filter box (53).

5. The spray cooling device of a solid waste incineration system according to claim 4, further comprising a gas-liquid separation mechanism (6), wherein the gas-liquid separation mechanism (6) comprises:

the lower part of the inner wall of the cooling tank (33) is connected with a guide pipe (61);

the water outlet pipe (63) is connected to the bottom of the inner wall of the cooling tank (33), and the flow distribution plate (62) is connected to the top of the water outlet pipe (63).

6. The spray cooling device of a solid waste incineration system according to claim 5, further comprising a sewage filtering mechanism (7), wherein the sewage filtering mechanism (7) comprises:

the top of the base (1) is provided with a plurality of supporting frames (71), and a sewage tank (73) is connected between the upper parts of the supporting frames (71);

a sewage inflow pipeline (72), wherein a sewage inflow pipeline (72) is connected between one side of the sewage tank (73) and the bottom of the cooling tank (33);

one side of the sewage inflow pipeline (72) is connected with the Y-shaped water pipe (74), and the inner wall of the upper part of the Y-shaped water pipe (74) is connected with a filter screen (75);

the stirring blade (76) is rotatably connected to the inner wall of the lower part of the sewage tank (73), and the stirring blade (76) is in transmission connection with an output shaft of the servo motor (42);

a sediment discharge pipe (77), and the lower part of the sewage tank (73) is connected with the sediment discharge pipe (77).

7. The spray cooling device of a solid waste incineration system according to claim 6, further comprising a chemical agent dosing mechanism (8), wherein the chemical agent dosing mechanism (8) comprises:

the top of the sewage tank (73) is connected with the bracket (81);

the medicine placing barrel (83) is connected between the upper parts of the brackets (81), and the bottom of the medicine placing barrel (83) is connected with a cut-off rod (84);

the sewage tank is characterized in that a limiting groove plate (82) is connected to one side of the inner wall of the sewage tank (73), a buoy (85) is connected to the limiting groove plate (82) in a sliding mode, and the buoy (85) is matched with the cutoff rod (84).

8. The spray cooling device of a solid waste incineration system as set forth in claim 7, further comprising a water supply mechanism (9), the water supply mechanism (9) comprising:

the mounting rack (91) is connected to one side of the top of the base (1);

the upper part of the mounting rack (91) is connected with the movable rack (94) in a sliding manner, and a return spring (95) is connected between the movable rack (94) and the front part of the mounting rack (91);

the top of the movable rack (94) is connected with a piston rod (96);

a water supply pipeline (98), a water supply pipeline (98) is connected between the top of the base (1) and one side of the sewage tank (73), and a piston rod (96) is matched with the water supply pipeline (98);

a check valve (97), the water supply pipeline (98) is connected with the check valve (97);

the rotary table comprises a sector gear (93), one side of the base (1) is rotatably connected with a rotating shaft, one side of the rotating shaft is connected with the sector gear (93), and the sector gear (93) is meshed with a movable rack (94);

and a bevel gear set (92) is connected between the other side of the rotating shaft and the stirring blade (76).