CN113244750A

CN113244750A - Acid gas processing apparatus

Info

Publication number: CN113244750A
Application number: CN202110486982.XA
Authority: CN
Inventors: 陈强
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-03
Filing date: 2021-05-03
Publication date: 2021-08-13

Abstract

The invention relates to an environment-friendly gas treatment device, in particular to an acid gas treatment device which comprises a balance washing mechanism, a rotary feeding mechanism, an acid-base balancing agent box mechanism and a demisting fan mechanism, wherein the device can filter gas and remove high-speed large particles in the gas to prevent the gas from crashing a screen, can neutralize the gas, can ensure the uniformity of a neutralizer when the neutralizer is added, and can demist.

Description

Acid gas processing apparatus

Technical Field

The invention relates to an environment-friendly gas treatment device, in particular to an acid gas treatment device.

Background

In gas treatment, acid gas will carry out neutralization treatment and reach emission standard, and traditional neutralization treatment reaction is slow, and neutralizer and gas contact efficiency are low, causes to discharge not to reach the standard, and atomization effect seriously can cause the fault rate of fan part to rise, and traditional defroster defogging is inefficient, and the filter screen can often be harmd to high-speed bold granule in the gas, so designed an acid gas processing apparatus.

Disclosure of Invention

The invention mainly solves the technical problem of providing an acid gas treatment device, which can filter gas, remove high-speed large particles in the gas and prevent the gas from crashing a screen, can neutralize the gas, can ensure the uniformity of a neutralizer when the neutralizer is added, and can demist.

In order to solve the technical problem, the invention relates to an environment-friendly gas treatment device, and particularly relates to an acid gas treatment device which comprises a balance washing mechanism, a rotary feeding mechanism, an acid-base balancing agent box mechanism and a demisting fan mechanism, wherein the device can filter gas and remove high-speed large particles in the gas to prevent the collision of the large particles on a screen, can neutralize the gas, can ensure the uniformity of a neutralizer when the neutralizer is added, and can demist.

The balanced mechanism of washing link to each other with rotating reinforced mechanism, rotate reinforced mechanism and acid-base equilibrium agent case mechanism and link to each other, acid-base equilibrium agent case mechanism links to each other with defogging fan mechanism, balanced mechanism of washing links to each other with defogging fan mechanism, rotates reinforced mechanism and links to each other with defogging fan mechanism.

As a further optimization of the technical scheme, the balance washing mechanism of the acid gas treatment device comprises a leg seat, a filtering protection box, a servo motor, a gear I, a connecting pipe, a communicating box, a connecting pipe I, a connecting pipe II, a connecting pipe III, an alkali washing box, an inlet pipe, a connecting bent pipe, a 90-degree bent pipe, an air inlet, a gear II, an eccentric impeller with a shaft, a liquid storage cavity, a pressure relief one-way valve, a flow baffle plate, a connecting rod, a spring, a cross brace, a connecting plate, a two-way screw rod, a gate with a threaded hole, a gate groove, a belt pulley I, a belt, a filter plate groove and a passive two-way screw rod, wherein the leg seat is connected with the filtering protection box, the filtering protection box is connected with the servo motor, the gear is meshed with the gear I, the connecting pipe is connected and communicated with the communicating box, the communicating box is connected and communicated with the connecting pipe I, the connecting pipe II is connected and communicated with the connecting pipe III, the connecting pipe III is connected and communicated with the alkali washing tank, the connecting pipe III is communicated with the liquid storage cavity, the liquid storage cavity is arranged in the alkali washing tank, the liquid storage cavity is communicated with the inlet pipe, the inlet pipe is connected with the alkali washing tank, the alkali washing tank is connected with the connecting elbow, the liquid storage cavity is communicated with the connecting elbow, the alkali washing tank is connected with the 90-degree bending pipe, the liquid storage cavity is communicated with the 90-degree bending pipe, the air inlet is connected and communicated with the filtering protection tank, the gear II is connected with the eccentric impeller with the shaft, the eccentric impeller with the shaft is rotatably connected with the alkali washing tank, the pressure relief one-way valve is arranged in the connecting pipe III, the flow blocking plate is connected with the connecting rod, the connecting rod is connected with the cross brace in a sliding manner, the cross brace is connected with the filtering protection tank, the spring is sleeved on the connecting rod, two ends of the spring are respectively connected with the flow blocking plate and the cross brace, the connecting plate is contacted with the cross brace, the connecting plate links to each other with the connecting rod, gear I links to each other with two-way lead screw, two-way lead screw rotates with filtering protection case to be connected, two-way lead screw and threaded hole gate threaded connection, threaded hole gate sliding connection is in the gate groove, the gate groove sets up in filtering protection case, two-way lead screw links to each other with belt pulley I, belt pulley I and belt friction are connected, the belt is connected with belt pulley friction, the belt pulley links to each other with passive two-way lead screw, passive two-way lead screw rotates with filtering protection case to be connected, passive two-way lead screw and threaded hole gate threaded connection, filter and filter plate groove sliding connection, the filter plate groove sets up on filtering protection case.

As a further optimization of the technical scheme, the rotary feeding mechanism of the acid gas treatment device comprises a belt I, a motor belt pulley, a motor, a bearing seat, a belt seat pulley, a spring I, a piston column, a belt shaft rotating wheel, a conveying pipe, a stirring wheel, a suction one-way valve, a belt pulley II, a linkage gear, a pipeline, a spraying one-way valve, a piston and a piston cavity, wherein the belt I is in friction connection with the motor belt pulley, the motor belt pulley is connected with the motor, the bearing seat is in rotary connection with the belt shaft rotating wheel, the belt seat pulley is connected with the piston column, the spring I is sleeved on the piston column, two ends of the spring I are respectively connected with the belt seat pulley and the belt shaft rotating wheel, the belt shaft rotating wheel is connected with the conveying pipe, the conveying pipe is connected with the stirring wheel, the suction one-way valve is arranged in the pipeline, the belt shaft rotating wheel is connected with the belt pulley II, the belt shaft rotating wheel is connected with the linkage gear, pipelines are arranged in the belt shaft rotating wheel and the conveying pipe, the pipeline is internally provided with a spraying one-way valve, the piston is connected with a piston column, the piston column and the piston are both in sliding connection with a piston cavity, the piston cavity is arranged in a belt shaft rotating wheel, the piston cavity is communicated with the pipeline, the belt shaft rotating wheel is in rotating connection with the inlet pipe, and the gear II is meshed with a linkage gear.

As a further optimization of the technical scheme, the acid-base equilibrium agent box mechanism of the acid gas treatment device comprises a box body with a leg support seat, a lower half ring, an upper half ring, an arc-shaped seat, a supplement port, a rotating shaft and a through hole, wherein the box body with the leg support seat is provided with the lower half ring and the upper half ring, the lower half ring is in contact with the upper half ring, the lower half ring and the upper half ring are respectively provided with the arc-shaped seat, the supplement port is arranged on the upper end surface of the box body with the leg support seat, the rotating shaft is rotatably connected with the box body with the leg support seat, the through hole is formed in the rotating shaft, the conveying pipe penetrates through the through hole and is connected with the rotating shaft, a stirring wheel is arranged in the box body with the leg support seat, and the lower half ring and the upper half ring are both in contact with a pulley with the seat.

As a further optimization of the technical scheme, the defogging fan mechanism of the acid gas treatment device comprises a base, a liquid discharge pipe, a liquid discharge one-way valve, a collection box, an atomizing motor, a coupler, an inlet, an atomizing box with supporting legs, an atomizing outlet pipe, a driving air inlet pipe, a negative pressure box with supporting legs, a purifying discharge pipe, a wind wheel motor, a door-shaped support, a liquid discharge communicating pipe, a wind wheel with shafts, a defogging rotating seat with shafts, an atomizer inlet hole, a hollow trapezoidal bulge, a triangular bulge I, a solid trapezoidal bulge, a coupler I and a throwing-out channel, wherein the base is connected with the collection box, the liquid discharge pipe is connected and communicated with the collection box, the liquid discharge one-way valve is arranged in the liquid discharge pipe, the collection box is connected with the atomizing motor, the atomizing motor is connected with the coupler, the inlet is connected and communicated with the atomizing box with the supporting legs, the atomizing box with the supporting legs is connected and communicated with the atomizing outlet pipe, the atomizing air outlet pipe is connected and communicated with the driving air inlet pipe, the driving air inlet pipe is connected and communicated with the leg-carried negative pressure box, the leg-carried negative pressure box is connected and communicated with the purifying discharge pipe, the wind wheel motor is connected with the door-shaped support, the door-shaped support is connected with the leg-carried negative pressure box, the leg-carried atomizing box and the leg-carried negative pressure box are both connected with the base, the liquid discharge communication pipe communicates the collecting box with the leg-carried atomizing box, the shaft-carried wind wheel is rotatably connected with the leg-carried negative pressure box, the shaft-carried wind wheel is connected with the wind wheel motor through a coupler I, the shaft-carried defogging rotary seat is rotatably connected with the leg-carried atomizing box, the shaft-carried defogging rotary seat is connected with the coupler, an atomizer inlet hole is arranged on the shaft-carried defogging rotary seat, a hollow trapezoidal bulge is arranged on the fog rotary seat, a triangular bulge is connected between adjacent hollow trapezoidal bulges, a triangular bulge I is connected in the hollow trapezoidal bulge, and the solid trapezoidal bulge is connected with the shaft-carried defogging rotary seat, solid trapezoidal arch sets up between adjacent cavity trapezoidal arch, throws away the passageway setting and all links to each other with the base in taking axle defogging to rotate the seat, landing leg seat, intercommunication case, motor, bearing frame and taking landing leg seat box, and the fluid-discharge tube links to each other and communicates with the connecting pipe, and the inlet port links to each other and communicates with 90 degrees bending tubes.

As a further optimization of the technical scheme, the included angle between the bent part of the connecting bent pipe and the horizontal plane is 14-60 degrees.

As a further optimization of the technical scheme, an included angle between the flow baffle and the horizontal direction of the acid gas treatment device is 75 degrees.

As a further optimization of the technical scheme, the radius ratio of the linkage gear to the gear II is 5: 1.

As a further optimization of the technical solution, the material of the hollow trapezoidal protrusion, the triangular protrusion I and the solid trapezoidal protrusion of the acid gas treatment device of the present invention is polypropylene PP.

The acid gas treatment device has the beneficial effects that:

the acid gas treatment device can filter gas, remove high-speed large particles in the gas and prevent the gas from crashing a screen, can neutralize the gas, can ensure the uniformity of a neutralizer when the neutralizer is added, and can demist.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of an acid gas treatment apparatus according to the present invention.

FIG. 2 is a schematic structural diagram of an acid gas treatment apparatus according to the present invention.

FIG. 3 is a third schematic structural diagram of an acid gas treatment apparatus according to the present invention.

FIG. 4 is a fourth schematic structural diagram of an acid gas treatment apparatus according to the present invention.

Fig. 5 is a first schematic structural diagram of the equilibrium washing mechanism 1 of the acid gas treatment device according to the present invention.

Fig. 6 is a schematic structural diagram of a balance washing mechanism 1 of an acid gas treatment device according to the second embodiment of the present invention.

Fig. 7 is a third schematic structural diagram of the equilibrium washing mechanism 1 of the acid gas treatment device of the present invention.

Fig. 8 is a fourth schematic structural diagram of the equilibrium washing mechanism 1 of the acid gas treatment device of the present invention.

Fig. 9 is a schematic structural diagram five of the equilibrium washing mechanism 1 of the acid gas treatment device according to the present invention.

Fig. 10 is a sixth schematic structural diagram of the equilibrium washing mechanism 1 of the acid gas treatment device according to the present invention.

Fig. 11 is a first structural schematic diagram of the rotary feeding mechanism 2 of the acid gas treatment device of the present invention.

Fig. 12 is a second schematic structural diagram of the rotary charging mechanism 2 of the acid gas treatment device according to the present invention.

Fig. 13 is a third schematic structural diagram of the rotary charging mechanism 2 of the acid gas treatment device according to the present invention.

Fig. 14 is a first schematic structural diagram of an acid-base equilibrium agent tank mechanism 3 of an acid gas treatment device according to the present invention.

Fig. 15 is a second schematic structural diagram of an acid-base equilibrium agent tank mechanism 3 of an acid gas treatment apparatus according to the present invention.

Fig. 16 is a first schematic structural diagram of a demisting fan mechanism 4 of an acid gas treatment device according to the present invention.

Fig. 17 is a second schematic structural diagram of a demisting fan mechanism 4 of an acid gas treatment device according to the present invention.

Fig. 18 is a third schematic structural diagram of a demisting fan mechanism 4 of an acid gas treatment device according to the present invention.

Fig. 19 is a fourth schematic structural diagram of the demister fan mechanism 4 of the acid gas treatment apparatus of the present invention.

In the figure: a balance washing mechanism 1; a leg base 1-1; 1-2 of a filtering protection box; 1-3 of a servo motor; gears 1-4; gear I1-5; connecting pipes 1-6; 1-7 of a communication box; connecting pipe I1-8; connecting pipe II 1-9; connecting pipe III 1-10; 1-11 parts of an alkali washing tank; inlet pipes 1 to 12; connecting bent pipes 1-13; bending the pipe by 1-14 degrees; 1-15 of an air inlet; gear II 1-16; eccentric impeller 1-17 with shaft; liquid storage cavities 1-18; 1-19 of a pressure relief one-way valve; flow baffle 1-20; connecting rods 1-21; springs 1-22; 1-23 of a cross brace; connecting plates 1-24; 1-25 of a bidirectional screw; a gate 1-26 with a threaded hole; 1-27 of a gate slot; pulleys 1-28; pulley I1-29; 1-30 parts of a belt; 1-31 parts of a filter plate; 1-32 filter plate grooves; passive bidirectional leading screw 1-33; rotating the feeding mechanism 2; belt I2-1; a motor belt pulley 2-2; 2-3 of a motor; 2-4 of a bearing seat; 2-5 of pulleys with seats; a spring I2-6; 2-7 of a piston column; 2-8 of rotating wheel with shaft; 2-9 parts of a conveying pipe; 2-10 parts of a stirring wheel; suction check valves 2-11; pulley II 2-12; 2-13 of a linkage gear; 2-14 of pipelines; 2-15 parts of a spraying one-way valve; 2-16 of a piston; piston chambers 2-17; an acid-base equilibrium agent box mechanism 3; a box body 3-1 with a leg seat; a lower half ring 3-2; an upper half ring 3-3; 3-4 parts of an arc seat; 3-5 parts of a supplementary port; 3-6 of a rotating shaft; 3-7 of a through hole; a demisting fan mechanism 4; a base 4-1; a liquid discharge pipe 4-2; 4-3 of a liquid discharge one-way valve; a collecting box 4-4; 4-5 of an atomizing motor; 4-6 of a coupler; inlet ports 4-7; 4-8 parts of an atomization box with supporting legs; 4-9 parts of an atomization air outlet pipe; driving an air inlet pipe 4-10; 4-11 parts of a negative pressure box with supporting legs; 4-12 of a purification discharge pipe; 4-13 of a wind wheel motor; 4-14 of a door type support; 4-15 of a liquid discharge communicating pipe; 4-16 of wind wheel with shaft; rotating seats 4-17 with shafts for demisting; the atomizer enters the orifices 4-18; 4-19 parts of hollow trapezoidal bulge; 4-20 parts of triangular convex part; the triangular convex part I4-21; 4-22 parts of solid trapezoidal bulges; a coupler I4-23; out of the channels 4-24.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present invention relates to an environmentally friendly gas treatment apparatus, and more specifically, to an acid gas treatment apparatus including a balance washing mechanism 1, a rotary charging mechanism 2, an acid-base equilibrium agent box mechanism 3, and a defogging fan mechanism 4, which is capable of filtering gas and removing high-speed large particles in the gas to prevent the mesh from being damaged, neutralizing the gas, ensuring the uniformity of a neutralizing agent when the neutralizing agent is added, and defogging the apparatus.

The balanced mechanism 1 of washing link to each other with rotating reinforced mechanism 2, rotate reinforced mechanism 2 and link to each other with acid-base equilibrium agent case mechanism 3, acid-base equilibrium agent case mechanism 3 links to each other with defogging fan mechanism 4, balanced mechanism 1 of washing links to each other with defogging fan mechanism 4, rotates reinforced mechanism 2 and links to each other with defogging fan mechanism 4.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the present embodiment, where the equilibrium washing mechanism 1 includes a leg holder 1-1, a filter protection box 1-2, a servo motor 1-3, a gear 1-4, a gear I1-5, a connection pipe 1-6, a connection box 1-7, a connection pipe I1-8, a connection pipe II1-9, a connection pipe III1-10, an alkaline washing box 1-11, an inlet pipe 1-12, a connection elbow 1-13, a 90-degree bent pipe 1-14, an air inlet 1-15, a gear II1-16, an eccentric impeller with a shaft 1-17, a liquid storage chamber 1-18, and a liquid storage chamber 1-4, 1-19 parts of pressure relief one-way valve, 1-20 parts of flow baffle plate, 1-21 parts of connecting rod, 1-22 parts of spring, 1-23 parts of cross brace, 1-24 parts of connecting plate, 1-25 parts of bidirectional screw rod, 1-26 parts of gate with threaded hole, 1-27 parts of gate slot, 1-28 parts of belt pulley, I1-29 parts of belt pulley, 1-30 parts of belt, 1-31 parts of filter plate, 1-32 parts of filter plate slot, 1-33 parts of passive bidirectional screw rod, 1-1 parts of leg base connected with 1-2 parts of filter protection box, 1-2 parts of filter protection box connected with 1-3 parts of servo motor, 1-3 parts of servo motor connected with 1-4 parts of gear, 1-4 parts of gear meshed with I1-5 parts of connecting pipe, 1-6 parts of connecting pipe connected and communicated with 1-7 parts of connecting box, 1-7 parts of connecting box connected and communicated with I1-8 parts of connecting pipe, the connecting box 1-7 is connected and communicated with a connecting pipe II1-9, the connecting pipe II1-9 is connected and communicated with a connecting pipe III1-10, the connecting pipe III1-10 is connected with an alkali washing box 1-11, the connecting pipe III1-10 is communicated with a liquid storage cavity 1-18, the liquid storage cavity 1-18 is arranged in the alkali washing box 1-11, the liquid storage cavity 1-18 is communicated with an inlet pipe 1-12, the inlet pipe 1-12 is connected with an alkali washing box 1-11, the alkali washing box 1-11 is connected with a connecting bent pipe 1-13, the liquid storage cavity 1-18 is communicated with a connecting bent pipe 1-13, the alkali washing box 1-11 is connected with a 90-degree bent pipe 1-14, the liquid storage cavity 1-18 is communicated with a 90-degree bent pipe 1-14, an air inlet 1-15 is connected and communicated with a filtering protection box 1-2, the gear II1-16 is connected with the shaft eccentric impeller 1-17, the shaft eccentric impeller 1-17 is rotationally connected with the alkali washing tank 1-11, the pressure relief one-way valve 1-19 is arranged in the connecting pipe III1-10, the baffle plate 1-20 is connected with the connecting rod 1-21, the connecting rod 1-21 is connected with the cross brace 1-23 in a sliding way, the cross brace 1-23 is connected with the filtration protection tank 1-2, the spring 1-22 is sleeved on the connecting rod 1-21, two ends of the spring 1-22 are respectively connected with the baffle plate 1-20 and the cross brace 1-23, the connecting plate 1-24 is contacted with the cross brace 1-23, the connecting plate 1-24 is connected with the connecting rod 1-21, the gear I1-5 is connected with the bidirectional screw rod 1-25, the bidirectional screw rod 1-25 is rotationally connected with the filtration protection tank 1-2, the bidirectional screw rod 1-25 is in threaded connection with a gate 1-26 with a threaded hole, the gate 1-26 with the threaded hole is in sliding connection with a gate groove 1-27, the gate groove 1-27 is arranged in a filtering protection box 1-2, the bidirectional screw rod 1-25 is connected with a belt pulley I1-29, the belt pulley I1-29 is in friction connection with a belt 1-30, the belt 1-30 is in friction connection with a belt pulley 1-28, the belt pulley 1-28 is connected with a driven bidirectional screw rod 1-33, the driven bidirectional screw rod 1-33 is in rotating connection with the filtering protection box 1-2, the driven bidirectional screw rod 1-33 is in threaded connection with the gate 1-26 with the threaded hole, a filter plate 1-31 is in sliding connection with the filter plate groove 1-32, the filter plate groove 1-32 is arranged on the filtering protection box 1-2, the wind wheel motor 4-13 is operated to drive the coupler I4-23 to rotate, the coupler I4-23 can drive the wind wheel with the shaft 4-16 to rotate, the wind wheel with the shaft 4-16 rotates to form wind power, negative pressure is formed at the air inlet 1-15, air to be processed is sucked into the filtering protection box 1-2 from the air inlet 1-15, large particles contained in the air can collide with the flow baffle plate 1-20 to stall and fall down, if large particles which do not fall down partially pass through the flow baffle plate 1-20 along with the wind, the speed is reduced at the moment, the wind is filtered by the filter plate 1-31, the large particles fall down along the filter plate 1-31, and when the large particles are accumulated in a cavity formed by the flow baffle plate 1-20 and the filtering protection box 1-2 along with the large particles, lateral pressure can be formed to drive the flow baffle plates 1-20 to move to compress the springs 1-22, large particles fall after gaps are formed, the springs 1-22 drive the flow baffle plates 1-20 to reset, so that all large particles cannot impact the filter plates 1-31, the large particles fall onto the gates 1-26 with threaded holes to be collected, when pouring is needed, the servo motor 1-3 can be operated to drive the gears 1-4 to rotate, the gears 1-4 can drive the gears I1-5 to rotate, the gears I1-5 can drive the bidirectional screw rods 1-25 to rotate, the bidirectional screw rods 1-25 can drive the driven bidirectional screw rods 1-33 to synchronously rotate through the transmission of the belt pulleys I1-29, the belts 1-30 and the belt pulleys 1-28, and the driven bidirectional screw rods 1-33 can drive the two gates 1-26 with threaded holes to be far away from each other, therefore, large particles fall, a trolley can be arranged below the large particles for collection, and after the unloading is finished, the servo motors 1-3 can be operated reversely to drive the two gates 1-26 with the threaded holes to reset, so that the closing is completed.

The third concrete implementation mode:

referring to the following description of the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, the present embodiment further describes the present embodiment, wherein the rotary feeding mechanism 2 includes a belt I2-1, a motor pulley 2-2, a motor 2-3, a bearing seat 2-4, a belt seat pulley 2-5, a spring I2-6, a piston column 2-7, a belt shaft rotating wheel 2-8, a conveying pipe 2-9, an agitating wheel 2-10, a suction check valve 2-11, a pulley II2-12, a linkage gear 2-13, a pipe 2-14, a discharge check valve 2-15, a piston 2-16, a piston chamber 2-17, an I belt 2-1 frictionally connected with a motor pulley 2-2, a motor belt pulley 2-2 is connected with a motor 2-3, a bearing seat 2-4 is rotationally connected with a belt shaft rotating wheel 2-8, a belt seat pulley 2-5 is connected with a piston column 2-7, a spring I2-6 is sleeved on the piston column 2-7, two ends of a spring I2-6 are respectively connected with the belt seat pulley 2-5 and the belt shaft rotating wheel 2-8, the belt shaft rotating wheel 2-8 is connected with a conveying pipe 2-9, the conveying pipe 2-9 is connected with a stirring wheel 2-10, a suction one-way valve 2-11 is arranged in a pipeline 2-14, the belt shaft rotating wheel 2-8 is connected with a belt pulley II2-12, the belt shaft rotating wheel 2-8 is connected with a linkage gear 2-13, the belt shaft rotating wheel 2-8 and the conveying pipe 2-9 are both provided with pipelines 2-14, the device is characterized in that a pipeline 2-14 is internally provided with an ejection check valve 2-15, a piston 2-16 is connected with a piston column 2-7, the piston column 2-7 and the piston 2-16 are both connected with a piston cavity 2-17 in a sliding way, the piston cavity 2-17 is arranged in a belt shaft rotating wheel 2-8, the piston cavity 2-17 is communicated with the pipeline 2-14, the belt shaft rotating wheel 2-8 is connected with an inlet pipe 1-12 in a rotating way, a gear II1-16 is meshed with a linkage gear 2-13, a front supplement port 3-5 is externally connected with a pipeline capable of continuously supplementing neutralizing agent liquid, the motor 2-3 is operated to drive a motor belt pulley 2-2 to rotate, the motor belt pulley 2-2 drives a motor belt pulley 2-2 to rotate through a belt I2-1, the motor belt pulley 2-2 drives the belt shaft rotating wheel 2-8 to rotate, the rotating wheel 2-8 with the shaft can drive the pulley 2-5 with the seat to do circular motion, when the pulley 2-5 with the seat moves to be contacted with the arc seat 3-4, the pulley 2-5 with the seat can be extruded by the arc seat 3-4, the piston 2-16 can be driven by the pulley 2-5 with the seat through the piston column 2-7 to move, so that the pistons 2-16 at the two sides synchronously pressurize the pipeline 2-14 to form double pressure, thus the air in the pipeline 2-14 can be sprayed out from the spraying one-way valve 2-15, when the pulley 2-5 with the seat is separated from the arc seat 3-4, the spring I2-6 compressed in the pressurizing process can rebound to drive the pulley 2-5 with the seat to reset, thus the neutralizing agent liquid in the box body 3-1 with the leg seat can be flushed and sucked into the one-way valve 2-11 to enter the pipeline 2-14, when the pulley 2-5 with the seat moves to contact with the arc seat 3-4 again, the neutralizing liquid in the pipeline 2-14 is flushed and sprayed out of the one-way valve 2-15 to be sprayed into the liquid storage cavity 1-18, the rotating wheel 2-8 with the shaft can drive the stirring wheel 2-10 to rotate because the rotating wheel 2-8 with the shaft is in a rotating state, so that the neutralizing liquid in the box body 3-1 with the leg seat is sucked into the pipeline 2-14 and then is stirred by the rotation of the stirring wheel 2-10, the neutralizing liquid near the stirring wheel 2-10 can be uniformly stirred and then sucked, the neutralizing liquid sprayed out of the spraying one-way valve 2-15 after double pressurization is also in a rotating and spraying state, the neutralizing liquid sprayed out of the two pipelines 2-14 can be spiral, and the filtered gas enters the liquid storage cavity 1-18 from the connecting bent pipe 1-13, can be sucked into the middle of the spiral liquid flow by the spiral neutralizing liquid to fully reflect the contact, thereby achieving better contact neutralizing effect, when the belt shaft rotating wheel 2-8 rotates, the linkage gear 2-13 is driven to rotate, the linkage gear 2-13 drives the gear II1-16 to rotate, the gear II1-16 drives the belt shaft eccentric impeller 1-17 to rotate, the belt shaft eccentric impeller 1-17 rotates to continuously and eccentrically carry the neutralization liquid falling into the liquid storage cavity 1-18, therefore, the liquid storage tank is matched with the spiral flow to form continuous neutralization reaction with gas, a better neutralization effect is formed, the increased neutralized liquid in the liquid storage chambers 1-18 can burst the pressure relief one-way valves 1-19 to be converged into the communicating tanks 1-7, the connecting pipe I1-8 is externally connected with a waste liquid collecting pipeline to collect the waste liquid in a centralized manner, and the connecting bent pipe 1-13 can prevent the neutralized liquid from splashing into the filtering and protecting tank 1-2.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and this embodiment further describes the first embodiment, where the acid-base equilibrium box mechanism 3 includes a box body with a leg support base 3-1, a lower half ring 3-2, an upper half ring 3-3, an arc base 3-4, a supplement port 3-5, a rotating shaft 3-6, and a through hole 3-7, the box body with a leg support base 3-1 is provided with a lower half ring 3-2 and an upper half ring 3-3, the lower half ring 3-2 and the upper half ring 3-3 are in contact, the arc base 3-4 is provided on both the lower half ring 3-2 and the upper half ring 3-3, the supplement port 3-5 is provided on the upper end surface of the box body with a leg support base 3-1, the rotating shaft 3-6 is rotatably connected with the box body 3-1 with the supporting leg seat, the through hole 3-7 is arranged on the rotating shaft 3-6, the conveying pipe 2-9 penetrates through the through hole 3-7, the conveying pipe 2-9 is connected with the rotating shaft 3-6, the stirring wheel 2-10 is arranged in the box body 3-1 with the supporting leg seat, and the lower half ring 3-2 and the upper half ring 3-3 are both contacted with the pulley 2-5 with the seat.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the first embodiment, where the defogging fan mechanism 4 includes a base 4-1, a liquid discharge pipe 4-2, a liquid discharge check valve 4-3, a collection box 4-4, an atomizing motor 4-5, a coupling 4-6, an inlet 4-7, an atomizing box with legs 4-8, an atomizing outlet pipe 4-9, a driving air inlet pipe 4-10, a negative pressure box with legs 4-11, a purifying outlet pipe 4-12, a wind wheel motor 4-13, a door type support 4-14, a liquid discharge communicating pipe 4-15, a wind wheel with shaft 4-16, a driving air inlet 4-10, a driving air inlet pipe 4-10, a negative pressure box with legs 4-11, a purifying outlet pipe 4-12, a wind wheel motor with legs, a wind wheel motor with a door type support 4-14, a liquid discharge communicating pipe 4-15, and a wind wheel with shafts, 4-17 parts of demisting rotating seat with shaft, 4-18 parts of atomizer inlet hole, 4-19 parts of hollow trapezoid bulge, 4-20 parts of triangle bulge, I4-21 parts of triangle bulge, 4-22 parts of solid trapezoid bulge, I4-23 parts of coupling, 4-24 parts of throwing channel, 4-1 parts of base connected with 4-4 parts of collecting box, 4-2 parts of liquid discharge pipe connected and communicated with 4-4 parts of collecting box, 4-3 parts of liquid discharge check valve arranged in 4-2 parts of liquid discharge pipe, 4-4 parts of collecting box connected with 4-5 parts of atomizing motor, 4-5 parts of atomizing motor connected with 4-6 parts of coupling, 4-7 parts of inlet port connected and communicated with 4-8 parts of atomizing box with supporting leg, 4-8 parts of atomizing box with supporting leg connected and communicated with 4-9 parts of atomizing outlet pipe, 4-9 parts of atomizing outlet pipe connected and communicated with 4-10 parts of driving air inlet pipe, a driving air inlet pipe 4-10 is connected and communicated with a leg-provided negative pressure box 4-11, the leg-provided negative pressure box 4-11 is connected and communicated with a purifying discharge pipe 4-12, a wind wheel motor 4-13 is connected with a door type support 4-14, the door type support 4-14 is connected with the leg-provided negative pressure box 4-11, a leg-provided atomization box 4-8 and the leg-provided negative pressure box 4-11 are both connected with a base 4-1, a liquid discharge communicating pipe 4-15 is used for communicating a collecting box 4-4 with the leg-provided atomization box 4-8, a shaft-provided wind wheel 4-16 is rotatably connected with the leg-provided negative pressure box 4-11, the shaft-provided wind wheel 4-16 is connected with the wind wheel motor 4-13 through a coupler 4-23, and a shaft-provided defogging rotary seat 4-17 is rotatably connected with the leg-provided atomization box 4-8, the belt shaft demisting rotating seat 4-17 is connected with the shaft coupling 4-6, the belt shaft demisting rotating seat 4-17 is provided with an atomizer inlet hole 4-18, the fog rotating seat 4-17 is provided with hollow trapezoidal bulges 4-19, triangular bulges 4-20 are connected between the adjacent hollow trapezoidal bulges 4-19, the hollow trapezoidal bulges 4-19 are connected with triangular bulges I4-21, the solid trapezoidal bulges 4-22 are connected with the belt shaft demisting rotating seat 4-17, the solid trapezoidal bulges 4-22 are arranged between the adjacent hollow trapezoidal bulges 4-19, the throwing-out channels 4-24 are arranged in the belt shaft demisting rotating seat 4-17, the leg support 1-1, the communicating box 1-7, the motor 2-3, the bearing seat 2-4 and the box body with the leg support 3-1 are all connected with the base 4-1, the liquid discharge pipe 4-2 is connected and communicated with the connecting pipe 1-6, the inlet 4-7 is connected and communicated with the 90-degree bent pipe 1-14, the neutralized gas enters the atomizing box 4-8 with the supporting legs through the 90-degree bent pipe 1-14 and the inlet 4-7, the atomizing motor 4-5 operates to drive the coupling 4-6 to rotate, the coupling 4-6 drives the rotating seat 4-17 with the shaft to rotate, and the gas can fully contact with the hollow trapezoidal bulge 4-19, the triangular bulge 4-20, the triangular bulge I4-21 and the solid trapezoidal bulge 4-22 when passing through the rotating seat 4-17 with the shaft for defogging, thereby fully condensing water drops, and the gas can be constantly contacted with the rotating seat 4-17 with the shaft for defogging due to the rotating function of the rotating seat 4-17 with the shaft for defogging, The hollow trapezoidal bulges 4-19, the triangular bulges 4-20, the triangular bulges I4-21 and the solid trapezoidal bulges 4-22 are in contact exchange, and the air enters the negative pressure box with the supporting legs 4-11 from the atomizing air outlet pipe 4-9 after being contacted with the inner wall of the atomizing box with the supporting legs 4-8 for continuous contact in the demisting rotating seat 4-17 with the backflow belt shaft, thus playing the role of fully demisting, meanwhile, the liquefied liquid is thrown to the inner wall of the atomizing box 4-8 with the supporting legs under the centrifugal action, then flows into the collecting box 4-4 from the drainage communicating pipe 4-15, after the accumulation of excessive liquid, the drainage one-way valve 4-3 is flushed to be discharged into the communicating box 1-7 and then flows away from the connecting pipe I1-8, and the clean gas is finally discharged from the purifying discharge pipe 4-12.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and further described in the present embodiment, in which the angle between the bending position of the connecting bent pipe 1-13 and the horizontal plane ranges from 14 degrees to 60 degrees.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the first embodiment, in which the angle between the flow baffle plates 1 to 20 and the horizontal direction is 75 degrees.

The specific implementation mode is eight:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the first embodiment, in which the radius ratio between the interlocking gears 2 to 13 and the gears II1 to 16 is 5: 1.

The specific implementation method nine:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the first embodiment, in which the material of the hollow trapezoidal protrusions 4 to 19, the triangular protrusions 4 to 20, the triangular protrusions I4 to 21, and the solid trapezoidal protrusions 4 to 22 is polypropylene PP.

The working principle of the device is as follows: the device can filter gas and remove high-speed large particles in the gas to prevent the collision of a screen, the operation of a wind wheel motor 4-13 drives a coupler I4-23 to rotate, the coupler I4-23 drives a wind wheel with a shaft 4-16 to rotate, the wind wheel with the shaft 4-16 can form wind power, negative pressure is formed at an air inlet 1-15, the gas to be processed is sucked into a filtering protection box 1-2 from the air inlet 1-15, the large particles in the gas can collide with a flow baffle plate 1-20 to stall and fall down, if large particles which do not fall down partially pass through the flow baffle plate 1-20 along with the wind, the speed is reduced, the wind is filtered by the filter plate 1-31, the large particles fall down along the filter plate 1-31, and when the large particles are accumulated in a cavity formed by the flow baffle plate 1-20 and the filtering protection box 1-2, lateral pressure can be formed to drive the flow baffle plates 1-20 to move to compress the springs 1-22, large particles fall after gaps are formed, the springs 1-22 drive the flow baffle plates 1-20 to reset, so that all large particles cannot impact the filter plates 1-31, the large particles fall onto the gates 1-26 with threaded holes to be collected, when pouring is needed, the servo motor 1-3 can be operated to drive the gears 1-4 to rotate, the gears 1-4 can drive the gears I1-5 to rotate, the gears I1-5 can drive the bidirectional screw rods 1-25 to rotate, the bidirectional screw rods 1-25 can drive the driven bidirectional screw rods 1-33 to synchronously rotate through the transmission of the belt pulleys I1-29, the belts 1-30 and the belt pulleys 1-28, and the driven bidirectional screw rods 1-33 can drive the two gates 1-26 with threaded holes to be far away from each other, therefore, large particles fall, a trolley can be arranged below the large particles for collection, and after the unloading is finished, the servo motors 1-3 can be operated reversely to drive the two gates 1-26 with the threaded holes to reset, so that the closing is finished; the device can neutralize gas, the uniformity of the neutralizer can be ensured when the device is added with the neutralizer, a supplementing port 3-5 is externally connected with a pipeline which can continuously supplement neutralizer liquid before the device is used, a motor 2-3 operates to drive a motor belt pulley 2-2 to rotate, the motor belt pulley 2-2 can drive a motor belt pulley 2-2 to rotate through a belt I2-1, the motor belt pulley 2-2 can drive a belt shaft rotating wheel 2-8 to rotate, the belt shaft rotating wheel 2-8 can drive a belt seat pulley 2-5 to do circular motion, when the belt seat pulley 2-5 moves to be contacted with an arc seat 3-4, the belt seat pulley 2-4 can be extruded, the belt seat pulley 2-5 can drive a piston 2-16 to move through a piston column 2-7, so that pistons 2-16 at two sides synchronously pressurize the pipeline 2-14, double pressure is formed, so that air in the pipeline 2-14 can be sprayed out of the spraying one-way valve 2-15, when the pulley 2-5 with the seat is separated from the arc-shaped seat 3-4, the compressed spring I2-6 in the pressurizing process can rebound to drive the pulley 2-5 with the seat to reset, so that neutralizing agent liquid in the box body 3-1 with the leg seat can be flushed and sucked into the one-way valve 2-11 to enter the pipeline 2-14, when the pulley 2-5 with the seat moves to be contacted with the arc-shaped seat 3-4 again, neutralizing liquid in the pipeline 2-14 can be flushed and sprayed out of the one-way valve 2-15 to be sprayed into the liquid storage cavity 1-18, and the neutralizing liquid in the box body 3-1 with the leg seat is sucked into the pipeline 2-14 by the stirring wheel 2-10 to rotate due to the fact that the rotating wheel 2-8 with the shaft is in a rotating state, so that the neutralizing liquid in the box body 3-1 with the leg seat is sucked into the pipeline 2-14 and then is stirred by the stirring wheel 2-15 10 rotates to stir, so that the neutralizing liquid near the stirring wheel 2-10 is uniformly stirred and sucked, the neutralizing liquid sprayed out of the spraying one-way valve 2-15 after double pressurization is in a rotary spraying state, the neutralizing liquid sprayed out of the two pipelines 2-14 is in a spiral shape, the filtered gas is sucked into the middle of spiral liquid flow from the connecting bent pipe 1-13 when entering the liquid storage cavity 1-18, the spiral neutralizing liquid is fully contacted, so that a better contact neutralizing effect is achieved, the linkage gear 2-13 is driven to rotate when the belt shaft rotating wheel 2-8 rotates, the linkage gear 2-13 drives the gear II1-16 to rotate, the gear II1-16 drives the belt shaft eccentric impeller 1-17 to rotate, the belt shaft eccentric impeller 1-17 rotates to continuously and eccentrically take the neutralizing liquid falling into the liquid storage cavity 1-18, therefore, the liquid storage tank is matched with the spiral flow to form continuous neutralization reaction with gas, a better neutralization effect is formed, the increased neutralized liquid in the liquid storage chambers 1-18 can burst the pressure relief one-way valves 1-19 to be converged into the communication tanks 1-7, the connecting pipe I1-8 is externally connected with a waste liquid collecting pipeline to collect the waste liquid in a centralized manner, and the connecting bent pipe 1-13 can prevent the neutralized liquid from splashing into the filtering protection tank 1-2; the device can demist, neutralized gas can enter the atomizing box with supporting legs 4-8 through the 90-degree bent pipe 1-14 and the inlet 4-7, the atomizing motor 4-5 operates to drive the coupler 4-6 to rotate, the coupler 4-6 can drive the demisting rotating seat with the shaft 4-17 to rotate, when the gas passes through the demisting rotating seat with the shaft 4-17, the gas can fully contact with the hollow trapezoidal bulge 4-19, the triangular bulge 4-20, the triangular bulge I4-21 and the solid trapezoidal bulge 4-22 to play a role of fully condensing water drops, and due to the rotation of the demisting rotating seat with the shaft 4-17, the gas can constantly contact and exchange with the demisting rotating seat with the shaft 4-17, the hollow trapezoidal bulge 4-19, the triangular bulge 4-20, the triangular bulge I4-21 and the solid trapezoidal bulge 4-22, and the liquid contacts the inner wall of the atomization box with the supporting legs 4-8 to continuously contact the inner wall of the defogging rotary seat with the backflow belt shaft 4-17 and then enters the negative pressure box with the supporting legs 4-11 from the atomizing air outlet pipe 4-9, so that the full defogging effect can be achieved, meanwhile, the liquefied liquid is thrown onto the inner wall of the atomization box with the supporting legs 4-8 under the centrifugal effect and then flows into the collection box 4-4 from the drainage communicating pipe 4-15, after a large amount of liquid is accumulated, the drainage one-way valve 4-3 is flushed and discharged into the communicating box 1-7 and then flows away from the connecting pipe I1-8, and clean gas is finally discharged from the purification discharge pipe 4-12.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an acid gas processing apparatus, washes mechanism (1), rotates reinforced mechanism (2), acid-base balancing agent case mechanism (3), defogging fan mechanism (4) including the balance, its characterized in that: the balanced mechanism (1) of washing link to each other with rotating reinforced mechanism (2), rotate reinforced mechanism (2) and link to each other with acid-base balancing agent case mechanism (3), acid-base balancing agent case mechanism (3) link to each other with defogging fan mechanism (4), balanced mechanism (1) of washing links to each other with defogging fan mechanism (4), rotate reinforced mechanism (2) and link to each other with defogging fan mechanism (4).

2. An acid gas treatment plant according to claim 1, wherein: the balance washing mechanism (1) comprises a leg support seat (1-1), a filtering protection box (1-2), a servo motor (1-3), a gear (1-4), a gear I (1-5), a connecting pipe (1-6), a communicating box (1-7), a connecting pipe I (1-8), a connecting pipe II (1-9), a connecting pipe III (1-10), an alkali washing box (1-11), an inlet pipe (1-12), a connecting bent pipe (1-13), a 90-degree bent pipe (1-14), an air inlet (1-15), a gear II (1-16), an eccentric impeller (1-17) with a shaft, a liquid storage cavity (1-18), a pressure relief one-way valve (1-19), a flow baffle plate (1-20), a connecting rod (1-21), The device comprises springs (1-22), cross braces (1-23), connecting plates (1-24), two-way lead screws (1-25), threaded hole gates (1-26), gate slots (1-27), belt pulleys (1-28), belt pulleys I (1-29), belts (1-30), filter plates (1-31), filter plate slots (1-32) and driven two-way lead screws (1-33), a supporting leg seat (1-1) is connected with a filtering protection box (1-2), the filtering protection box (1-2) is connected with a servo motor (1-3), the servo motor (1-3) is connected with gears (1-4), the gears (1-4) are meshed with the gears I (1-5), connecting pipes (1-6) are connected and communicated with a communication box (1-7), the communicating box (1-7) is connected and communicated with the connecting pipe I (1-8), the communicating box (1-7) is connected and communicated with the connecting pipe II (1-9), the connecting pipe II (1-9) is connected and communicated with the connecting pipe III (1-10), the connecting pipe III (1-10) is connected with the alkali washing box (1-11), the connecting pipe III (1-10) is communicated with the liquid storage cavity (1-18), the liquid storage cavity (1-18) is arranged in the alkali washing box (1-11), the liquid storage cavity (1-18) is communicated with the inlet pipe (1-12), the inlet pipe (1-12) is connected with the alkali washing box (1-11), the alkali washing box (1-11) is connected with the connecting bent pipe (1-13), the liquid storage cavity (1-18) is communicated with the connecting bent pipe (1-13), an alkali washing box (1-11) is connected with a 90-degree bent pipe (1-14), a liquid storage cavity (1-18) is communicated with the 90-degree bent pipe (1-14), an air inlet (1-15) is connected and communicated with a filtering protection box (1-2), a gear II (1-16) is connected with an eccentric impeller (1-17) with a shaft, the eccentric impeller (1-17) with the shaft is rotatably connected with the alkali washing box (1-11), a pressure relief one-way valve (1-19) is arranged in a connecting pipe III (1-10), a flow baffle plate (1-20) is connected with a connecting rod (1-21), the connecting rod (1-21) is slidably connected with a cross brace (1-23), the cross brace (1-23) is connected with the filtering protection box (1-2), a spring (1-22) is sleeved on the connecting rod (1-21), two ends of a spring (1-22) are respectively connected to a flow baffle plate (1-20) and a cross brace (1-23), a connecting plate (1-24) is contacted with the cross brace (1-23), the connecting plate (1-24) is connected with a connecting rod (1-21), a gear I (1-5) is connected with a bidirectional screw rod (1-25), the bidirectional screw rod (1-25) is rotatably connected with a filtering protection box (1-2), the bidirectional screw rod (1-25) is in threaded connection with a gate (1-26) with a threaded hole, the gate (1-26) with the threaded hole is in sliding connection with a gate groove (1-27), the gate groove (1-27) is arranged in the filtering protection box (1-2), the bidirectional screw rod (1-25) is connected with a belt pulley I (1-29), the belt pulley I (1-29) is in friction connection with a belt (1-30), the belt (1-30) is in friction connection with the belt pulley (1-28), the belt pulley (1-28) is connected with a passive bidirectional screw rod (1-33), the passive bidirectional screw rod (1-33) is in rotary connection with the filtering protection box (1-2), the passive bidirectional screw rod (1-33) is in threaded connection with a gate (1-26) with a threaded hole, a filtering plate (1-31) is in sliding connection with a filtering plate groove (1-32), and the filtering plate groove (1-32) is arranged on the filtering protection box (1-2).

3. An acid gas treatment plant according to claim 1, wherein: the rotary feeding mechanism (2) comprises a belt I (2-1), a motor belt pulley (2-2), a motor (2-3), a bearing seat (2-4), a pulley with a seat (2-5), a spring I (2-6), a piston column (2-7), a rotating wheel with a shaft (2-8), a conveying pipe (2-9), a stirring wheel (2-10), a suction one-way valve (2-11), a belt pulley II (2-12), a linkage gear (2-13), a pipeline (2-14), a spraying one-way valve (2-15), a piston (2-16) and a piston cavity (2-17), wherein the belt I (2-1) is in friction connection with the motor belt pulley (2-2), the motor belt pulley (2-2) is connected with the motor (2-3), the bearing seat (2-4) is rotationally connected with a rotating wheel (2-8) with a shaft, a pulley (2-5) with a seat is connected with a piston column (2-7), a spring I (2-6) is sleeved on the piston column (2-7), two ends of the spring I (2-6) are respectively connected with the pulley (2-5) with a seat and the rotating wheel (2-8) with a shaft, the rotating wheel (2-8) with a shaft is connected with a conveying pipe (2-9), the conveying pipe (2-9) is connected with a stirring wheel (2-10), a suction one-way valve (2-11) is arranged in a pipeline (2-14), the rotating wheel (2-8) with a shaft is connected with a belt pulley II (2-12), the rotating wheel (2-8) with a shaft is connected with a linkage gear (2-13), pipelines (2-14) are respectively arranged in the rotating wheel (2-8) with a shaft and the conveying pipe (2-9), an ejection check valve (2-15) is arranged in the pipeline (2-14), the piston (2-16) is connected with the piston column (2-7), the piston column (2-7) and the piston (2-16) are in sliding connection with the piston cavity (2-17), the piston cavity (2-17) is arranged in the belt shaft rotating wheel (2-8), the piston cavity (2-17) is communicated with the pipeline (2-14), the belt shaft rotating wheel (2-8) is in rotating connection with the inlet pipe (1-12), and the gear II (1-16) is meshed with the linkage gear (2-13).

4. An acid gas treatment plant according to claim 1, wherein: the acid-base balancing agent box mechanism (3) comprises a box body (3-1) with a leg support seat, a lower semi-ring (3-2), an upper semi-ring (3-3), an arc-shaped seat (3-4), a supplement port (3-5), a rotating shaft (3-6) and a through hole (3-7), wherein the box body (3-1) with the leg support seat is provided with the lower semi-ring (3-2) and the upper semi-ring (3-3), the lower semi-ring (3-2) is contacted with the upper semi-ring (3-3), the lower semi-ring (3-2) and the upper semi-ring (3-3) are both provided with the arc-shaped seat (3-4), the supplement port (3-5) is arranged on the upper end surface of the box body (3-1) with the leg support seat, the rotating shaft (3-6) is rotatably connected with the box body (3-1) with the leg support seat, and the through hole (, the conveying pipe (2-9) penetrates through the through hole (3-7), the conveying pipe (2-9) is connected with the rotating shaft (3-6), the stirring wheel (2-10) is arranged in the box body (3-1) with the leg seat, and the lower half ring (3-2) and the upper half ring (3-3) are both contacted with the pulley (2-5) with the seat.

5. An acid gas treatment plant according to claim 1, wherein: the demisting fan mechanism (4) comprises a base (4-1), a liquid discharge pipe (4-2), a liquid discharge one-way valve (4-3), a collection box (4-4), an atomizing motor (4-5), a coupler (4-6), an inlet (4-7), an atomizing box (4-8) with supporting legs, an atomizing air outlet pipe (4-9), a driving air inlet pipe (4-10), a negative pressure box (4-11) with supporting legs, a purifying discharge pipe (4-12), a wind wheel motor (4-13), a door-shaped support (4-14), a liquid discharge communicating pipe (4-15), a wind wheel (4-16) with shafts, a demisting rotating seat (4-17) with shafts, an atomizer inlet hole (4-18), a hollow trapezoidal bulge (4-19), a triangular bulge (4-20), A triangular bulge I (4-21), a solid trapezoidal bulge (4-22), a coupler I (4-23) and a throwing-out channel (4-24), wherein the base (4-1) is connected with the collecting box (4-4), the liquid discharge pipe (4-2) is connected and communicated with the collecting box (4-4), the liquid discharge one-way valve (4-3) is arranged in the liquid discharge pipe (4-2), the collecting box (4-4) is connected with the atomizing motor (4-5), the atomizing motor (4-5) is connected with the coupler (4-6), the inlet port (4-7) is connected and communicated with the atomizing box (4-8) with supporting legs, the atomizing box (4-8) with supporting legs is connected and communicated with the atomizing air outlet pipe (4-9), the atomizing air outlet pipe (4-9) is connected and communicated with the driving air inlet pipe (4-10), the driving air inlet pipe (4-10) is connected and communicated with the negative pressure box (4-11) with the supporting legs, the negative pressure box (4-11) with the supporting legs is connected and communicated with the purifying discharge pipe (4-12), the wind wheel motor (4-13) is connected with the door-shaped support (4-14), the door-shaped support (4-14) is connected with the negative pressure box (4-11) with the supporting legs, the atomizing box (4-8) with the supporting legs and the negative pressure box (4-11) with the supporting legs are both connected with the base (4-1), the liquid discharge communicating pipe (4-15) is used for communicating the collecting box (4-4) with the atomizing box (4-8) with the supporting legs, the wind wheel (4-16) with the shaft is rotatably connected with the negative pressure box (4-11) with the supporting legs, the wind wheel (4-16) with the wind wheel motor (4-13) with the shaft coupling I (4-23), the defogging rotating seat (4-17) with the shaft is rotatably connected with the atomizing box (4-8) with the supporting legs, the defogging rotating seat (4-17) with the shaft is connected with the coupler (4-6), the defogging rotating seat (4-17) with the shaft is provided with an atomizer inlet hole (4-18), the fog rotating seat (4-17) is provided with hollow trapezoidal bulges (4-19), triangular bulges (4-20) are connected between the adjacent hollow trapezoidal bulges (4-19), the triangular bulges I (4-21) are connected in the hollow trapezoidal bulges (4-19), the solid trapezoidal bulges (4-22) are connected with the defogging rotating seat (4-17) with the shaft, the solid trapezoidal bulges (4-22) are arranged between the adjacent hollow trapezoidal bulges (4-19), and the throwing-out channel (4-24) is arranged in the defogging rotating seat (4-17) with the shaft, the supporting leg seat (1-1), the communicating box (1-7), the motor (2-3), the bearing seat (2-4) and the box body (3-1) with the supporting leg seat are all connected with the base (4-1), the liquid discharge pipe (4-2) is connected and communicated with the connecting pipe (1-6), and the inlet port (4-7) is connected and communicated with the 90-degree bent pipe (1-14).

6. An acid gas treatment plant according to claim 2, wherein: the included angle between the bending part of the connecting bent pipe (1-13) and the horizontal plane ranges from 14 degrees to 60 degrees.

7. An acid gas treatment plant according to claim 2, wherein: the included angle between the flow baffle plates (1-20) and the horizontal direction is 75 degrees.

8. An acid gas treatment plant according to claim 2 or 3, wherein: the radius ratio of the linkage gear (2-13) to the gear II (1-16) is 5: 1.

9. An acid gas treatment plant according to claim 5, wherein: the hollow trapezoidal bulges (4-19), the triangular bulges (4-20), the triangular bulges I (4-21) and the solid trapezoidal bulges (4-22) are made of polypropylene PP.